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Mitsubishi A800-GN FR-A820-00046-0.4K Inverter Instruction Manual PDF
Summary of Content for Mitsubishi A800-GN FR-A820-00046-0.4K Inverter Instruction Manual PDF
800-GN CC-Link IE TSN communication function built-in type INSTRUCTION MANUAL (STARTUP) (ENGLISH)
CC-Link IE TSN ()()
CC-Link IE TSN
HEAD OFFICE: TOKYO BUILDING 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN
IN VER
TER A
800-G N
FR -A
800-G N
IN STR
U C
TIO N
M A
N U
A L (STA
R TU
P)
C
Class B/A
A800-GN FR-A820-00046(0.4K)-04750(90K)-GN FR-A840-00023(0.4K)-06830(280K)-GN
CD-ROM CD-ROM FR-A800 CD-ROM
Thank you for choosing this Mitsubishi Electric Inverter. This Instruction Manual (Startup) and the enclosed CD-ROM give handling information and precautions for use of this product. This Instruction Manual (Startup) provides essential information and precautions for use of this product. For more detailed information, refer to the FR-A800 Instruction Manual (Detailed) in the CD-ROM enclosed with the product. Do not use this product until you have a full knowledge of the equipment, safety information and instructions. Please forward this Instruction Manual (Startup) and the enclosed CD-ROM to the end user.
()CD-ROM ()CD-ROMFR-A800 () , ()CD-ROM
INVERTER
Specifications subject to change without notice.
IB()-0600835-C(2209)MEE Printed in Japan
1 ............................................................................................ 3 2 ........................................................................................................................... 4 3 ................................................................................................................................... 9 4 ............................................ 11 5 ...................................................................................................... 11 6 ..................................................................................................................... 13
()CD-ROMPDF PDF
( : )
OFF
10
200VD400V C400V EN
M
OFF 1s OFF
PM
P/+N/-
LD NDHD 0 50 SLD 0 40
1
FR-A840-160K(04320) 2.9m/s2
DoS
95RH 3
20 65
2500m5.9m/s2 10 55HzXYZ 3
UVW
PMPM UVW PM
PMPM (UVW)PM PM (UVW)
STOP/RESET
PM
3 PM
LXX13 STFSTR 0
PTC
400V
1 PM
PM PM
()PMPM
PM ON
DoS ( ) VPN DoS
PMPM
IM PM
PM PM PM
2
3
1
IEC60721-3-3:1994 3C2/3S2 FR-A820-5.5K(00340) FR-A840-5.5K(00170)
NOTE FR-A820-0.4K(00046)
1000m500m 3
FR-A840-160K(04320) 2.9m/s2
EMC Pr.19
FM FM FM: AM: DC010V OFF 60Hz 9999
CACA CA: DC0 20mA AM: DC010V ON 50Hz 8888 95%
FR-A820-3.7K(00250) FR-A840-3.7K(00126) 1cm FR-A820-22K(01250) FR-A840-22K(00620) 40 SLD
30 0cm FR-A840-160K(04320) 30cm
LDNDHD 10 50 SLD 10 40
IEC60721-3-3:1994 3C2/3S2 : 95RH : 90RH
20 65
2500m
5.9m/s2 10 55HzXYZ
FR- - - -A8 02 1 GN0.4K
400V
200V
4 2
CA
FM
2 1
CC-Link IE TSN GN
06 60
0.4K280K 0002306830
(ND)(kW) SLD(A)
FR-A840-160K(04320) 6
FR-A820-55K(03160) FR-A840-55K(01800)
FR-A820-75K(03800) FR-A840-75K(02160)
20cm
20cm
10cm
10cm
10cm
5cm 1,2
5cm 1,2
10cm
5cm 1,3
5cm 5cm
5cm
2
2.1 FM
FR-A820-75K(03800) FR-A840-75K(02160) 75kWDCFR-HEL DC DCP1 P/+DCFR- A820-75K(03800) FR-A840-75K(02160)
R1/L11S1/L21 Pr.178 Pr.18913 JOGJOG/ Pr.291 Pr.73 Pr.267 /OFFON
102 PTCPr.561 2W1k PRPXFR-A820-0.4K(00046) 7.5K(00490)FR-A840-0.4K(00023) 7.5K(00250) P/+(P3)PRPRFR-A820-0.4K(00046)22K(01250)FR-A840-0.4K(00023)55K(01800)
P3 Pr.195 Pr.19613 Pr.190 Pr.19413 F/C(FM) Pr.291
NOTE 10cm
/
3
NFB
R/L1 S/L2 T/L3
R1/L11 S1/L21
PC DC24V
JOG
2
4
10E(10V)
10(5V)
2
)
2 3
1
4
1
4
1/2W1k
F/C (FM)
SD
1
C1
A1
U V W
P1
()
()
() (DC010V)
AM
5DC05V DC010V
CC-Link IE TSN
1mA
B1
DC05V DC010V
MC
C2 B2 A2
2
M
DC020mA
DC05V DC010V DC420mA
TXD+
TXD-
RXD+ RXD- GND (SG)
GND
RS-485
PU USB A USB B
S IN K
S O U R C E
STF
STR
STP(STOP)
RH
RM
RL
JOG
RT
MRS
RES
AU
CS
SD
RUN SU IPF OL FU
SE
(+) (-)
5
EMC
ON
OFF
VCC
(+) (-)
5V 100mA
R
R
2 3
PORT1
PORT2
PX PR N/-P/+
ON OFF
42
/
DC FR-HEL
FR-ABR
So (SO)
SOC
(1)
(2)
S1
S2
PC
SD SIC
+2424V
SD
P1
R
P3 PR N/-P/+
DC FR-HEL
FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
24V
24V
4
CA
FR-A820-75K(03800) FR-A840-75K(02160) 75kWDCFR-HEL DC DCP1 P/+ DCFR- A820-75K(03800) FR-A840-75K(02160)
R1/L11S1/L21 Pr.178 Pr.18913 JOGJOG/ Pr.291 Pr.73 Pr.267 /OFFON
102 PTCPr.561 2W1k PR PXFR-A820-0.4K(00046) 7.5K(00490)FR-A840-0.4K(00023)
7.5K(00250) P/+(P3)PRPRFR-A820-0.4K(00046)22K(01250)FR-A840-0.4K(00023)55K(01800)
P3 Pr.195 Pr.19613 Pr.190 Pr.19413
NOTE 10cm
/
3
NFB
R/L1 S/L2 T/L3
R1/L11 S1/L21
PC
JOG
2
4
10E(10V)
10(5V)
2
)
2 3
1
4
1
4
1/2W1k
1
C1
A1
U V W
P1
DC05V DC010V
B1
DC05V DC010V
MC
C2 B2 A2
2
M
DC020mA
DC05V DC010V DC420mA
TXD+
TXD-
RXD+ RXD- GND (SG)
GND
RS-485
PU USB A USB B
S IN K
STF
STR
STP(STOP)
RH
RM
RL
JOG
RT
MRS
RES
AU
CS
SD
RUN SU IPF OL FU
SE
(+) (-)
5
EMC
ON
OFF
VCC
(+) (-)
5V 100mA
R
R
2 3
PX PR N/-P/+
ON OFF
42
/
DC FR-HEL
FR-ABR
So (SO)
SOC
(1)
(2)
S1
S2
PC
SD SIC
+2424V
SD
P1
R
P3 PR N/-P/+
DC FR-HEL
FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
S O U R C E
DC24V
()
() (DC010V)
()
() (DC020mA)
AM
5
F/C (CA)
CC-Link IE TSNPORT1
PORT2
24V
24V
5
2.2
2 20m
200V 220V 150% 1
400V 440V 150% 1
FR-A820-55K(03160) FR-A840-55K(01800) 75HIV 600V 50 20m FR-A820-75K(03800) FR-A840-75K(02160) 90LMFC 50
200V FR-A840-45K(01160) 75THHW 40 20m FR-A840-55K(01800) 90 THHN40 20
FR-A820-15K(00770) FR-A840-45K(01160) 70PVC 40 20m FR-A820-18.5K(00930) FR-A840-55K(01800) 90XLPE 40
R/L1S/L2T/L3UVWPRPXP/+N/-P1P3 FR-A820-5.5K(00340)FR-A820-7.5K(00490) PRPX FR-A820-18.5K(00930) FR-A840-110K(03250)FR-A840-132K(03610) P/+ FR-A840-160K(04320)
[V] [m/m] [m] [A] 1000
(Nm)
HIV mm2 AWG/MCM PVCmm2 R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW P/+ P1
R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW
FR-A820-0.4K(00046) 2.2K(00167) M4 1.5 2-4 2-4 2 2 2 2 14 14 2.5 2.5 2.5
FR-A820-3.7K(00250) M4 1.5 5.5-4 5.5-4 3.5 3.5 3.5 3.5 12 12 4 4 4 FR-A820-5.5K(00340) M5(M4) 2.5 5.5-5 5.5-5 5.5 5.5 5.5 5.5 10 10 6 6 6 FR-A820-7.5K(00490) M5(M4) 2.5 14-5 8-5 14 8 14 5.5 6 8 16 10 16 FR-A820-11K(00630) M5 2.5 14-5 14-5 14 14 14 8 6 6 16 16 16 FR-A820-15K(00770) M6 4.4 22-6 22-6 22 22 22 14 4 4 25 25 16 FR-A820-18.5K(00930) M8(M6) 7.8 38-8 22-8 38 22 38 14 2 4 35 25 25 FR-A820-22K(01250) M8(M6) 7.8 38-8 38-8 38 38 38 22 2 2 35 35 25 FR-A820-30K(01540) M8(M6) 7.8 60-8 60-8 60 60 60 22 1/0 1/0 50 50 25 FR-A820-37K(01870) M10(M8) 26.5 80-10 60-10 80 60 80 22 3/0 1/0 70 70 35 FR-A820-45K(02330) M10(M8) 26.5 100-10 100-10 100 100 100 38 4/0 4/0 95 95 50 FR-A820-55K(03160) M12(M8) 46 100-12 100-12 100 100 100 38 4/0 4/0 95 95 50 FR-A820-75K(03800) M12(M8) 46 150-12 150-12 125 125 125 38 250 250 120 120 FR-A820-90K(04750) M12(M8) 46 150-12 150-12 150 150 150 38 300 300 150 150
(Nm)
HIV mm2 AWG/MCM PVCmm2 R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW P/+ P1
R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW
FR-A840-0.4K(00023) 3.7K(00126) M4 1.5 2-4 2-4 2 2 2 2 14 14 2.5 2.5 2.5
FR-A840-5.5K(00170) M4 1.5 2-4 2-4 2 2 3.5 3.5 12 14 2.5 2.5 4 FR-A840-7.5K(00250) M4 1.5 5.5-4 5.5-4 3.5 3.5 3.5 3.5 12 12 4 4 4 FR-A840-11K(00310) M5 2.5 5.5-5 5.5-5 5.5 5.5 5.5 5.5 10 10 6 6 10 FR-A840-15K(00380) M5 2.5 8-5 5.5-5 8 5.5 8 5.5 8 10 10 6 10 FR-A840-18.5K(00470) M6 4.4 14-6 8-6 14 8 14 8 6 8 16 10 16 FR-A840-22K(00620) M6 4.4 14-6 14-6 14 14 22 14 6 6 16 16 16 FR-A840-30K(00770) M6 4.4 22-6 22-6 22 22 22 14 4 4 25 25 16 FR-A840-37K(00930) M8 7.8 22-8 22-8 22 22 22 14 4 4 25 25 16 FR-A840-45K(01160) M8 7.8 38-8 38-8 38 38 38 22 1 2 50 50 25 FR-A840-55K(01800) M8 7.8 60-8 60-8 60 60 60 22 1/0 1/0 50 50 25 FR-A840-75K(02160) M10 26.5 60-10 60-10 60 60 60 22 1/0 1/0 50 50 25 FR-A840-90K(02600) M10 26.5 60-10 60-10 60 60 80 22 3/0 3/0 50 50 25 FR-A840-110K(03250) M10(M12) 26.5 80-10 80-10 80 80 80 22 3/0 3/0 70 70 35 FR-A840-132K(03610) M10(M12) 26.5 100-10 100-10 100 100 100 38 4/0 4/0 95 95 50 FR-A840-160K(04320) M12(M10) 46 150-12 150-12 125 125 150 38 250 250 120 120 70 FR-A840-185K(04810) M12(M10) 46 150-12 150-12 150 150 150 38 300 300 150 150 95 FR-A840-220K(05470) M12(M10) 46 100-12 100-12 2100 2100 2100 60 24/0 24/0 295 295 95 FR-A840-250K(06100) M12(M10) 46 100-12 100-12 2100 2100 2125 60 24/0 24/0 295 295 95 FR-A840-280K(06830) M12(M10) 46 150-12 150-12 2125 2125 2125 60 2250 2250 2120 2120 120
6
NOTE ND SLD LD HD
2.3
0.3 0.75 2 30m FM200m 2
200V PC
(A1 B1 C1A2 B2 C2) SD 0V
2020 10
MTW A1B1C1A2B2C2
2.4 CC-Link IE TSN
CC-Link IE TSN
2020 9 FR-A800-GN 2022 10 FR-A800-GN Class B 2.0 1.0 GX Works3
mm2
UL
0.3 AI 0,34-10TQ
CRIMPFOX 6 052-589-3810
0.5 AI 0,5-10WH AI 0,5-10WH-GB
0.75 AI 0,75-10GY A 0,75-10 AI 0,75-10GY-GB
1 AI 1-10RD A 1-10 AI 1-10RD/1000GB
1.251.5 AI 1,5-10BK A 1,5-10 AI 1,5-10BK/1000GB
0.752 AI-TWIN 20,75-10GY
mm2
0.3 0.75 BT 0.75-11 VC 0.75 NH 69 052-857-2722
1Gbps 100Mbps
CC-Link IE TSN Class B 2.0 1.0 A 2.0
CC-Link IE TSN Class B125s 10000s1Gbps/500s 10000s100Mbps CC-Link IE TSN Class A1000s 6400000s
CC-Link IE TSN Class B CC-Link IE TSN Class A
CC-Link IE TSN Class BIEEE802.1AS IEEE1588v2 CC-Link IE TSN Class A
121 100m Ethernet
CC-Link IE TSN Class B CC-Link IE TSN Class A
Ethernet IEEE802.3 1000BASE-T ANSI/TIA/EIA-568-BCategory 5e 4
RJ-45
1
RX 64 RY 64 RWr 128 RWw 128
7
CC-Link IE TSN
NOTE CC-Link IE TSN
1000BASE-T Ethernet
2020 10
SC-E5EWSC-E5EW-L
NOTE CC-Link IE TSNCC-Link
1Gbps CC-Link IE TSNBCC-Link IE TSNHUB(TSN HUB)
Ethernet
5e STP RJ-45
IEEE802.3 (1000BASE-T) ANSI/TIA/EIA-568-B(Category 5e)
SC-E5EW : 03-3454-5511 : 052-722-7602 : 06-6454-0281
TSNHUB CC-Link CC-Link IE TSNBCC-Link IE TSNHUB
RUN ACT
LINK1 ERR
LINK2 L.ERR
X16 X1
0 1 2 3 4 5 6 7 8 9 A B C
D E F
0 1 2 3 4 5 6 7 8 9 A B C
D E F
1 2 3 4
O N
(PORT2)
LED
(PORT1)
CC-Link IE TSN
8
(FR-DU08)
Ethernet Ethernet OFF PORT1 PORT2
1PORT1 PORT2 2PORT1 PORT2 PORT1 PORT1-PORT2
NOTE CC-Link IE TSNCC-Link IE TSN
3
3.1 (FR-DU08)
No.
(a) M
Pr.992
(b) MODE
[PU/EXT] 2sPr.1610
(c) SET
Pr.52Pr.774Pr.776
(d) ESC
(e) PU/EXT
PUPUJOG [MODE] PU
PORT1PORT2 PORT1-PORT2
PORT2
PORT1
PORT2
PORT1
PORT2
PORT1
PORT2
PORT1
PORT2
PORT2
(a)
(b) (c) (d)
(e)
9
(FR-DU08)
3.1.1
USBUSBUSB
/
1
2
5
PU1 PUJOG1
2 2
()
8 .
()
() () ()
IPM
3
1 4 2 4 8 4
10
4 (ALM)
RUNCPU RUN
OFF
5 FR-A800
(U V W)
2 6
2
AM EMCEMCON 3
EMCON EMCOFF EMCON/OFF
FT-3KM F
ALM 5
RY 5
STFSTR RUN 5
STFSTR Y12 5
11
10 P/+ N/-
EV24V OFF
100 STFSTRON/OFF4
P/+ PR
10E 5
ON
PLGPLG PLG
(MC) MC2 JEM1038-AC-3
OFF ON MCMC PM
( ) ( ) ( : ZCAT3035-1330TDK )
2PM PM
MC1MC2 SF-V5RUSF-THYPM
MC2
MC1
U V W
R/L1 S/L2 T/L3
M
12
6 (FR-DU08)
Pr. 0 0 30% 6/4/3/2/
1%
1 0 120Hz 120Hz 60Hz
2 0 120Hz 0Hz 3 0 590Hz 60/50Hz 4 3 ( ) 0 590Hz 60/50Hz 5 3 ( ) 0 590Hz 30Hz 6 3 ( ) 0 590Hz 10Hz
7 0 3600s 5s 15s
8 0 3600s 5s 15s
9 0 500A
0 3600A
10 0 120Hz, 9999 3Hz
11 0 10s, 8888 0.5s 12 0 30% 4/2/1% 13 0 60Hz 0.5Hz 14 0 5, 12 15 0 15 JOG 0 590Hz 5Hz 16 JOG 0 3600s 0.5s 17 MRS 0, 2, 4 0
18 0 590Hz 120Hz 60Hz
19 0 1000V, 8888, 9999
9999/ 8888
20 1 590Hz 60/50Hz 21 0, 1 0
22 0 400% 150%
23
0200%, 9999 9999
24 27
(4 7 ) 0 590Hz, 9999 9999
28 0, 1 0 29 0 6 0
30 0 2, 10, 11, 20, 21, 100 102, 110, 111, 120, 121
0
31 1A
0590Hz, 9999
9999 32 1B 9999 33 2A 9999 34 2B 9999 35 3A 9999 36 3B 9999 37 0, 1 9998 0 41 0 100% 10% 42 0 590Hz 6Hz 43 0590Hz, 9999 9999 44 2 0 3600s 5s
45 2 0 3600s, 9999 9999
46 2 0 30%, 9999 9999 47 2V/F( ) 0590Hz, 9999 9999
48 2 0 400% 150%
49 2 0590Hz, 9999 0Hz
50 2 0 590Hz 30Hz
51 2
0 500A, 9999
9999 0 3600A, 9999
52
0, 5 14, 17 20, 22 36, 38 46, 50 57, 61, 62, 64, 67, 68, 71 75, 87 98, 100
0
54 FM/CA
1 3, 5 14, 17, 18, 21, 24, 32 34, 36, 46, 50, 52, 53, 61, 62, 67, 70, 87 90, 92, 93, 95, 97, 98
1
55 0 590Hz 60/50Hz
56 0 500A
0 3600A 57 0, 0.1 30s, 9999 9999 58 0 60s 1s 59 0 3, 11 13 0 60 0, 4, 9 0
61
0 500A, 9999
9999 0 3600A, 9999
62 0400%, 9999 9999 63 0400%, 9999 9999 64 010Hz, 9999 9999 65 0 5 0
66 0 590Hz 60/50Hz
67
0 10, 101 110 0
68 0.1 600s 1s 69 0 0 70 0 100% 0%
71
06, 1316, 20, 23, 24, 30, 33, 34, 40, 43, 44, 50, 53, 54, 70, 73, 74, 330, 333, 334, 8090, 8093, 8094, 9090, 9093, 9094
0
72 PWM 0 15
2 06, 25
73 07, 10 17 1 74 0 8 1
75 /PU /PU
03, 14 17, 1000 1003, 1014 1017
14 03, 14 17, 100 103, 114 117, 1000 1003, 1014 1017, 1100 1103, 1114 1117
76 0 2 0 77 0 2 0 78 0 2 0 79 0 4, 6, 7 0
80
0.4 55kW, 9999
9999 0 3600kW, 9999
81 2, 4, 6, 8, 10, 12, 9999 9999
82
0 500A, 9999
9999 0 3600A, 9999
83 0 1000V 200/400V 84 10400Hz, 9999 9999 85 0400Hz, 9999 9999 86 0300%, 9999 9999
89
0 200%, 9999 9999
90 (R1) 0 50, 9999
99990 400m, 9999
91 (R2) 0 50, 9999
99990 400m, 9999
92 (L1) d (Ld)
0 6000mH, 9999
9999 0400mH, 9999
93 (L2) q (Lq)
0 6000mH, 9999
9999 0400mH, 9999
94 (X) 0 100%, 9999 9999
95 0 2 0
96 / 0, 1, 11, 101 0
100 V/F1( 1 ) 0 590Hz, 9999 9999 101 V/F1( 1 ) 0 1000V 0V 102 V/F2( 2 ) 0 590Hz, 9999 9999 103 V/F2( 2 ) 0 1000V 0V 104 V/F3( 3 ) 0 590Hz, 9999 9999 105 V/F3( 3 ) 0 1000V 0V 106 V/F4( 4 ) 0 590Hz, 9999 9999 107 V/F4( 4 ) 0 1000V 0V 108 V/F5( 5 ) 0 590Hz, 9999 9999 109 V/F5( 5 ) 0 1000V 0V 110 3 03600s, 9999 9999 111 3 03600s, 9999 9999 112 3 0 30%, 9999 9999
Pr. 113 3V/F( 0590Hz, 9999 9999 114 3 0 400% 150% 115 3 0 590Hz 0Hz 116 3 0 590Hz 60/50Hz 117 PU 0 31 0
118 PU 48, 96, 192, 384, 576, 768, 1152 192
119 PU / 0, 1, 10, 11 1
120 PU 0 2 2 121 PU 0 10, 9999 1
122 PU
0, 0.1 999.8s, 9999 9999
123 PU 0150ms, 9999 9999 124 PUCR/LF 0 2 1 125
2 0 590Hz 60/50Hz
126
4 0 590Hz 60/50Hz
127 PID 0590Hz, 9999 9999
128 PID
0, 10, 11, 20, 21, 40 43, 50, 51, 60, 61, 70, 71, 80, 81, 90, 91, 100, 101, 1000, 1001, 1010, 1011, 2000, 2001, 2010, 2011
0
129 PID 0.1 1000%, 9999 100%
130 PID 0.1 3600s, 9999 1s 131 PID 0100%, 9999 9999 132 PID 0100%, 9999 9999 133 PID 0 100%, 9999 9999 134 PID 0.01 10s, 9999 9999
135 0, 1 0
136 MC 0 100s 1s 137 0 100s 0.5s 138 0, 1 0
139
0 60Hz, 8888, 9999 9999
140 0 590Hz 1Hz
141 0 360s 0.5s
142 0 590Hz 1Hz
143 0 360s 0.5s
144 0, 2, 4, 6, 8, 10, 12, 102, 104, 106, 108, 110, 112
4
145 PU 0 7 147 0590Hz, 9999 9999
148 0V 0 400% 150%
149 10V 0 400% 200%
150 0 400% 150% 151 0 10s 0s 152 0 400% 5% 153 0 10s 0.5s
154 0, 1, 10, 11 1
155 RT 0, 10 0 156 031, 100, 101 0 157 OL 0 25s, 9999 0s
158 AM
1 3, 5 14, 17, 18, 21, 24, 32 34, 36, 46, 50, 52 54, 61, 62, 67, 70, 87 98
1
159
0 10Hz, 9999 9999
160 0, 1, 9999 0
161 / 0, 1, 10, 11 0
162 03, 10 13, 1000 1003, 1010 1013
0
163 1 0 20s 0s 164 1 0 100% 0%
165 0 400% 150%
166 0 10s, 9999 0.1s 167 0, 1, 10, 11 0
Pr.
13
168
169 170 0, 10, 9999 9999 171 0, 9999 9999
172
9999, 0 16 0
173 01999, 9999 9999 174 01999, 9999 9999 178 STF
0 20, 22 28, 32, 37, 42 48, 50 53, 57 62, 64 74, 76 80, 84, 85, 87 89, 92 96, 128, 129, 9999
60 179 STR 61 180 RL 0 181 RM 1 182 RH 2 183 RT 3 184 AU 4 185 JOG 5 186 CS 6 187 MRS 24 188 STOP 25 189 RES 62
190 RUN 08, 10 20, 22, 25 28, 30 36, 38 57, 60, 61, 63 68, 70, 79, 80, 84, 85, 90 99, 100 108, 110 116, 120, 122, 125 128, 130 136, 138 157, 160, 161, 163 168, 170, 179, 180, 184, 185, 190 199, 200 208, 211 213, 247, 300 308, 311 313, 347, 9999
0
191 SU 1
192 IPF 2
193 OL 3
194 FU 4
195 ABC1 99
196 ABC2 9999
232 239
(8 15 ) 0 590Hz, 9999 9999
240 Soft-PWM 0, 1 1 241 0, 1 0 242 120 100% 100% 243 140 100% 75%
244 0, 1, 101 105, 1000, 1001, 1101 1105
1
245 0 50%, 9999 9999 246 0.01 10s 0.5s 247 0, 9999 9999
248 0 2 0
249 0, 1 0
250 0100s, 1000 1100s, 8888, 9999 9999
251 0, 1 1 252 0 200% 50% 253 0 200% 150% 254 OFF 13600s, 9999 600s 255 0 255 0 256 0 100% 100% 257 0 100% 100% 258 0 100% 100% 259 0, 1, 11 0 260 PWM 0, 1 1
261 0 2, 11, 12, 21, 22 0
262 0 20Hz 3Hz 263 0590Hz, 9999 60/50Hz 264 1 0 3600s 5s 265 2 03600s, 9999 9999 266 0 590Hz 60/50Hz 267 4 0 2 0 268 0, 1, 9999 9999 269
270 0 3, 11, 13 0
271 0 400% 50% 272 0 400% 100% 273 0590Hz, 9999 9999 274 1 4000 16 275 0 300%, 9999 9999
276 PWM
0 9, 9999 9999
0 4, 9999 278 0 30Hz 3Hz 279 0 400% 130% 280 0 2s 0.3s 281 0 5s 0.3s 282 0 30Hz 6Hz 283 0 5s 0.3s 284 0, 1 0
Pr. 285
0 30Hz, 9999 9999
286 0 100% 0% 287 0 1s 0.3s
288 0 2, 10, 11, 20 22 0
289 550ms, 9999 9999 290 0 7 0
291 0, 1, 10, 11, 20, 21, 100FM 0 0, 1CA
292 0, 1, 3, 5 8, 11 0 293 0 2 0 294 UV 0 200% 100%
295 0, 0.01, 0.10, 1.00, 10.00 0
296 06, 99, 100 106, 199, 9999 9999
297 / (0 5), 1000 9998, 9999 9999
298 032767, 9999 9999 299 0, 1, 9999 0 313 DO0 08, 10 20,
22, 25 28, 30 36, 38 57, 60, 61, 6366, 68, 70, 79, 80, 84 99, 100 108, 110116, 120, 122, 125 128, 130136, 138157, 160, 161, 163166, 168, 170, 179, 180, 184199, 200 208, 211 213, 247 250, 300308, 311 313, 347 350, 9999
9999
314 DO1 9999
315 DO2 9999
316 DO3 9999
317 DO4 9999
318 DO5 9999
319 DO6 9999
320 RA1
08, 1020, 22, 25 28, 30 36, 38 57, 60, 61, 63, 64 66, 68, 70, 79, 80, 84 91, 9499, 200 208, 211 213, 247 250, 9999
9999
321 RA2 9999
322 RA3 9999
328 / 0 9999 0
331 RS-485 031(0247) 0
332 RS-485 3, 6, 12, 24, 48, 96, 192, 384, 576, 768, 1152
96
333 RS-485 / 0, 1, 10, 11 1
334 RS-485 0 2 2
335 RS-485 0 10, 9999 1
336 RS-485
0 999.8s, 9999 0s
337 RS-485 0150ms, 9999 9999 338 0, 1 0 339 0 2 0 340 0 2, 10, 12 0 341 RS-485CR/LF 0 2 1 342 EEPROM 0, 1 0
343 0
349
/ ReadyBit / / DriveControl
0, 1, 100, 101, 1000, 1001, 1100, 1101, 10000, 10001, 10100, 10101, 11000, 11001, 11100, 11101
0
350 0, 1, 9999 9999 351 0 30Hz 2Hz 352 0 10Hz 0.5Hz 353 0 16383 511 354 0 8191 96 355 0 255 5 356 0 16383 0 357 0 255 5 358 0 13 1 359 PLG 0, 1, 100, 101 1 360 16 0 127 0 361 0 16383 0 362 0.1 100 1 363 0 5s 0.5s 364 PLG 0 5s 0.5s 365 0 60s, 9999 9999 366 0 5s, 9999 9999 367 0590Hz, 9999 9999 368 0 100 1
Pr. 369 PLG 0 4096 1024 374 0590Hz, 9999 9999 376 0, 1 0 380 S 1 0 50% 0 381 S 1 0 50% 0 382 S 2 0 50% 0 383 S 2 0 50% 0 384 0 250 0 385 0 590Hz 0 386 0 590Hz 60/50Hz 393 02, 10 12 0 394 0 32767 1 395 0 32767 1
396 P 0 1000 60
397 0 20s 0.333s
398 D 0 100 1
399 0 1000 20 413 PLG 1 32767 1 414 0 2, 11, 12 0
415 0, 1 0
416 0 5 0 417 0 32767 1
419 02, 10, 100, 110, 200, 210, 300, 310, 1110, 1310
0
420 1 32767 1
421 1 32767 1
422 0 150sec-1 25sec-1
423 0 100% 0%
424 0 50s 0s
425 0 5s 0s
426 0 32767 100 427 0400K, 9999 40K 428 0 5 0 429 0, 1 1
430
05, 12, 13, 100 105, 112, 113, 1000 1005, 1012, 1013, 1100 1105, 1112, 1113, 2000 2005, 2012, 2013, 2100 2105, 2112, 2113, 3000 3005, 3012, 3013, 3100 3105, 3112, 3113, 8888, 9999
9999
432 0 400% 0%
433 0 400% 150%
434 IP 1 0 255 192
435 IP 2 0 255 168
436 IP 3 0 255 50
437 IP 4 0 255 2
438 1 0 255 255
439 2 0 255 255
440 3 0 255 255
441 4 0 255 0
446 0 150sec-1 25sec-1
450 2
0, 1, 3 6, 13 16, 20, 23, 24, 30, 33, 34, 40, 43, 44, 50, 53, 54, 70, 73, 74, 330, 333, 334, 8090, 8093, 8094, 9090, 9093, 9094, 9999
9999
451 2 06, 10 14, 20, 100 106, 110 114, 9999
9999
453 2
0.4 55kW, 9999
9999 0 3600W, 9999
454 2 2, 4, 6, 8, 10, 12, 9999 9999
455 2 0500A, 9999
99990 3600A, 9999
Pr.
14
456 2 0 1000V 200/400V 457 2 10400Hz, 9999 9999
458 2 (R1) 0 50, 9999
99990 400m, 9999
459 2 (R2) 0 50, 9999
99990 400m, 9999
460 2 (L1) d (Ld)
0 6000mH, 9999
9999 0 400mH, 9999
461 2 (L2) q (Lq)
0 6000mH, 9999
9999 0 400mH, 9999
462 2 (X) 0 100%, 9999 9999
463 2 / 0, 1, 11, 101 0
464 0 360.0s 0 465 1 4
0 9999
0 466 1 4 0 467 2 4 0 468 2 4 0 469 3 4 0 470 3 4 0 471 4 4 0 472 4 4 0 473 5 4 0 474 5 4 0 475 6 4 0 476 6 4 0 477 7 4 0 478 7 4 0 479 8 4 0 480 8 4 0 481 9 4 0 482 9 4 0 483 104 0 484 104 0 485 114 0 486 114 0 487 124 0 488 124 0 489 134 0 490 134 0 491 144 0 492 144 0 493 154 0 494 154 0 495 0, 1, 10, 11 0 496 1 0 4095 0 497 2 0 4095 0
498 0 9999 0
500 0 999.8s 0s
501 0 0
502 0 4, 11, 12 0
503 1 0(1 9998) 0
504 1
0 9998, 9999 9999
505 1 590Hz 60/50Hz
506 (0 100%) 100%
507 ABC1 / (0 100%) 100%
508 ABC2 / (0 100%) 100%
514
0.1 600s, 9999 9999
515 1 200, 9999 1
516 S 0.1 2.5s 0.1s 517 S 0.1 2.5s 0.1s 518 S 0.1 2.5s 0.1s 519 S 0.1 2.5s 0.1s
522 0 590Hz, 9999 9999
523
100, 111, 112, 121, 122, 123, 124, 200, 211, 212, 221, 222, 223, 224, 300, 311, 312, 321, 322, 323, 324, 400, 411, 412, 421, 422, 423, 424, 9999
9999
524
0 590Hz, 9999 9999
Pr. 539 MODBUS RTU
0 999.8s, 9999 9999
541 0, 1 0
547 USB 0 31 0 548 USB 0999.8s, 9999 9999 549 0, 1 0 550 NET 0, 1, 9999 9999 551 PU 1 3, 9999 9999 552 030Hz, 9999 9999
553 PID 0.0 100.0%, 9999 9999
554 PID 0 3, 10 13 0 555 0.1 1.0s 1s 556 0.0 20.0s 0s
557
0 500A 0 3600A
560 2 032767, 9999 9999
561 PTC 0.5030.00k, 9999 9999
563 (0 65535 0 564 0 65535 0 565 2 0 400Hz, 9999 9999
566 2 0300%, 9999 9999
569 2 0200%, 9999 9999 570 0 3 2 571 0.0 10.0s, 9999 9999
573 4mA 1 4, 11 14, 21 24, 9999
9999
574 2 0 2 0
575 03600s, 9999 1s 576 0 590Hz 0Hz 577 900 1100% 1000% 592 0 2 0 593 0 25% 10% 594 0 50% 10% 595 0 50% 10% 596 0.1 3600s 5s 597 0.1 3600s 5s
598 175 215V/ 350430V , 9999
9999
599 X10 0, 1 0
600 1 1 0590Hz, 9999 9999
601 11 1 100% 100%
602 1 2 0590Hz, 9999 9999
603 12 1 100% 100%
604 1 3 0590Hz, 9999 9999
606 0, 1 1
607 110250% 150%
608 2
110250% 9999 9999
609 PID / 1 5 2 610 PID 1 5 3 611 03600s, 9999 9999 617 0 300%, 9999 9999
635 0 3 0
636 1 16384 1
637 1 16384 1
638 0 3 0 639 0, 1 0 640 0, 1 0
641 2 0, 7, 8, 9999 0
642 2 0 30Hz 3Hz 643 2 0 400% 130%
644 2 0 2s 0.3s
645 2 0 5s 0.3s 646 2 0 30Hz 6Hz 647 2 0 5s 0.3s 648 2 0, 1 0 650 2 0, 1 0 651 2 0, 1 0 653 0 200% 0
654 0 120Hz 20Hz
655 0, 1, 10, 11 0 656 1
800 1200%
1000% 657 2 1000% 658 3 1000% 659 4 1000% 660 0, 1 0
Pr. 661 0 40%, 9999 9999 662 0 300% 100%
663 0 100 0
665 0 200% 100% 668 0 200% 100%
673 SF-PR 2, 4, 6, 9999 9999
674 SF-PR 0 500% 100%
675 1, 9999 9999
679 2 0 100%, 9999 9999
680 2 0 1s, 9999 9999
681 2
0 2, 10, 11, 20 22, 9999 9999
682 2
0.1 100%, 9999 9999
683 2
0.1 100%, 9999 9999
684 0, 1 0
686 2 0(1 9998) 0
687 2
0 9998, 9999 9999
688 3 0(1 9998) 0
689 3
0 9998, 9999 9999
690 03600s, 9999 1s
692 2 1 0590Hz, 9999 9999
693 21 1 100% 100%
694 2 2 0590Hz, 9999 9999
695 22 1 100% 100%
696 2 3 0590Hz, 9999 9999
699 550ms, 9999 9999 702 0400Hz, 9999 9999
706 f
0 5000mV/ (rad/s), 9999 9999
707 10 999, 9999 9999 711 Ld 0100%, 9999 9999 712 Lq 0100%, 9999 9999
717
0 200%, 9999 9999
721 06000s, 10000 16000s, 9999
9999
724 0 7, 9999 9999 725 100 500%, 9999 9999
738 2 f
0 5000mV/ (rad/s), 9999 9999
739 2 Ld 0100%, 9999 9999 740 2 Lq 0100%, 9999 9999
741 2
0 200%, 9999 9999
742 2 06000s, 10000 16000s, 9999
9999
743 2 0400Hz, 9999 9999
744 2
10 999, 9999 9999
745 2 0 7, 9999 9999
746 2 100 500%, 9999 9999
747 2 0, 9999 9999
753 2PID
0, 10, 11, 20, 21, 50, 51, 60, 61, 70, 71, 80, 81, 90, 91, 100, 101, 1000, 1001, 1010, 1011, 2000, 2001, 2010, 2011
0
754 2PID 0590Hz, 9999 9999 755 2PID 0100%, 9999 9999 756 2PID 0.1 1000%, 9999 100% 757 2PID 0.1 3600s, 9999 1s
758 2PID 0.0110.00s, 9999 9999
759 PID 0 43, 9999 9999 760 0, 1 0 761 0100%, 9999 9999 762 03600s, 9999 9999 763 0100%, 9999 9999 764 03600s, 9999 9999 765 2 0, 1 0
766 2
0 100%, 9999 9999
767 2
0 3600s, 9999 9999
768 2
0 100%, 9999 9999
769 2 03600s, 9999 9999
Pr.
15
774 1 13, 5 14, 17 20, 22 36, 38 46, 50 57, 61, 62, 64, 67, 68, 71 75, 87 98, 100, 9999
9999
775 2 9999
776 3 9999
777 4mA 0590Hz, 9999 9999
778 4mA 0 10s 0s
779 0590Hz, 9999 9999
788 0, 9999 9999 791 03600s, 9999 9999 792 03600s, 9999 9999
799
0.1, 1, 10, 100, 1000kWh 1kWh
800 06, 9 14, 20, 100 106, 109 114
20
801 0400%, 9999 9999 802 0, 1 0 803 0 2, 10, 11 0 804 0 6 0 805 RAM 600 1400% 1000%
806 RAM EEPROM) 600 1400% 1000%
807 0 2 0 808 0 400Hz 60/50Hz 809 0400Hz, 9999 9999 810 0 2 0 811 0, 1, 10, 11 0 812 ( )
0 400%, 9999
9999 813 (3 ) 9999 814 (4 ) 9999 815 2 9999 816 9999 817 9999
818 1 15 2
819 0 2 0 820 P 1 0 1000% 60% 821 1 0 20s 0.333s 822 1 0 5s, 9999 9999 823 1 0 0.1s 0.001s
824 P1 0 500% 100%
825 1 0 500ms 5ms
826 1 0 5s, 9999 9999 827 1 0 0.1s 0s 828 0 1000% 60% 829 PLG 04096, 9999 9999 830 P 2 01000%, 9999 9999 831 2 0 20s, 9999 9999 832 2 0 5s, 9999 9999 833 2 0 0.1s, 9999 9999 834 P 2 0500%, 9999 9999 835 2 0500ms,9999 9999 836 2 0 5s, 9999 9999 837 2 0 0.1s, 9999 9999 840 03, 24, 25, 9999 9999
841 1 600 1400%, 9999 9999
842 2 600 1400%, 9999 9999
843 3 600 1400%, 9999 9999
844 0 5s, 9999 9999 845 0 5s, 9999 9999 846 0 10V, 9999 9999
847 1 0400%, 9999 9999
848 1 0400%, 9999 9999
849 0 200% 100% 850 0 2 0
851 PLG 0 4096 2048
852 PLG 0, 1, 100, 101 1
853 0 100s 1s 854 0 100% 100%
855 0, 1 0
858 4 0, 1, 4, 9999 0
859 PM
0500A, 9999 9999
03600A, 9999
860 2 PM
0500A, 9999 9999
03600A, 9999 862 PLG 0, 1 0
Pr. 863 PLG 1 32767 1
864 0 400% 150% 865 0 590Hz 1.5Hz 866 0 400% 150% 867 AM 0 5s 0.01s 868 1 0 6, 9999 0 869 0 5s 0.02s
870 0 5Hz 0Hz 872 0, 1 0 873 0 400Hz 20Hz 874 OLT 0 400% 150% 875 0, 1 0
876 0, 1 1
877 0 2 0
878 0 1s 0s
879 0 400% 150%
880 0 200 7
881 0 1000% 0%
882 0 2 0
883 300 1200V DC380/ DC760V
884 0 5 0 885 0590Hz, 9999 6Hz 886 0 200% 100% 888 1 0 9999 9999 889 2 0 9999 9999 890 (0 511) 0 891 0 4, 9999 9999 892 30 150% 100%
893
0.1 55kW 0 3600kW
894 0 3 0 895 0, 1, 9999 9999 896 0 500, 9999 9999 897 0, 1 1000h, 9999 9999 898 0, 1, 10, 9999 9999 899 ( ) 0 100%, 9999 9999 C0 (900)
FM/CA
C1 (901)
AM
C2 (902)
2 0 590Hz 0Hz
C3 (902)
2 0 300% 0%
125 (903)
2 0 590Hz 60/50Hz
C4 (903)
2 0 300% 100%
C5 (904)
4 0 590Hz 0Hz
C6 (904)
4 0 300% 20%
126 (905)
4 0 590Hz 60/50Hz
C7 (905)
4 0 300% 100%
C12 (917)
1 0 590Hz 0Hz
C13 (917)
1 0 300% 0%
C14 (918)
1 0 590Hz 60/50Hz
C15 (918)
1 0 300% 100%
C16 (919)
1 / 0 400% 0%
C17 (919)
1 / 0 300% 0%
C18 (920)
1 / 0 400% 150%
C19 (920)
1 / 0 300% 100%
Pr. C8 (930) ,
0 100% 0%
C9 (930) ,
0 100% 0%
C10 (931) ,
0 100% 100%
C11 (931) ,
0 100% 100%
C38 (932)
4 ( / ) 0 400% 0%
C39 (932)
4 / 0 300% 20%
C40 (933)
4 / 0 400% 150%
C41 (933)
4 / 0 300% 100%
C42 (934)
PID 0 500, 9999 9999
C43 (934)
PID 0 300% 20%
C44 (935)
PID 0 500, 9999 9999
C45 (935)
PID 0 300% 100%
977 0, 1 0
989 10 10 100 100
990 PU 0, 1 1 991 PU 0 63 58
992 M
03, 5 14, 17 20, 22 36, 38 46, 50 57, 61, 62, 64, 67, 68, 71 75, 87 98, 100
0
994 0.1 100%, 9999 9999 995 0.1 100% 100% 997 0 255, 9999 9999
998 PM
0, 3003, 3103, 8009, 8109, 9009, 9109
0
999 1, 2, 10 13,
20, 21, 9999 9999
1000 0 2 0
1002 Lq 50 150%, 9999 9999
1003 0, 8 1250Hz 0 1004 0 3 0 1005 0 3 0 1006 2000 2099 2000
1007
101 131, 201 229, 301 331, 401 430, 501 531, 601 630, 701 731, 801 831, 901 930, 1001 1031, 1101 1130, 1201 1231
101
1008
059, 100159, 200 259, 300 359, 400 459, 500 559, 600 659, 700 759, 800 859, 900 959, 1000 1059, 1100 1159, 1200 1259, 1300 1359, 1400 1459, 1500 1559, 1600 1659, 1700 1759, 1800 1859, 1900 1959, 2000 2059, 2100 2159, 2200 2259, 2300 2359
0
1013
0590Hz 60/50Hz
1015 0 2, 10 12 0
1016 PTC 0 60s 0s
1018 0, 1, 9999 9999 1020 0 4 0 1021 0 2 0 1022 0 9 2 1023 1 8 4 1024 0, 1 0
Pr.
16
6%: FR-A820-0.4K(00046)0.75K(00077) FR-A840-0.4K(00023)0.75K(00038)
4%: FR-A820-1.5K(00105) 3.7K(00250) FR-A840-1.5K(00052) 3.7K(00126)
3%: FR-A820-5.5K(00340)7.5K(00490) FR-A840-5.5K(00170)7.5K(00250)
2%: FR-A820-11K(00630) 55K(03160) FR-A840-11K(00310) 55K(01800)
1%: FR-A820-75K(03800) FR-A840- 75K(02160)
FR-A820-55K(03160) FR-A840- 55K(01800)
FR-A820-75K(03800) FR-A840- 75K(02160)
FR-A820-7.5K(00490) FR-A840- 7.5K(00250)
FR-A820-11K(00630) FR-A840- 11K(00310)
4%: FR-A820-7.5K(00490) FR-A840- 7.5K(00250)
2%: FR-A820-11K(00630) 55K(03160) FR-A840-11K(00310) 55K(01800)
1%: FR-A820-75K(03800) FR-A840- 75K(02160)
200V/400V
FM /CA CA 60Pr.17861Pr.179
9293192193 Pr.190 Pr.194
CC-Link IE TSN Pr.1609999
CC-Link IE TSN
1025 0 4 0 1026 0 100% 90% 1027 (1ch) 1 3, 5 14,
17 20, 22 24, 32 36, 39 42, 46, 52 54, 61, 62, 64, 67, 68, 7175, 87 98, 201 213, 222 227, 230 232, 235 238
201 1028 (2ch) 202 1029 (3ch) 203 1030 (4ch) 204 1031 (5ch) 205 1032 (6ch) 206 1033 (7ch) 207 1034 (8ch) 208 1035 1 8 1 1036 0, 1 0 1037 600 1400 1000 1038 (1ch)
1 255
1 1039 (2ch) 2 1040 (3ch) 3 1041 (4ch) 4 1042 (5ch) 5 1043 (6ch) 6 1044 (7ch) 7 1045 (8ch) 8 1046 1 8 1 1047 0, 1 0 1048 0 60min 0min 1049 USB 0, 1 0
1072 DC 0 10 3s
1073 0, 1 0 1074 0.05 3Hz, 9999 1Hz 1075 0 3 0 1076 0 3 0 1077 0.1 50m 1m 1078 1 50000kg 1kg 1079 1 50000kg 1kg 1103 0 3600s 5s 1106 0 5s, 9999 9999 1107 0 5s, 9999 9999 1108 0 5s, 9999 9999 1113 02, 10, 9999 9999 1114 0, 1 1 1115 0 9998ms 0s
1116 P 0 100% 0%
1117 P 1 0 300, 9999 9999
1118 P 2 0 300, 9999 9999
1119 0 300, 9999 9999
1121 0 400Hz 120Hz 60Hz
1130 01 0
1134 PID 0 100% 100% 1135 PID 0 100% 100% 1136 2PID 0 500, 9999 9999
1137 2PID 0 300% 20%
1138 2PID 0 500, 9999 9999
1139 2PID 0 300% 100%
1140 2PID / 1 5 2
1141 2PID 1 5 3 1142 2PID 0 43, 9999 9999 1143 2PID 0100%, 9999 9999 1144 2PID 0100%, 9999 9999
1145 2PID 0 100%, 9999 9999
1146 2PID 0 3, 10 13 0 1147 2 03600s, 9999 1s 1148 2 0 590Hz 0Hz 1149 2 900 1100% 1000% 1150 1199
1 50 0 65535 0
1220 / 0, 1, 2 0 1221 0, 1 0 1222 1 0.01 360s 5s 1223 1 0.01 360s 5s 1224 1 0 20000ms 0ms
1225 1 0 2, 10 12, 100102, 110 112
10
1226 2 0.01 360s 5s 1227 2 0.01 360s 5s 1228 2 0 20000ms 0ms
1229 2 0 2, 10 12, 100102, 110 112
10
1230 3 0.01 360s 5s 1231 3 0.01 360s 5s
Pr. 1232 3 0 20000ms 0ms
1233 3 0 2, 10 12, 100102, 110 112
10
1234 4 0.01 360s 5s 1235 4 0.01 360s 5s 1236 4 0 20000ms 0ms
1237 4 0 2, 10 12, 100102, 110 112
10
1238 5 0.01 360s 5s 1239 5 0.01 360s 5s 1240 5 0 20000ms 0ms
1241 5 0 2, 10 12, 100102, 110 112
10
1242 6 0.01 360s 5s 1243 6 0.01 360s 5s 1244 6 0 20000ms 0ms
1245 6 0 2, 10 12, 100102, 110 112
10
1246 7 0.01 360s 5s 1247 7 0.01 360s 5s 1248 7 0 20000ms 0ms
1249 7 0 2, 10 12, 100102, 110 112
10
1250 8 0.01 360s 5s 1251 8 0.01 360s 5s 1252 8 0 20000ms 0ms
1253 8 0 2, 10 12, 100102, 110 112
10
1254 9 0.01 360s 5s 1255 9 0.01 360s 5s 1256 9 0 20000ms 0ms
1257 9 0 2, 10 12, 100102, 110 112
10
1258 10 0.01 360s 5s 1259 10 0.01 360s 5s 1260 10 0 20000ms 0ms
1261 10 0 2, 10 12, 100102, 110 112
10
1262 11 0.01 360s 5s 1263 11 0.01 360s 5s 1264 11 0 20000ms 0ms
1265 11 0 2, 10 12, 100102, 110 112
10
1266 12 0.01 360s 5s 1267 12 0.01 360s 5s 1268 12 0 20000ms 0ms
1269 12 0 2, 10 12, 100102, 110 112
10
1270 13 0.01 360s 5s 1271 13 0.01 360s 5s 1272 13 0 20000ms 0ms
1273 13 0 2, 10 12, 100102, 110 112
10
1274 14 0.01 360s 5s 1275 14 0.01 360s 5s 1276 14 0 20000ms 0ms
1277 14 0 2, 10 12, 100102, 110 112
10
1278 15 0.01 360s 5s 1279 15 0.01 360s 5s 1280 15 0 20000ms 0ms
1281 15 0, 2, 10, 12, 100, 102, 110, 112 10
1282 0 6 4 1283 0 30Hz 2Hz 1284 0 10Hz 0.5Hz 1285 4 0 9999 0 1286 4 0 9999 0 1287 4 0 9999 2048 1288 4 0 9999 0 1289 0 200% 40% 1290 0 10s 0.5s 1292 0, 1 0 1293 0, 1 0 1294 4 0 9999 0 1295 4 0 9999 0 1296 0 2 0 1297 0 32767 0 1298 2 0 150s-1 25s-1
1299 2 0, 1 0 1300 1343
Pr. 1348 P/PI 0 400Hz 0Hz 1349 0, 1, 10, 11 0 1350 1359
1410 4 0 9999 0 1411 4 0 9999 0
1412 (f) 0 2, 9999 9999
1413 2 (f) 0 2, 9999 9999
1442
IP 1 Ethernet 0 255 0
1443
IP 2 Ethernet 0 255 0
1444
IP 3 Ethernet 0 255 0
1445
IP 4 Ethernet 0 255 0
1446
IP 2 Ethernet 0 255, 9999 9999
1447
IP 3 Ethernet 0 255, 9999 9999
1448
IP 4 Ethernet 0 255, 9999 9999
1459 0 2 0
1480 0, 1, (2, 3, 4, 5, 81, 82, 83, 84, 85) 0
1481 1 0 400%, 8888, 9999 9999
1482 2 0 400%, 8888, 9999 9999
1483 3 0 400%, 8888, 9999 9999
1484 4 0 400%, 8888, 9999 9999
1485 5 0 400%, 8888, 9999 9999
1486 0 590Hz 60/50Hz 1487 0 590Hz 6Hz 1488 0400%, 9999 20% 1489 0400%, 9999 20% 1490 0400%, 9999 9999 1491 0400%, 9999 9999
1492 / 0 60s 1s
1499 Pr.CLR (0, )1 0 ALL.CL (0, )1 0 Err.CL (0, )1 0 Pr.CPY (0, )1 3 0 Pr.CHG IPM IPM 0, 3003 0 AUTO Pr.Md (0, )1, 2 0
Pr.
17
1 EUEU 1996 EMC1997 EMCCE EU EU : Mitsubishi Electric Europe B.V. : Mitsubishi-Electric-Platz 1, 40882 Ratingen, Germany
EMC EMCCE EMC : 2014/30/EU : EN61800-3:2004+A1:2012 (Second environment / PDS Category "C3")
: First environment Second environment
EMC C3 EMCEMC EMC Installation ManualBCN-A21041-204MF-S-112113
EMC 20m EMC
CE 2014/35/EU EN61800-5-1:2007
1 2 6 : 40 EN60204-1IEC60364-5-52
6 PVC
EN IEC RCDRCM) B RCDRCM
IEC60664 II III 400V 2FR-A820 FR-A820-30K(01540) FR-A840-30K(00770) (IP00) 2IP2X
3IP54 FR-A820-22K(01250) FR-A840-22K(00620) (IP20) 2
FR-A820-1.5K(00105) 3.7K(00250) FR-A840-2.2K(00083)3.7K(00126)
FR-A820-5.5K(00340) 22K(01250) FR-A840-5.5K(00170) 22K(00620)
18
EN60204-1IEC60364-5-52 A1 B1 C1 A2 B2 C2DC30V 0.3A( )
4 3
1000m500m 3%
T JCC L UL489 MCCB FR-A820 T JCCUL489 MCCB EN IEC
US National Electrical Code
200V 100kA rms 240V
400V 100kA rms 500V
RoHS RoHS2011/65/EUCE
Pr.9
LDNDHD: 10 50 SLD: 10 40 20 65 20 65
95RH 95RH 95RH 2500m 2500m 10000m
FR-A820-[]-GN 0.4K (00046)
0.75K (00077)
1.5K (00105)
2.2K (00167)
3.7K (00250)
5.5K (00340)
7.5K (00490)
11K (00630)
15K (00770)
(V) 240V
(A) 15 20 30 40 60 80 150 175 200 15 20 20 30 50 70 125 150 200
MCCB (A) 15 15 25 40 60 80 110 150 190
FR-A820-[]-GN 18.5K (00930)
22K (01250)
30K (01540)
37K (01870)
45K (02330)
55K (03160)
75K (03800)
90K (04750)
(V) 240V
(A) 225 300 350 400 500 500 200 250 300 350 400 500 600 700
MCCB (A) 225 300 350 450 500 700 900 1000
FR-A840-[]-GN 0.4K (00023)
0.75K (00038)
1.5K (00052)
2.2K (00083)
3.7K (00126)
5.5K (00170)
7.5K (00250)
11K (00310)
15K (00380)
18.5K (00470)
22K (00620)
30K (00770)
(V) 500V
(A) 6 10 15 20 30 40 70 80 90 110 150 175 6 10 10 15 25 35 60 70 90 100 125 150
MCCB (A) 15 15 15 20 30 40 60 70 90 100 150 175
FR-A840-[]-GN 37K (00930)
45K (01160)
55K (01800)
75K (02160)
90K (02600)
110K (03250)
132K (03610)
160K (04320)
185K (04810)
220K (05470)
250K (06100)
280K (06830)
(V) 500V
(A) 200 250 300 175 200 250 300 350 400 500 600 700 800 900 1000
MCCB (A) 225 250 450 450 500
(1) Pr.71 113 16505354
100 (2) Pr.9
Pr.9 50
6Hz
150%
230
52.5 105
50 100 150
60
120
180
240
50
60
70
m in
m in
Pr. 9= 501, 2
Pr. 9= 1002
s
s
OFF (Pr.90(A)
6Hz
20Hz 10Hz 6Hz 0.5Hz
30Hz330Hz 3
20Hz 10Hz
0.5Hz
4
19
NOTE
1 (OCR)
SF-V5RUPr.9 =0
2 UL cUL UL 508C, CSA C22.2 No.274-13
3
National Electrical Code T JCC L UL489 MCCBTypeE Canadian Electrical Code T JCC L UL489 MCCB TypeE FR-A820 T JCCUL489 MCCB TypeE
US National Electrical Code ULcUL ULMMP-T
TypeE 480Y / 277V 50kA 25kA TypeE UT-TUUT-CV3
National Electrical Code(Article 310) National Electrical Code(Article 430) 125% (R/L1 S/L2 T/L3) (U V W)UL 75
200V 100kA rms 240V
400V 100kA rms 500V
FR-A820-[]-GN 0.4K (00046)
0.75K (00077)
1.5K (00105)
2.2K (00167)
3.7K (00250)
5.5K (00340)
7.5K (00490)
11K (00630)
15K (00770)
(V) 240V
(A) 15 20 30 40 60 80 150 175 200 15 20 20 30 50 70 125 150 200
MCCB (A) 15 15 25 40 60 80 110 150 190 TypeE
(A) 8 13 18 25 32 (kA) 50 50 50 25 25
FR-A820-[]-GN 18.5K (00930)
22K (01250)
30K (01540)
37K (01870)
45K (02330)
55K (03160)
75K (03800)
90K (04750)
(V) 240V
(A) 225 300 350 400 500 500 200 250 300 350 400 500 600 700
MCCB (A) 225 300 350 450 500 700 900 1000 TypeE
(A) (kA)
FR-A840-[]-GN 0.4K (00023)
0.75K (00038)
1.5K (00052)
2.2K (00083)
3.7K (00126)
5.5K (00170)
7.5K (00250)
11K (00310)
15K (00380)
18.5K (00470)
22K (00620)
30K (00770)
(V) 500V
(A) 6 10 15 20 30 40 70 80 90 110 150 175 6 10 10 15 25 35 60 70 90 100 125 150
MCCB (A) 15 15 15 20 30 40 60 70 90 100 150 175 TypeE
(A) 4 6.3 8 13 18 25 32 (kA) 50 50 50 50 50 25 25
FR-A840-[]-GN 37K (00930)
45K (01160)
55K (01800)
75K (02160)
90K (02600)
110K (03250)
132K (03610)
160K (04320)
185K (04810)
220K (05470)
250K (06100)
280K (06830)
(V) 500V
(A) 200 250 300 175 200 250 300 350 400 500 600 700 800 900 1000
MCCB (A) 225 250 450 450 500 TypeE
(A) (kA)
VAC MMP-T32 480Y/277
20
Pr.9
NOTE
1 (OCR)
SF-V5RUPr.9 =0
3 EAC
EACEAC
EAC 2010 3 3CU-TRCustom-Union Technical RegulationEAC
CU
3 MADE IN JAPAN
3 SERIAL
CU CU Mitsubishi Electric (Russia) LLC 52, bld 1 Kosmodamianskaya Nab 115054, Moscow, Russia +7 (495) 721-2070 FAX +7 (495) 721-2071
(1) Pr.71 113 16505354
100 (2) Pr.9
Pr.9 50
6Hz
150%
SERIAL( )
SERIAL 1 2 6 11 9X10 Y11 Z12
230
52.5 105
50 100 150
60
120
180
240
50
60
70
m in
m in
Pr. 9= 501, 2
Pr. 9= 1002
s
s
OFF (Pr.90(A)
6Hz
20Hz 10Hz 6Hz 0.5Hz
30Hz330Hz 3
20Hz 10Hz
0.5Hz
4
21
4
SJ/T11364 GB/T26572 GB/T26572
5
GB/T 16855.1 GB/T 12668.502 GB 28526 GB/T 12668.3
GB/T 12668.501 EMC GB/T 12668.3
6
UKCA 2020 1 31 EU 2021 1 1
(Pb)
(Hg)
(Cd)
(Cr(VI))
(PBB)
(PBDE)
UKCA (18 )
22
7 ErP( ) ErP( ) 0.12kW 1000kW 3
SLD
: ** 12
Model name Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100) (%)
load point 2 (50;100) (%)
load point 3 (0;100) (%)
load point 4 (90;50) (%)
load point 5 (50;50) (%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.8 15.0 3.3 3.3 3.3 2.6 2.6 2.6 2.5 2.5 IE2 FR-A820-00077(0.75K)(-**) 2.9 15.0 3.1 3.1 3.1 2.2 2.2 2.2 1.8 1.9 IE2 FR-A820-00105(1.5K)(-**) 4 21.0 3.3 3.3 3.3 2.4 2.4 2.4 2.0 2.0 IE2 FR-A820-00167(2.2K)(-**) 6.4 21.0 2.9 2.9 2.9 2.0 2.0 2.0 1.7 1.7 IE2 FR-A820-00250(3.7K)(-**) 10 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.7 1.7 IE2 FR-A820-00340(5.5K)(-**) 13 23.0 2.6 2.6 2.6 1.7 1.6 1.7 1.3 1.3 IE2 FR-A820-00490(7.5K)(-**) 19 23.0 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-00630(11K)(-**) 24 24.2 2.9 2.9 2.9 1.3 1.3 1.3 0.8 0.8 IE2 FR-A820-00770(15K)(-**) 29 30.7 3.2 3.2 3.2 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-00930(18.5K)(-**) 35 30.7 3.1 3.1 3.1 1.6 1.6 1.6 1.1 1.2 IE2 FR-A820-01250(22K)(-**) 48 30.7 3.1 3.1 3.1 1.6 1.6 1.6 1.1 1.1 IE2 FR-A820-01540(30K)(-**) 59 34.7 3.0 3.0 3.0 1.6 1.5 1.6 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 71 43.6 2.8 2.8 2.8 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-02330(45K)(-**) 89 43.6 2.9 2.9 2.9 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 120 73.0 2.6 2.6 2.6 1.3 1.3 1.3 0.8 0.9 IE2 FR-A820-03800(75K)(-**) 145 79.1 2.4 2.4 2.4 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 181 70.9 2.5 2.5 2.5 1.2 1.2 1.2 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 1.8 19.0 3.2 3.2 3.2 2.8 2.8 2.8 2.8 2.8 IE2 FR-A840-00038(0.75K)(-**) 2.9 19.0 2.6 2.6 2.6 1.8 1.8 1.8 1.5 1.6 IE2 FR-A840-00052(1.5K)(-**) 4 19.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2 FR-A840-00083(2.2K)(-**) 6.3 22.0 2.1 2.1 2.1 1.5 1.5 1.5 1.3 1.3 IE2 FR-A840-00126(3.7K)(-**) 10 22.0 2.1 2.1 2.1 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00170(5.5K)(-**) 13 27.0 1.9 1.9 1.9 1.3 1.3 1.3 1.1 1.1 IE2 FR-A840-00250(7.5K)(-**) 19 27.0 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00310(11K)(-**) 24 28.5 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00380(15K)(-**) 29 28.5 1.8 1.8 1.8 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 36 34.5 1.6 1.6 1.6 2.3 2.3 2.3 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 47 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.7 IE2 FR-A840-00770(30K)(-**) 59 40.3 1.6 1.5 1.6 0.8 0.8 0.8 0.6 0.6 IE2 FR-A840-00930(37K)(-**) 71 49.7 1.8 1.7 1.7 1.0 0.9 1.0 0.7 0.8 IE2 FR-A840-01160(45K)(-**) 88 49.7 1.8 1.7 1.8 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 137 49.7 1.7 1.7 1.7 0.9 0.8 0.8 0.6 0.6 IE2 FR-A840-02160(75K)(-**) 165 70.9 1.8 1.8 1.6 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-02600(90K)(-**) 198 70.9 1.8 1.8 1.7 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-03250(110K)(-**) 248 99.1 1.5 1.5 1.5 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 275 99.1 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 329 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 367 139.8 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.4 0.4 IE2 FR-A840-06100(250K)(-**) 465 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 521 169.4 1.5 1.5 1.5 0.7 0.7 0.7 0.5 0.5 IE2
23
LD
: ** 12
Model name Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100) (%)
load point 2 (50;100) (%)
load point 3 (0;100) (%)
load point 4 (90;50) (%)
load point 5 (50;50) (%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.6 15.0 3.3 3.3 3.3 2.7 2.7 2.7 2.5 2.5 IE2 FR-A820-00077(0.75K)(-**) 2.7 15.0 3.0 3.0 3.0 2.1 2.1 2.1 1.8 1.8 IE2 FR-A820-00105(1.5K)(-**) 3.7 21.0 3.3 3.3 3.3 2.4 2.4 2.4 2.1 2.1 IE2 FR-A820-00167(2.2K)(-**) 5.8 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.8 1.8 IE2 FR-A820-00250(3.7K)(-**) 8.8 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.9 1.9 IE2 FR-A820-00340(5.5K)(-**) 12 23.0 2.5 2.5 2.5 1.6 1.6 1.6 1.3 1.3 IE2 FR-A820-00490(7.5K)(-**) 17 23.0 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-00630(11K)(-**) 22 24.2 2.8 2.8 2.8 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-00770(15K)(-**) 27 30.7 3.2 3.1 3.2 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-00930(18.5K)(-**) 32 30.7 3.2 3.2 3.2 1.7 1.7 1.7 1.2 1.2 IE2 FR-A820-01250(22K)(-**) 43 30.7 3.2 3.2 3.2 1.6 1.6 1.6 1.1 1.2 IE2 FR-A820-01540(30K)(-**) 53 34.7 3.0 2.9 1.8 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 65 43.6 2.7 2.7 2.7 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-02330(45K)(-**) 81 43.6 2.8 2.8 2.8 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 110 73.0 2.7 2.7 2.7 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-03800(75K)(-**) 132 79.1 2.4 2.4 2.4 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 165 70.9 2.5 2.5 2.5 1.2 1.2 1.2 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 1.6 19.0 3.3 3.3 3.3 2.9 2.9 2.9 2.9 2.9 IE2 FR-A840-00038(0.75K)(-**) 2.7 19.0 2.6 2.6 2.6 1.9 1.8 1.8 1.6 1.6 IE2 FR-A840-00052(1.5K)(-**) 3.7 19.0 2.1 2.1 2.1 1.7 1.7 1.7 1.5 1.5 IE2 FR-A840-00083(2.2K)(-**) 5.8 22.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2 FR-A840-00126(3.7K)(-**) 8.8 22.0 2.1 2.1 2.1 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00170(5.5K)(-**) 12 27.0 1.8 1.8 1.8 1.3 1.3 1.3 1.1 1.1 IE2 FR-A840-00250(7.5K)(-**) 18 27.0 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00310(11K)(-**) 22 28.5 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00380(15K)(-**) 27 28.5 1.8 1.8 1.8 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 33 28.5 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 43 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.7 IE2 FR-A840-00770(30K)(-**) 53 40.3 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00930(37K)(-**) 65 49.7 1.7 1.7 1.7 1.0 0.9 1.0 0.7 0.7 IE2 FR-A840-01160(45K)(-**) 81 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 110 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.6 0.6 IE2 FR-A840-02160(75K)(-**) 137 70.9 1.8 1.8 1.6 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-02600(90K)(-**) 165 70.9 1.8 1.8 1.7 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-03250(110K)(-**) 198 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 248 99.1 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 275 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 329 139.8 1.5 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06100(250K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 465 169.4 1.5 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
24
ND
: ** 12
Model name Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100) (%)
load point 2 (50;100) (%)
load point 3 (0;100) (%)
load point 4 (90;50) (%)
load point 5 (50;50) (%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.1 15.0 3.6 3.6 3.6 3.0 3.0 3.0 2.9 2.9 IE2 FR-A820-00077(0.75K)(-**) 1.9 15.0 3.1 3.1 3.1 2.3 2.3 2.3 2.0 2.0 IE2 FR-A820-00105(1.5K)(-**) 3 21.0 3.4 3.4 3.4 2.5 2.5 2.5 2.2 2.2 IE2 FR-A820-00167(2.2K)(-**) 4.2 21.0 2.9 2.9 2.9 2.1 2.1 2.1 1.8 1.8 IE2 FR-A820-00250(3.7K)(-**) 6.7 21.0 2.6 2.6 2.6 1.9 1.9 1.9 1.5 1.5 IE2 FR-A820-00340(5.5K)(-**) 9.1 23.0 2.5 2.5 2.5 1.6 1.6 1.6 1.3 1.3 IE2 FR-A820-00490(7.5K)(-**) 13 23.0 2.6 2.3 2.3 1.5 1.4 1.5 1.1 1.1 IE2 FR-A820-00630(11K)(-**) 18 24.2 2.5 2.5 2.5 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-00770(15K)(-**) 23 30.7 3.1 3.0 3.1 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-00930(18.5K)(-**) 29 30.7 3.0 3.0 3.0 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-01250(22K)(-**) 34 30.7 2.9 2.9 2.9 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01540(30K)(-**) 44 34.7 2.9 2.8 2.9 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 55 43.6 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-02330(45K)(-**) 67 43.6 2.7 2.7 2.7 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 82 73.0 2.4 2.4 2.4 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-03800(75K)(-**) 110 79.1 2.3 2.3 2.3 1.2 1.2 1.2 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 132 70.9 2.4 2.4 2.4 1.2 1.1 1.2 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 1.1 19.0 3.8 3.8 3.8 3.5 3.5 3.5 3.5 3.5 IE2 FR-A840-00038(0.75K)(-**) 1.9 19.0 2.9 2.9 2.9 2.2 2.2 2.2 2.0 2.0 IE2 FR-A840-00052(1.5K)(-**) 3 19.0 2.2 2.2 2.2 1.8 1.8 1.8 1.6 1.6 IE2 FR-A840-00083(2.2K)(-**) 4.6 22.0 2.2 2.2 2.2 1.7 1.6 1.7 1.5 1.5 IE2 FR-A840-00126(3.7K)(-**) 6.9 22.0 2.0 2.0 2.0 1.5 1.5 1.5 1.3 1.3 IE2 FR-A840-00170(5.5K)(-**) 9.1 27.0 1.9 1.9 1.9 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00250(7.5K)(-**) 13 27.0 1.8 1.8 1.8 1.1 1.1 1.1 0.8 0.8 IE2 FR-A840-00310(11K)(-**) 18 28.5 1.8 1.8 1.8 1.1 1.0 1.0 0.8 0.8 IE2 FR-A840-00380(15K)(-**) 24 28.5 1.8 1.8 1.8 1.1 1.1 1.1 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 29 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 34 34.5 1.5 1.5 1.5 0.9 0.5 0.9 0.7 0.7 IE2 FR-A840-00770(30K)(-**) 43 40.3 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00930(37K)(-**) 54 49.7 1.7 1.7 1.7 1.0 0.9 0.9 0.7 0.7 IE2 FR-A840-01160(45K)(-**) 66 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 84 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.6 IE2 FR-A840-02160(75K)(-**) 110 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2 FR-A840-02600(90K)(-**) 137 70.9 1.8 1.8 1.7 0.9 0.9 0.9 0.6 0.6 IE2 FR-A840-03250(110K)(-**) 165 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 198 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 248 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 275 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 329 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06100(250K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
25
HD
: ** 12
8 SERIALSERIAL
2020 9 FR-A800-GN 100Mbps /
2022 10 FR-A800-GN CC-Link IE TSN Class A 2.0
Model name Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100) (%)
load point 2 (50;100) (%)
load point 3 (0;100) (%)
load point 4 (90;50) (%)
load point 5 (50;50) (%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 0.6 15.0 5.0 5.0 5.0 4.5 4.5 4.4 4.4 4.4 IE2 FR-A820-00077(0.75K)(-**) 1.1 15.0 3.5 3.5 3.5 2.9 2.9 2.9 2.6 2.6 IE2 FR-A820-00105(1.5K)(-**) 1.9 21.0 3.4 3.4 3.4 2.8 2.7 2.8 2.5 2.5 IE2 FR-A820-00167(2.2K)(-**) 3 21.0 3.1 3.0 3.1 2.3 2.3 2.3 2.0 2.0 IE2 FR-A820-00250(3.7K)(-**) 4.2 21.0 3.0 3.0 3.0 2.5 2.5 2.5 1.9 1.9 IE2 FR-A820-00340(5.5K)(-**) 6.7 23.0 2.4 2.4 2.4 1.7 1.7 1.7 1.4 1.4 IE2 FR-A820-00490(7.5K)(-**) 9.1 23.0 2.4 2.3 2.4 1.4 1.4 1.4 1.1 1.1 IE2 FR-A820-00630(11K)(-**) 13 24.2 2.5 2.5 2.5 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-00770(15K)(-**) 18 30.7 3.1 3.1 3.1 1.7 1.7 1.7 1.3 1.3 IE2 FR-A820-00930(18.5K)(-**) 23 30.7 3.1 3.1 3.1 1.7 1.7 1.7 1.3 1.3 IE2 FR-A820-01250(22K)(-**) 29 30.7 3.0 3.0 3.0 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-01540(30K)(-**) 34 34.7 2.7 2.7 2.7 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 44 43.6 2.7 2.7 2.7 1.5 1.5 1.5 1.2 1.2 IE2 FR-A820-02330(45K)(-**) 55 43.6 2.6 2.6 2.6 1.4 1.3 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 67 73.0 2.3 2.3 2.3 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-03800(75K)(-**) 82 79.1 2.3 2.3 2.3 1.2 1.2 1.2 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 110 70.9 2.3 2.3 2.3 1.1 1.1 1.1 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 0.6 19.0 5.6 5.6 5.6 5.4 5.4 5.4 5.4 5.4 IE2 FR-A840-00038(0.75K)(-**) 1.1 19.0 2.6 2.6 2.6 2.2 2.2 2.2 2.2 2.3 IE2 FR-A840-00052(1.5K)(-**) 1.9 19.0 3.1 3.1 3.1 2.5 2.5 2.5 2.4 2.4 IE2 FR-A840-00083(2.2K)(-**) 3 22.0 2.4 2.4 2.4 1.9 1.9 1.9 1.7 1.8 IE2 FR-A840-00126(3.7K)(-**) 4.6 22.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2 FR-A840-00170(5.5K)(-**) 6.9 22.0 1.8 1.8 1.8 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00250(7.5K)(-**) 9.1 27.0 1.8 1.8 1.8 1.1 1.1 1.1 0.9 0.9 IE2 FR-A840-00310(11K)(-**) 13 28.5 1.8 1.8 1.8 1.1 1.1 1.1 0.9 0.9 IE2 FR-A840-00380(15K)(-**) 18 28.5 1.7 1.7 1.7 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 24 34.5 1.5 1.5 1.5 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 29 34.5 1.5 1.5 1.5 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00770(30K)(-**) 34 40.3 1.6 1.5 1.5 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00930(37K)(-**) 43 49.7 1.7 1.6 1.6 1.0 0.9 1.0 0.7 0.7 IE2 FR-A840-01160(45K)(-**) 54 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 66 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-02160(75K)(-**) 84 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2 FR-A840-02600(90K)(-**) 110 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2 FR-A840-03250(110K)(-**) 137 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 165 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 198 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 248 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 275 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06100(250K)(-**) 329 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
SERIAL
SERIAL( )
SERIAL 1 2 6 11 9X10 Y11 Z12
26
MEMO
27
28
12 618
(1)
(2)
(3)
(1) 7
(2)
FAFA
(1) (2) (3) (4)
(1)
(2)
29
CD-ROM CD-ROM PDF
CD-ROM CD-ROM CD-ROM CD-ROM CD-ROM CD-ROM
NOTE CD-ROM
CD-ROM CD-ROMPDF
CD-ROM 1. CD-ROM CD-ROM 2. 3. 4. 5. PDF
CD-ROM 1. CD-ROM CD-ROM 2. CD-ROMindex.html 3. 3
PDF CD-ROMMANUAL
30
2019 4 IB( )-0600835-A
2020 8 IB( )-0600835-B OFF Pr.25911 Pr.506 Pr.573 11 1421 24 (RLF) (RLR) Pr.244100010011101 1105 Pr.507 ABC1 /Pr.508 ABC2 / 100Mbps
2022 9 IB( )-0600835-C (Pr.514Pr.515Pr.523Pr.524Pr.1013Pr.178 Pr.18984Pr.190 Pr.1966566)
Pr.890 CC-Link IE TSN Class A 2.0 ErP
1 BCN-C22005-957
FR-A800/FR-A800 Plus
1
IP55
*1 IP55 *2 Pr.524Pr.523 *3 Pr.523 100200300400 Pr.524
Pr. FM CA
523 H320*1
9999
100111112121 122123124 200211212221 222223224 300311312321 322323324 400411412421 422423424
9999
524 H321*1*2
9999
0 590Hz*3 Pr.523
0 100%*3 PID PID Pr.523 PID
9999*3
515 H322*1
1
1 200
9999*3
1013 H323*1
60Hz 50Hz 0 590Hz E.CPUE.1 E.3E.5 E.7
514 H324*1
9999 0.1 600s
9999 Pr.68 136 A001
MC 1s 0 100s MC2 MC3
139 A004
9999 0 60Hz
88889999
57 A702 9999
0
0.1 30s
9999
V/F PM
BCN-C22005-957_JPN.fm 1
2 BCN-C22005-957
*1 Pr.190 Pr.196 ( )
*2 DC ACFR-A8AR
*3 Pr.180 Pr.189 ( ) *4 Pr.190 Pr.196 ( )
NOTE MC2MC3
(RUNSUIPFOLFU) DC24V 0.1A
(A1-C1B1-C1A2-B2B2-C2) FR-A8AR)
AC230V 0.3A DC30V 0.3A
IM R/L1 S/L2 T/L3
X84
CS
RES SD
U V W
Y65
MC2
SE
*1
*1
*2
MC3
MC2 DC24V
MC3
NFB
MC2
MC3
MC2
MC3
ALM3 *4 *4
*3
BCN-C22005-957_JPN.fm 2
3 BCN-C22005-957
X84 3s ON Y65 ON ED ALM3 ON
X84 3s ON
Pr.523 2[][]3[][] X84 OFF OFF X51 ON
24V R1S1 12
X84 Pr.178 Pr.189 84
Y65 Pr.190 Pr.196 65165 ALM3 Pr.190 Pr.196 66166
X84 Pr.338Pr.339
Pr.502 0 E.SER
Pr.5239999 Pr.5249999Pr.523100200300400
Pr.80091020109110Pr.4511020110 9999 V/F PM PM
FR-A8NS R1,S1 Pr.30=2102
BCN-C22005-957_JPN.fm 3
4 BCN-C22005-957
Pr.523 211
(CS ) Pr.523 411
*1 CS
NOTE FR-A800-CRNB,B3
E.PUE
RES
X84
STF
ALM3
Pr.514
Y65
ALM
Pr.524
3s
ON
ON
ON
ON
ON
ON
ON
3s
STF
X84
CS*1
MC3
MC2
MC3
MC2
Pr.136
Y65
MC
MC
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
BCN-C22005-957_JPN.fm 4
5 BCN-C22005-957
Pr.523Pr.524 Pr.523 100 1 10
*1 PM
NOTE PID PU /PU
Pr.515Pr.514 Pr.515 Pr514
ALMPr.67
7
NOTE Pr.65
Pr.523 1[][]
2[][]
3[][]*1
Pr.515 9999 200
4[][]*1
[]00
[]11
Pr.524 []12
[]21
PID
Pr.524 PID Pr.128[]22
[]23 2PID Pr.524 PID
Pr.753 []24
2PID
9999
BCN-C22005-957_JPN.fm 5
6 BCN-C22005-957
Pr.136Pr.139Pr.57 Pr.523 3[][]4[][] Pr.136 MC Pr.139 MC2MC3 CS Pr.57 9999 CS ON CS CS V/F PM
CS OFF Pr.523=3[][] Pr.523=4[][]
Pr.139
Pr.523 3[][]4[][]
MC2MC3 Pr.190 Pr.196 ( ) 18 19
MC2MC3
*1 CS Pr.162=0 310 13 Pr.338=1 *2 ON *3 OFF *4 MC
NOTE Pr.135=1
MC2 MC3
MC *4 MC2 MC3
CS*1 ON OFF *2
X84
ON OFF *3
RES ON OFF
MC ON OFF
MC2-OFFMC3-ON MC2-ONMC3-OFF
ONOFF
BCN-C22005-957_JPN.fm 6
7 BCN-C22005-957
PID PID Pr.524 PID Pr.128 Pr.753
PID PID PID
PID Pr.523 22[]32[] E.CPUE.1E.3E.5E.7PID Pr.1013
*1 2
*2 Pr.523 200300 OFF
PID / PID
Pr.128Pr.753 4 4 /Pr.128Pr.753 Pr.129Pr.756 100 Pr.130Pr.757 1s Pr.134Pr.758 / Pr.128 Pr.753
PID
E.OC1 E.OP3 E.ECA E.OC2 E.16 E.MB1 E.OC3 E.17 E.MB2 E.OV1 E.18 E.MB3 E.OV2 E.19 E.MB4 E.OV3 E.20 E.MB5 E.THT E.PE E.MB6 E.THM E.PUE E.MB7 E.FIN E.RET E.EP E.IPF E.PE2 E.MP E.UVT E.CPU E.EF E.ILF E.CTE E.IAH E.OLT E.P24 E.LCI E.SOT E.CDO E.PCH E.LUP E.IOH E.PID E.LDN E.SER E.1 *2
E.BE *1 E.AIE E.2 *2
E.GF E.USB E.3 *2
E.LF E.SAF *1 E.5 *2 E.OHT E.PBT *1 E.6 *1*2 E.PTC E.OS E.7 *1*2 E.OPT E.OSD E.11 E.OP1 E.ECT E.13 E.OP2 E.OD
BCN-C22005-957_JPN.fm 7
8 BCN-C22005-957
PID
PID
*1 FR-A800-LC
Pr.52Pr.774 Pr.776Pr.992 68
*1 1 *2 7
Pr.190 Pr.196
ALM 99 199 ON
ALM3 66 166 3s ON OFF
PID
OHX31*1X32X41*1TRGTRCX51RES X70X71
OHX31*1X32X41*1TRGTRCX51RES X70X71
RTX9X17X18MCSQX84 RTX9X17X18MCSQX64X65X66 X67X79X84
ON X14X77X78X80
0
1
2
3 *2 4 5 11
12
13 *2 14 15 2[]*1 3[]*1 4[]*1
BCN-C22005-957_JPN.fm 8
9 BCN-C22005-957
2 Y30Y31 Y30Y31 PLG PLGY30Y31
NOTE Y30 Y31
BCN-C22005-957_JPN.fm 9
1 BCN-C22005-969
FR-A800 /FR-A800Plus
1 (E.PE6) E.PE6) Pr.890 7
*1 FR Congurator2
NOTE E.PE6 E.PE6 3(Y91) E.PE6 (SAFE) OFF E.PE6 (X51) E.PE6 E.PE6 172(HAC)
E.PE6 Pr.890
Pr.890 Pr.890No. No. 7No.1~3
E.PE6 FR-LU08
*1
E.PE6 Pr.8907
E.PE6 OFF/ON
Pr. 890 H325 0 (0 9999)
No.
1 1357 Ethernet
2 2367 3 4567 4 89999
Pr.890 Pr.890
BCN-C22005-969_JPN.fm 1
2 BCN-C22005-969
2 P3200V/400V P3
P3
P3PR FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
P3PR
P/+N/-
FR-BU2FR-BUBU (FR-CV)(MT-RC)(FR-HC2) (FR-XC) FR-A820-15K(00770)22K(01250)FR-A840-18.5K(00470) 55K(01800)FR-CVFR-HC2FR-XC P/+P3 P/+P3 P3N/- P/+N/-
P3N/- FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
P3PR FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
P3PR
P/+N/- FR-BU2FR-BUBU (FR-CV)(MT-RC)(FR-HC2) (FR-XC)
P1
R
P3 PR N/-P/+
DC FR-HEL
FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
P1
R
P3 PR N/-P/+
DC FR-HEL
FR-A820-15K(00770)22K(01250) FR-A840-18.5K(00470)55K(01800)
BCN-C22005-969_JPN.fm 2
3 BCN-C22005-969
FR-BU2FR-BUBU (FR-CV) (MT-RC) (FR-HC2) (FR-XC) P/+ P3 FR-BU2GRZG
U V W
P/+ N/-
R/L1 S/L2 T/L3
M
PR
N/- BUE SD
P/+ A B C
FR-BU2
GRZG
RR
3
NFB MC
OFFON
MC T
10m
OCR
MC
OCR
PR PX
FR-BU2GRZG
BCN-C22005-969_JPN.fm 3
1 BCN-C22005-980
FR-A800 /FR-A800Plus
1 S1S2 (FR Configurator2) FR Configurator2 S1S2 USB FR Configurator2 S1S2 1.28E FR Configurator2 S1S2 FR Configurator2 FR Configurator2
S1S2 Pr.1038 Pr.1045 0OFF
2 TypeE
UL cUL TypeE TypeE ULMMP-T
1 STF 21 X0 101 RUN 2 STR 22 X1 102 SU 3 AU 23 X2 103 IPF 4 RT 24 X3 104 OL 5 RL 25 X4 105 FU 6 RM 26 X5 106 ABC1 7 RH 27 X6 107 ABC2 8 JOG 28 X7 121 DO0 9 MRS 29 X8 122 DO1 10 STP(STOP) 30 X9 123 DO2 11 RES 31 X10 124 DO3 12 CS 32 X11 125 DO4 15 S2 33 X12 126 DO5 16 S1 34 X13 127 DO6
35 X14 128 RA1 36 X15 129 RA2 37 DY 130 RA3
BCN-C22005-980_JPN.fm 1
1 BCN-C22005-989
FR-A800/FR-A800-E
FR-A800/FR-A800-ECD-ROMPDF FAPDF www.MitsubishiElectric.co.jp/fa FAX
Ethernet
MEE
FAX(FAX)
050-3737-0441
FR-A800()(IB()-0600502)
Ethernet(IB()-0600627)
BCN-C22005-989.fm 1
2 BCN-C22005-989
FR-A800/FR-A800-E FAX 050-3737-0441 FAX
MEMO
BCN-C22005-989.fm 2
1 BCN-C22005-991
FR-A800 /FR-A800Plus
1 / (E.GF) OFF
Pr.249 12E.GF V/F Pr.72 PWM
NOTE 20ms Pr.249 Pr.249
E.GFPr.249 2 E.GF OFF E.GF
E.GF OFF RES
Pr.249 2 E.GF (ALM4) ALM4 Pr.190 Pr.196 ( ) 23123
Pr.67 0 Pr.249 2 E.GF Pr.138 1 Pr.249 2 E.GF
NOTE Pr.190 Pr.196
E.GFPr.249 2 (X51) E.GFPr.249 2
Pr.
249 H101 0
0 1 2
V/F
2 BCN-C22005-991
2 (E.SCF)
Pr.521E.OC1 E.OC3/E.SCF Pr.521 1 E.SCF Pr.521 1 E.SCF OFF E.SCF E.OC1 E.OC3
E.SCF OFF RES
E.SCF (ALM4) ALM4 Pr.190 Pr.196 ( ) 23123
Pr.138 1 E.SCF
NOTE
Pr.190 Pr.196
E.SCF E.SCF (X51) E.SCF E.SCF 20(H14)
Pr.
521 H194 0 0 E.OC1 E.OC3
1 E.SCF
E.SCF FR-LU08
Pr.521 1 Pr.521 (Pr.521=0) E.OC1 E.OC3
OFF
3 BCN-C22005-991
3 / Pr.151 Pr.153
4 Pr.338Pr.339 (X76) RS-485
Pr.
151 M461 0s 0 300s
Y12
153 M463 0.5s 0 300s Pr.152
Y13
Pr.338 0NET 1 Pr.339 0NET 1 2 0NET 1 2
X76
24365
FA
24
2
983-0013 1-5-35 (022)353-7814
(052)719-4337
(022)353-7834
004-0041 2-1-18 (011)890-7515 (011)890-7516
108-0022 3-9-15 (03)3454-5521 (03)5440-7783
224-0053 3963-1 (045)938-5420 (045)935-0066
338-0822 2-21-10 (048)859-7521 (048)858-5601
950-0983 1-4-4 (025)241-7261 (025)241-7262
461-8675 1-1-9 (052)722-7601 (052)719-1270
422-8058 877-2 (054)287-8866 (054)287-8484
920-0811 255 (076)252-9519 (076)252-5458
531-0076 1-4-13 (06)6458-9728 (06)6458-6911
612-8444 8 (075)611-6211 (075)611-6330
670-0996 2-234-1 (079)269-8845 (079)294-4141
732-0802 4-3-26 (082)285-2111 (082)285-7773
700-0951 606-8 (086)242-1900 (086)242-5300
760-0072 1-9-38 (087)831-3186 (087)833-1240
812-0007 3-12-16 (092)483-8208 (092)483-8228 1 (052)719-4333
1 : 9:0019:00: 9:0017:30 2 : 19:00 9:00: 24
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6 052-712-2444 - PC MELIPC 052-712-23702 8Edgecross (NC Machine Tool Optimizer NC )
MELSEC iQ-R/Q/L (CPU Ethernet ) MELSOFT GX (MELSEC iQ-R/Q/L/QnAS/AnS) 052-711-5111 22 MELSEC iQ-F/FX MELSOFT GX (MELSEC iQ-F/FX) 052-725-22713 21 (CC-Link /MELSECNET/Ethernet/ ) 052-712-2578 23 MELSOFT MELSOFT Navigator/MELSOFT Update Manager 052-799-35912 26iQ Sensor Solution MELSOFT MELSOFT MX
052-712-23702 24MELSEC Q80BD WinCPU /C / C MES / / /OPC UA 052-799-35922 25
MELSEC /iQ-R/Q CPU/ SIL2 CPU (MELSEC iQ-R )
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GOT GOT2000/1000 052-712-2417 41 MELSOFT GT 42
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2 IB( )-0600835-C
INSTRUCTION MANUAL (STARTUP) (ENGLISH) CONTENTS
1 INVERTER INSTALLATION AND PRECAUTIONS ...................................................... 3 2 WIRING........................................................................................................................... 4 3 BASIC OPERATION .................................................................................................... 10 4 FAILSAFE SYSTEM WHICH USES THE INVERTER ................................................. 12 5 PRECAUTIONS FOR USE OF THE INVERTER ......................................................... 12 6 PARAMETER LIST ...................................................................................................... 14
This Instruction Manual provides handling information and precautions for use of this product. Please forward this Instruction Manual to the end user.
Electric shock prevention
Fire prevention
Injury prevention
Additional instructions The following instructions must be also followed. If the product is handled incorrectly, it may cause unexpected fault, an injury, or an electric shock.
Safety instructions Do not attempt to install, operate, maintain or inspect this product until you have read through this Instruction Manual and supplementary documents carefully and can use the equipment correctly. Do not use this product until you have a full knowledge of this product mechanism, safety information and instructions. Installation, operation, maintenance and inspection must be performed by qualified personnel. Here, qualified personnel means personnel who meets all the following conditions. A person who took a proper engineering training. Such training may be available at your local Mitsubishi Electric office. Contact your local sales office for schedules and locations.
A person who can access operating manuals for the protective devices (e.g. light curtain) connected to the safety control system. A person who has read and familiarized themselves with the manuals.
In this Instruction Manual, the safety instruction levels are classified into "WARNING" and "CAUTION"
Incorrect handling may cause hazardous conditions, resulting in death or severe injury. Incorrect handling may cause hazardous conditions, resulting in medium or slight injury, or may cause only material damage.
Note that even the level may lead to a serious consequence depending on conditions. Be sure to follow the instructions of both levels as they are critical to personnel safety.
WARNING Do not remove the front cover or the wiring cover while the power of this
product is ON, and do not run this product with the front cover or the wiring cover removed as the exposed high voltage terminals or the charging part of the circuitry can be touched. Otherwise you may get an electric shock.
Even if power is OFF, do not remove the front cover except for wiring or periodic inspection as the inside of this product is charged. Otherwise you may get an electric shock.
Before wiring or inspection, check that the display of the operation panel is OFF. Any person who is involved in wiring or inspection shall wait for 10 minutes or longer after power OFF and check that there are no residual voltage using a tester or the like. The capacitor is charged with high voltage for some time after power OFF, and it is dangerous.
This product must be earthed (grounded). Earthing (grounding) must conform to the requirements of national and local safety regulations and electrical code (NEC section 250, IEC 61140 class 1 and other applicable standards). A neutral-point earthed (grounded) power supply must be used for 400 V class of this product to be compliant with EN standard.
Any person who is involved in wiring or inspection of this product shall be fully competent to do the work.
This product body must be installed before wiring. Otherwise you may get an electric shock or be injured.
Do not touch the setting dial or keys with wet hands. Doing so may cause an electric shock.
Do not subject the cables to scratches, excessive stress, heavy loads or pinching. Doing so may cause an electric shock.
Do not change the cooling fan while power is ON as it is dangerous. Do not touch the printed circuit board or handle the cables with wet hands.
Doing so may cause an electric shock.
WARNING
CAUTION
CAUTION
WARNING Never touch the motor terminals, etc. right after powering OFF as the DC
voltage is applied to the motor for 1 second at powering OFF if the main circuit capacitor capacity is measured. Doing so may cause an electric shock.
Before wiring or inspection for a PM motor, confirm that the PM motor is stopped as a PM motor is a synchronous motor with high-performance magnets embedded inside and high-voltage is generated at the motor terminals while the motor is running even after the power of this product is turned OFF. In an application, such as fan and blower, that the motor may be driven by the load, connect a low-voltage manual contactor at this product output side and keep it open during wiring and inspection of this product. Otherwise you may get an electric shock.
CAUTION The inverter must be installed on a nonflammable wall without holes in it
so that its components cannot be touched from behind. Installing it on or near flammable material may cause a fire.
If the inverter becomes faulty, the inverter power must be switched OFF. A continuous flow of large current may cause a fire.
When using a brake resistor, a sequence that will turn OFF power when a fault signal is output must be configured. Otherwise the brake resistor may excessively overheat due to damage of the brake transistor and such, causing a fire.
Do not connect a resistor directly to the DC terminals P/+ and N/-. Doing so could cause a fire.
Be sure to perform daily and periodic inspections as specified in the Instruction Manual (Detailed). There is a possibility of explosion, damage, or fire if this product is used without inspection.
CAUTION The voltage applied to each terminal must be as specified in the
Instruction Manual (Detailed). Otherwise an explosion or damage may occur.
The cables must be connected to the correct terminals. Otherwise an explosion or damage may occur.
The polarity (+ and -) must be correct. Otherwise an explosion or damage may occur.
While power is ON or for some time after power-OFF, do not touch the inverter as it will be extremely hot. Touching these devices may cause burns.
CAUTION Transportation and installation To prevent injury, wear cut-resistant gloves when opening packaging with
sharp tools. Use proper lifting techniques or a trolley when carrying products. Failure
to do so may lead to injuries. Do not stand or place heavy objects on the product. Do not stack the boxes containing products higher than the number
recommended. When carrying the product, do not hold it by the front cover. It may fall or
break. During installation, caution must be taken not to drop the inverter as doing
so may cause injuries. The product must be installed on a surface that withstands the weight of
the product. Do not install the product on a hot surface. Ensure the mounting orientation of this product is correct. Ensure this product is mounted securely in its enclosure. Do not install or operate the inverter if it is damaged or has parts missing. Prevent conductive items such as screws and metal fragments, or
flammable substances such as oil from entering the inverter.
1
2.9 m/s2 or less for the FR-A840-04320(160K) or higher.
DoS: A denial-of-service (DoS) attack disrupts services by overloading systems or exploiting vulnerabilities, resulting in a denial-of-service (DoS) state.
CAUTION Transportation and installation As the inverter is a precision instrument, do not drop or subject it to
impact. The surrounding air temperature must be between -10 and +50C (non-
freezing) for the inverter at HD (heavy duty), ND (normal duty) (initial setting), or LD (light duty) rating, and between -10 and +40C (non- freezing) for the inverter at SLD (super light duty) rating. Otherwise the inverter may be damaged.
The ambient humidity must be 95% RH or less (non-condensing) for the inverter. Otherwise the inverter may be damaged. (Refer to page 3 for details.)
The temporary storage temperature (applicable to a short limited time such as a transportation time) must be between -20 and +65C. Otherwise the inverter may be damaged.
The inverter must be used indoors (without corrosive gas, flammable gas, oil mist, dust and dirt) Otherwise the inverter may be damaged.
Do not use this product at an altitude above 2500 m. Vibration should not exceed 5.9 m/s2
at 10 to 55 Hz in X, Y, and Z directions. Otherwise the inverter may be damaged. (Refer to page 3 for details.)
If halogen-based materials (fluorine, chlorine, bromine, iodine, etc.), included in fumigants to sterilize or disinfect wooden packages, infiltrate into the product, the product may be damaged. Prevent residual fumigant components from being infiltrated into the product when packaging, or use an alternative sterilization or disinfection method (heat disinfection, etc.). Note that sterilization of disinfection of wooden package should be performed before packing the product.
Wiring Do not install a power factor correction capacitor, surge absorber, or radio
noise filter. These devices on the output side of this product overheat or burn out.
The output of the inverter (output terminals U, V, and W) must be correctly connected to a motor. Otherwise the motor will rotate inversely.
Even with the power OFF, high voltage is still applied to the terminals U, V, and W while the PM motor is running. Ensure the PM motor has stopped before carrying out any wiring.
Never connect a PM motor to a commercial power supply. Connecting a commercial power supply to the input terminals (U, V, W) of a PM motor will burn it out. The PM motor must be connected with the output terminals (U, V, W) of the inverter.
Test operation Before starting operation, confirm or adjust the parameter settings. A
failure to do so may cause some machines to make unexpected motions.
WARNING Usage Stay away from the equipment when the retry function is set as it will
restart suddenly after the product output shutoff. Depending on the product's function settings, the product does not stop its
output even when the STOP/RESET key on the operation panel is pressed. To prepare for it, provide a separate circuit and switch (to turn the product power OFF, or apply a mechanical brake, etc.) for an emergency stop.
Be sure to turn OFF the start (STF/STR) signal before clearing the fault as the product will restart the motor suddenly after a fault is cleared.
Do not use a PM motor for an application where the PM motor is driven by its load and runs at a speed higher than the maximum motor speed.
Use only a three-phase induction motor or PM motor as a load on this product. Connection of any other electrical equipment to the product output may damage the equipment.
Performing pre-excitation (LX signal and X13 signal) under torque control may start the motor running at a low speed even when the start command (STF or STR) is not input. The motor may run also at a low speed when the speed limit value = 0 with a start command input. It must be confirmed that the motor running will not cause any safety problems before performing pre-excitation.
Do not modify the product. Do not remove any part which is not instructed to be removed in the
Instruction Manual (Detailed). Doing so may lead to a failure or damage.
CAUTION Usage The electronic thermal O/L relay function may not be enough for
protection of the motor from overheating. It is recommended to install an external thermal relay or a PTC thermistor for overheat protection.
Do not repeatedly start or stop this product with a magnetic contactor on its input side. Doing so may shorten the life of this product.
Use a noise filter or other means to minimize the electromagnetic interference with other electronic equipment used nearby the product.
Appropriate precautions must be taken to suppress harmonics. Otherwise power harmonics generated from the product may heat/damage a power factor correction capacitor or a generator.
To drive a 400 V class motor with this product, use an insulation- enhanced motor, or take measures to suppress surge voltage. Otherwise surge voltage, which is attributed to the length and thickness of wire, may occur at the motor terminals, causing the motor insulation to deteriorate.
As all parameters return to their initial values after the Parameter clear or All parameter clear is performed, the parameters must be set again as required before the operation is started.
The product can be easily set for high-speed operation. Therefore, consider all things related to the operation such as the performance of a motor and equipment in a system before the setting change.
This product's brake function cannot be used as a mechanical brake. Use a separate device instead.
Perform an inspection and test operation of this product if it has been stored for a long period of time.
To avoid damage to the product due to static electricity, static electricity in your body must be discharged before you touch the product.
CAUTION Usage Only one PM motor can be connected to one of this product. A PM motor must be used under PM sensorless vector control. Do not
use a synchronous motor, induction motor, or synchronous induction motor.
Do not connect a PM motor to the product with it set to the induction motor control setting (initial setting). Do not connect an induction motor to the product with it set to the PM sensorless vector control setting. Doing so will cause failure.
As a process of starting a PM motor, turn ON this product power first, and then close the contactor on the output side of this product.
In order to protect the inverter and the system against unauthorized access by external systems via network, take security measures including firewall settings.
In order to protect security (confidentiality, integrity, and availability) of the inverter and the system against unauthorized access, DoS attack, computer virus, or any other form of cyberattack by external systems via network, take security measures that include firewall or virtual private network (VPN) settings and installation of antivirus software on computers. We shall not be liable for any problems resulting from failures of the inverter or the system that might occur due to DoS attack, unauthorized access, computer virus, or any other form of cyberattack.
Depending on the network environment, the inverter may not operate as intended due to delays or disconnection in communication. Carefully consider the conditions and safety for the inverter on site.
Emergency stop A safety backup such as an emergency brake must be provided for
devices or equipment in a system to prevent hazardous conditions in case of failure of the inverter or an external device controlling the inverter.
If the breaker installed on this product input side trips, check for wiring faults (such as short circuits) and damage to internal parts of the inverter, etc. Identify and remove the cause of the trip before resetting the tripped breaker and applying the power to this product again.
When any protective function is activated, take an appropriate corrective action before resetting this product to resume the operation.
Maintenance, inspection and parts replacement Do not carry out a megger (insulation resistance) test on the control circuit
of this product. Doing so will cause failure. Disposal The product must be treated as industrial waste.
General instruction For clarity, illustrations in this Instruction Manual may be drawn with
covers or safety guards removed. Ensure all covers and safety guards are properly installed prior to starting operation. For details on the PM motor, refer to the Instruction Manual of the PM motor.
Application of caution labels Caution labels are used to ensure safety during use of Mitsubishi Electric inverters. Apply the following labels to the inverter if the "retry function" and/or "automatic restart after instantaneous power failure" have been enabled. For the retry function
For automatic restart after instantaneous power failure
Application of motor control labels Apply the following labels to the inverter to avoid connecting a motor different from those intended for the motor control setting.
CAUTION Retry Function Has Been Selected
Stay away from the motor and machine. They will start suddenly (after given time has elapsed) when alarm occurs.
CAUTION Automatic Restart after Instantaneous Power Failure Has Been Selected
Stay away from the motor and machine. They will start suddenly (after reset time has elapsed) when instantaneous power failure occurs.
Induction motor setting The inverter is set for the induction motor control. IM LED is ON during induction motor control. Do not drive a PM motor.
PM motor control setting The inverter is set for the PM motor control. PM LED is ON during PM motor control. Do not drive an induction motor.
2
INVERTER INSTALLATION AND PRECAUTIONS 3
1 INVERTER INSTALLATION AND PRECAUTIONS
Inverter model
Specification differs by the type. Major differences are shown in the table below.
Conforming to IEC 60721-3-3 3C2/3S2:1994 Applicable for the FR-A820-00340(5.5K) or higher, and the FR-A840-00170(5.5K) or higher.
NOTE In this Instruction Manual, the inverter model name consists of the applicable motor capacity and the rated current. (Example) FR-A820-00046(0.4K)
Inverter placement
Installation environment Before installation, confirm that the following environment conditions are met.
Temperature applicable for a short time, e.g. in transit. For the installation at an altitude above 1000 m, consider a 3% reduction in the rated current per 500 m increase in altitude. 2.9 m/s2 or less for the FR-A840-04320(160K) or higher. Surrounding air temperature is a temperature measured at a measurement position in an enclosure.
Ambient temperature is a temperature outside an enclosure. For the amount of heat generated by the inverter unit, refer to the Instruction Manual (Detailed).
Type Monitor output Initial setting
Built-in EMC filter Control logic Rated
frequency Pr.19 Base frequency voltage
FM (terminal FM equipped model)
Terminal FM: pulse train output Terminal AM: analog voltage output (0 to 10 VDC) OFF Sink logic 60 Hz 9999
(same as the power supply voltage) CA (terminal CA equipped model)
Terminal CA: analog current output (0 to 20 mADC) Terminal AM: analog voltage output (0 to 10 VDC) ON Source logic 50 Hz 8888
(95% of the power supply voltage)
Installation on the enclosure Install the inverter on a strong surface securely with screws. Leave enough clearances and take cooling measures. Avoid places where the inverter is subjected to direct sunlight, high temperature and high humidity. Install the inverter on a nonflammable wall surface. When encasing multiple inverters, install them in parallel as a cooling measure. When designing or building an enclosure for the inverter, carefully consider influencing factors such as heat generation
of the contained devices and the operating environment.
For the FR-A820-00250(3.7K) or lower and FR-A840-00126(3.7K) or lower, allow 1 cm or more clearance. When using the FR-A820-01250(22K) or lower and FR-A840-00620(22K) or lower at the surrounding air temperature of
40C or less (30C or less for the SLD rated inverter), side-by-side installation (0 cm clearance) is available. There needs to be a space of at least 30 cm in front of the inverter to replace the cooling fan of the FR-A840-04320(160K)
or higher. Refer to the Instruction Manual (Detailed) for fan replacement.
Item Description Surrounding air temperature
LD, ND (initial setting), HD -10 to +50C (non-freezing) Enclosure SLD -10 to +40C (non-freezing)
Ambient humidity With circuit board coating (conforming to IEC 60721-3-3:1994 3C2/3S2): 95% RH or less (non-condensing), Without circuit board coating: 90% RH or less (non-condensing)
Storage temperature -20 to +65C
Atmosphere Indoors (free from corrosive gas, flammable gas, oil mist, dust and dirt) Altitude 2500 m or lower
Vibration 5.9 m/s2 or less at 10 to 55 Hz (directions of X, Y, Z axes)
FR - -A8 02 - -1 GN00046
400 V class
Symbol Voltage class 200 V class
4 2
CA
Symbol Type FM
2 1
Symbol Description
0.4K to 280K Applicable motor capacity (ND) (kW)
00023 to 06830 Inverter SLD rated current (A) Symbol Function
GN CC-Link IE TSN functionality Symbol Circuit board coating
WithoutNone
With With
Plated conductor Without
With Without
06 60
Capacity plate
Inverter model
Serial number
Rating plate
FR-A820-00046-1-GN
Input rating Output rating
SERIAL
Inverter model
Country of origin
Fix six positions for the FR-A840-04320(160K) or higher.
Clearances (side)
Inverter
Clearances (front)
10 cm or more
10 cm or more
10 cm or more
10 cm or more
20 cm or more
20 cm or more
5 cm or more 1,2
5 cm or more
1,2
FR-A820-03160(55K) or lower, FR-A840-01800(55K) or lower
FR-A820-03800(75K) or higher, FR-A840-02160(75K) or higher
Vertical
5 cm or more 1,3
Allow clearance.
Measurement position
Measurement position
Inverter 5 cm 5 cm
5 cm
Terminal connection diagrams
2 WIRING
2.1 Terminal connection diagrams FM type
For the FR-A820-03800(75K) or higher, the FR-A840-02160(75K) or higher, and when a 75 kW or higher motor is used, always connect a DC reactor (FR-HEL), which is available as an option. (To select a DC reactor, refer to the Instruction Manual (Detailed), and select one according to the applicable motor capacity.) When connecting a DC reactor, if a jumper is installed across terminals P1 and P/+, remove the jumper before installing the DC reactor. (The jumper is not installed for the FR-A820-03800(75K) or higher and the FR-A840-02160(75K) or higher.)
When using separate power supply for the control circuit, remove the jumper between R1/L11 and S1/L21. The function of these terminals can be changed with the input terminal assignment (Pr.178 to Pr.189). (Refer to page 14.) Terminal JOG is also used as the pulse train input terminal. Use Pr.291 to choose JOG or pulse. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267). To input a voltage, set the voltage/current input switch OFF. To
input a current, set the voltage/current input switch ON. Terminals 10 and 2 are also used as a PTC input terminal. (Pr.561) (Refer to the Instruction Manual (Detailed).) It is recommended to use 2 W 1 k when the frequency setting signal is changed frequently. If connecting a brake resistor, remove the jumper between PR and PX (FR-A820-00046(0.4K) to 00490(7.5K), FR-A840-00023(0.4K) to 00250(7.5K)). Connect a brake resistor across terminals P/+ (P3) and PR. (Terminal PR is equipped in FR-A820-00046(0.4K) to 01250(22K), FR-A840-00023(0.4K) to 01800(55K).)
Install a thermal relay to prevent overheating and damage of discharging resistors. (Refer to the Instruction Manual (Detailed).) Connect only a brake resistor to terminal P3. The function of these terminals can be changed with the output terminal assignment (Pr.195, Pr.196). (Refer to page 14.) The function of these terminals can be changed with the output terminal assignment (Pr.190 to Pr.194). (Refer to page 14.) Terminal F/C (FM) can be used to output pulse trains as open collector output by setting Pr.291. Not required when calibrating the scale with the operation panel.
NOTE To prevent a malfunction due to noise, keep the signal cables 10 cm or more away from the power cables. Also, separate the main circuit cables at the input side from
the main circuit cables at the output side. After wiring, wire offcuts must not be left in the inverter. Wire offcuts can cause an alarm, failure or malfunction. Always keep the inverter clean. When drilling mounting
holes in an enclosure etc., take caution not to allow chips and other foreign matter to enter the inverter. Set the voltage/current input switch correctly. Incorrect setting may cause a fault, failure or malfunction.
Three-phase AC power supply
MCCB R/L1 S/L2 T/L3
R1/L11 S1/L21
PC24VDC power supply (Common for external power supply transistor)
Forward rotation start
Reverse rotation start
Start self-holding selection
Middle speed
High speed
Low speed
Jog operation
Second function selection
Output stop
Reset Terminal 4 input selection
(Current input selection) Selection of automatic restart
after instantaneous power failure
Frequency setting signals (Analog) 10E(+10V) 10(+5V)
2
(Analog common)
2 3
1
Auxiliary input
Terminal 4 input (Current input)
1
4
Frequency setting potentiometer 1/2W1k
Running
Up to frequency
Instantaneous power failure Overload
Frequency detection
Open collector output common Sink/source common
F/C (FM)
SD
Control input signals (No voltage input allowed)
Jumper
Motor
Relay output 1 (Fault output)
C1
B1
A1
U V W
P1
Indicator (Frequency meter, etc.)
+ -
(-)
(+) Analog signal output (0 to 10VDC)
Earth (Ground)
AM
5 DC0 to 5V selectable DC0 to 10V
Multi-speed selection
Open collector output
Moving-coil type 1mA full-scale
Contact input common
Calibration resistor
Earth (Ground)
Main circuit terminal Control circuit terminal
DC0 to 5V DC0 to 10V selectable
MC
Main circuit
C2
B2
A2 Relay output 2
Relay output
M
DC0 to 20mA
DC0 to 5V DC0 to 10V
selectable DC4 to 20mA TXD+
Terminating resistor
TXD-
RXD+ RXD-
GND (SG)
Data transmission
GND
RS-485 terminals
PU connector USB A connector USB mini B connector
SI N
K
SO U
R C
E
Connector for plug-in option connection
STF
STR
STP(STOP)
RH
RM
RL
JOG
RT
MRS
RES
AU
CS
SD
RUN
SU
IPF
OL
FU
SE
Data reception
(+) (-)
5
EMC filter ON/OFF connecter
ON
OFF
+2424V external power supply input SD
Common terminal
VCC
(+) (-)
5V (Permissible load current 100mA)
Sink logic
Earth (Ground)
R
R
Connector 2 Connector 3
CC-Link IE TSN communication connector
PORT 1 PORT 2
Jumper
Jumper
PX PR N/-P/+
Control circuit
Initial value
Initial value
Initial value
ON
42 OFF
Voltage/current input switch
Brake unit (Option)
DC reactor (FR-HEL)
Brake resistor (FR-ABR)
Safety monitor output
Safety monitor output common
So (SO)
SOC
S1
S2
PC
SD SIC
Safety stop signal
Safety stop input (Channel 1)
Shorting wire
Safety stop input common
Safety stop input (Channel 2)
Jumper
P1
Earth (Ground)
R
P3 PR N/-P/+
Brake unit (Option)
DC reactor (FR-HEL)
Brake resistor
Inrush current limit circuit
FR-A820-00770(15K) to 01250(22K), FR-A840-00470(18.5K) to 01800(55K)
24V
Inrush current limit circuit
24V
Output shutoff circuit
4 WIRING
Terminal connection diagrams
CA type
For the FR-A820-03800(75K) or higher, the FR-A840-02160(75K) or higher, and when a 75 kW or higher motor is used, always connect a DC reactor (FR-HEL), which is available as an option. (To select a DC reactor, refer to the Instruction Manual (Detailed), and select one according to the applicable motor capacity.) When connecting a DC reactor, if a jumper is installed across terminals P1 and P/+, remove the jumper before installing the DC reactor. (The jumper is not installed for the FR-A820-03800(75K) or higher and the FR-A840-02160(75K) or higher.)
When using separate power supply for the control circuit, remove the jumper between R1/L11 and S1/L21. The function of these terminals can be changed with the input terminal assignment (Pr.178 to Pr.189). (Refer to page 14.) Terminal JOG is also used as the pulse train input terminal. Use Pr.291 to choose JOG or pulse. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267). To input a voltage, set the voltage/current input switch OFF. To
input a current, set the voltage/current input switch ON. Terminals 10 and 2 are also used as a PTC input terminal. (Pr.561) (Refer to the Instruction Manual (Detailed).) It is recommended to use 2 W 1 k when the frequency setting signal is changed frequently. If connecting a brake resistor, remove the jumper between PR and PX (FR-A820-00046(0.4K) to 00490(7.5K), FR-A840-00023(0.4K) to 00250(7.5K)). Connect a brake resistor across terminals P/+ (P3) and PR. (Terminal PR is equipped in FR-A820-00046(0.4K) to 02330(45K), FR-A840-00023(0.4K) to 01800(55K).)
Install a thermal relay to prevent overheating and damage of discharging resistors. (Refer to the Instruction Manual (Detailed).) Connect only a brake resistor to terminal P3. The function of these terminals can be changed with the output terminal assignment (Pr.195, Pr.196). (Refer to page 14.) The function of these terminals can be changed with the output terminal assignment (Pr.190 to Pr.194). (Refer to page 14.)
NOTE To prevent a malfunction due to noise, keep the signal cables 10 cm or more away from the power cables. Also, separate the main circuit cables at the input side from
the main circuit cables at the output side. After wiring, wire offcuts must not be left in the inverter. Wire offcuts can cause an alarm, failure or malfunction. Always keep the inverter clean. When drilling mounting
holes in an enclosure etc., take caution not to allow chips and other foreign matter to enter the inverter. Set the voltage/current input switch correctly. Incorrect setting may cause a fault, failure or malfunction.
Analog current output (0 to 20mADC)
F/C (CA)
R
Three-phase AC power supply
MCCB R/L1 S/L2 T/L3
R1/L11 S1/L21
PC
Common for external power supply transistor
Forward rotation start
Reverse rotation start
Start self-holding selection
Middle speed
High speed
Low speed
Jog operation
Second function selection
Output stop
Reset Terminal 4 input selection
(Current input selection) Selection of automatic restart
after instantaneous power failure
Frequency setting signals (Analog) 10E(+10V) 10(+5V)
2
(Analog common)
2 3
1
Auxiliary input
Terminal 4 input (Current input)
1
4
Frequency setting potentiometer 1/2W1k
Running
Up to frequency
Instantaneous power failure Overload
Frequency detection
Open collector output common Sink/source common
Control input signals (No voltage input allowed)
Jumper
Motor
Relay output 1 (Fault output)
C1
B1
A1
U V W
P1
(-)
(+)
(-)
(+)
Analog signal output
Earth (Ground)
AM
5DC0 to 5V selectable DC0 to 10V
(DC0 to 10V)
Multi-speed selection
Open collector output
Contact input common
Earth (Ground)
Main circuit terminal Control circuit terminal
DC0 to 5V DC0 to 10V selectable
MC
Main circuit
C2
B2
A2 Relay output 2
Relay output
M
DC0 to 20mA
DC0 to 5V DC0 to 10V
selectable DC4 to 20mA TXD+
Terminating resistor
TXD-
RXD+ RXD-
Data transmission
GND
RS-485 terminals
SI N
K
SO U
R C
E
STF
STR
STP(STOP)
RH
RM
RL
JOG
RT
MRS
RES
AU
CS
SD
RUN
SU
IPF
OL
FU
SE
Data reception
(+) (-)
5
EMC filter ON/OFF connecter
ON
OFF
+2424V external power supply input
VCC
(+) (-)
5V (Permissible load current 100mA)
Source logic
Earth (Ground)
R
Jumper
Jumper
PX PR N/-P/+
Control circuit
Initial value
Initial value
Initial value
ON
42 OFF
Voltage/current input switch
Brake unit (Option)
DC reactor (FR-HEL)
Brake resistor (FR-ABR)
Safety monitor output
Safety monitor output common
So (SO)
SOC
Safety stop signal
Safety stop input (Channel 1)
Shorting wire
Safety stop input common
Safety stop input (Channel 2)
S1
S2
PC
SD SIC
SD
24VDC power supply
Jumper
P1
Earth (Ground)
R
P3 PR N/-P/+
Brake unit (Option)
DC reactor (FR-HEL)
Brake resistor
FR-A820-00770(15K) to 01250(22K), FR-A840-00470(18.5K) to 01800(55K)
GND (SG)
Inrush current limit circuit
PU connector USB A connector USB mini B connector
Connector for plug-in option connection
Connector 2 Connector 3
CC-Link IE TSN communication connector
PORT 1 PORT 2
Output shutoff circuit
24V
Inrush current limit circuit
Common terminal
24V
WIRING 5
Main circuit terminals
2.2 Main circuit terminals Cable gauge of main circuit terminals and earth (ground) terminals Use an appropriate cable gauge to suppress the voltage drop to 2% or less. If the wiring distance is long between the inverter and motor, the voltage drop in the main circuit will cause the motor torque to decrease especially at a low speed. The following table shows inverter/cable combinations for a wiring length of 20 m.
200 V class (220 V input power supply, 150% overload current rating for 1 minute)
400 V class (440 V input power supply, 150% overload current rating for 1 minute)
For FR-A820-03160(55K) or lower and FR-A840-01800(55K) or lower, this cable gauge is with the continuous maximum permissible temperature of 75C (HIV cable (600 V class 2 vinyl-insulated cable), etc.). Assumes that the surrounding air temperature is 50C or less and the wiring distance is 20 m or less. For FR-A820-03800(75K) or higher and FR-A840-02160(75K) or higher, this cable gauge is with the continuous maximum permissible temperature of 90C or higher (LMFC (heat resistant flexible cross-linked polyethylene insulated cable), etc.). Assumes that the surrounding air temperature is 50C or less and the wiring is in- enclosure.
For all the 200 V class capacities and FR-A840-01160(45K) or lower, this cable gauge is with the continuous maximum permissible temperature of 75C (THHW cable). This is assumes a surrounding air temperature of 40C or less and wiring distance of 20 m or less. For FR-A840-01800(55K) or higher, this cable gauge is with continuous maximum permissible temperature of 90C (THHN cable). This assumes a surrounding air temperature of 40C or lower and in-enclosure wiring. (For the use in the United States or Canada, refer to page 24.)
For FR-A820-00770(15K) or lower and FR-A840-01160(45K) or lower, the cable gauge is with the continuous maximum permissible temperature of 70C (PVC cable). This assumes a surrounding air temperature of 40C or less and wiring distance of 20 m or less. For FR-A820-00930(18.5K) or higher and FR-A840-01800(55K) or higher, this cable gauge is with continuous maximum permissible temperature of 90C (XLPE cable). This assumes a surrounding air temperature of 40C and in-enclosure wiring.
The terminal screw size indicates the size of the terminal screw for R/L1, S/L2, T/L3, U, V, W, PR, PX, P/+, N/-, P1, P3, and the screw for earthing (grounding). The screw size for PR and PX terminals of FR-A820-00340(5.5K) and FR-A820-00490(7.5K) is indicated in parentheses. The screw size for earthing (grounding) of FR-A820-00930(18.5K) or higher is indicated in parentheses. The screw size for P/+ terminal for connecting an option to FR-A840-03250(110K) or FR-A840-03610(132K) is indicated in parentheses. The screw size for earthing (grounding) of FR-A840-04320(160K) or higher is indicated in parenthesis.
The line voltage drop can be calculated by the following formula:
Line voltage drop [V] = wire resistance [m/m] wiring distance [m] current [A] / 1000 Use a larger diameter cable when the wiring distance is long or when it is desired to decrease the voltage drop (torque reduction) in the low speed range.
Applicable inverter model
Terminal screw size
Tightening torque (Nm)
Crimp terminal Cable gauge
HIV cables, etc. (mm2) AWG/MCM PVC cables, etc. (mm2) R/L1, S/L2, T/L3
U, V, W R/L1, S/L2, T/L3
U, V, W P/+, P1
Earthing (grounding)
cable
R/L1, S/L2, T/L3
U, V, W R/L1, S/L2, T/L3
U, V, W Earthing
(grounding) cable
FR-A820-00046(0.4K) to 00167(2.2K) M4 1.5 2-4 2-4 2 2 2 2 14 14 2.5 2.5 2.5
FR-A820-00250(3.7K) M4 1.5 5.5-4 5.5-4 3.5 3.5 3.5 3.5 12 12 4 4 4 FR-A820-00340(5.5K) M5(M4) 2.5 5.5-5 5.5-5 5.5 5.5 5.5 5.5 10 10 6 6 6 FR-A820-00490(7.5K) M5(M4) 2.5 14-5 8-5 14 8 14 5.5 6 8 16 10 16 FR-A820-00630(11K) M5 2.5 14-5 14-5 14 14 14 8 6 6 16 16 16 FR-A820-00770(15K) M6 4.4 22-6 22-6 22 22 22 14 4 4 25 25 16 FR-A820-00930(18.5K) M8(M6) 7.8 38-8 22-8 38 22 38 14 2 4 35 25 25 FR-A820-01250(22K) M8(M6) 7.8 38-8 38-8 38 38 38 22 2 2 35 35 25 FR-A820-01540(30K) M8(M6) 7.8 60-8 60-8 60 60 60 22 1/0 1/0 50 50 25 FR-A820-01870(37K) M10(M8) 26.5 80-10 60-10 80 60 80 22 3/0 1/0 70 70 35 FR-A820-02330(45K) M10(M8) 26.5 100-10 100-10 100 100 100 38 4/0 4/0 95 95 50 FR-A820-03160(55K) M12(M8) 46 100-12 100-12 100 100 100 38 4/0 4/0 95 95 50 FR-A820-03800(75K) M12(M8) 46 150-12 150-12 125 125 125 38 250 250 120 120 FR-A820-04750(90K) M12(M8) 46 150-12 150-12 150 150 150 38 300 300 150 150
Applicable inverter model
Terminal screw size
Tightening torque (Nm)
Crimp terminal Cable gauge
HIV cables, etc. (mm2) AWG/MCM PVC cables, etc. (mm2) R/L1, S/L2, T/L3
U, V, W R/L1, S/L2, T/L3
U, V, W P/+, P1
Earthing (grounding)
cable
R/L1, S/L2, T/L3
U, V, W R/L1, S/L2, T/L3
U, V, W Earthing
(grounding) cable
FR-A840-00023(0.4K) to 00126(3.7K) M4 1.5 2-4 2-4 2 2 2 2 14 14 2.5 2.5 2.5
FR-A840-00170(5.5K) M4 1.5 2-4 2-4 2 2 3.5 3.5 12 14 2.5 2.5 4 FR-A840-00250(7.5K) M4 1.5 5.5-4 5.5-4 3.5 3.5 3.5 3.5 12 12 4 4 4 FR-A840-00310(11K) M5 2.5 5.5-5 5.5-5 5.5 5.5 5.5 5.5 10 10 6 6 10 FR-A840-00380(15K) M5 2.5 8-5 5.5-5 8 5.5 8 5.5 8 10 10 6 10 FR-A840-00470(18.5K) M6 4.4 14-6 8-6 14 8 14 8 6 8 16 10 16 FR-A840-00620(22K) M6 4.4 14-6 14-6 14 14 22 14 6 6 16 16 16 FR-A840-00770(30K) M6 4.4 22-6 22-6 22 22 22 14 4 4 25 25 16 FR-A840-00930(37K) M8 7.8 22-8 22-8 22 22 22 14 4 4 25 25 16 FR-A840-01160(45K) M8 7.8 38-8 38-8 38 38 38 22 1 2 50 50 25 FR-A840-01800(55K) M8 7.8 60-8 60-8 60 60 60 22 1/0 1/0 50 50 25 FR-A840-02160(75K) M10 26.5 60-10 60-10 60 60 60 22 1/0 1/0 50 50 25 FR-A840-02600(90K) M10 26.5 60-10 60-10 60 60 80 22 3/0 3/0 50 50 25 FR-A840-03250(110K) M10(M12) 26.5 80-10 80-10 80 80 80 22 3/0 3/0 70 70 35 FR-A840-03610(132K) M10(M12) 26.5 100-10 100-10 100 100 100 38 4/0 4/0 95 95 50 FR-A840-04320(160K) M12(M10) 46 150-12 150-12 125 125 150 38 250 250 120 120 70 FR-A840-04810(185K) M12(M10) 46 150-12 150-12 150 150 150 38 300 300 150 150 95 FR-A840-05470(220K) M12(M10) 46 100-12 100-12 2100 2100 2100 60 24/0 24/0 295 295 95 FR-A840-06100(250K) M12(M10) 46 100-12 100-12 2100 2100 2125 60 24/0 24/0 295 295 95 FR-A840-06830(280K) M12(M10) 46 150-12 150-12 2125 2125 2125 60 2250 2250 2120 2120 120
6 WIRING
Control circuit terminal
NOTE The selection example is for the ND rating. For selecting the SLD rating, LD rating, or HD rating, refer to the Instruction Manual (Detailed). Tighten the terminal screw to the specified torque. A screw that has been tightened too loosely can cause a short circuit or malfunction. A screw that has been
tightened too tightly can cause a short circuit or malfunction due to the unit breakage. Use crimp terminals with insulation sleeves to wire the power supply and motor.
2.3 Control circuit terminal Wiring precautions It is recommended to use a cable of 0.3 to 0.75 mm2 for connection to the control circuit terminals. The wiring length should be 30 m (200 m for the terminal FM) at the maximum. Use two or more parallel micro-signal contacts or twin contacts to prevent contact faults when using contact inputs since
the control circuit input signals are micro-currents. To suppress EMI, use shielded or twisted cables for the control circuit terminals and run them away from the main and
power circuits (including the 200 V relay sequence circuit). For the cables connected to the control circuit terminals, connect their shields to the common terminal of the connected control circuit terminal. When connecting an external power supply to the terminal PC, however, connect the shield of the power supply cable to the negative side of the external power supply. Do not directly earth (ground) the shield to the enclosure, etc.
Always apply a voltage to the fault output terminals (A1, B1, C1, A2, B2, C2) via a relay coil, lamp, etc. Do not connect any terminal SD on the inverter and the 0V terminal of the external power supply (when the sink logic is selected).
Wiring method Crimp terminals commercially available (as of October 2020)
A ferrule terminal with an insulation sleeve compatible with the MTW wire which has a thick wire insulation. Applicable for the terminal A1, B1, C1, A2, B2 and C2 only.
Wire gauge (mm2) Ferrule part No.
Manufacturer Crimping tool model No.With insulation
sleeve Without insulation
sleeve For UL wire
0.3 AI 0,34-10TQ
Phoenix Contact Co., Ltd. CRIMPFOX 6
0.5 AI 0,5-10WH AI 0,5-10WH-GB
0.75 AI 0,75-10GY A 0,75-10 AI 0,75-10GY-GB
1 AI 1-10RD A 1-10 AI 1-10RD/1000GB
1.25, 1.5 AI 1,5-10BK A 1,5-10 AI 1,5-10BK/1000GB
0.75 (for two wires) AI-TWIN 20,75-10GY
Wire gauge (mm2) Blade terminal part No. Insulation cap part No. Manufacturer Crimping tool
model No. 0.3 to 0.75 BT 0.75-11 VC 0.75 NICHIFU Co., Ltd. NH 69
Micro signal contacts Twin contacts
WIRING 7
CC-Link IE TSN function
2.4 CC-Link IE TSN function
CC-Link IE TSN communication specifications The communication specification varies depending on the specification of the master.
Supported by the FR-A800-GN manufactured in September 2020 or later. Supported by the FR-A800-GN manufactured in October 2022 or later. Protocol version 2.0 is compatible with version 1.0 for the authentication class B product. Consider the scaling factor in the multiple period setting to change the basic period setting on the engineering software (GX Works3).
Item Description
Communication speed 1 Gbps 100 Mbps
CC-Link IE TSN authentication class B (Compatible with protocol versions 2.0 or 1.0) A (Compatible with protocol versions 2.0)
Cycle time CC-Link IE TSN authentication class B: 125 s to 10000 s (1 Gbps) / 500 s to 10000 s (100 Mbps) CC-Link IE TSN authentication class A: 1000 s to 6400000 s
Communication method CC-Link IE TSN authentication class B: Time sharing method CC-Link IE TSN authentication class A: Time-managed polling method
Time synchronization CC-Link IE TSN authentication class B: Supported (compliant with IEEE 802.1AS and IEEE 1588v2) CC-Link IE TSN authentication class A: Not supported
Maximum number of connected units 121 units (sum of master and remote stations)
Maximum distance between nodes 100 m
Maximum number of branches No upper limit within the same Ethernet system
Topology CC-Link IE TSN authentication class B: Line, star, ring, or a combination of line and star CC-Link IE TSN authentication class A: Line, star, or a combination of line and star
Connection cable Ethernet cable (IEEE802.3 1000BASE-T compliant cable and ANSI/TIA/EIA-568-B (Category 5e) compliant shielded 4-pair branched cable)
Connector Shielded RJ-45
Node type Remote station
Maximum cyclic size (of one node)
RX 64 bits
RY 64 bits
RWr 128 words
RWw 128 words
8 WIRING
CC-Link IE TSN function
Parts
NOTE Do not remove the CC-Link IE TSN communication circuit board or the earth plate.
Connection cable For wiring, use the 1000BASE-T compliant Ethernet cables.
Recommended products (as of October 2020 )
SC-E5EW cable is for in-enclosure and indoor uses. SC-E5EW-L cable is for outdoor use.
NOTE For CC-Link IE TSN wiring, use the recommended wiring components by CC-Link Partner Association. Depending on the cable connector shape, the cable may not be able to be connected to the communication connector.
Hubs To connect only the authentication class B devices in star topology when the communication speed of the master station is 1 Gbps, use a CC-Link IE TSN compatible switching hub (TSN switching hub). Industrial switching hub
Ethernet cable Connector Type
Category 5e or higher (Double shielded/STP) Straight cable RJ-45 connector
The following conditioning cables: IEEE 802.3 (1000BASE-T) ANSI/TIA/EIA-568-B (Category 5e)
Model Manufacturer
SC-E5EW series Mitsubishi Electric System & Service Co., Ltd.
Name Description
TSN switching hub CC-Link IE TSN compatible switching hub compliant with the CC-Link IE TSN conformance class B certified by the CC-Link Partner Association.
RUN ACT
LINK1 ERR
LINK2 L.ERR
X16 X1
0 1 2 3 4 5 6 7 8 9 A B C
D E F 0 1 2 3 4 5 6 7 8 9 A B
C D
E F
1 2 3 4
O N
Connector for communication (PORT2)
Operation status indication LED
Connector for communication (PORT1)
CC-Link IE TSN communication circuit board
Switch assembly for user setting Station number switches
Earth plate
WIRING 9
Operation panel (FR-DU08)
Ethernet cable connection Connect or remove an Ethernet cable after switching the power of the inverter OFF. PORT1 and PORT2 do not need to be distinguished.
When only one connector is used in star topology, either PORT1 or PORT2 is applicable. When using two connectors for line topology and ring topology, an Ethernet cable can be connected to the connectors in any combination. For example,
the cable can be connected between PORT1s or between PORT1 and PORT2.
NOTE For details on CC-Link IE TSN communication, refer to the CC-Link IE TSN Function Manual.
3 BASIC OPERATION
3.1 Operation panel (FR-DU08)
No. Name Description
(a) Setting dial
The setting dial of the Mitsubishi Electric inverters. Turn the setting dial to change the setting of frequency or parameter, etc. Press the setting dial to perform the following operations: To display a set frequency in the monitoring mode (The monitor item shown on the display can be changed by using Pr.992.) To display the present setting during calibration To display a fault history number in the fault history mode
(b) MODE key
Switches the operation panel to a different mode. The easy setting of the inverter operation mode is enabled by pressing this key simultaneously with [PU/EXT] key. Every key on the operation panel becomes inoperable by holding this key for 2 seconds. The key inoperable function is invalid when Pr.161="0 (initial setting)". (Refer to the FR-A800 Instruction Manual (Detailed).)
(c) SET key Confirms each selection. When this key is pressed during inverter operation, the monitor item changes. (The monitor item can be changed according to the settings of Pr.52, Pr.774 to Pr.776.)
(d) ESC key Goes back to the previous display. Holding this key for a longer time changes the display back to the monitor mode.
(e) PU/EXT key
Switches between the PU operation mode, the PUJOG operation mode, and the External operation mode. The easy setting of the inverter operation mode is enabled by pressing this key simultaneously with [MODE] key. Also cancels the PU stop warning.
Connection between PORT1 and PORT1, PORT2 and PORT2
Connection between PORT1 and PORT2
To the next connector for communication (PORT2)
To the next connector for communication (PORT2)
Connector for
communication (PORT2)
Connector for
communication (PORT1)
Connector for
communication (PORT2)
Connector for
communication (PORT1)
Connector for
communication (PORT2)
Connector for
communication (PORT1)
Connector for
communication (PORT2)
Connector for
communication (PORT1)
(a)
(b) (c) (d)
(e)
10 WIRING
Operation panel (FR-DU08)
3.1.1 Basic operation (factory setting)
For the details of operation modes, refer to the Instruction Manual (Detailed). The monitor items can be changed. (Refer to the Instruction Manual (Detailed).) For the details of the trace function, refer to the Instruction Manual (Detailed). For the details of fault history, refer to the Instruction Manual (Detailed). The USB memory mode indication appears while a USB memory device is connected. Refer to the Instruction Manual (Detailed) for the details of the USB memory
mode.
Operation mode switchover/Frequency setting Fu
nc tio
n M
on ito
r Pa
ra m
et er
s et
tin g
Fa ul
t h is
to ry Blinking Blinking Blinking
External operation mode(At power-ON)
First screen (Output frequency*2 monitoring)
PU operation mode PU Jog operation mode
Second screen (Output current*2 monitoring)
Third screen (Output voltage monitoring)
Value change
(Example)
Frequency setting written and complete.
Alternating
The last eight fault records can be displayed. (On the display of the last fault record (fault record 1), a decimal point LED is ON.)
The present setting displayed.
Value change Parameter write complete
Alternating (Example)
(Example) (Example) (Example)
Parameter copy
Initial value change listIPM parameter initialization
Parameter clear All parameter clear Fault history clear
Automatic parameter setting
Trace function
Fault record 1 Fault record 2 Fault record 8
When the fault history is empty, is displayed.
Group parameter setting
Hold down
WIRING 11
4 FAILSAFE SYSTEM WHICH USES THE INVERTER When a fault is detected by the protective function, the protective function activates and output a Fault (ALM) signal. However, a fault signal may not be output at an inverter's fault occurrence when the detection circuit or output circuit fails, etc. Although Mitsubishi Electric assures the best quality products, provide an interlock which uses inverter status output signals to prevent accidents such as damage to the machine when the inverter fails for some reason. Also, at the same time consider the system configuration where a failsafe from outside the inverter, without using the inverter, is enabled even if the inverter fails.
Interlock method which uses the inverter status output signals By combining the inverter output signals to provide an interlock as shown below, an inverter failure can be detected.
Backup method outside the inverter Even if the interlock is provided by the inverter status signal, enough failsafe is not ensured depending on the failure status of the inverter itself. For example, if an inverter CPU fails in a system interlocked with the inverter's fault, start, and RUN signals, no fault signal will be output and the RUN signal will be kept ON because the inverter CPU is down. Provide a speed detector to detect the motor speed and current detector to detect the motor current and consider the backup system such as performing a check as below according to the level of importance of the system.
Start signal and actual operation check Check the motor running and motor current while the start signal is input to the inverter by comparing the start signal to the inverter and detected speed of the speed detector or detected current of the current detector. Note that the current is flowing through the motor while the motor coasts to stop, even after the inverter's start signal is turned OFF. For the logic check, configure a sequence considering the inverter's deceleration time. In addition, it is recommended to check the three-phase current when using the current detector.
Command speed and actual operation check Check for a gap between the actual speed and commanded speed by comparing the inverter's speed command and the speed detected by the speed detector.
5 PRECAUTIONS FOR USE OF THE INVERTER The FR-A800 series inverter is a highly reliable product, but incorrect peripheral circuit making or operation/handling method may shorten the product life or damage the product. Before starting operation, always recheck the following points.
Use crimp terminals with insulation sleeves to wire the power supply and the motor. Application of power to the output terminals (U, V, W) of the inverter will damage the inverter. Never perform such wiring. After wiring, wire offcuts must not be left in the inverter.
Wire offcuts can cause an alarm, failure or malfunction. Always keep the inverter clean. When drilling mounting holes in an enclosure etc., take caution not to allow chips and other foreign matter to enter the inverter.
Use an appropriate cable gauge to suppress the voltage drop to 2% or less. If the wiring distance is long between the inverter and motor, a voltage drop in the main circuit will cause the motor torque to decrease especially during the output of a low frequency. Refer to page 6 for the recommended cable gauge.
Keep the total wiring length within the specified length. In long distance wiring, charging currents due to stray capacitance in the wiring may degrade the fast-response current limit operation or cause the equipment on the inverter's output side to malfunction. Pay attention to the total wiring length. (Refer to Chapter 2 of the Instruction Manual (Detailed).)
Electromagnetic wave interference The input/output (main circuit) of the inverter includes high frequency components, which may interfere with the communication devices (such as AM radios) used near the inverter. In this case, activate the EMC filter (turn ON the EMC filter ON/OFF connector) to minimize interference. (Refer to Chapter 3 of the Instruction Manual (Detailed).)
Interlock method Check method Used signals Refer to
Inverter protective function operation
Operation check of an alarm contact. Circuit error detection by negative logic. Fault output (ALM) signal
Chapter 5 of the Instruction Manual (Detailed)
Inverter operating status Operation ready signal check. Inverter operation ready (RY) signal Chapter 5 of the Instruction Manual (Detailed)
Inverter running status Logic check of the start signal and running signal.
Start signal (STF signal, STR signal) Inverter running (RUN) signal
Chapter 5 of the Instruction Manual (Detailed)
Inverter running status Logic check of the start signal and output current.
Start signal (STF signal, STR signal) Output current detection signal (Y12 signal)
Chapter 5 of the Instruction Manual (Detailed)
Inverter Controller
System failure
To the alarm detection sensor
Sensor (speed, temperature,
air volume, etc.)
12 FAILSAFE SYSTEM WHICH USES THE INVERTER
Electrical corrosion of the bearing When a motor is driven by the inverter, axial voltage is generated on the motor bearing, which may cause electrical corrosion of the bearing in rare cases depending on: condition of the grease used for the bearing, wiring, load, operating conditions of the motor, or specific inverter settings (high carrier frequency, EMC filter ON). Contact your sales representative to take appropriate countermeasures for the motor. The following shows examples of countermeasures for the inverter. Decrease the carrier frequency. Turn OFF the EMC filter. Provide a common mode choke on the output side of the inverter. (This is effective regardless of the EMC filter ON/OFF connector setting.)
Recommended common mode choke: FT-3KM F series FINEMET common mode choke cores manufactured by Hitachi Metals, Ltd. FINEMET is a registered trademark of Hitachi Metals, Ltd.
Do not install a power factor correction capacitor, surge suppressor or capacitor type filter on the inverter's output side. Doing so will cause the inverter to trip or the capacitor and surge suppressor to be damaged. If any of the above devices is connected, immediately remove it.
For some short time after the power-OFF, a high voltage remains in the smoothing capacitor, and it is dangerous. A smoothing capacitor holds high voltage some time after power-OFF. When accessing the inverter for inspection, wait for at least 10 minutes after the power supply has been switched OFF, and then make sure that the voltage across the main circuit terminals P/+ and N/- of the inverter is low enough using a tester, etc.
If "EV" is displayed on the operation panel, turn OFF the 24 V external power supply before performing wiring. A short circuit or earth (ground) fault on the inverter's output side may damage the inverter module.
Fully check the insulation resistance of the circuit prior to inverter operation since repeated short circuits caused by peripheral circuit inadequacy or an earth (ground) fault caused by wiring inadequacy or reduced motor insulation resistance may damage the inverter module.
Fully check the to-earth (ground) insulation and phase-to-phase insulation of the inverter's output side before power-ON. Especially for an old motor or use in hostile atmosphere, securely check the motor insulation resistance, etc.
Do not use the magnetic contactor (MC) on the inverter's input side to start/stop the inverter. Since repeated inrush currents at power ON will shorten the life of the converter circuit (1,000,000 times for others), frequent starts and stops of the input side MC must be avoided. Turn ON/OFF the inverter's start signals (STF, STR) to run/stop the inverter. (Refer to page 4.)
Across terminals P/+ and PR, connect only an external brake resistor. Do not connect a mechanical brake.
Do not apply a voltage higher than the permissible voltage to the inverter I/O signal circuits. Application of a voltage higher than the permissible voltage to the inverter I/O signal circuits or opposite polarity may damage the I/O devices. Especially check the wiring to prevent the speed setting potentiometer from being connected incorrectly to short circuit terminals 10E and 5.
If the machine must not be restarted when power is restored after a power failure, provide an MC in the inverter's input side and also make up a sequence which will not switch ON the start signal.
If the start signal (start switch) remains ON after a power failure, the inverter will automatically restart as soon as the power is restored. Vector control is available with an encoder-equipped motor. And such an encoder must be directly connected to a motor shaft without any
backlash. (Real sensorless vector control does not require an encoder.) MC on the inverter's input side
On the inverter's input side, connect an MC for the following purposes. (For the selection, refer to Chapter 2 of the Instruction Manual (Detailed).) To disconnect the inverter from the power supply at activation of a protective function or at malfunctioning of the driving system (emergency stop, etc.). To prevent any accident due to an automatic restart at power restoration after an inverter stop made by a power failure. To separate the inverter from the power supply to ensure safe maintenance and inspection work. If using an MC for emergency stop during operation, select an MC regarding the inverter input side current as JEM 1038-AC-3 class rated current.
Handling of the magnetic contactor on the inverter's output side Switch the magnetic contactor between the inverter and motor only when both the inverter and motor are at a stop. When the magnetic contactor is turned ON while the inverter is operating, overcurrent protection of the inverter and such will activate. When providing MCs to use the commercial power supply during general-purpose motor operation, switch the MCs after both the inverter and motor stop. A PM motor is a synchronous motor with high-performance magnets embedded inside. High-voltage is generated at the motor terminals while the motor is running even after the inverter power is turned OFF. Before wiring or inspection, confirm that the motor is stopped. In an application, such as fan and blower, where the motor is driven by the load, a low-voltage manual contactor must be connected at the inverter's output side, and wiring and inspection must be performed while the contactor is open. Otherwise you may get an electric shock.
Countermeasures against inverter-generated EMI If electromagnetic noise generated from the inverter causes the frequency setting signal to fluctuate and the motor rotation speed to be unstable when changing the motor speed with analog signals, the following countermeasures are effective. Do not run the signal cables and power cables (inverter I/O cables) in parallel with each other and do not bundle them. Run signal cables as far away as possible from power cables (inverter I/O cables). Use shielded cables. Install a ferrite core on the signal cable (Example: ZCAT3035-1330 TDK).
Instructions for overload operation When performing frequent starts/stops by the inverter, rise/fall in the temperature of the transistor element of the inverter will repeat due to a repeated flow of large current, shortening the life from thermal fatigue. Since thermal fatigue is related to the amount of current, the life can be increased by reducing current at locked condition, starting current, etc. Reducing current may extend the service life but may also cause torque shortage, which leads to a start failure. Adding a margin to the current can eliminate such a condition. For a general-purpose motor, use an inverter of a higher capacity (up to 2 ranks). For an IPM motor, use an inverter and IPM motor of higher capacities.
Make sure that the specifications and rating match the system requirements.
To use the commercial power supply during general-purpose motor operation, be sure to provide electrical and mechanical interlocks between the electronic bypass contactors MC1 and MC2.
When using a switching circuit as shown right, chattering due to mis-configured sequence or arc generated at switching may allow undesirable current to flow in and damage the inverter. Mis-wiring may also damage the inverter. (The commercial power supply operation is not available with vector control dedicated motors (SF-V5RU, SF- THY) nor with PM motors.)
Power supply
Inverter Undesirable current
MC2
MC1 Interlock
U V W
R/L1 S/L2 T/L3
M
PRECAUTIONS FOR USE OF THE INVERTER 13
6 PARAMETER LIST For simple variable-speed operation of the inverter, the initial values of the parameters may be used as they are. Set the necessary parameters to meet the load and operational specifications. Parameter setting, change and check can be performed from the operation panel (FR-DU08).
Pr. Name Setting range
Initial value
0 Torque boost 0 to 30% 6/4/3/2/ 1%
1 Maximum frequency 0 to 120Hz 120Hz 60Hz
2 Minimum frequency 0 to 120Hz 0Hz 3 Base frequency 0 to 590Hz 60/50Hz
4 Multi-speed setting (high speed) 0 to 590Hz 60/50Hz
5 Multi-speed setting (middle speed) 0 to 590Hz 30Hz
6 Multi-speed setting (low speed) 0 to 590Hz 10Hz
7 Acceleration time 0 to 3600s 5s 15s
8 Deceleration time 0 to 3600s 5s 15s
9 Electronic thermal O/L relay
0 to 500A Inverter rated current0 to 3600A
10 DC injection brake operation frequency
0 to 120Hz, 9999 3Hz
11 DC injection brake operation time 0 to 10s, 8888 0.5s
12 DC injection brake operation voltage 0 to 30% 4/2/1%
13 Starting frequency 0 to 60Hz 0.5Hz 14 Load pattern selection 0 to 5, 12 to 15 0 15 Jog frequency 0 to 590Hz 5Hz
16 Jog acceleration/ deceleration time 0 to 3600s 0.5s
17 MRS input selection 0, 2, 4 0
18 High speed maximum frequency 0 to 590Hz
120Hz 60Hz
19 Base frequency voltage 0 to 1000V, 8888, 9999
9999/ 8888
20 Acceleration/ deceleration reference frequency
1 to 590Hz 60/50Hz
21 Acceleration/ deceleration time increments
0, 1 0
22 Stall prevention operation level (Torque limit level)
0 to 400% 150%
23 Stall prevention operation level compensation factor at double speed
0 to 200%, 9999 9999
24 to 27
Multi-speed setting (4 speed to 7 speed)
0 to 590Hz, 9999 9999
28 Multi-speed input compensation selection 0, 1 0
29 Acceleration/ deceleration pattern selection
0 to 6 0
30 Regenerative function selection
0 to 2, 10, 11, 20, 21, 100 to 102, 110, 111, 120, 121
0
31 Frequency jump 1A
0 to 590Hz, 9999
9999 32 Frequency jump 1B 9999 33 Frequency jump 2A 9999 34 Frequency jump 2B 9999 35 Frequency jump 3A 9999 36 Frequency jump 3B 9999 37 Speed display 0, 1 to 9998 0
41 Up-to-frequency sensitivity 0 to 100% 10%
42 Output frequency detection 0 to 590Hz 6Hz
43 Output frequency detection for reverse rotation
0 to 590Hz, 9999 9999
44 Second acceleration/ deceleration time 0 to 3600s 5s
45 Second deceleration time
0 to 3600s, 9999 9999
46 Second torque boost 0 to 30%, 9999 9999
47 Second V/F (base frequency)
0 to 590Hz, 9999 9999
48 Second stall prevention operation level 0 to 400% 150%
49 Second stall prevention operation frequency
0 to 590Hz, 9999 0Hz
50 Second output frequency detection 0 to 590Hz 30Hz
51 Second electronic thermal O/L relay
0 to 500A, 9999 99990 to 3600A,
9999
52 Operation panel main monitor selection
0, 5 to 14, 17 to 20, 22 to 36, 38 to 46, 50 to 57, 61, 62, 64, 67, 68, 71 to 75, 87 to 98, 100
0
54 FM/CA terminal function selection
1 to 3, 5 to 14, 17, 18, 21, 24, 32 to 34, 36, 46, 50, 52, 53, 61, 62, 67, 70, 87 to 90, 92, 93, 95, 97, 98
1
55 Frequency monitoring reference 0 to 590Hz 60/50Hz
56 Current monitoring reference
0 to 500A Inverter rated current0 to 3600A
57 Restart coasting time 0, 0.1 to 30s, 9999 9999
58 Restart cushion time 0 to 60s 1s
59 Remote function selection 0 to 3, 11 to 13 0
60 Energy saving control selection 0, 4, 9 0
61 Reference current 0 to 500A, 9999
99990 to 3600A, 9999
62 Reference value at acceleration 0 to 400%, 9999 9999
63 Reference value at deceleration 0 to 400%, 9999 9999
64 Starting frequency for elevator mode 0 to 10Hz, 9999 9999
65 Retry selection 0 to 5 0
66 Stall prevention operation reduction starting frequency
0 to 590Hz 60/50Hz
67 Number of retries at fault occurrence
0 to 10, 101 to 110 0
68 Retry waiting time 0.1 to 600s 1s
69 Retry count display erase 0 0
70 Special regenerative brake duty 0 to 100% 0%
71 Applied motor
0 to 6, 13 to 16, 20, 23, 24, 30, 33, 34, 40, 43, 44, 50, 53, 54, 70, 73, 74, 330, 333, 334, 8090, 8093, 8094, 9090, 9093, 9094
0
72 PWM frequency selection
0 to 15 2
0 to 6, 25 73 Analog input selection 0 to 7, 10 to 17 1 74 Input filter time constant 0 to 8 1
75 Reset selection/ disconnected PU detection/PU stop selection
0 to 3, 14 to 17, 1000 to 1003, 1014 to 1017
14
0 to 3, 14 to 17, 100 to 103, 114 to 117, 1000 to 1003, 1014 to 1017, 1100 to 1103, 1114 to 1117
76 Fault code output selection 0 to 2 0
77 Parameter write selection 0 to 2 0
78 Reverse rotation prevention selection 0 to 2 0
79 Operation mode selection 0 to 4, 6, 7 0
80 Motor capacity
0.4 to 55kW, 9999
9999 0 to 3600kW, 9999
81 Number of motor poles 2, 4, 6, 8, 10, 12, 9999 9999
82 Motor excitation current
0 to 500A, 9999
9999 0 to 3600A, 9999
83 Rated motor voltage 0 to 1000V 200/400V
Pr. Name Setting range
Initial value
84 Rated motor frequency 10 to 400Hz, 9999 9999
85 Excitation current break point
0 to 400Hz, 9999 9999
86 Excitation current low- speed scaling factor 0 to 300%, 9999 9999
89 Speed control gain (Advanced magnetic flux vector)
0 to 200%, 9999 9999
90 Motor constant (R1) 0 to 50, 9999
99990 to 400m, 9999
91 Motor constant (R2) 0 to 50, 9999
99990 to 400m, 9999
92 Motor constant (L1)/d- axis inductance (Ld)
0 to 6000mH, 9999
9999 0 to 400mH, 9999
93 Motor constant (L2)/q- axis inductance (Lq)
0 to 6000mH, 9999
9999 0 to 400mH, 9999
94 Motor constant (X) 0 to 100%, 9999 9999
95 Online auto tuning selection 0 to 2 0
96 Auto tuning setting/ status 0, 1, 11, 101 0
100 V/F1 (first frequency) 0 to 590Hz, 9999 9999
101 V/F1 (first frequency voltage) 0 to 1000V 0V
102 V/F2 (second frequency)
0 to 590Hz, 9999 9999
103 V/F2 (second frequency voltage) 0 to 1000V 0V
104 V/F3 (third frequency) 0 to 590Hz, 9999 9999
105 V/F3 (third frequency voltage) 0 to 1000V 0V
106 V/F4 (fourth frequency) 0 to 590Hz, 9999 9999
107 V/F4 (fourth frequency voltage) 0 to 1000V 0V
108 V/F5 (fifth frequency) 0 to 590Hz, 9999 9999
109 V/F5 (fifth frequency voltage) 0 to 1000V 0V
110 Third acceleration/ deceleration time
0 to 3600s, 9999 9999
111 Third deceleration time 0 to 3600s, 9999 9999
112 Third torque boost 0 to 30%, 9999 9999
113 Third V/F (base frequency)
0 to 590Hz, 9999 9999
114 Third stall prevention operation level 0 to 400% 150%
115 Third stall prevention operation frequency 0 to 590Hz 0Hz
116 Third output frequency detection 0 to 590Hz 60/50Hz
117 PU communication station number 0 to 31 0
118 PU communication speed
48, 96, 192, 384, 576, 768, 1152 192
119 PU communication stop bit length / data length 0, 1, 10, 11 1
120 PU communication parity check 0 to 2 2
121 PU communication retry count 0 to 10, 9999 1
122 PU communication check time interval
0, 0.1 to 999.8s, 9999 9999
123 PU communication waiting time setting
0 to 150ms, 9999 9999
124 PU communication CR/ LF selection 0 to 2 1
125 Terminal 2 frequency setting gain frequency 0 to 590Hz 60/50Hz
126 Terminal 4 frequency setting gain frequency 0 to 590Hz 60/50Hz
127 PID control automatic switchover frequency
0 to 590Hz, 9999 9999
128 PID action selection
0, 10, 11, 20, 21, 40 to 43, 50, 51, 60, 61, 70, 71, 80, 81, 90, 91, 100, 101, 1000, 1001, 1010, 1011, 2000, 2001, 2010, 2011
0
Pr. Name Setting range
Initial value
14 PARAMETER LIST
129 PID proportional band 0.1 to 1000%, 9999 100%
130 PID integral time 0.1 to 3600s, 9999 1s
131 PID upper limit 0 to 100%, 9999 9999 132 PID lower limit 0 to 100%, 9999 9999 133 PID action set point 0 to 100%, 9999 9999
134 PID differential time 0.01 to 10s, 9999 9999
135 Electronic bypass sequence selection 0, 1 0
136 MC switchover interlock time 0 to 100s 1s
137 Start waiting time 0 to 100s 0.5s
138 Bypass selection at a fault 0, 1 0
139 Automatic switchover frequency from inverter to bypass operation
0 to 60Hz, 8888, 9999 9999
140 Backlash acceleration stopping frequency 0 to 590Hz 1Hz
141 Backlash acceleration stopping time 0 to 360s 0.5s
142 Backlash deceleration stopping frequency 0 to 590Hz 1Hz
143 Backlash deceleration stopping time 0 to 360s 0.5s
144 Speed setting switchover
0, 2, 4, 6, 8, 10, 12, 102, 104, 106, 108, 110, 112
4
145 PU display language selection 0 to 7
147 Acceleration/ deceleration time switching frequency
0 to 590Hz, 9999 9999
148 Stall prevention level at 0 V input 0 to 400% 150%
149 Stall prevention level at 10 V input 0 to 400% 200%
150 Output current detection level 0 to 400% 150%
151 Output current detection signal delay time
0 to 10s 0s
152 Zero current detection level 0 to 400% 5%
153 Zero current detection time 0 to 10s 0.5s
154 Voltage reduction selection during stall prevention operation
0, 1, 10, 11 1
155 RT signal function validity condition selection
0, 10 0
156 Stall prevention operation selection 0 to 31, 100, 101 0
157 OL signal output timer 0 to 25s, 9999 0s
158 AM terminal function selection
1 to 3, 5 to 14, 17, 18, 21, 24, 32 to 34, 36, 46, 50, 52 to 54, 61, 62, 67, 70, 87 to 98
1
159 Automatic switchover frequency range from bypass to inverter operation
0 to 10Hz, 9999 9999
160
User group read selection 0, 1, 9999 0
161 Frequency setting/key lock operation selection 0, 1, 10, 11 0
162 Automatic restart after instantaneous power failure selection
0 to 3, 10 to 13, 1000 to 1003, 1010 to 1013
0
163 First cushion time for restart 0 to 20s 0s
164 First cushion voltage for restart 0 to 100% 0%
165 Stall prevention operation level for restart
0 to 400% 150%
166 Output current detection signal retention time
0 to 10s, 9999 0.1s
167 Output current detection operation selection
0, 1, 10, 11 0
168 Parameter for manufacturer setting. Do not set.
169 170 Watt-hour meter clear 0, 10, 9999 9999
171 Operation hour meter clear 0, 9999 9999
172 User group registered display/batch clear 9999, (0 to 16) 0
173 User group registration 0 to 1999, 9999 9999 174 User group clear 0 to 1999, 9999 9999
Pr. Name Setting range
Initial value
178 STF terminal function selection
0 to 20, 22 to 28, 32, 37, 42 to 48, 50 to 53, 57 to 62, 64 to 74, 76 to 80, 84, 85, 87 to 89 92 to 96, 128, 129, 9999
60
179 STR terminal function selection 61
180 RL terminal function selection 0
181 RM terminal function selection 1
182 RH terminal function selection 2
183 RT terminal function selection 3
184 AU terminal function selection 4
185 JOG terminal function selection 5
186 CS terminal function selection 6
187 MRS terminal function selection 24
188 STOP terminal function selection 25
189 RES terminal function selection 62
190 RUN terminal function selection
0 to 8, 10 to 20, 22, 25 to 28, 30 to 36, 38 to 57, 60, 61, 63 to 68, 70, 79, 80, 84, 85, 90 to 99, 100 to 108, 110 to 116, 120, 122, 125 to 128, 130 to 136, 138 to 157, 160, 161, 163 to 168, 170, 179, 180, 184, 185, 190 to 199, 200 to 208, 211 to 213, 247, 300 to 308, 311 to 313, 347, 9999
0
191 SU terminal function selection 1
192 IPF terminal function selection 2
193 OL terminal function selection 3
194 FU terminal function selection 4
195 ABC1 terminal function selection 99
196 ABC2 terminal function selection 9999
232 to 239
Multi-speed setting (8 speed to 15 speed) 0 to 590Hz, 9999 9999
240 Soft-PWM operation selection 0, 1 1
241 Analog input display unit switchover 0, 1 0
242 Terminal 1 added compensation amount (terminal 2)
0 to 100% 100%
243 Terminal 1 added compensation amount (terminal 4)
0 to 100% 75%
244 Cooling fan operation selection
0, 1, 101 to 105, 1000, 1001, 1101 to 1105
1
245 Rated slip 0 to 50%, 9999 9999
246 Slip compensation time constant 0.01 to 10s 0.5s
247 Constant-power range slip compensation selection
0, 9999 9999
248 Self power management selection 0 to 2 0
249 Earth (ground) fault detection at start 0, 1 0
250 Stop selection 0 to 100s, 1000 to 1100s, 8888, 9999
9999
251 Output phase loss protection selection 0, 1 1
252 Override bias 0 to 200% 50% 253 Override gain 0 to 200% 150%
254 Main circuit power OFF waiting time
1 to 3600s, 9999 600s
255 Life alarm status display (0 to 255) 0
256 Inrush current limit circuit life display (0 to 100%) 100%
257 Control circuit capacitor life display (0 to 100%) 100%
258 Main circuit capacitor life display (0 to 100%) 100%
259 Main circuit capacitor life measuring 0, 1, 11 0
260 PWM frequency automatic switchover 0, 1 1
261 Power failure stop selection
0 to 2, 11, 12, 21, 22 0
262 Subtracted frequency at deceleration start 0 to 20Hz 3Hz
263 Subtraction starting frequency
0 to 590Hz, 9999 60/50Hz
264 Power-failure deceleration time 1 0 to 3600s 5s
265 Power-failure deceleration time 2
0 to 3600s, 9999 9999
Pr. Name Setting range
Initial value
266 Power failure deceleration time switchover frequency
0 to 590Hz 60/50Hz
267 Terminal 4 input selection 0 to 2 0
268 Monitor decimal digits selection 0, 1, 9999 9999
269 Parameter for manufacturer setting. Do not set.
270 Stop-on contact/load torque high-speed frequency control selection
0 to 3, 11, 13 0
271 High-speed setting maximum current 0 to 400% 50%
272 Middle-speed setting minimum current 0 to 400% 100%
273 Current averaging range
0 to 590Hz, 9999 9999
274 Current averaging filter time constant 1 to 4000 16
275 Stop-on contact excitation current low- speed multiplying factor
0 to 300%, 9999 9999
276 PWM carrier frequency at stop-on contact
0 to 9, 9999 9999
0 to 4, 9999
278 Brake opening frequency 0 to 30Hz 3Hz
279 Brake opening current 0 to 400% 130%
280 Brake opening current detection time 0 to 2s 0.3s
281 Brake operation time at start 0 to 5s 0.3s
282 Brake operation frequency 0 to 30Hz 6Hz
283 Brake operation time at stop 0 to 5s 0.3s
284 Deceleration detection function selection 0, 1 0
285 Overspeed detection frequency (Excessive speed deviation detection frequency)
0 to 30Hz, 9999 9999
286 Droop gain 0 to 100% 0% 287 Droop filter time constant 0 to 1s 0.3s
288 Droop function activation selection
0 to 2, 10, 11, 20 to 22 0
289 Inverter output terminal filter 5 to 50ms, 9999 9999
290 Monitor negative output selection 0 to 7 0
291 Pulse train I/O selection
0, 1, 10, 11, 20, 21, 100 (FM type) 0
0, 1 (CA type)
292 Automatic acceleration/ deceleration 0, 1, 3, 5 to 8, 11 0
293 Acceleration/deceleration separate selection 0 to 2 0
294 UV avoidance voltage gain 0 to 200% 100%
295 Frequency change increment amount setting
0, 0.01, 0.10, 1.00, 10.00 0
296 Password lock level 0 to 6, 99, 100 to 106, 199, 9999
9999
297 Password lock/unlock (0 to 5), 1000 to 9998, 9999
9999
298 Frequency search gain 0 to 32767, 9999 9999
299 Rotation direction detection selection at restarting
0, 1, 9999 0
313 DO0 output selection 0 to 8, 10 to 20, 22, 25 to 28, 30 to 36, 38 to 57, 60, 63 to 66, 68, 70, 79, 84 to 99, 100 to 108, 110 to 116, 120, 122, 125 to 128, 130 to 136, 138 to 157, 160, 161, 163 to 166, 168, 170, 179, 184 to 199, 200 to 208, 211 to 213, 247 to 250, 300 to 308, 311 to 313, 347 to 350, 9999
9999
314 DO1 output selection 9999
315 DO2 output selection 9999
316 DO3 output selection 9999
317 DO4 output selection 9999
318 DO5 output selection 9999
319 DO6 output selection 9999
320 RA1 output selection 0 to 8, 10 to 20, 22, 25 to 28, 30 to 36, 38 to 57, 60, 61, 63, 64 to 66, 68, 70, 79, 80, 84 to 91, 94 to 99, 200 to 208, 211 to 213, 247 to 250, 9999
9999
321 RA2 output selection 9999
322 RA3 output selection 9999
328 Inverter/converter switching 0 to 9999 0
Pr. Name Setting range
Initial value
PARAMETER LIST 15
331 RS-485 communication station number 0 to 31(0 to 247) 0
332 RS-485 communication speed
3, 6, 12, 24, 48, 96, 192, 384, 576, 768, 1152
96
333 RS-485 communication stop bit length / data length
0, 1, 10, 11 1
334 RS-485 communication parity check selection 0 to 2 2
335 RS-485 communication retry count 0 to 10, 9999 1
336 RS-485 communication check time interval
0 to 999.8s, 9999 0s
337 RS-485 communication waiting time setting
0 to 150ms, 9999 9999
338 Communication operation command source
0, 1 0
339 Communication speed command source 0 to 2 0
340 Communication startup mode selection 0 to 2, 10, 12 0
341 RS-485 communication CR/LF selection 0 to 2 1
342 Communication EEPROM write selection
0, 1 0
343 Communication error count 0
349
Communication reset selection/Ready bit status selection/Reset selection at inverter error clear/DriveControl writing restriction selection
0, 1, 100, 101, 1000, 1001, 1100, 1101, 10000, 10001, 10100, 10101, 11000, 11001, 11100, 11101
0
350 Stop position command selection 0, 1, 9999 9999
351 Orientation speed 0 to 30Hz 2Hz 352 Creep speed 0 to 10Hz 0.5Hz 353 Creep switchover position 0 to 16383 511
354 Position loop switchover position 0 to 8191 96
355 DC injection brake start position 0 to 255 5
356 Internal stop position command 0 to 16383 0
357 Orientation in-position zone 0 to 255 5
358 Servo torque selection 0 to 13 1 359 Encoder rotation direction 0, 1, 100, 101 1 360 16-bit data selection 0 to 127 0 361 Position shift 0 to 16383 0
362 Orientation position loop gain 0.1 to 100 1
363 Completion signal output delay time 0 to 5s 0.5s
364 Encoder stop check time 0 to 5s 0.5s
365 Orientation limit 0 to 60s, 9999 9999 366 Recheck time 0 to 5s, 9999 9999 367 Speed feedback range 0 to 590Hz, 9999 9999 368 Feedback gain 0 to 100 1
369 Number of encoder pulses 0 to 4096 1024
374 Overspeed detection level 0 to 590Hz, 9999 9999
376 Encoder signal loss detection enable/ disable selection
0, 1 0
380 Acceleration S-pattern 1 0 to 50% 0 381 Deceleration S-pattern 1 0 to 50% 0 382 Acceleration S-pattern 2 0 to 50% 0 383 Deceleration S-pattern 2 0 to 50% 0
384 Input pulse division scaling factor 0 to 250 0
385 Frequency for zero input pulse 0 to 590Hz 0
386 Frequency for maximum input pulse 0 to 590Hz 60/50Hz
393 Orientation selection 0 to 2, 10 to 12 0
394 Number of machine side gear teeth 0 to 32767 1
395 Number of motor side gear teeth 0 to 32767 1
396 Orientation speed gain (P term) 0 to 1000 60
397 Orientation speed integral time 0 to 20s 0.333s
398 Orientation speed gain (D term) 0 to 100 1
399 Orientation deceleration ratio 0 to 1000 20
413 Encoder pulse division ratio 1 to 32767 1
Pr. Name Setting range
Initial value
414 PLC function operation selection 0 to 2, 11, 12 0
415 Inverter operation lock mode setting 0, 1 0
416 Pre-scale function selection 0 to 5 0
417 Pre-scale setting value 0 to 32767 1
419 Position command source selection
0 to 2, 10, 100, 110, 200, 210, 300, 310, 1110, 1310
0
420 Command pulse scaling factor numerator (electronic gear numerator)
1 to 32767 1
421 Command pulse multiplication denominator (electronic gear denominator)
1 to 32767 1
422 Position control gain 0 to 150sec-1 25sec-1
423 Position feed forward gain 0 to 100% 0%
424 Position command acceleration/ deceleration time constant
0 to 50s 0s
425 Position feed forward command filter 0 to 5s 0s
426 In-position width 0 to 32767 pulse 100 pulse
427 Excessive level error 0 to 400K pulse, 9999 40K pulse
428 Command pulse selection 0 to 5 0
429 Clear signal selection 0, 1 1
430 Pulse monitor selection
0 to 5, 12, 13, 100 to 105, 112, 113, 1000 to 1005, 1012, 1013, 1100 to 1105, 1112, 1113, 2000 to 2005, 2012, 2013, 2100 to 2105, 2112, 2113, 3000 to 3005, 3012, 3013, 3100 to 3105, 3112, 3113, 8888, 9999
9999
432 Pulse train torque command bias 0 to 400% 0%
433 Pulse train torque command gain 0 to 400% 150%
434 IP address 1 0 to 255 192 435 IP address 2 0 to 255 168 436 IP address 3 0 to 255 50 437 IP address 4 0 to 255 2 438 Subnet mask 1 0 to 255 255 439 Subnet mask 2 0 to 255 255 440 Subnet mask 3 0 to 255 255 441 Subnet mask 4 0 to 255 0
446 Model position control gain 0 to 150sec-1 25sec-1
450 Second applied motor
0, 1, 3 to 6, 13 to 16, 20, 23, 24, 30, 33, 34, 40, 43, 44, 50, 53, 54, 70, 73, 74, 330, 333, 334, 8090, 8093, 8094, 9090, 9093, 9094, 9999
9999
451 Second motor control method selection
0 to 6, 10 to 14, 20, 100 to 106, 110 to 114, 9999
9999
453 Second motor capacity 0.4 to 55kW, 9999
9999 0 to 3600kW, 9999
454 Number of second motor poles
2, 4, 6, 8, 10, 12, 9999 9999
455 Second motor excitation current
0 to 500A, 9999 9999
0 to 3600A, 9999
456 Rated second motor voltage 0 to 1000V 200/400V
457 Rated second motor frequency
10 to 400Hz, 9999 9999
458 Second motor constant (R1)
0 to 50, 9999 99990 to 400m,
9999
459 Second motor constant (R2)
0 to 50, 9999 99990 to 400m,
9999
460 Second motor constant (L1) / d-axis inductance (Ld)
0 to 6000mH, 9999
9999 0 to 400mH, 9999
461 Second motor constant (L2) / q-axis inductance (Lq)
0 to 6000mH, 9999
9999 0 to 400mH, 9999
Pr. Name Setting range
Initial value
462 Second motor constant (X) 0 to 100%, 9999 9999
463 Second motor auto tuning setting/status 0, 1, 11, 101 0
464 Digital position control sudden stop deceleration time
0 to 360s 0
465 First target position lower 4 digits
0 to 9999
0
466 First target position upper 4 digits 0
467 Second target position lower 4 digits 0
468 Second target position upper 4 digits 0
469 Third target position lower 4 digits 0
470 Third target position upper 4 digits 0
471 Fourth target position lower 4 digits 0
472 Fourth target position upper 4 digits 0
473 Fifth target position lower 4 digits 0
474 Fifth target position upper 4 digits 0
475 Sixth target position lower 4 digits 0
476 Sixth target position upper 4 digits 0
477 Seventh target position lower 4 digits 0
478 Seventh target position upper 4 digits 0
479 Eighth target position lower 4 digits
0 to 9999
0
480 Eighth target position upper 4 digits 0
481 Ninth target position lower 4 digits 0
482 Ninth target position upper 4 digits 0
483 Tenth target position lower 4 digits 0
484 Tenth target position upper 4 digits 0
485 Eleventh target position lower 4 digits 0
486 Eleventh target position upper 4 digits 0
487 Twelfth target position lower 4 digits 0
488 Twelfth target position upper 4 digits 0
489 Thirteenth target position lower 4 digits 0
490 Thirteenth target position upper 4 digits 0
491 Fourteenth target position lower 4 digits 0
492 Fourteenth target position upper 4 digits 0
493 Fifteenth target position lower 4 digits 0
494 Fifteenth target position upper 4 digits 0
495 Remote output selection 0, 1, 10, 11 0
496 Remote output data 1 0 to 4095 0 497 Remote output data 2 0 to 4095 0
498 PLC function flash memory clear 0 to 9999 0
500 Communication error execution waiting time 0 to 999.8s 0s
501 Communication error occurrence count display
0 0
502 Stop mode selection at communication error 0 to 4, 11, 12 0
503 Maintenance timer 1 0(1 to 9998) 0
504 Maintenance timer 1 warning output set time 0 to 9998, 9999 9999
505 Speed setting reference 1 to 590Hz 60/50Hz
506 Display estimated main circuit capacitor residual life
(0 to 100%) 100%
507 Display/reset ABC1 relay contact life (0 to 100%) 100%
508 Display/reset ABC2 relay contact life (0 to 100%) 100%
514 Emergency drive dedicated retry waiting time
0.1 to 600s, 9999 9999
515 Emergency drive dedicated retry count 0 to 200, 9999 1
516 S-pattern time at a start of acceleration 0.1 to 2.5s 0.1s
Pr. Name Setting range
Initial value
16 PARAMETER LIST
517 S-pattern time at a completion of acceleration
0.1 to 2.5s 0.1s
518 S-pattern time at a start of deceleration 0.1 to 2.5s 0.1s
519 S-pattern time at a completion of deceleration
0.1 to 2.5s 0.1s
522 Output stop frequency 0 to 590Hz, 9999 9999
523 Emergency drive mode selection
100, 111, 112, 121, 122, 123, 124, 200, 211, 212, 221, 222, 223, 224, 300, 311, 312, 321, 322, 323, 324, 400, 411, 412, 421, 422, 423, 424, 9999
9999
524 Emergency drive running speed
0 to 590Hz, 9999 9999
539 MODBUS RTU communication check time interval
0 to 999.8s, 9999 9999
541 Frequency command sign selection 0, 1 0
547 USB communication station number 0 to 31 0
548 USB communication check time interval
0 to 999.8s, 9999 9999
549 Protocol selection 0, 1 0
550 NET mode operation command source selection
0, 1, 9999 9999
551 PU mode operation command source selection
1 to 3, 9999 9999
552 Frequency jump range 0 to 30Hz, 9999 9999 553 PID deviation limit 0 to 100%, 9999 9999
554 PID signal operation selection 0 to 3, 10 to 13 0
555 Current average time 0.1 to 1.0s 1s 556 Data output mask time 0 to 20s 0s
557 Current average value monitor signal output reference current
0 to 500A Inverter rated current0 to 3600A
560 Second frequency search gain
0 to 32767, 9999 9999
561 PTC thermistor protection level
0.5 to 30k, 9999 9999
563 Energization time carrying-over times (0 to 65535) 0
564 Operating time carrying-over times (0 to 65535) 0
565 Second motor excitation current break point
0 to 400Hz, 9999 9999
566 Second motor excitation current low- speed scaling factor
0 to 300%, 9999 9999
569 Second motor speed control gain 0 to 200%, 9999 9999
570 Multiple rating setting 0 to 3 2 571 Holding time at a start 0 to 10s, 9999 9999
573 4 mA input check selection
1 to 4, 11 to 14, 21 to 24, 9999 9999
574 Second motor online auto tuning 0 to 2 0
575 Output interruption detection time
0 to 3600s, 9999 1s
576 Output interruption detection level 0 to 590Hz 0Hz
577 Output interruption cancel level 900 to 1100% 1000%
592 Traverse function selection 0 to 2 0
593 Maximum amplitude amount 0 to 25% 10%
594 Amplitude compensation amount during deceleration
0 to 50% 10%
595 Amplitude compensation amount during acceleration
0 to 50% 10%
596 Amplitude acceleration time 0.1 to 3600s 5s
597 Amplitude deceleration time 0.1 to 3600s 5s
598 Undervoltage level 175 to 215V/ 350 to 430V, 9999
9999
599 X10 terminal input selection 0, 1 0
600 First free thermal reduction frequency 1
0 to 590Hz, 9999 9999
601 First free thermal reduction ratio 1 1 to 100% 100%
602 First free thermal reduction frequency 2
0 to 590Hz, 9999 9999
Pr. Name Setting range
Initial value
603 First free thermal reduction ratio 2 1 to 100% 100%
604 First free thermal reduction frequency 3
0 to 590Hz, 9999 9999
606 Power failure stop external signal input selection
0, 1 1
607 Motor permissible load level 110 to 250% 150%
608 Second motor permissible load level
110 to 250%, 9999 9999
609 PID set point/deviation input selection 1 to 5 2
610 PID measured value input selection 1 to 5 3
611 Acceleration time at a restart
0 to 3600s, 9999 9999
617 Reverse rotation excitation current low- speed scaling factor
0 to 300%, 9999 9999
635 Cumulative pulse clear signal selection 0 to 3 0
636 Cumulative pulse division scaling factor 1 to 16384 1
637 Control terminal option- Cumulative pulse division scaling factor
1 to 16384 1
638 Cumulative pulse storage 0 to 3 0
639 Brake opening current selection 0, 1 0
640 Brake operation frequency selection 0, 1 0
641 Second brake sequence operation selection
0, 7, 8, 9999 0
642 Second brake opening frequency 0 to 30Hz 3Hz
643 Second brake opening current 0 to 400% 130%
644 Second brake opening current detection time 0 to 2s 0.3s
645 Second brake operation time at start 0 to 5s 0.3s
646 Second brake operation frequency 0 to 30Hz 6Hz
647 Second brake operation time at stop 0 to 5s 0.3s
648 Second deceleration detection function selection
0, 1 0
650 Second brake opening current selection 0, 1 0
651 Second brake operation frequency selection 0, 1 0
653 Speed smoothing control 0 to 200% 0
654 Speed smoothing cutoff frequency 0 to 120Hz 20Hz
655 Analog remote output selection 0, 1, 10, 11 0
656 Analog remote output 1
800 to 1200%
1000% 657 Analog remote output 2 1000% 658 Analog remote output 3 1000% 659 Analog remote output 4 1000%
660 Increased magnetic excitation deceleration operation selection
0, 1 0
661 Magnetic excitation increase rate 0 to 40%, 9999 9999
662 Increased magnetic excitation current level 0 to 300% 100%
663 Control circuit temperature signal output level
0 to 100C 0C
665 Regeneration avoidance frequency gain
0 to 200% 100%
668 Power failure stop frequency gain 0 to 200% 100%
673 SF-PR slip amount adjustment operation selection
2, 4, 6, 9999 9999
674 SF-PR slip amount adjustment gain 0 to 500% 100%
675 User parameter auto storage function selection
1, 9999 9999
679 Second droop gain 0 to 100%, 9999 9999
680 Second droop filter time constant 0 to 1s, 9999 9999
681 Second droop function activation selection
0 to 2, 10, 11, 20 to 22, 9999 9999
682 Second droop break point gain
0.1 to 100%, 9999 9999
683 Second droop break point torque
0.1 to 100%, 9999 9999
684 Tuning data unit switchover 0, 1 0
Pr. Name Setting range
Initial value
686 Maintenance timer 2 0(1 to 9998) 0
687 Maintenance timer 2 warning output set time 0 to 9998, 9999 9999
688 Maintenance timer 3 0(1 to 9998) 0
689 Maintenance timer 3 warning output set time 0 to 9998, 9999 9999
690 Deceleration check time 0 to 3600s, 9999 1s
692 Second free thermal reduction frequency 1
0 to 590Hz, 9999 9999
693 Second free thermal reduction ratio 1 1 to 100% 100%
694 Second free thermal reduction frequency 2
0 to 590Hz, 9999 9999
695 Second free thermal reduction ratio 2 1 to 100% 100%
696 Second free thermal reduction frequency 3
0 to 590Hz, 9999 9999
699 Input terminal filter 5 to 50ms, 9999 9999
702 Maximum motor frequency
0 to 400Hz, 9999 9999
706 Induced voltage constant (phi f)
0 to 5000mV/ (rad/s), 9999 9999
707 Motor inertia (integer) 10 to 999, 9999 9999 711 Motor Ld decay ratio 0 to 100%, 9999 9999 712 Motor Lq decay ratio 0 to 100%, 9999 9999
717 Starting resistance tuning compensation 0 to 200%, 9999 9999
721 Starting magnetic pole position detection pulse width
0 to 6000s, 10000 to 16000s, 9999
9999
724 Motor inertia (exponent) 0 to 7, 9999 9999
725 Motor protection current level
100 to 500%, 9999 9999
738 Second motor induced voltage constant (phi f)
0 to 5000mV/ (rad/s), 9999 9999
739 Second motor Ld decay ratio 0 to 100%, 9999 9999
740 Second motor Lq decay ratio 0 to 100%, 9999 9999
741 Second starting resistance tuning compensation
0 to 200%, 9999 9999
742 Second motor magnetic pole detection pulse width
0 to 6000s, 10000 to 16000s, 9999
9999
743 Second motor maximum frequency
0 to 400Hz, 9999 9999
744 Second motor inertia (integer) 10 to 999, 9999 9999
745 Second motor inertia (exponent) 0 to 7, 9999 9999
746 Second motor protection current level 100 to 500%, 9999 9999
747 Second motor low- speed range torque characteristic selection
0, 9999 9999
753 Second PID action selection
0, 10, 11, 20, 21, 50, 51, 60, 61, 70, 71, 80, 81, 90, 91, 100, 101, 1000, 1001, 1010, 1011, 2000, 2001, 2010, 2011
0
754 Second PID control automatic switchover frequency
0 to 590Hz, 9999 9999
755 Second PID action set point 0 to 100%, 9999 9999
756 Second PID proportional band
0.1 to 1000%, 9999 100%
757 Second PID integral time
0.1 to 3600s, 9999 1s
758 Second PID differential time
0.01 to 10.00s, 9999 9999
759 PID unit selection 0 to 43, 9999 9999
760 Pre-charge fault selection 0, 1 0
761 Pre-charge ending level 0 to 100%, 9999 9999
762 Pre-charge ending time 0 to 3600s, 9999 9999
763 Pre-charge upper detection level 0 to 100%, 9999 9999
764 Pre-charge time limit 0 to 3600s, 9999 9999
765 Second pre-charge fault selection 0, 1 0
766 Second pre-charge ending level 0 to 100%, 9999 9999
767 Second pre-charge ending time
0 to 3600s, 9999 9999
768 Second pre-charge upper detection level 0 to 100%, 9999 9999
769 Second pre-charge time limit 0 to 3600s, 9999 9999
Pr. Name Setting range
Initial value
PARAMETER LIST 17
774 Operation panel monitor selection 1 1 to 3, 5 to 14,
17 to 20, 22 to 36, 38 to 46, 50 to 57, 61, 62, 64, 67, 68, 71 to 75, 87 to 98, 100, 9999
9999
775 Operation panel monitor selection 2 9999
776 Operation panel monitor selection 3 9999
777 4 mA input check operation frequency 0 to 590Hz, 9999 9999
778 4 mA input check filter 0 to 10s 0s
779 Operation frequency during communication error
0 to 590Hz, 9999 9999
788 Low speed range torque characteristic selection
0, 9999 9999
791 Acceleration time in low-speed range 0 to 3600s, 9999 9999
792 Deceleration time in low-speed range 0 to 3600s, 9999 9999
799 Pulse increment setting for output power
0.1, 1, 10, 100, 1000kWh 1kWh
800 Control method selection
0 to 6, 9 to 14, 20, 100 to 106, 109 to 114
20
801 Output limit level 0 to 400%, 9999 9999 802 Pre-excitation selection 0, 1 0
803 Constant output range torque characteristic selection
0 to 2, 10, 11 0
804 Torque command source selection 0 to 6 0
805 Torque command value (RAM) 600 to 1400% 1000%
806 Torque command value (RAM, EEPROM) 600 to 1400% 1000%
807 Speed limit selection 0 to 2 0
808 Forward rotation speed limit/speed limit 0 to 400Hz 60/50Hz
809 Reverse rotation speed limit/reverse-side speed limit
0 to 400Hz, 9999 9999
810 Torque limit input method selection 0 to 2 0
811 Set resolution switchover 0, 1, 10, 11 0
812 Torque limit level (regeneration) 0 to 400%, 9999 9999
813 Torque limit level (3rd quadrant)
0 to 400%, 9999
9999
814 Torque limit level (4th quadrant) 9999
815 Torque limit level 2 9999
816 Torque limit level during acceleration 9999
817 Torque limit level during deceleration 9999
818 Easy gain tuning response level setting 1 to 15 2
819 Easy gain tuning selection 0 to 2 0
820 Speed control P gain 1 0 to 1000% 60%
821 Speed control integral time 1 0 to 20s 0.333s
822 Speed setting filter 1 0 to 5s, 9999 9999 823 Speed detection filter 1 0 to 0.1s 0.001s
824 Torque control P gain 1 (current loop proportional gain)
0 to 500% 100%
825 Torque control integral time 1 (current loop integral time)
0 to 500ms 5ms
826 Torque setting filter 1 0 to 5s, 9999 9999 827 Torque detection filter 1 0 to 0.1s 0s
828 Model speed control gain 0 to 1000% 60%
829 Number of machine end encoder pulses 0 to 4096, 9999 9999
830 Speed control P gain 2 0 to 1000%, 9999 9999
831 Speed control integral time 2 0 to 20s, 9999 9999
832 Speed setting filter 2 0 to 5s, 9999 9999 833 Speed detection filter 2 0 to 0.1s, 9999 9999 834 Torque control P gain 2 0 to 500%, 9999 9999
835 Torque control integral time 2 0 to 500ms, 9999 9999
836 Torque setting filter 2 0 to 5s, 9999 9999 837 Torque detection filter 2 0 to 0.1s, 9999 9999
840 Torque bias selection 0 to 3, 24, 25, 9999 9999
841 Torque bias 1 600 to 1400%, 9999 9999
842 Torque bias 2 600 to 1400%, 9999 9999
843 Torque bias 3 600 to 1400%, 9999 9999
844 Torque bias filter 0 to 5s, 9999 9999
Pr. Name Setting range
Initial value
845 Torque bias operation time 0 to 5s, 9999 9999
846 Torque bias balance compensation 0 to 10V, 9999 9999
847 Fall-time torque bias terminal 1 bias 0 to 400%, 9999 9999
848 Fall-time torque bias terminal 1 gain 0 to 400%, 9999 9999
849 Analog input offset adjustment 0 to 200% 100%
850 Brake operation selection 0 to 2 0
851 Control terminal option- Number of encoder pulses
0 to 4096 2048
852 Control terminal option- Encoder rotation direction
0, 1, 100, 101 1
853 Speed deviation time 0 to 100s 1s 854 Excitation ratio 0 to 100% 100%
855 Control terminal option- Signal loss detection enable/disable selection
0, 1 0
858 Terminal 4 function assignment 0, 1, 4, 9999 0
859 Torque current/Rated PM motor current
0 to 500A, 9999
9999 0 to 3600A, 9999
860 Second motor torque current/Rated PM motor current
0 to 500A, 9999
9999 0 to 3600A, 9999
862 Encoder option selection 0, 1 0
863 Control terminal option- Encoder pulse division ratio
1 to 32767 1
864 Torque detection 0 to 400% 150% 865 Low speed detection 0 to 590Hz 1.5Hz
866 Torque monitoring reference 0 to 400% 150%
867 AM output filter 0 to 5s 0.01s
868 Terminal 1 function assignment 0 to 6, 9999 0
869 Current output filter 0 to 5s 0.02s
870 Speed detection hysteresis 0 to 5Hz 0Hz
872 Input phase loss protection selection 0, 1 0
873 Speed limit 0 to 400Hz 20Hz 874 OLT level setting 0 to 400% 150% 875 Fault definition 0, 1 0 876 Thermal protector input 0, 1 1
877 Speed feed forward control/model adaptive speed control selection
0 to 2 0
878 Speed feed forward filter 0 to 1s 0s
879 Speed feed forward torque limit 0 to 400% 150%
880 Load inertia ratio 0 to 200 times 7 times
881 Speed feed forward gain 0 to 1000% 0%
882 Regeneration avoidance operation selection
0 to 2 0
883 Regeneration avoidance operation level
300 to 1200V DC380/ DC760V
884 Regeneration avoidance at deceleration detection sensitivity
0 to 5 0
885 Regeneration avoidance compensation frequency limit value
0 to 590Hz, 9999 6Hz
886 Regeneration avoidance voltage gain 0 to 200% 100%
888 Free parameter 1 0 to 9999 9999 889 Free parameter 2 0 to 9999 9999
890 Internal storage device status indication (0 to 511) 0
891 Cumulative power monitor digit shifted times
0 to 4, 9999 9999
892 Load factor 30 to 150% 100%
893 Energy saving monitor reference (motor capacity)
0.1 to 55kW Inverter rated capacity0 to 3600kW
894 Control selection during commercial power- supply operation
0 to 3 0
895 Power saving rate reference value 0, 1, 9999 9999
896 Power unit cost 0 to 500, 9999 9999
Pr. Name Setting range
Initial value
897 Power saving monitor average time
0, 1 to 1000h, 9999 9999
898 Power saving cumulative monitor clear
0, 1, 10, 9999 9999
899 Operation time rate (estimated value) 0 to 100%, 9999 9999
C0 (900)
FM/CA terminal calibration
C1 (901) AM terminal calibration
C2 (902)
Terminal 2 frequency setting bias frequency 0 to 590Hz 0Hz
C3 (902)
Terminal 2 frequency setting bias 0 to 300% 0%
125 (903)
Terminal 2 frequency setting gain frequency 0 to 590Hz 60/50Hz
C4 (903)
Terminal 2 frequency setting gain 0 to 300% 100%
C5 (904)
Terminal 4 frequency setting bias frequency 0 to 590Hz 0Hz
C6 (904)
Terminal 4 frequency setting bias 0 to 300% 20%
126 (905)
Terminal 4 frequency setting gain frequency 0 to 590Hz 60/50Hz
C7 (905)
Terminal 4 frequency setting gain 0 to 300% 100%
C12 (917)
Terminal 1 bias frequency (speed) 0 to 590Hz 0Hz
C13 (917) Terminal 1 bias (speed) 0 to 300% 0%
C14 (918)
Terminal 1 gain frequency (speed) 0 to 590Hz 60/50Hz
C15 (918) Terminal 1 gain (speed) 0 to 300% 100%
C16 (919)
Terminal 1 bias command (torque/ magnetic flux)
0 to 400% 0%
C17 (919)
Terminal 1 bias (torque/ magnetic flux) 0 to 300% 0%
C18 (920)
Terminal 1 gain command (torque/ magnetic flux)
0 to 400% 150%
C19 (920)
Terminal 1 gain (torque/ magnetic flux) 0 to 300% 100%
C8 (930)
Current output bias signal 0 to 100% 0%
C9 (930)
Current output bias current 0 to 100% 0%
C10 (931)
Current output gain signal 0 to 100% 100%
C11 (931)
Current output gain current 0 to 100% 100%
C38 (932)
Terminal 4 bias command (torque/ magnetic flux)
0 to 400% 0%
C39 (932)
Terminal 4 bias (torque/ magnetic flux) 0 to 300% 20%
C40 (933)
Terminal 4 gain command (torque/ magnetic flux)
0 to 400% 150%
C41 (933)
Terminal 4 gain (torque/ magnetic flux) 0 to 300% 100%
C42 (934)
PID display bias coefficient
0 to 500.00, 9999 9999
C43 (934)
PID display bias analog value 0 to 300% 20%
C44 (935)
PID display gain coefficient
0 to 500.00, 9999 9999
C45 (935)
PID display gain analog value 0 to 300% 100%
977 Input voltage mode selection 0, 1 0
989 Parameter copy alarm release
10 10 100 100
990 PU buzzer control 0, 1 1 991 PU contrast adjustment 0 to 63 58
992 Operation panel setting dial push monitor selection
0 to 3, 5 to 14, 17 to 20, 22 to 36, 38 to 46, 50 to 57, 61, 62, 64, 67, 68, 71 to 75, 87 to 98, 100
0
994 Droop break point gain 0.1 to 100%, 9999 9999
995 Droop break point torque 0.1 to 100% 100%
997 Fault initiation 0 to 255, 9999 9999
998 PM parameter initialization
0, 3003, 3103, 8009, 8109, 9009, 9109
0
999 Automatic parameter setting
1, 2,10 to 13, 20, 21, 9999 9999
1000 Direct setting selection 0 to 2 0
Pr. Name Setting range
Initial value
18 PARAMETER LIST
1002 Lq tuning target current adjustment coefficient
50 to 150%, 9999 9999
1003 Notch filter frequency 0, 8 to 1250Hz 0 1004 Notch filter depth 0 to 3 0 1005 Notch filter width 0 to 3 0 1006 Clock (year) 2000 to 2099 2000
1007 Clock (month, day)
101 to 131, 201 to 229, 301 to 331, 401 to 430, 501 to 531, 601 to 630, 701 to 731, 801 to 831, 901 to 930, 1001 to 1031, 1101 to 1130, 1201 to 1231
101
1008 Clock (hour, minute)
0 to 59, 100 to 159, 200 to 259, 300 to 359, 400 to 459, 500 to 559, 600 to 659, 700 to 759, 800 to 859, 900 to 959, 1000 to 1059, 1100 to 1159, 1200 to 1259, 1300 to 1359, 1400 to 1459, 1500 to 1559, 1600 to 1659, 1700 to 1759, 1800 to 1859, 1900 to 1959, 2000 to 2059, 2100 to 2159, 2200 to 2259, 2300 to 2359
0
1013 Running speed after emergency drive retry reset
0 to 590Hz 60/50Hz
1015 Integral stop selection at limited frequency 0 to 2, 10 to 12 0
1016 PTC thermistor protection detection time
0 to 60s 0s
1018 Monitor with sign selection 0, 1, 9999 9999
1020 Trace operation selection 0 to 4 0
1021 Trace mode selection 0 to 2 0 1022 Sampling cycle 0 to 9 2
1023 Number of analog channels 1 to 8 4
1024 Sampling auto start 0, 1 0 1025 Trigger mode selection 0 to 4 0
1026 Number of sampling before trigger 0 to 100% 90%
1027 Analog source selection (1ch)
1 to 3, 5 to 14, 17 to 20, 22 to 24, 32 to 36, 39 to 42, 46, 52 to 54, 61, 62, 64, 67, 68, 71 to 75, 87 to 98, 201 to 213, 222 to 227, 230 to 232, 235 to 238
201
1028 Analog source selection (2ch) 202
1029 Analog source selection (3ch) 203
1030 Analog source selection (4ch) 204
1031 Analog source selection (5ch) 205
1032 Analog source selection (6ch) 206
1033 Analog source selection (7ch) 207
1034 Analog source selection (8ch) 208
1035 Analog trigger channel 1 to 8 1
1036 Analog trigger operation selection 0, 1 0
1037 Analog trigger level 600 to 1400 1000
1038 Digital source selection (1ch)
1 to 255
1
1039 Digital source selection (2ch) 2
1040 Digital source selection (3ch) 3
1041 Digital source selection (4ch) 4
1042 Digital source selection (5ch) 5
1043 Digital source selection (6ch) 6
1044 Digital source selection (7ch) 7
1045 Digital source selection (8ch) 8
1046 Digital trigger channel 1 to 8 1
1047 Digital trigger operation selection 0, 1 0
1048 Display-off waiting time 0 to 60m 0m
Pr. Name Setting range
Initial value
1049 USB host reset 0, 1 0
1072 DC brake judgment time for anti-sway control operation
0 to 10s 3s
1073 Anti-sway control operation selection 0, 1 0
1074 Anti-sway control frequency
0.05 to 3Hz, 9999 1Hz
1075 Anti-sway control depth 0 to 3 0 1076 Anti-sway control width 0 to 3 0 1077 Rope length 0.1 to 50m 1m 1078 Trolley weight 1 to 50000kg 1kg 1079 Load weight 1 to 50000kg 1kg
1103 Deceleration time at emergency stop 0 to 3600s 5s
1106 Torque monitor filter 0 to 5s, 9999 9999
1107 Running speed monitor filter 0 to 5s, 9999 9999
1108 Excitation current monitor filter 0 to 5s, 9999 9999
1113 Speed limit method selection 0 to 2, 10, 9999 9999
1114 Torque command reverse selection 0, 1 1
1115 Speed control integral term clear time 0 to 9998ms 0s
1116 Constant output range speed control P gain compensation
0 to 100% 0%
1117 Speed control P gain 1 (per-unit system) 0 to 300, 9999 9999
1118 Speed control P gain 2 (per-unit system) 0 to 300, 9999 9999
1119 Model speed control gain (per-unit system) 0 to 300, 9999 9999
1121 Per-unit speed control reference frequency 0 to 400 Hz
120Hz 60Hz
1130
Link speed selection 0, 1 0
1134 PID upper limit manipulated value 0 to 100% 100%
1135 PID lower limit manipulated value 0 to 100% 100%
1136 Second PID display bias coefficient 0 to 500, 9999 9999
1137 Second PID display bias analog value 0 to 300% 20%
1138 Second PID display gain coefficient 0 to 500, 9999 9999
1139 Second PID display gain analog value 0 to 300% 100%
1140 Second PID set point/ deviation input selection
1 to 5 2
1141 Second PID measured value input selection 1 to 5 3
1142 Second PID unit selection 0 to 43, 9999 9999
1143 Second PID upper limit 0 to 100%, 9999 9999 1144 Second PID lower limit 0 to 100%, 9999 9999
1145 Second PID deviation limit 0 to 100%, 9999 9999
1146 Second PID signal operation selection 0 to 3, 10 to 13 0
1147 Second output interruption detection time
0 to 3600s, 9999 1s
1148 Second output interruption detection level
0 to 590Hz 0Hz
1149 Second output interruption cancel level 900 to 1100% 1000%
1150 to 1199
User parameters 1 to 50 0 to 65535 0
1220 Target position/speed selection 0 to 2 0
1221 Start command edge detection selection 0, 1 0
1222 First positioning acceleration time 0.01 to 360s 5s
1223 First positioning deceleration time 0.01 to 360s 5s
1224 First positioning dwell time 0 to 20000ms 0ms
1225 First positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1226 Second positioning acceleration time 0.01 to 360s 5s
1227 Second positioning deceleration time 0.01 to 360s 5s
1228 Second positioning dwell time 0 to 20000ms 0ms
1229 Second positioning sub-function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
Pr. Name Setting range
Initial value
1230 Third positioning acceleration time 0.01 to 360s 5s
1231 Third positioning deceleration time 0.01 to 360s 5s
1232 Third positioning dwell time 0 to 20000ms 0ms
1233 Third positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1234 Fourth positioning acceleration time 0.01 to 360s 5s
1235 Fourth positioning deceleration time 0.01 to 360s 5s
1236 Fourth positioning dwell time 0 to 20000ms 0ms
1237 Fourth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1238 Fifth positioning acceleration time 0.01 to 360s 5s
1239 Fifth positioning deceleration time 0.01 to 360s 5s
1240 Fifth positioning dwell time 0 to 20000ms 0ms
1241 Fifth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1242 Sixth positioning acceleration time 0.01 to 360s 5s
1243 Sixth positioning deceleration time 0.01 to 360s 5s
1244 Sixth positioning dwell time 0 to 20000ms 0ms
1245 Sixth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1246 Seventh positioning acceleration time 0.01 to 360s 5s
1247 Seventh positioning deceleration time 0.01 to 360s 5s
1248 Seventh positioning dwell time 0 to 20000ms 0ms
1249 Seventh positioning sub-function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1250 Eighth positioning acceleration time 0.01 to 360s 5s
1251 Eighth positioning deceleration time 0.01 to 360s 5s
1252 Eighth positioning dwell time 0 to 20000ms 0ms
1253 Eighth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1254 Ninth positioning acceleration time 0.01 to 360s 5s
1255 Ninth positioning deceleration time 0.01 to 360s 5s
1256 Ninth positioning dwell time 0 to 20000ms 0ms
1257 Ninth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1258 Tenth positioning acceleration time 0.01 to 360s 5s
1259 Tenth positioning deceleration time 0.01 to 360s 5s
1260 Tenth positioning dwell time 0 to 20000ms 0ms
1261 Tenth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1262 Eleventh positioning acceleration time 0.01 to 360s 5s
1263 Eleventh positioning deceleration time 0.01 to 360s 5s
1264 Eleventh positioning dwell time 0 to 20000ms 0ms
1265 Eleventh positioning sub-function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1266 Twelfth positioning acceleration time 0.01 to 360s 5s
1267 Twelfth positioning deceleration time 0.01 to 360s 5s
1268 Twelfth positioning dwell time 0 to 20000ms 0ms
1269 Twelfth positioning sub- function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1270 Thirteenth positioning acceleration time 0.01 to 360s 5s
1271 Thirteenth positioning deceleration time 0.01 to 360s 5s
1272 Thirteenth positioning dwell time 0 to 20000ms 0ms
1273 Thirteenth positioning sub-function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
Pr. Name Setting range
Initial value
PARAMETER LIST 19
Differs according to capacities. 6%: FR-A820-00046(0.4K), 00077(0.75K) and FR-
A840-00023(0.4K), 00038(0.75K) 4%: FR-A820-00105(1.5K) to 00250(3.7K) and FR-
A840-00052(1.5K) to 00126(3.7K) 3%: FR-A820-00340(5.5K), 00490(7.5K) and FR-
A840-00170(5.5K), 00250(7.5K) 2%: FR-A820-00630(11K) to 03160(55K) and FR-
A840-00310(11K) to 01800(55K) 1%: FR-A820-03800(75K) or higher and FR-A840-
02160(75K) or higher For FR-A820-03160(55K) or lower and FR-A840-
01800(55K) or lower For FR-A820-03800(75K) or higher and FR-A840-
02160(75K) or higher For FR-A820-00490(7.5K) or lower and FR-A840-
00250(7.5K) or lower For FR-A820-00630(11K) or higher and FR-A840-
00310(11K) or higher Differs according to capacities.
4%: FR-A820-00490(7.5K) or lower and FR-A840- 00250(7.5K) or lower
2%: FR-A820-00630(11K) to 03160 (55K) and FR- A840-00310(11K) to 01800 (55K)
1%: FR-A820-03800(75K) or higher and FR-A840- 02160(75K) or higher
Differs according to the voltage class. (200 V class/400 V class)
The setting is available only when a Vector control compatible option is installed. To check the availability of the parameter for each option refer to the Instruction Manual (Detailed).
The parameter number in parentheses is the one for use with the LCD operation panel and parameter unit.
Differs according to types. (FM type/CA type) The setting is available only with the CA type. The setting value "60" is only available for Pr.178, and
"61" is only for Pr.179. The setting values "92, 93, 192, and 193" are only
available for Pr.190 to Pr.194. Simple mode parameters. (Initially set to the extended
mode.) Parameters for CC-Link IE TSN communication. When Pr.160="9999", only the simple mode
parameters and the parameters for CC-Link IE TSN communication are displayed.
The setting is available when the PLC function is enabled.
1274 Fourteenth positioning acceleration time 0.01 to 360s 5s
1275 Fourteenth positioning deceleration time 0.01 to 360s 5s
1276 Fourteenth positioning dwell time 0 to 20000ms 0ms
1277 Fourteenth positioning sub-function
0 to 2, 10 to 12, 100 to 102, 110 to 112
10
1278 Fifteenth positioning acceleration time 0.01 to 360s 5s
1279 Fifteenth positioning deceleration time 0.01 to 360s 5s
1280 Fifteenth positioning dwell time 0 to 20000ms 0ms
1281 Fifteenth positioning sub-function
0, 2, 10, 12, 100, 102, 110, 112 10
1282 Home position return method selection 0 to 6 4
1283 Home position return speed 0 to 30Hz 2Hz
1284 Home position return creep speed 0 to 10Hz 0.5Hz
1285 Home position shift amount lower 4 digits 0 to 9999 0
1286 Home position shift amount upper 4 digits 0 to 9999 0
1287 Travel distance after proximity dog ON lower 4 digits
0 to 9999 2048
1288 Travel distance after proximity dog ON upper 4 digits
0 to 9999 0
1289 Home position return stopper torque 0 to 200% 40%
1290 Home position return stopper waiting time 0 to 10s 0.5s
1292 Position control terminal input selection 0, 1 0
1293 Roll feeding mode selection 0, 1 0
1294 Position detection lower 4 digits 0 to 9999 0
1295 Position detection upper 4 digits 0 to 9999 0
1296 Position detection selection 0 to 2 0
1297 Position detection hysteresis width 0 to 32767 0
1298 Second position control gain 0 to 150s-1 25s-1
1299 Second pre-excitation selection 0, 1 0
1300 to 1343 Communication option parameters
1348 P/PI control switchover frequency 0 to 400Hz 0Hz
1349 Emergency stop operation selection 0, 1, 10, 11 0
1350 to 1359 Communication option parameters
1410 Starting times lower 4 digits 0 to 9999 0
1411 Starting times upper 4 digits 0 to 9999 0
1412 Motor induced voltage constant (phi f) exponent
0 to 2, 9999 9999
1413 Second motor induced voltage constant (phi f) exponent
0 to 2, 9999 9999
1442
IP filter address 1 (Ethernet) 0 to 255 0
1443
IP filter address 2 (Ethernet) 0 to 255 0
1444
IP filter address 3 (Ethernet) 0 to 255 0
1445
IP filter address 4 (Ethernet) 0 to 255 0
1446
IP filter address 2 range specification (Ethernet) 0 to 255, 9999 9999
1447
IP filter address 3 range specification (Ethernet) 0 to 255, 9999 9999
1448
IP filter address 4 range specification (Ethernet) 0 to 255, 9999 9999
1459
Clock source selection 0 to 2 0
1480 Load characteristics measurement mode
0, 1, (2, 3, 4, 5, 81, 82, 83, 84, 85)
0
1481 Load characteristics load reference 1
0 to 400%, 8888, 9999 9999
1482 Load characteristics load reference 2
0 to 400%, 8888, 9999 9999
1483 Load characteristics load reference 3
0 to 400%, 8888, 9999 9999
1484 Load characteristics load reference 4
0 to 400%, 8888, 9999 9999
Pr. Name Setting range
Initial value
1485 Load characteristics load reference 5
0 to 400%, 8888, 9999 9999
1486 Load characteristics maximum frequency 0 to 590Hz 60/50Hz
1487 Load characteristics minimum frequency 0 to 590Hz 6Hz
1488 Upper limit warning detection width 0 to 400%, 9999 20%
1489 Lower limit warning detection width 0 to 400%, 9999 20%
1490 Upper limit fault detection width 0 to 400%, 9999 9999
1491 Lower limit fault detection width 0 to 400%, 9999 9999
1492 Load status detection signal delay time / load reference measurement waiting time
0 to 60s 1s
1499 Parameter for manufacturer setting. Do not set.
Pr.CLR Parameter clear (0, )1 0 ALL.CL All parameter clear (0, )1 0 Err.CL Fault history clear (0, )1 0 Pr.CPY Parameter copy (0, )1 to 3 0 Pr.CHG Initial value change list IPM IPM initialization 0, 3003 0
AUTO Automatic parameter setting
Pr.Md Group parameter setting (0, )1, 2 0
Pr. Name Setting range
Initial value
20 PARAMETER LIST
Appendix Appendix 1 Instructions for compliance with the EU Directives
The EU Directives are issued to standardize different national regulations of the EU Member States and to facilitate free movement of the equipment, whose safety is ensured, in the EU territory. Since 1996, compliance with the EMC Directive that is one of the EU Directives has been legally required. Since 1997, compliance with the Low Voltage Directive, another EU Directive, has been also legally required. When a manufacturer confirms its equipment to be compliant with the EMC Directive and the Low Voltage Directive, the manufacturer must declare the conformity and affix the CE marking.
The authorized representative in the EU The authorized representative in the EU is shown below. Name: Mitsubishi Electric Europe B.V. Address: Mitsubishi-Electric-Platz 1, 40882 Ratingen, Germany
EMC Directive We declare that this inverter conforms with the EMC Directive and affix the CE marking on the inverter. EMC Directive: 2014/30/EU Standard(s): EN 61800-3:2004+A1:2012 (Second environment / PDS Category "C3") This inverter is not intended to be used on a low-voltage public network which supplies domestic premises. When using the inverter in a residential area, take
appropriate measures and ensure the conformity of the inverter used in the residential area. Radio frequency interference is expected if used on such a network. The installer shall provide a guide for installation and use, including recommended mitigation devices.
Note: First environment Environment including buildings/facilities which are directly connected to a low voltage main supply which also supplies residential buildings. Directly connected means that there is no intermediate transformer between these buildings. Second environment Environment including all buildings/facilities which are not directly connected to a low voltage main supply which also supplies residential buildings.
Note Set the EMC filter valid and install the inverter and perform wiring according to the following instructions. This inverter is equipped with an EMC filter with a class C3. Enable the EMC filter. (For details, refer to the Instruction Manual (Detailed).) Connect the inverter to an earthed power supply. Install a motor and a control cable written in the EMC Installation Manual (BCN-A21041-204) and Technical News (MF-S-112, 113) according to the
instruction. To ensure sufficient function of the built-in EMC filter motor cable lengths should not be exceeded more then 20 m. Confirm that the inverter conforms with the EMC Directive as the industrial drives application for final installation.
Low Voltage Directive We have self-confirmed our inverters as products compliant to the Low Voltage Directive and affix the CE marking on the inverters. Low Voltage Directive: 2014/35/EU Standard(s): EN 61800-5-1:2007
Outline of instructions Do not use an earth leakage current breaker as an electric shock protector without connecting the equipment to the earth. Connect the equipment to the
earth securely. Wire the earth terminal independently. (Do not connect two or more cables to one terminal.) Use the cable sizes on page 6 under the following conditions.
Surrounding air temperature: 40C maximum If conditions are different from above, select appropriate wire according to EN 60204-1, IEC 60364-5-52.
Use a tinned (plating should not include zinc) crimp terminal to connect the earth (ground) cable. When tightening the screw, be careful not to damage the threads. For use as a product compliant with the Low Voltage Directive, use PVC cable whose size is indicated on page 6.
Use the molded case circuit breaker and magnetic contactor which conform to the EN or IEC Standard. This product can cause a d.c. current in the protective earthing conductor. Where a residual current-operated protective (RCD) or monitoring (RCM)
device is used for protection in case of direct or indirect contact, only an RCD or RCM of Type B is allowed on the supply side of this product. Use the inverter under the conditions of overvoltage category II (usable regardless of the earth (ground) condition of the power supply), overvoltage
category III (usable with the earthed-neutral system power supply, 400 V class only) and pollution degree 2 or lower specified in IEC 60664. An insulating transformer needs to be installed in the input side of the FR-A820 series inverters. To use the inverter of FR-A820-01540(30K) or higher and FR-A840-00770(30K) or higher (IP00) under the conditions of pollution degree 2, install it in the enclosure of IP 2X or higher. To use the inverter under the conditions of pollution degree 3, install it in the enclosure of IP54 or higher.
Appendix 21
To use the inverter of FR-A820-01250(22K) or lower and FR-A840-00620(22K) or lower (IP20) outside of an enclosure in the environment of pollution degree 2, fix a fan cover with fan cover fixing screws enclosed.
On the input and output of the inverter, use cables of the type and size set forth in EN 60204-1, IEC 60364-5-52. The operating capacity of the relay outputs (terminal symbols A1, B1, C1, A2, B2 and C2) should be 30 VDC, 0.3 A. (Relay output has basic isolation from
the inverter internal circuit.) Control circuit terminals on page 4 are safely isolated from the main circuit. Environment (For the detail, refer to page 3.)
For the installation at an altitude above 1000 m, consider a 3% reduction in the rated current per 500 m increase in altitude.
Branch circuit protection Class T, Class J, Class CC, or Class L fuses, or UL 489 Molded Case Circuit Breaker (MCCB) must be provided. For the FR-A820 series, Class T, Class J, or Class CC fuses, or UL 489 Molded Case Circuit Breaker (MCCB) must be provided. (Use a product which conforms to the EN or IEC Standard.)
Maximum allowable rating by US National Electrical Code. Exact size must be chosen for each installation.
Short circuit ratings 200 V class Suitable for use in a circuit capable of delivering not more than 100 kA rms symmetrical amperes, 240 V maximum. 400 V class Suitable for use in a circuit capable of delivering not more than 100 kA rms symmetrical amperes, 500 V maximum.
During operation In storage During transportation
Surrounding air temperature LD, ND (initial setting), HD: -10 to +50C SLD: -10 to +40C -20 to +65C -20 to +65C
Ambient humidity 95% RH or less 95% RH or less 95% RH or less
Maximum altitude 2500 m 2500 m 10000 m
FR-A820-[ ]-GN 00046 (0.4K)
00077 (0.75K)
00105 (1.5K)
00167 (2.2K)
00250 (3.7K)
00340 (5.5K)
00490 (7.5K)
00630 (11K)
00770 (15K)
Rated fuse voltage (V) 240 V or more
Fuse allowable rating (A)
Without power factor improving reactor
15 20 30 40 60 80 150 175 200
With power factor improving reactor 15 20 20 30 50 70 125 150 200
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 15 15 25 40 60 80 110 150 190
FR-A820-[ ]-GN 00930 (18.5K)
01250 (22K)
01540 (30K)
01870 (37K)
02330 (45K)
03160 (55K)
03800 (75K)
04750 (90K)
Rated fuse voltage (V) 240 V or more
Fuse allowable rating (A)
Without power factor improving reactor
225 300 350 400 500 500
With power factor improving reactor 200 250 300 350 400 500 600 700
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 225 300 350 450 500 700 900 1000
FR-A840-[ ]-GN 00023 (0.4K)
00038 (0.75K)
00052 (1.5K)
00083 (2.2K)
00126 (3.7K)
00170 (5.5K)
00250 (7.5K)
00310 (11K)
00380 (15K)
00470 (18.5K)
00620 (22K)
00770 (30K)
Rated fuse voltage (V) 500 V or more
Fuse allowable rating (A)
Without power factor improving reactor
6 10 15 20 30 40 70 80 90 110 150 175
With power factor improving reactor 6 10 10 15 25 35 60 70 90 100 125 150
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 15 15 15 20 30 40 60 70 90 100 150 175
FR-A840-[ ]-GN 00930 (37K)
01160 (45K)
01800 (55K)
02160 (75K)
02600 (90K)
03250 (110K)
03610 (132K)
04320 (160K)
04810 (185K)
05470 (220K)
06100 (250K)
06830 (280K)
Rated fuse voltage (V) 500 V or more
Fuse allowable rating (A)
Without power factor improving reactor
200 250 300
With power factor improving reactor 175 200 250 300 350 400 500 600 700 800 900 1000
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 225 250 450 450 500
Fan cover
Fan cover fixing screw
Fan
Fan cover fixing screw
Fan cover
Fan
FR-A820-00105(1.5K) to 00250(3.7K) FR-A840-00083(2.2K), 00126(3.7K)
FR-A820-00340(5.5K) to 00250(22K) FR-A840-00170(5.5K) to 00620(22K)
22 Appendix
EU RoHS Directive We declare that our inverters are compliant to the EU RoHS Directive (2011/65/EU) and affix the CE marking on the inverters.
Motor overload protection When using the electronic thermal relay function as motor overload protection, set the rated motor current in Pr.9 Electronic thermal O/L relay.
NOTE The internal accumulated heat value of the electronic thermal relay function is reset by inverter power reset and reset signal input. Avoid unnecessary reset and power-
OFF. When multiple motors are driven with a single inverter or when a multi-pole motor or a special motor is driven, install an external thermal relay (OCR) between the
inverter and motors. Note that the current indicated on the motor rating plate is affected by the line-to-line leakage current (details in the Instruction Manual (Detailed)) when selecting the setting for an external thermal relay.
The cooling effect of the motor drops during low-speed operation. Use a thermal protector or a motor with built-in thermistor. When the difference between the inverter and motor capacities is large and the setting is small, the protective characteristics of the electronic thermal relay function will
be deteriorated. In this case, use an external thermal relay. A special motor cannot be protected by the electronic thermal relay function. Use an external thermal relay. Set Pr.9 = "0" for vector-control-dedicated motors (SF-V5RU) because they are equipped with thermal protectors. Motor over temperature sensing is not provided by the drive. Electronic thermal memory retention function is not provided by the drive.
Operation characteristics of electronic thermal relay function This function detects the overload of the motor, stops the operation of the inverter's output transistor, and stops the output. (The operation characteristic is shown on the left.) When using the Mitsubishi Electric constant-torque motor (1) Set one of "1, 13 to 16, 50, 53, 54" in Pr.71. (This provides a 100% continuous torque
characteristic in the low-speed range.) (2) Set the rated current of the motor in Pr.9.
When a value 50% of the inverter rated output current (current value) is set in Pr.9 The % value denotes the percentage to the inverter rated current. It is not the
percentage to the rated motor current. When you set the electronic thermal relay function dedicated to the Mitsubishi Electric
constant-torque motor, this characteristic curve applies to operation at 6 Hz or higher. Transistor protection is activated depending on the temperature of the heat sink. The
protection may be activated even with less than 150% depending on the operating conditions.
Range for transistor protection*4
230
52.5% 105%
50 100 150
60
120
180
240
50
60
70
6Hz
20Hz 10Hz
6Hz 0.5Hz
30Hz or more*3
20Hz 10Hz
0.5Hz
Pr. 9 = 50% setting of inverter rating*1.2
Pr. 9 = 100% setting of inverter rating*1.2
Se co
nd d
is pl
ay in
th is
ra ng
e M
in ut
e di
sp la
y in
th
is ra
ng e
O pe
ra tio
n tim
e (m
in )
O pe
ra tio
n tim
e (s
)
Characteristic when electronic thermal relay function for motor protection is turned off (When Pr. 9 setting is 0(A))
30Hz or more*3
Inverter output current (%) (% to the rated output current)
Operation range Range on the right of characteristic curve Non-operation range Range on the left of characteristic curve
Appendix 23
Appendix 2 Instructions for UL and cUL (Standard to comply with: UL 508C, CSA C22.2 No.274-13)
General precaution CAUTION - Risk of Electric Shock - The bus capacitor discharge time is 10 minutes. Before starting wiring or inspection, switch power off, wait for more than 10 minutes, and check for residual voltage between terminal P/+ and N/- with a meter etc., to avoid a hazard of electrical shock. ATTENTION - Risque de choc lectrique - La dure de dcharge du condensateur de bus est de 10 minutes. Avant de commencer le cblage ou linspection, mettez lappareil hors tension et attendez plus de 10 minutes.
Installation The below types of inverter have been approved as products for use in enclosure and approval tests were conducted under the following conditions. Design the enclosure so that the surrounding air temperature, humidity and ambience of the inverter will satisfy the specifications. (Refer to page 3.)
Branch circuit protection For installation in the United States, Class T, Class J, Class CC, or Class L fuses, UL 489 Molded Case Circuit Breaker (MCCB), or Type E combination motor controller must be provided, in accordance with the National Electrical Code and any applicable local codes. For installation in Canada, Class T, Class J, Class CC, or Class L fuses, UL 489 Molded Case Circuit Breaker (MCCB), or Type E combination motor controller must be provided, in accordance with the Canadian Electrical Code and any applicable local codes. For the FR-A820 series, Class T, Class J, or Class CC fuses, or UL 489 Molded Case Circuit Breaker (MCCB), or Type E combination motor controller must be provided.
Maximum allowable rating by the US National Electrical Code. Exact size must be chosen for each installation. Select an appropriate molded case circuit breaker with a rating that is suitable for the size of the cable. For UL/cUL certification, use the following product. Only the MMP-T series controllers with the UL mark affixed are applicable for certification.
Suitable for Use in a Circuit Capable of Delivering Not More Than 50 or 25 kA rms Symmetrical Amperes, 480Y/277 Volts Maximum when protected by the Type E Combination motor Controllers indicated in the above table.
Type E combination motor controller is combination of Manual motor starter, Short-circuit Display Unit "UT-TU" and Power Side Terminal Cover Kit "UT-CV3".
FR-A820-[ ]-GN 00046 (0.4K)
00077 (0.75K)
00105 (1.5K)
00167 (2.2K)
00250 (3.7K)
00340 (5.5K)
00490 (7.5K)
00630 (11K)
00770 (15K)
Rated fuse voltage (V) 240 V or more
Fuse allowable rating (A)
Without power factor improving reactor 15 20 30 40 60 80 150 175 200
With power factor improving reactor 15 20 20 30 50 70 125 150 200
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 15 15 25 40 60 80 110 150 190
Type E combination motor controller
Maximum current rating (A) 8 13 18 25 32 Maximum SCCR (kA) 50 50 50 25 25
FR-A820-[ ]-GN 00930 (18.5K)
01250 (22K)
01540 (30K)
01870 (37K)
02330 (45K)
03160 (55K)
03800 (75K)
04750 (90K)
Rated fuse voltage (V) 240 V or more
Fuse allowable rating (A)
Without power factor improving reactor 225 300 350 400 500 500
With power factor improving reactor 200 250 300 350 400 500 600 700
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 225 300 350 450 500 700 900 1000
Type E combination motor controller
Maximum current rating (A) Maximum SCCR (kA)
FR-A840-[ ]-GN 00023 (0.4K)
00038 (0.75K)
00052 (1.5K)
00083 (2.2K)
00126 (3.7K)
00170 (5.5K)
00250 (7.5K)
00310 (11K)
00380 (15K)
00470 (18.5K)
00620 (22K)
00770 (30K)
Rated fuse voltage (V) 500 V or more
Fuse allowable rating (A)
Without power factor improving reactor 6 10 15 20 30 40 70 80 90 110 150 175
With power factor improving reactor 6 10 10 15 25 35 60 70 90 100 125 150
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 15 15 15 20 30 40 60 70 90 100 150 175
Type E combination motor controller
Maximum current rating (A) 4 6.3 8 13 18 25 32 Maximum SCCR (kA) 50 50 50 50 50 25 25
FR-A840-[ ]-GN 00930 (37K)
01160 (45K)
01800 (55K)
02160 (75K)
02600 (90K)
03250 (110K)
03610 (132K)
04320 (160K)
04810 (185K)
05470 (220K)
06100 (250K)
06830 (280K)
Rated fuse voltage (V) 500 V or more
Fuse allowable rating (A)
Without power factor improving reactor 200 250 300
With power factor improving reactor 175 200 250 300 350 400 500 600 700 800 900 1000
Molded case circuit breaker (MCCB) Maximum allowable rating (A) 225 250 450 450 500
Type E combination motor controller
Maximum current rating (A) Maximum SCCR (kA)
Model Manufacturer Rated Voltage, Vac
MMP-T32 Mitsubishi Electric Corp. 480Y/277
24 Appendix
Wiring to the power supply and the motor Refer to the National Electrical Code (Article 310) regarding the allowable current of the cable. Select the cable size for 125% of the rated current according to the National Electrical Code (Article 430). For wiring the input (R/L1, S/L2 and T/L3) and output (U, V and W) terminals of the inverter, use the UL listed copper, stranded wires (rated at 75C) and round crimp terminals. Crimp the crimp terminals with the crimping tool recommended by the terminal manufacturer.
Short circuit ratings 200 V class
Suitable for use in a circuit capable of delivering not more than 100 kA rms symmetrical amperes, 240 V maximum. 400 V class
Suitable for use in a circuit capable of delivering not more than 100 kA rms symmetrical amperes, 500 V maximum.
Motor overload protection When using the electronic thermal relay function as motor overload protection, set the rated motor current in Pr.9 Electronic thermal O/L relay.
NOTE The internal accumulated heat value of the electronic thermal relay function is reset by inverter power reset and reset signal input. Avoid unnecessary reset and power-
OFF. When multiple motors are driven with a single inverter or when a multi-pole motor or a special motor is driven, install an external thermal relay (OCR) between the
inverter and motors. Note that the current indicated on the motor rating plate is affected by the line-to-line leakage current (details in the Instruction Manual (Detailed)) when selecting the setting for an external thermal relay.
The cooling effect of the motor drops during low-speed operation. Use a thermal protector or a motor with built-in thermistor. When the difference between the inverter and motor capacities is large and the setting is small, the protective characteristics of the electronic thermal relay function will
be deteriorated. In this case, use an external thermal relay. A special motor cannot be protected by the electronic thermal relay function. Use an external thermal relay. Set Pr.9 = "0" for vector-control-dedicated motors (SF-V5RU) because they are equipped with thermal protectors. Motor over temperature sensing is not provided by the drive.
Operation characteristics of electronic thermal relay function This function detects the overload (overheat) of the motor, stops the operation of the inverter's output transistor, and stops the output. (The operation characteristic is shown on the left.) When using the Mitsubishi Electric constant-torque motor (1) Set one of "1, 13 to 16, 50, 53, 54" in Pr.71. (This provides a 100% continuous torque
characteristic in the low-speed range.) (2) Set the rated current of the motor in Pr.9.
When a value 50% of the inverter rated output current (current value) is set in Pr.9 The % value denotes the percentage to the inverter rated current. It is not the
percentage to the rated motor current. When you set the electronic thermal relay function dedicated to the Mitsubishi Electric
constant-torque motor, this characteristic curve applies to operation at 6 Hz or higher. Transistor protection is activated depending on the temperature of the heat sink. The
protection may be activated even with less than 150% depending on the operating conditions.
Range for transistor protection*4
230
52.5% 105%
50 100 150
60
120
180
240
50
60
70
6Hz
20Hz 10Hz
6Hz 0.5Hz
30Hz or more*3
20Hz 10Hz
0.5Hz
Pr. 9 = 50% setting of inverter rating*1.2
Pr. 9 = 100% setting of inverter rating*1.2
Se co
nd d
is pl
ay in
th is
ra ng
e M
in ut
e di
sp la
y in
th
is ra
ng e
O pe
ra tio
n tim
e (m
in )
O pe
ra tio
n tim
e (s
)
Characteristic when electronic thermal relay function for motor protection is turned off (When Pr. 9 setting is 0(A))
30Hz or more*3
Inverter output current (%) (% to the rated output current)
Operation range Range on the right of characteristic curve Non-operation range Range on the left of characteristic curve
Appendix 25
Appendix 3 Instructions for EAC
The product certified in compliance with the Eurasian Conformity has the EAC marking.
Note: EAC marking In 2010, three countries (Russia, Belarus, and Kazakhstan) established a Customs Union for the purposes of revitalizing the economy by forming a large economic bloc by abolishing or reducing tariffs and unifying regulatory procedures for the handling of articles. Products to be distributed over these three countries of the Customs Union must comply with the Customs Union Technical Regulations (CU-TR), and the EAC marking must be affixed to the products.
For information on the country of origin, manufacture year and month, and authorized sales representative (importer) in the CU area of this product, refer to the following:
Country of origin indication Check the rating plate of the product. (Refer to page 3.) Example: MADE IN JAPAN
Manufactured year and month Check the SERIAL number indicated on the rating plate of the product. (Refer to page 3.)
Authorized sales representative (importer) in the CU area The authorized sales representative (importer) in the CU area is shown below. Name: Mitsubishi Electric (Russia) LLC Address: 52, bld 1 Kosmodamianskaya Nab 115054, Moscow, Russia Phone: +7 (495) 721-2070 Fax: +7 (495) 721-2071
Appendix 4 Restricted Use of Hazardous Substances in Electronic and Electrical Products
The mark of restricted use of hazardous substances in electronic and electrical products is applied to the product as follows based on the Management Methods for the Restriction of the Use of Hazardous Substances in Electrical and Electronic Products of the People's Republic of China.
SJ/T11364 GB/T26572 GB/T26572
Rating plate example
Symbol Year Month Control number SERIAL
The SERIAL consists of one symbol, two characters indicating the production year and month, and six characters indicating the control number. The last digit of the production year is indicated as the Year, and the Month is indicated by 1 to 9, X (October), Y (November), or Z (December).
(Pb)
(Hg)
(Cd)
(Cr(VI))
(PBB)
(PBDE)
26 Appendix
Appendix 5 Referenced Standard (Requirement of Chinese standardized law)
This Product is designed and manufactured accordance with following Chinese standards.
Machinery safety : GB/T 16855.1 GB/T 12668.502 GB 28526 GB/T 12668.3
Electrical safety : GB/T 12668.501 EMC : GB/T 12668.3
Appendix 6 Compliance with the UK certification scheme
UKCA marking: The UKCA marking is used for products sold in the markets of Great Britain (England, Wales, and Scotland) from January 1, 2021 after the departure of the UK from the EU on January 31, 2020.
We declare that this product conforms with the related technical requirements under UK legislation, and affix the UKCA (UK Conformity Assessed) marking on the product. Approval conditions are the same as those for the EU Directives. (Refer to page 21.)
Appendix 27
Appendix 7 Compliance with the EU ErP Directive (Ecodesign Directive)
The following table shows the power loss data according to Ecodesign Directive. The regulation covers 3-phase variable speed drives from 0.12 kW Pn 1 000 kW.
SLD rated
Note: ** indicates alpha numeric combination which means an inverter type such as 1 and 2.
Model name Rated
Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100)
(%)
load point 4 (90;50)
(%)
load point 5 (50;50)
(%)
load point 6 (0;50)
(%)
load point 7 (50;25)
(%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.8 15.0 3.3 3.3 3.3 2.6 2.6 2.6 2.5 2.5 IE2 FR-A820-00077(0.75K)(-**) 2.9 15.0 3.1 3.1 3.1 2.2 2.2 2.2 1.8 1.9 IE2 FR-A820-00105(1.5K)(-**) 4 21.0 3.3 3.3 3.3 2.4 2.4 2.4 2.0 2.0 IE2 FR-A820-00167(2.2K)(-**) 6.4 21.0 2.9 2.9 2.9 2.0 2.0 2.0 1.7 1.7 IE2 FR-A820-00250(3.7K)(-**) 10 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.7 1.7 IE2 FR-A820-00340(5.5K)(-**) 13 23.0 2.6 2.6 2.6 1.7 1.6 1.7 1.3 1.3 IE2 FR-A820-00490(7.5K)(-**) 19 23.0 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-00630(11K)(-**) 24 24.2 2.9 2.9 2.9 1.3 1.3 1.3 0.8 0.8 IE2 FR-A820-00770(15K)(-**) 29 30.7 3.2 3.2 3.2 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-00930(18.5K)(-**) 35 30.7 3.1 3.1 3.1 1.6 1.6 1.6 1.1 1.2 IE2 FR-A820-01250(22K)(-**) 48 30.7 3.1 3.1 3.1 1.6 1.6 1.6 1.1 1.1 IE2 FR-A820-01540(30K)(-**) 59 34.7 3.0 3.0 3.0 1.6 1.5 1.6 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 71 43.6 2.8 2.8 2.8 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-02330(45K)(-**) 89 43.6 2.9 2.9 2.9 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 120 73.0 2.6 2.6 2.6 1.3 1.3 1.3 0.8 0.9 IE2 FR-A820-03800(75K)(-**) 145 79.1 2.4 2.4 2.4 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 181 70.9 2.5 2.5 2.5 1.2 1.2 1.2 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 1.8 19.0 3.2 3.2 3.2 2.8 2.8 2.8 2.8 2.8 IE2 FR-A840-00038(0.75K)(-**) 2.9 19.0 2.6 2.6 2.6 1.8 1.8 1.8 1.5 1.6 IE2 FR-A840-00052(1.5K)(-**) 4 19.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2 FR-A840-00083(2.2K)(-**) 6.3 22.0 2.1 2.1 2.1 1.5 1.5 1.5 1.3 1.3 IE2 FR-A840-00126(3.7K)(-**) 10 22.0 2.1 2.1 2.1 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00170(5.5K)(-**) 13 27.0 1.9 1.9 1.9 1.3 1.3 1.3 1.1 1.1 IE2 FR-A840-00250(7.5K)(-**) 19 27.0 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00310(11K)(-**) 24 28.5 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00380(15K)(-**) 29 28.5 1.8 1.8 1.8 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 36 34.5 1.6 1.6 1.6 2.3 2.3 2.3 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 47 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.7 IE2 FR-A840-00770(30K)(-**) 59 40.3 1.6 1.5 1.6 0.8 0.8 0.8 0.6 0.6 IE2 FR-A840-00930(37K)(-**) 71 49.7 1.8 1.7 1.7 1.0 0.9 1.0 0.7 0.8 IE2 FR-A840-01160(45K)(-**) 88 49.7 1.8 1.7 1.8 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 137 49.7 1.7 1.7 1.7 0.9 0.8 0.8 0.6 0.6 IE2 FR-A840-02160(75K)(-**) 165 70.9 1.8 1.8 1.6 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-02600(90K)(-**) 198 70.9 1.8 1.8 1.7 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-03250(110K)(-**) 248 99.1 1.5 1.5 1.5 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 275 99.1 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 329 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 367 139.8 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.4 0.4 IE2 FR-A840-06100(250K)(-**) 465 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 521 169.4 1.5 1.5 1.5 0.7 0.7 0.7 0.5 0.5 IE2
28 Appendix
LD rated
Note: ** indicates alpha numeric combination which means an inverter type such as 1 and 2.
Model name Rated
Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100)
(%)
load point 4 (90;50)
(%)
load point 5 (50;50)
(%)
load point 6 (0;50)
(%)
load point 7 (50;25)
(%)
load point 8 (0;25)
(%) IE class
FR-A820-00046(0.4K)(-**) 1.6 15.0 3.3 3.3 3.3 2.7 2.7 2.7 2.5 2.5 IE2 FR-A820-00077(0.75K)(-**) 2.7 15.0 3.0 3.0 3.0 2.1 2.1 2.1 1.8 1.8 IE2 FR-A820-00105(1.5K)(-**) 3.7 21.0 3.3 3.3 3.3 2.4 2.4 2.4 2.1 2.1 IE2 FR-A820-00167(2.2K)(-**) 5.8 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.8 1.8 IE2 FR-A820-00250(3.7K)(-**) 8.8 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.9 1.9 IE2 FR-A820-00340(5.5K)(-**) 12 23.0 2.5 2.5 2.5 1.6 1.6 1.6 1.3 1.3 IE2 FR-A820-00490(7.5K)(-**) 17 23.0 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-00630(11K)(-**) 22 24.2 2.8 2.8 2.8 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-00770(15K)(-**) 27 30.7 3.2 3.1 3.2 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-00930(18.5K)(-**) 32 30.7 3.2 3.2 3.2 1.7 1.7 1.7 1.2 1.2 IE2 FR-A820-01250(22K)(-**) 43 30.7 3.2 3.2 3.2 1.6 1.6 1.6 1.1 1.2 IE2 FR-A820-01540(30K)(-**) 53 34.7 3.0 2.9 1.8 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 65 43.6 2.7 2.7 2.7 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-02330(45K)(-**) 81 43.6 2.8 2.8 2.8 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 110 73.0 2.7 2.7 2.7 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-03800(75K)(-**) 132 79.1 2.4 2.4 2.4 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 165 70.9 2.5 2.5 2.5 1.2 1.2 1.2 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 1.6 19.0 3.3 3.3 3.3 2.9 2.9 2.9 2.9 2.9 IE2 FR-A840-00038(0.75K)(-**) 2.7 19.0 2.6 2.6 2.6 1.9 1.8 1.8 1.6 1.6 IE2 FR-A840-00052(1.5K)(-**) 3.7 19.0 2.1 2.1 2.1 1.7 1.7 1.7 1.5 1.5 IE2 FR-A840-00083(2.2K)(-**) 5.8 22.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2 FR-A840-00126(3.7K)(-**) 8.8 22.0 2.1 2.1 2.1 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00170(5.5K)(-**) 12 27.0 1.8 1.8 1.8 1.3 1.3 1.3 1.1 1.1 IE2 FR-A840-00250(7.5K)(-**) 18 27.0 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00310(11K)(-**) 22 28.5 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00380(15K)(-**) 27 28.5 1.8 1.8 1.8 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 33 28.5 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 43 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.7 IE2 FR-A840-00770(30K)(-**) 53 40.3 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00930(37K)(-**) 65 49.7 1.7 1.7 1.7 1.0 0.9 1.0 0.7 0.7 IE2 FR-A840-01160(45K)(-**) 81 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 110 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.6 0.6 IE2 FR-A840-02160(75K)(-**) 137 70.9 1.8 1.8 1.6 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-02600(90K)(-**) 165 70.9 1.8 1.8 1.7 0.9 0.9 0.8 0.6 0.5 IE2 FR-A840-03250(110K)(-**) 198 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 248 99.1 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 275 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 329 139.8 1.5 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06100(250K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 465 169.4 1.5 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
Appendix 29
ND rated
Note: ** indicates alpha numeric combination which means an inverter type such as 1 and 2.
Model name Rated
Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100)
(%)
load point 4 (90;50)
(%)
load point 5 (50;50)
(%)
load point 6 (0;50)
(%)
load point 7 (50;25)
(%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.1 15.0 3.6 3.6 3.6 3.0 3.0 3.0 2.9 2.9 IE2 FR-A820-00077(0.75K)(-**) 1.9 15.0 3.1 3.1 3.1 2.3 2.3 2.3 2.0 2.0 IE2 FR-A820-00105(1.5K)(-**) 3 21.0 3.4 3.4 3.4 2.5 2.5 2.5 2.2 2.2 IE2 FR-A820-00167(2.2K)(-**) 4.2 21.0 2.9 2.9 2.9 2.1 2.1 2.1 1.8 1.8 IE2 FR-A820-00250(3.7K)(-**) 6.7 21.0 2.6 2.6 2.6 1.9 1.9 1.9 1.5 1.5 IE2 FR-A820-00340(5.5K)(-**) 9.1 23.0 2.5 2.5 2.5 1.6 1.6 1.6 1.3 1.3 IE2 FR-A820-00490(7.5K)(-**) 13 23.0 2.6 2.3 2.3 1.5 1.4 1.5 1.1 1.1 IE2 FR-A820-00630(11K)(-**) 18 24.2 2.5 2.5 2.5 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-00770(15K)(-**) 23 30.7 3.1 3.0 3.1 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-00930(18.5K)(-**) 29 30.7 3.0 3.0 3.0 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-01250(22K)(-**) 34 30.7 2.9 2.9 2.9 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01540(30K)(-**) 44 34.7 2.9 2.8 2.9 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 55 43.6 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-02330(45K)(-**) 67 43.6 2.7 2.7 2.7 1.4 1.4 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 82 73.0 2.4 2.4 2.4 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-03800(75K)(-**) 110 79.1 2.3 2.3 2.3 1.2 1.2 1.2 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 132 70.9 2.4 2.4 2.4 1.2 1.1 1.2 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 1.1 19.0 3.8 3.8 3.8 3.5 3.5 3.5 3.5 3.5 IE2 FR-A840-00038(0.75K)(-**) 1.9 19.0 2.9 2.9 2.9 2.2 2.2 2.2 2.0 2.0 IE2 FR-A840-00052(1.5K)(-**) 3 19.0 2.2 2.2 2.2 1.8 1.8 1.8 1.6 1.6 IE2 FR-A840-00083(2.2K)(-**) 4.6 22.0 2.2 2.2 2.2 1.7 1.6 1.7 1.5 1.5 IE2 FR-A840-00126(3.7K)(-**) 6.9 22.0 2.0 2.0 2.0 1.5 1.5 1.5 1.3 1.3 IE2 FR-A840-00170(5.5K)(-**) 9.1 27.0 1.9 1.9 1.9 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00250(7.5K)(-**) 13 27.0 1.8 1.8 1.8 1.1 1.1 1.1 0.8 0.8 IE2 FR-A840-00310(11K)(-**) 18 28.5 1.8 1.8 1.8 1.1 1.0 1.0 0.8 0.8 IE2 FR-A840-00380(15K)(-**) 24 28.5 1.8 1.8 1.8 1.1 1.1 1.1 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 29 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 34 34.5 1.5 1.5 1.5 0.9 0.5 0.9 0.7 0.7 IE2 FR-A840-00770(30K)(-**) 43 40.3 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00930(37K)(-**) 54 49.7 1.7 1.7 1.7 1.0 0.9 0.9 0.7 0.7 IE2 FR-A840-01160(45K)(-**) 66 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 84 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.6 IE2 FR-A840-02160(75K)(-**) 110 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2 FR-A840-02600(90K)(-**) 137 70.9 1.8 1.8 1.7 0.9 0.9 0.9 0.6 0.6 IE2 FR-A840-03250(110K)(-**) 165 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 198 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 248 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 275 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 329 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06100(250K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
30 Appendix
HD rated
Note: ** indicates alpha numeric combination which means an inverter type such as 1 and 2.
Appendix 8 How to check the specification change Check the SERIAL number indicated on the inverter rating plate or packaging. For how to read the SERIAL number, refer to the explanation below.
Functions/specifications available for the FR-A800-GN manufactured in September 2020 or later
Ring topology Transmission speed of 100 Mbps Backup/restore function (For details, refer to the Instruction Manual (Detailed) of the inverter.)
Functions/specifications available for the FR-A800-GN manufactured in October 2022 or later CC-Link IE TSN authentication class A Protocol version 2.0
Model name Rated
Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100)
(%)
load point 4 (90;50)
(%)
load point 5 (50;50)
(%)
load point 6 (0;50)
(%)
load point 7 (50;25)
(%)
load point 8 (0;25)
(%) IE class
FR-A820-00046(0.4K)(-**) 0.6 15.0 5.0 5.0 5.0 4.5 4.5 4.4 4.4 4.4 IE2 FR-A820-00077(0.75K)(-**) 1.1 15.0 3.5 3.5 3.5 2.9 2.9 2.9 2.6 2.6 IE2 FR-A820-00105(1.5K)(-**) 1.9 21.0 3.4 3.4 3.4 2.8 2.7 2.8 2.5 2.5 IE2 FR-A820-00167(2.2K)(-**) 3 21.0 3.1 3.0 3.1 2.3 2.3 2.3 2.0 2.0 IE2 FR-A820-00250(3.7K)(-**) 4.2 21.0 3.0 3.0 3.0 2.5 2.5 2.5 1.9 1.9 IE2 FR-A820-00340(5.5K)(-**) 6.7 23.0 2.4 2.4 2.4 1.7 1.7 1.7 1.4 1.4 IE2 FR-A820-00490(7.5K)(-**) 9.1 23.0 2.4 2.3 2.4 1.4 1.4 1.4 1.1 1.1 IE2 FR-A820-00630(11K)(-**) 13 24.2 2.5 2.5 2.5 1.3 1.3 1.3 0.9 0.9 IE2 FR-A820-00770(15K)(-**) 18 30.7 3.1 3.1 3.1 1.7 1.7 1.7 1.3 1.3 IE2 FR-A820-00930(18.5K)(-**) 23 30.7 3.1 3.1 3.1 1.7 1.7 1.7 1.3 1.3 IE2 FR-A820-01250(22K)(-**) 29 30.7 3.0 3.0 3.0 1.6 1.6 1.6 1.2 1.2 IE2 FR-A820-01540(30K)(-**) 34 34.7 2.7 2.7 2.7 1.5 1.5 1.5 1.1 1.1 IE2 FR-A820-01870(37K)(-**) 44 43.6 2.7 2.7 2.7 1.5 1.5 1.5 1.2 1.2 IE2 FR-A820-02330(45K)(-**) 55 43.6 2.6 2.6 2.6 1.4 1.3 1.4 1.0 1.0 IE2 FR-A820-03160(55K)(-**) 67 73.0 2.3 2.3 2.3 1.2 1.2 1.2 0.8 0.8 IE2 FR-A820-03800(75K)(-**) 82 79.1 2.3 2.3 2.3 1.2 1.2 1.2 0.9 0.9 IE2 FR-A820-04750(90K)(-**) 110 70.9 2.3 2.3 2.3 1.1 1.1 1.1 0.7 0.7 IE2 FR-A840-00023(0.4K)(-**) 0.6 19.0 5.6 5.6 5.6 5.4 5.4 5.4 5.4 5.4 IE2 FR-A840-00038(0.75K)(-**) 1.1 19.0 2.6 2.6 2.6 2.2 2.2 2.2 2.2 2.3 IE2 FR-A840-00052(1.5K)(-**) 1.9 19.0 3.1 3.1 3.1 2.5 2.5 2.5 2.4 2.4 IE2 FR-A840-00083(2.2K)(-**) 3 22.0 2.4 2.4 2.4 1.9 1.9 1.9 1.7 1.8 IE2 FR-A840-00126(3.7K)(-**) 4.6 22.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2 FR-A840-00170(5.5K)(-**) 6.9 22.0 1.8 1.8 1.8 1.4 1.4 1.4 1.2 1.2 IE2 FR-A840-00250(7.5K)(-**) 9.1 27.0 1.8 1.8 1.8 1.1 1.1 1.1 0.9 0.9 IE2 FR-A840-00310(11K)(-**) 13 28.5 1.8 1.8 1.8 1.1 1.1 1.1 0.9 0.9 IE2 FR-A840-00380(15K)(-**) 18 28.5 1.7 1.7 1.7 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00470(18.5K)(-**) 24 34.5 1.5 1.5 1.5 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00620(22K)(-**) 29 34.5 1.5 1.5 1.5 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-00770(30K)(-**) 34 40.3 1.6 1.5 1.5 1.0 1.0 1.0 0.8 0.8 IE2 FR-A840-00930(37K)(-**) 43 49.7 1.7 1.6 1.6 1.0 0.9 1.0 0.7 0.7 IE2 FR-A840-01160(45K)(-**) 54 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-01800(55K)(-**) 66 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2 FR-A840-02160(75K)(-**) 84 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2 FR-A840-02600(90K)(-**) 110 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2 FR-A840-03250(110K)(-**) 137 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-03610(132K)(-**) 165 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04320(160K)(-**) 198 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-04810(185K)(-**) 248 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-05470(220K)(-**) 275 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06100(250K)(-**) 329 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2 FR-A840-06830(280K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
SERIAL example
Symbol Year Month Control number SERIAL
The SERIAL consists of one symbol, two characters indicating the production year and month, and six characters indicating the control number. The last digit of the production year is indicated as the Year, and the Month is indicated by 1 to 9, X (October), Y (November), or Z (December).
Appendix 31
MEMO
32
33
WARRANTY
When using this product, make sure to understand the warranty described below.
1. Warranty period and coverage We will repair any failure or defect (hereinafter referred to as "failure") in our FA equipment (hereinafter referred to as the "Product") arisen during warranty period at no charge due to causes for which we are responsible through the distributor from which you purchased the Product or our service provider. However, we will charge the actual cost of dispatching our engineer for an on-site repair work on request by customer in Japan or overseas countries. We are not responsible for any on-site readjustment and/or trial run that may be required after a defective unit are repaired or replaced.
[Term] The term of warranty for Product is twelve months after your purchase or delivery of the Product to a place designated by you or eighteen months from the date of manufacture whichever comes first ("Warranty Period"). Warranty period for repaired Product cannot exceed beyond the original warranty period before any repair work.
[Limitations] (1) You are requested to conduct an initial failure diagnosis by yourself, as a general rule. It can also be carried out by us or our service company upon your
request and the actual cost will be charged. However, it will not be charged if we are responsible for the cause of the failure.
(2) This limited warranty applies only when the condition, method, environment, etc. of use are in compliance with the terms and conditions and instructions that are set forth in the instruction manual and user manual for the Product and the caution label affixed to the Product.
(3) Even during the term of warranty, the repair cost will be charged on you in the following cases; a failure caused by your improper storing or handling, carelessness or negligence, etc., and a failure caused by your hardware or software problem a failure caused by any alteration, etc. to the Product made on your side without our approval a failure which may be regarded as avoidable, if your equipment in which the Product is incorporated is equipped with a safety device required by
applicable laws and has any function or structure considered to be indispensable according to a common sense in the industry a failure which may be regarded as avoidable if consumable parts designated in the instruction manual, etc. are duly maintained and replaced any replacement of consumable parts (condenser, cooling fan, etc.) a failure caused by external factors such as inevitable accidents, including without limitation fire and abnormal fluctuation of voltage, and acts of
God, including without limitation earthquake, lightning and natural disasters a failure caused by using the emergency drive function a failure generated by an unforeseeable cause with a scientific technology that was not available at the time of the shipment of the Product from our
company any other failures which we are not responsible for or which you acknowledge we are not responsible for
2. Term of warranty after the stop of production (1) We may accept the repair at charge for another seven (7) years after the production of the product is discontinued. The announcement of the stop of
production for each model can be seen in our Sales and Service, etc. (2) Please note that the Product (including its spare parts) cannot be ordered after its stop of production.
3. Service in overseas Our regional FA Center in overseas countries will accept the repair work of the Product; however, the terms and conditions of the repair work may differ depending on each FA Center. Please ask your local FA center for details.
4. Exclusion of responsibility for compensation against loss of opportunity, secondary loss, etc. Regardless of the gratis warranty term, Mitsubishi Electric shall not be liable for compensation to: (1) Damages caused by any cause found not to be the responsibility of Mitsubishi Electric. (2) Loss in opportunity, lost profits incurred to the user by Failures of Mitsubishi Electric products. (3) Special damages and secondary damages whether foreseeable or not, compensation for accidents, and compensation for damages to products other
than Mitsubishi Electric products. (4) Replacement by the user, maintenance of on-site equipment, start-up test run and other tasks.
5. Change of Product specifications Specifications listed in our catalogs, manuals or technical documents may be changed without notice.
6. Application and use of the Product (1) For the use of our product, its applications should be those that may not result in a serious damage even if any failure or malfunction occurs in product,
and a backup or fail-safe function should operate on an external system to product when any failure or malfunction occurs. (2) Our product is designed and manufactured as a general purpose product for use at general industries.
Therefore, applications substantially influential on the public interest for such as atomic power plants and other power plants of electric power compa- nies, and also which require a special quality assurance system, including applications for railway companies and government or public offices are not recommended, and we assume no responsibility for any failure caused by these applications when used. In addition, applications which may be substantially influential to human lives or properties for such as airlines, medical treatments, railway service, incineration and fuel systems, man-operated material handling equipment, entertainment machines, safety machines, etc. are not recommended, and we assume no responsibility for any failure caused by these applications when used. We will review the acceptability of the abovementioned applications, if you agree not to require a specific quality for a specific application. Please con- tact us for consultation.
34
About the enclosed CD-ROM The enclosed CD-ROM contains PDF copies of the manuals related to this product.
Before using the enclosed CD-ROM The copyright and other rights of the enclosed CD-ROM all belong to Mitsubishi Electric Corporation. No part of the enclosed CD-ROM may be copied or reproduced without the permission of Mitsubishi Electric Corporation. Specifications of the enclosed CD-ROM are subject to change for modification without notice. We are not responsible for any damages and lost earnings, etc. from use of the enclosed CD-ROM. Warranty
We do not provide a warranty against defects in the enclosed CD-ROM and related documents.
NOTE This is a personal computer dedicated CD-ROM. Do not attempt to play it on ordinary audio devices. The loud volume may damage hearing and speakers.
System requirements for the enclosed CD-ROM System for viewing PDF files is required to read instruction manuals contained in the enclosed CD-ROM.
Operating method of the enclosed CD-ROM How to read instruction manuals
Step 1. Start the personal computer and place the enclosed CD-ROM in the CD-ROM drive. Step 2. The main window will automatically open in the web browser. Step 3. Choose your language from a language select menu. Step 4. Click the manual you want to read in the "INSTRUCTION MANUAL" list. Step 5. The PDF manual will open.
Manual opening of the enclosed CD-ROM Step 1. Start the personal computer and place the enclosed CD-ROM in the CD-ROM drive. Step 2. Open the "index.html" file. Step 3. The main window will open in the web browser. Follow the previous steps from Step 3 to Step 5.
PDF data of the instruction manual are stored in "MANUAL" folder on the enclosed CD-ROM.
35
REVISIONS *The manual number is given on the bottom left of the back cover.
Revision date *Manual number Revision
Apr. 2019 IB(NA)-0600835-A First edition
Aug. 2020 IB(NA)-0600835-B Added Main circuit capacitor life measurement at power OFF (every time) (Pr.259 = "11") Pr.506 Display estimated main circuit capacitor residual life Current input check terminal selection (Pr.573 = "11 to 14, 21 to 24") Low-speed forward rotation command (RLF) signal, Low-speed reverse rotation command (RLR) signal Cooling fan operation selection during the test operation (Pr.244 = "1000, 1001, 1101 to 1105") Pr.507 Display/reset ABC1 relay contact life, Pr.508 Display/reset ABC2 relay contact life Ring topology Transmission speed of 100 Mbps Edited Tightening torque specifications
Sep. 2022 IB(NA)-0600835-C Added Emergency drive(Pr.514, Pr.515, Pr.523, Pr.524, Pr.1013, Pr.178 to Pr.189 = "84", Pr.190 to Pr.196 = "65, 66") Pr.890 Internal storage device status indication CC-Link IE TSN authentication class A Protocol version 2.0 Compliance with the UK certification scheme Compliance with the EU ErP Directive (Ecodesign Directive)
1 BCN-C22005-957
FR-A800/A800 Plus Series Instruction Manual Supplement
1 Emergency drive
This function is used in case of emergency such as a fire to forcibly continue inverter operation to drive a motor without activating protective functions even if the inverter detects a fault. Using this function may cause damage of the motor or the inverter because driving the motor is given the highest priority. Use this function for emergency operation only. When the inverter is damaged by a fault, the motor operation can be continued by switching to the commercial power supply operation. The emergency drive function is available only for standard structure models and IP55 compatible models.
*1 The setting is available for the standard structure model and the IP55 compatible model. *2 Set Pr.524 after setting Pr.523. *3 When Pr.523 = "100, 200, 300, or 400", the emergency drive is activated regardless of the Pr.524 setting.
Pr. Name Initial value
Setting range Description FM CA
523 H320*1
Emergency drive mode selection 9999
100, 111, 112, 121, 122, 123, 124, 200, 211, 212, 221, 222, 223, 224, 300, 311, 312, 321, 322, 323, 324, 400, 411, 412, 421, 422, 423, 424
Select the operation mode of the emergency drive.
9999 Emergency drive disabled.
524 H321*1*2
Emergency drive running speed 9999
0 to 590 Hz*3 Set the running frequency in the fixed frequency mode of the emergency drive (when the fixed frequency mode is selected in Pr.523)
0% to 100%*3 Set the PID set point in the PID control mode of the emergency drive (when the PID control mode is selected in Pr.523)
9999*3 Emergency drive disabled.
515 H322*1
Emergency drive dedicated retry count
1 1 to 200 Set the retry count during emergency drive operation.
9999*3 Without retry count excess (no restriction on the number of retries).
1013 H323*1
Emergency drive running speed after retry reset
60 Hz 50 Hz 0 to 590 Hz Set the frequency for operation after a retry when any of E.CPU, E.1 to E.3, and E.5 to E.7 occurs during emergency drive operation.
514 H324*1
Emergency drive dedicated waiting time
9999 0.1 to 600 s Set the retry waiting time during emergency drive
operation. 9999 The Pr.68 setting is applied to the operation.
136 A001
MC switchover interlock time 1 s 0 to 100 s Set the operation interlock time for MC2 and MC3.
139 A004
Automatic switchover frequency from inverter to bypass operation
9999 0 to 60 Hz
Set the frequency at which the inverter-driven operation is switched over to the commercial power supply operation when the condition for the electronic bypass is established during emergency drive operation.
8888, 9999 Electronic bypass during emergency drive is disabled.
57 A702
Restart coasting time 9999
0
Coasting time differs according to the inverter capacity. (Refer to the description of the automatic restart after instantaneous power failure function in the Instruction Manual (Detailed) or the Instruction Manual (Function).)
0.1 to 30 s Set the waiting time for the inverter to perform a restart after restoring power due to an instantaneous power failure.
9999 No restart
V/F Magnetic flux Sensorless PM
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Connection diagram A connection diagram of the emergency drive (commercial mode) is as follows.
*1 Be careful of the capacity of the sequence output terminals. The applied terminals differ by the settings of Pr.190 to Pr.196 (Output terminal function selection).
*2 When connecting a DC power supply, insert a protective diode. When connecting an AC power supply, use relay output terminals of the inverter or contact output terminals of the relay output option (FR-A8AR).
*3 The applied terminals differ by the settings of Pr.180 to Pr.189 (Input terminal function selection) *4 The applied terminals differ by the settings of Pr.190 to Pr.196 (Output terminal function selection).
NOTE Be sure to provide a mechanical interlock for MC2 and MC3.
Output terminal capacity Output terminal permissible load Open collector output of inverter (RUN, SU, IPF, OL, FU) 24 VDC 0.1 A
Inverter relay output (A1-C1, B1-C1, A2-B2, B2-C2) Relay output option (FR-A8AR)
230 VAC 0.3 A 30 VDC 0.3 A
Emergency drive execution
IM R/L1 S/L2 T/L3
X84
Emergency drive in operation
Fault output during emergency drive
CS
RES
SD
U V W
Y65
MC2
SE
MC3
MC2 24VDC
Reset
MC3
Inverter/bypass
MCCB
MC2
MC3
MC2
MC3
ALM3
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Emergency drive execution sequence
When the X84 signal is ON for 3 seconds, the emergency drive is activated. The Y65 signal turns ON during emergency drive operation. "ED" appears on the operation panel during emergency drive operation. The ALM3 signal turns ON when a fault occurs during emergency drive operation.
To activate the emergency drive, the X84 signal needs to be ON for three seconds while all the following conditions are satisfied.
When the "retry" (Pr.523 = "2[][], 3[][]") is selected, it is recommended to use the automatic restart after instantaneous power failure function at the same time.
Parameter setting is not available during emergency drive operation. To return to the normal operation during emergency drive operation, do the following. (The operation will not be
returned to normal only by turning OFF the X84 signal.) Reset the inverter, or turn the power supply OFF. Clear a fault by turning ON the X51 signal while the sequence function is enabled (when the protective function is activated).
The operation is switched over to the commercial power supply operation in case of the following during emergency drive operation while the commercial mode or the retry / commercial mode is selected. 24 V external power supply operation, power failure status or operation with the power supplied through R1/S1 (except when the DC feeding mode 1 or 2 is selected), undervoltage
To input the X84 signal, set "84" in any of Pr.178 to Pr.189 (Input terminal function selection) to assign the function.
For the terminal used for the Y65 signal output, assign the function by setting "65 (positive logic)" or "165 (negative logic)" in any of Pr.190 to Pr.196 (Output terminal function selection). For the terminal used for the ALM3 signal output, assign the function by setting "66 (positive logic)" or "166 (negative logic)" in any of Pr.190 to Pr.196 (Output terminal function selection).
The X84 signal input is valid either through the external terminal or via network regardless of the Pr.338 and Pr.339 settings (Selection of control source in Network operation mode).
During emergency drive operation, the operation is performed as Pr.502 Stop mode selection at communication error = "0 (initial value)" and communication errors (such as E.SER) do not occur. (A protective function is performed according to its operation during emergency drive operation.)
Item Condition Emergency drive parameter settings
Pr.523 "9999" Pr.524 "9999" (Setting is not required when Pr.523 = "100, 200, 300, or 400".)
Control method
Either of the following control methods is selected (when Pr.800 = "9, 10, 20, 109, or 110" or Pr.451 = "10, 20, 110, or 9999") V/F control Advanced magnetic flux vector control Real sensorless vector control (speed control) PM sensorless vector control (speed control) PM sensorless vector control test operation
Contradictory condition
None of the following conditions are satisfied. Enabling the electronic bypass sequence function Enabling the brake sequence function Using the FR-A8NS (option) During offline auto tuning Supplying power through terminals R1 and S1 Pr.30 = "2, 102"
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The following diagram shows the operation of the emergency drive function (in the retry / output shutoff mode or in the fixed frequency mode (Pr.523 = "211")).
The following diagram shows the operation of switching over to the commercial power supply operation during emergency drive operation by using the CS signal (when the electronic bypass during emergency drive operation is enabled) (in the commercial mode or in the fixed frequency mode (Pr.523 = "411")).
*1 Input the CS signal via an external terminal.
NOTE The emergency drive function is not available for the FR-A800-CRN and FR-B, B3 series inverters.
Continuous operation except in case of critical faults (such as E.PUE)
Coasting
RES
X84
STF
ALM3
Time
Motor rotations per minute
Retry waiting time Pr.514
Emergency drive in operation Y65
Retry in case of critical faults
Normal operation
Emergency drive continued
ALM
Frequency
Pr.524
3s
Emergency drive finished
ON
ON
ON
ON
ON
ON
ON
3s
Emergency drive continued
Normal operation
Coasting
Power supply
STF
X84
CS*1
MC3
MC2
MC3
MC2
Frequency
Pr.136
Time
Motor rotations per minute
Emergency drive commercial power supply operation
Emergency drive in operation Y65
MC delay
MC delay
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
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Emergency drive operation selection (Pr.523, Pr.524) Use Pr.523 Emergency drive mode selection to select the emergency drive operation. Set a value in the
hundreds place to select the operation when a valid protective function is activated (critical fault) during emergency drive. Set values in the ones and tens places to select the operation method.
*1 Under PM sensorless vector control, the operation is not switched over to the commercial power supply operation and the output is shut off.
NOTE The operation is automatically switched from the PU operation mode or External/PU combined operation mode to
the External operation mode when the emergency drive is activated in the fixed frequency mode or in the PID control mode.
Retry operation during emergency drive (Pr.515, Pr.514) Set the retry operation during emergency drive operation. Use Pr.515 Emergency drive dedicated retry count
to set the retry count, and use Pr.514 Emergency drive dedicated waiting time to set the retry waiting time. The ALM signal output conditions depend on the Pr.67 Number of retries at fault occurrence setting. (Refer to
the description of the retry function in the Instruction Manual (Detailed) or the Instruction Manual (Function).) For the protective functions (critical faults) for which a retry is performed during emergency drive operation, refer
to page 7.
NOTE During emergency drive operation, Pr.65 Retry selection is not available.
Pr.523 setting Emergency drive operation mode Description
1[][] Output shutoff mode
Selecting operation when a critical fault occurs during emergency drive operation
Output shutoff at a critical fault occurrence.
2[][] Retry / output shutoff mode
Retry operation at a critical fault occurrence. (Output shutoff at the occurrence of a fault for which retry is not permitted.) The output is shut off when a critical fault for which retry is not permitted occurs, or the retry count is exceeded.
3[][]*1 Retry / commercial mode
Retry operation at a critical fault occurrence. (Electronic bypass at the occurrence of a critical fault for which retry is not permitted.) The operation is switched over to the commercial power supply operation when a critical fault for which retry is not permitted occurs, or the retry count is exceeded. While Pr.515 = "9999", the operation is switched over to the commercial power supply operation when the retry count reaches 200.
4[][]*1 Commercial mode The operation is switched over to the commercial power supply operation when a critical fault occurs.
[]00 Normal operation
Selecting the operation method during emergency drive operation
The operation is performed with the same set frequency and by the same starting command as those in the normal operation. Use this mode to avoid output shutoff due to a fault.
[]11 Fixed frequency mode
Forward rotation The operation is forcibly performed with the frequency set in Pr.524. Even when the motor is stopped, the operation is started by the emergency drive operation.
[]12 Reverse rotation
[]21
PID control mode
Forward rotation The operation is performed under PID control using the Pr.524 setting as a set point. The measured values are input in the method set in Pr.128.[]22 Reverse rotation
[]23 Forward rotation (Second PID measured value input) The operation is performed under PID control using the
Pr.524 setting as a set point. The measured values are input in the method set in Pr.753.
[]24 Reverse rotation (Second PID measured value input)
9999 Emergency drive disabled.
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Electronic bypass during emergency drive (Pr.136, Pr.139, Pr.57) For selecting the commercial mode (Pr.523 = "3[][], 4[][]"), setting is required as follows.
Set Pr.136 MC switchover interlock time and Pr.139 Automatic switchover frequency from inverter to bypass operation and assign MC2 and MC3 signals to output terminals. When the CS signal is assigned to an input terminal, set Pr.57 Restart coasting time "9999" and input the CS signal through the terminal. (In the initial setting, the CS signal is assigned to the terminal CS.) Select V/F control, Advanced magnetic flux vector control, or Real sensorless vector control. (Under PM sensorless vector control, the operation is not switched over to the commercial power supply operation the output is shut off.)
During emergency drive operation, the operation is switched over to the commercial power supply operation when any of the following conditions is satisfied. CS signal turns OFF. A critical fault for which retry is not permitted occurs while Pr.523 = "3[][]". A critical fault occurs while Pr.523 = "4[][]".
While the motor is driven by the inverter during emergency drive operation, if a condition for electronic bypass is satisfied, the output frequency is accelerated/decelerated to the Pr.139 setting. When the frequency reaches the set frequency, the operation is switched over to the commercial power supply operation. (The operation is immediately switched over to the commercial power supply operation during output shutoff due to a critical fault occurrence.)
If the parameter for electronic bypass is not set while the commercial mode is set (Pr.523 = "3[][], 4[][]"), the operation is not switched over to the commercial power supply operation even when a condition for switchover is satisfied, and the output is shut off.
To assign the MC2 and MC3 signals to output terminals, use any two of Pr.190 to Pr.196 (Output terminal function selection) and set "18 (positive logic)" for the MC2 signal and set "19 (positive logic)" for the MC3 signal.
Operation of magnetic contactor (MC2, MC3)
The input signals are as follows.
*1 Input the CS signal via an external terminal. (Set Pr.162 = "0 to 3, 10 to 13" or Pr.338 = "1".) *2 If the signal is turned ON after switchover to the emergency drive commercial power supply operation, the operation will not be
returned to the inverter-driven operation. *3 If the signal is turned OFF during the emergency drive operation, the operation will not be returned to normal. *4 MC operation is as follows.
NOTE During electronic bypass operation while the electronic bypass sequence is enabled (Pr.135 = "1"), the emergency
drive function is not available.
Magnetic contactor Installation location
Operation During commercial power
supply operation During inverter operation
MC2 Between power supply and motor Shorted Open MC3 Between inverter output side and motor Open Shorted
Signal Function Operation MC operation*4
MC2 MC3
CS*1 Inverter/bypass ON: Inverter operation OFF: Emergency drive commercial power supply operation*2
X84 Emergency drive operation ON: Emergency drive operation
OFF: Normal operation*3
RES Operation status reset ON: Reset No change OFF: Normal operation
Notation MC operation ON OFF
During inverter operation: MC2-OFF, MC3-ON During commercial power supply operation: MC2-ON, MC3-OFF
No change The operation status before changing the signal state to ON or OFF is held.
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PID control during emergency drive operation During emergency drive operation in the PID control mode, the operation is performed under PID control using
the Pr.524 setting as a set point. Input the measured values in the method set in Pr.128 or Pr.753. When the PID control mode is selected for emergency drive, the PID action during emergency drive operation is
as follows depending on the PID control setting.
While the "retry" (Pr.523 = "22[], 32[]") is selected in the PID control mode, if a retry occurs at an occurrence of E.CPU, E.1 to E.3, or E.5 to E.7 during emergency drive operation, the operation is performed not under PID control but with the fixed frequency. Use Pr.1013 Emergency drive running speed after retry reset to set the fixed frequency.
Operation of protective functions during emergency drive Operation of protective functions during emergency drive is as follows.
*1 While the switchover to the commercial power supply operation during emergency drive operation is enabled, when the same protective function is activated twice consecutively, the retry is attempted up to twice.
*2 In normal operation (Pr.523 = "200 or 300"), the start signal is turned OFF at the same time the retry function resets the protective function. Input the start signal again to resume the operation.
Item PID control action
Set point / measured value input setting Deviation input setting Without PID control
setting Measured value input selection (Pr.128, Pr.753) Held Terminal 4 input Terminal 4 input Forward action / reverse action selection (Pr.128, Pr.753) Held Held Reverse action
Proportional band (Pr.129, Pr.756) Held Held 100% (initial value) Integral time (Pr.130, Pr.757) Held Held 1 s (initial setting) Differential time (Pr.134, Pr.758) Held Held Not used (initial setting) Applied to the frequency / calculation only (Pr.128, Pr.753) Applied to the frequency Applied to the frequency Applied to the frequency
Dancer control Invalid Invalid Invalid Other PID-related settings Held Held Held
Protective function
Operation during emergency drive
Protective function
Operation during emergency drive
Protective function
Operation during emergency drive
E.OC1 Retry E.OP3 The function is disabled. E.ECA The function is disabled. E.OC2 Retry E.16 The function is disabled. E.MB1 The function is disabled. E.OC3 Retry E.17 The function is disabled. E.MB2 The function is disabled. E.OV1 Retry E.18 The function is disabled. E.MB3 The function is disabled. E.OV2 Retry E.19 The function is disabled. E.MB4 The function is disabled. E.OV3 Retry E.20 The function is disabled. E.MB5 The function is disabled. E.THT Retry E.PE Output shutoff E.MB6 The function is disabled. E.THM Retry E.PUE The function is disabled. E.MB7 The function is disabled. E.FIN Retry E.RET Output shutoff E.EP The function is disabled. E.IPF The function is disabled. E.PE2 Output shutoff E.MP The function is disabled. E.UVT The function is disabled. E.CPU Retry E.EF The function is disabled. E.ILF The function is disabled. E.CTE The function is disabled. E.IAH The function is disabled. E.OLT Retry E.P24 The function is disabled. E.LCI The function is disabled. E.SOT Retry E.CDO Retry E.PCH The function is disabled. E.LUP The function is disabled. E.IOH Output shutoff E.PID The function is disabled. E.LDN The function is disabled. E.SER The function is disabled. E.1 Retry*2
E.BE Retry*1 E.AIE The function is disabled. E.2 Retry*2
E.GF Retry E.USB The function is disabled. E.3 Retry*2
E.LF The function is disabled. E.SAF Retry*1 E.5 Retry*2
E.OHT Retry E.PBT Retry*1 E.6 Retry*1*2
E.PTC Retry E.OS The function is disabled. E.7 Retry*1*2
E.OPT The function is disabled. E.OSD The function is disabled. E.11 The function is disabled. E.OP1 The function is disabled. E.ECT The function is disabled.
E.13 Output shutoff E.OP2 The function is disabled. E.OD The function is disabled.
BCN-C22005-957_ENG.fm 7
8 BCN-C22005-957
The fault output during emergency drive operation is as follows.
Input signal operation During emergency drive operation in the fixed frequency mode or in the PID control mode, input signals unrelated
to the emergency drive become invalid with some exceptions. The following table shows functions of the signals that do not become invalid during emergency drive operation
in the fixed frequency mode or in the PID control mode.
*1 The signal is available only for the FR-A800-LC.
Emergency drive status monitor Set "68" in Pr.52, Pr.774 to Pr.776, Pr.992 to monitor the status of the emergency drive on the operation panel. Description of the status monitor
*1 The first digit remains the same as the previous numerical value (fault condition). *2 "A certain alarm" means a protective function disabled during emergency drive shown in the tables on page 7.
Signal Pr.190 to Pr.196 setting
DescriptionPositive logic
Negative logic
ALM 99 199 Turns ON at the occurrence of a fault that causes the above-mentioned "retry" or "output shutoff" during emergency drive operation.
ALM3 66 166 Output when a fault occurs during emergency drive operation. During emergency drive operation, if a fault that does not activate any protective function occurs, the signal turns ON for 3 seconds and then turns OFF.
Input signal status Fixed frequency mode PID control mode
Valid OH, X31*1, X32, X41*1, TRG, TRC, X51, RES, X70, X71
OH, X31*1, X32, X41*1, TRG, TRC, X51, RES, X70, X71
Held RT, X9, X17, X18, MC, SQ, X84 RT, X9, X17, X18, MC, SQ, X64, X65, X66, X67, X79, X84
Always-ON X14, X77, X78, X80
Operation panel
indication
Description
Emergency drive setting Emergency drive operating status
0 Emergency drive function setting is not available.
1
Electronic bypass during emergency drive operation is disabled.
During normal operation 2
Emergency drive in operation
Operating properly 3 A certain alarm is occurring.*2
4 A critical fault is occurring. The operation is being continued by the retry.
5 A critical fault is occurring. The continuous operation is not allowed due to output shutoff.
11
Electronic bypass during emergency drive operation is enabled.
During normal operation 12
Emergency drive in operation
Operating properly 13 A certain alarm is occurring.*2
14 A critical fault is occurring. The operation is being continued by the retry.
15 A critical fault is occurring. The continuous operation is not allowed due to output shutoff.
2[]*1 Electronic bypass is started during emergency drive (during acceleration/ deceleration to the switchover frequency).
3[]*1 During electronic bypass during emergency drive (waiting during the interlock time).
4[]*1 During commercial power supply operation during emergency drive
CAUTION When the emergency drive operation is performed, the operation is continued or the retry is repeated even when
a fault occurs, which may damage or burn the inverter and motor. Before restarting the normal operation after using this function, make sure that the inverter and motor have no fault. Any damage of the inverter or the motor caused by using the emergency drive function is not covered by the warranty even within the guarantee period.
BCN-C22005-957_ENG.fm 8
9 BCN-C22005-957
2 Forward rotation output (Y30) signal and Reverse rotation output (Y31) signal
The Forward rotation output (Y30) signal and Reverse rotation output (Y31) signal become available under encoder feedback control.
Under Vector control or encoder feedback control, the Forward rotation output (Y30) signal or the Reverse rotation output (Y31) signal is output according to the actual rotation direction of the motor.
NOTE For the details on the Y30 and Y31 signals, refer to the Instruction Manual (Detailed) or the Instruction Manual
(Function).
BCN-C22005-957_ENG.fm 9
1 BCN-C22005-969
FR-A800/A800 Plus Series Instruction Manual Supplement
1 Internal storage device fault (E.PE6) The operation of the storage device in the inverter can be checked. If a data fault occurs in the storage device in the inverter, the protective function (E.PE6) is activated. When the read value of Pr.890 is "7" or smaller, an inverter reset after All parameter clear can return the operation to normal. (The parameters that had been changed before All parameter clear must be set again.)
*1 For example, when parameter clear, All parameter clear, Parameter copy, or offline auto tuning is performed in the inverter, or when parameter batch write is performed in FR Configurator2.
NOTE "E.PE6" does not activate the retry function. "E.PE6" outputs the Fault output 3 (Y91) signal. "E.PE6" turns OFF the Safety monitor output (SAFE) signal. "E.PE6" is not cleared by turning ON the Fault clear (X51) signal. "E.PE6" is not activated during emergency drive operation. The communication data code for "E.PE6" is 172 (HAC).
Checking faulty area in the internal storage device When E.PE6 occurs, faulty area in the internal storage device can be checked by reading Pr.890.
Use the read value of Pr.890 to check the faulty area. The following table shows faulty areas indicated by the read value of Pr.890. Some read values indicate that there are multiple
faulty areas. (For example, the read value "7" indicates that all the areas described in No. 1 to No. 3 are faulty.)
Operation panel indication E.PE6 FR-LU08
indication Fault
Name Internal storage device fault
Description This protective function is activated by an inverter reset if writing data fails due to power-OFF or a data fault occurs in the storage device during parameter operations*1.
Check point Check if the power was turned OFF during parameter operations.
Corrective action
Check the power supply or the devices on the power system to check that the devices have no fault. When E.PE6 occurs due to power-OFF during parameter operations:
Check the read value of Pr.890. When the value is "7" or smaller, perform All parameter clear and then an inverter reset. The parameters that had been changed before All parameter clear must be set again.
When E.PE6 occurs due to other reason (such as turning OFF/ON the power or an inverter reset): Contact your sales representative.
Pr. Name Initial value Setting range Description 890 H325
Internal storage device status indication 0 (0 to 9999) A faulty area detected by self-check function can be
indicated in the internal storage device.
No. Read value Description
1 1, 3, 5, 7
Storage area other than the area for parameter settings is faulty (such as area for the set frequency). (When All parameter clear is performed, the set frequency, remotely-set frequency, host name for Ethernet communication, position pulse, multi-revolution counter, and offline auto tuning data are cleared.)
2 2, 3, 6, 7 Storage area for standard parameter settings is faulty. 3 4, 5, 6, 7 Storage area for communication parameter settings is faulty. 4 8 to 9999 Area for manufacturer setting
Pr.890 read Pr.890 setting read
BCN-C22005-969_ENG.fm 1
2 BCN-C22005-969
2 Note for terminal P3 (200/400 V class only) Some descriptions about terminal P3 are incorrect in the Instruction Manual. The descriptions are corrected as follows.
Details on the main circuit terminals Use terminal P3 only when a brake resistor is connected. [Incorrect]
[Correct]
Terminal connection diagrams In the terminal connection diagrams, the wiring of the optional brake unit is corrected as follows.
Terminal symbol Terminal name Terminal function description
P3, PR Brake resistor connection for FR-A820- 00770(15K) to 01250(22K), or FR- A840-00470(18.5K) to 01800(55K)
Connect an optional brake resistor across terminals P3 and PR. Connecting a brake resistor increases the regenerative braking capability.
P/+, N/- Brake unit connection
Connect the brake unit (FR-BU2, FR-BU, BU), power regeneration common converter (FR-CV), power regeneration converter (MT-RC), high power factor converter (FR-HC2), multifunction regeneration converter (FR-XC), or DC power supply (under DC feeding mode). When connecting multiple inverters, FR-A820-00770(15K) to 01250(22K) or FR-A840-00470(18.5K) to 01800(55K), in parallel using the FR-CV, FR-HC2, or FR-XC, always use either terminal P/+ or P3 for the connection. (Do not use terminals P/+ and P3 together.) Do not connect the DC power supply between terminals P3 and N/-. Use terminals P/+ and N/- for DC feeding.
P3, N/- Brake unit connection for FR-A820- 00770(15K) to 01250(22K), or FR- A840-00470(18.5K) to 01800(55K)
Terminal symbol Terminal name Terminal function description
P3, PR Brake resistor connection for FR-A820- 00770(15K) to 01250(22K), or FR- A840-00470(18.5K) to 01800(55K)
Connect an optional brake resistor across terminals P3 and PR. Connecting a brake resistor increases the regenerative braking capability.
P/+, N/- Brake unit connection
Connect the brake unit (FR-BU2, FR-BU, BU), power regeneration common converter (FR-CV), power regeneration converter (MT-RC), high power factor converter (FR-HC2), multifunction regeneration converter (FR-XC), or DC power supply (under DC feeding mode).
[Incorrect] [Correct]
Jumper
P1
Earth (Ground)
R
P3 PR N/-P/+
Brake unit (Option)
DC reactor (FR-HEL)
Brake resistor
Inrush current limit circuit
FR-A820-00770(15K) to 01250(22K), FR-A840-00470(18.5K) to 01800(55K)
Jumper
P1
Earth (Ground)
R
P3 PR N/-P/+
Brake unit (Option)
DC reactor (FR-HEL)
Brake resistor
Inrush current limit circuit
FR-A820-00770(15K) to 01250(22K), FR-A840-00470(18.5K) to 01800(55K)
BCN-C22005-969_ENG.fm 2
3 BCN-C22005-969
Connection of stand-alone option units When the brake unit (FR-BU2, FR-BU, BU), power regeneration common converter (FR-CV), power regeneration converter (MT-RC), high power factor converter (FR-HC2), multifunction regeneration converter (FR-XC), or DC power supply (under DC feeding mode) is connected, use terminal P/+ of the inverter. (Do not use terminal P3.) The following diagram shows the connection example with the FR-BU2 (GRZG type discharging resistor).
U V W
P/+ N/-
R/L1 S/L2 T/L3
Motor M
Inverter PR
N/- BUE SD
P/+ A B C
FR-BU2
GRZG type discharging
resistor RR
Three-phase AC power supply
MCCB MC
OFFON
MC T
10 m or less
OCR contact
MC
External thermal relay
OCR
PR PX
Connection example with the FR-BU2 (GRZG type discharging resistor)
BCN-C22005-969_ENG.fm 3
1 BCN-C22005-980
FR-A800/A800 Plus Series Instruction Manual Supplement
1 Monitoring terminals S1 and S2 (FR Configurator2) Graph display using FR Configurator2 is supported for terminals S1 and S2 (data from the high speed sampling and the USB trace file). The state of terminals S1 and S2 can be displayed in graph form using FR Configurator2. The FR Configurator2 version 1.28E or later supports graph display for terminals S1 and S2. For details on FR Configurator2, refer to the FR Configurator2 Instruction Manual.
Digital source (monitor item) selection Terminals S1 and S2 can be selected as digital sources for the trace function. Select the digital sources (input/output signals) to be set to Pr.1038 to Pr.1045 from the following table. When a
value other than the ones in the following table is set, "0" (OFF) is applied for indication.
2 Note for use with the Type E combination motor controller
When Appendix "Instructions for UL and cUL" in the Instruction Manual (Startup) mentions the Type E combination motor controller, only the MMP-T series controllers with the UL mark affixed are applicable for certification.
Setting value
Signal name
Setting value
Signal name
Setting value
Signal name
1 STF 21 X0 101 RUN 2 STR 22 X1 102 SU 3 AU 23 X2 103 IPF 4 RT 24 X3 104 OL 5 RL 25 X4 105 FU 6 RM 26 X5 106 ABC1 7 RH 27 X6 107 ABC2 8 JOG 28 X7 121 DO0 9 MRS 29 X8 122 DO1 10 STP(STOP) 30 X9 123 DO2 11 RES 31 X10 124 DO3 12 CS 32 X11 125 DO4 15 S2 33 X12 126 DO5 16 S1 34 X13 127 DO6
35 X14 128 RA1 36 X15 129 RA2 37 DY 130 RA3
BCN-C22005-980_ENG.fm 1
1 BCN-C22005-991
FR-A800/A800 Plus Series Instruction Manual Supplement
1 Earth (ground) fault detection at start / restricting reset method for an earth (ground) fault
The reset method for the output side earth (ground) fault overcurrent (E.GF) can be restricted. Select whether to enable or disable the earth (ground) fault detection at start. When enabled, the earth (ground)
fault detection is performed immediately after a start signal input to the inverter. Select whether to restrict the reset method for an earth (ground) fault.
Selecting whether to perform the earth (ground) fault detection at start
If an earth (ground) fault is detected at start while Pr.249 = "1 or 2", the output side earth (ground) fault overcurrent (E.GF) is detected and output is shut off.
Earth (ground) fault detection at start is enabled under V/F control and Advanced magnetic flux vector control. When the Pr.72 PWM frequency selection setting is high, enable the earth (ground) fault detection at start.
NOTE Because the detection is performed at start, output is delayed for approx. 20 ms every start. Use Pr.249 to enable/disable the earth (ground) fault detection at start. During operation, earth (ground) faults are
detected regardless of the Pr.249 setting.
Restricting reset method for an earth (ground) fault The reset method when the output is shut off due to the output side earth (ground) fault overcurrent (E.GF) can
be restricted. When E.GF occurs while Pr.249 = "2", E.GF can be reset only by turning OFF the control circuit power.
This restriction prevents the inverter from being damaged due to repeated reset operations by the other methods such as entering the RES signal.
When E.GF occurs while Pr.249 = "2", the output short-circuit detection (ALM4) signal can be output. For the terminal used to output the ALM4 signal, set "23" (positive logic) or "123" (negative logic) in any of Pr.190
to Pr.196 (Output terminal function selection). If Pr.249 is set to "2" while the retry function is enabled (Pr.67 is not set to "0"), no retry is performed even when
E.GF occurs. If Pr.249 is set to "2" while the automatic bypass switching after inverter fault is enabled (Pr.138 is not set to "1"),
the operation is not switched to the commercial power supply operation even when E.GF occurs.
NOTE Changing the terminal assignment using Pr.190 to Pr.196 (Output terminal function selection) may affect the
other functions. Set parameters after confirming the function of each terminal. E.GF is not cleared by turning ON the Fault clear (X51) signal when Pr.249 = "2". If E.GF occurs during emergency drive operation when Pr.249 = "2", the output is shut off.
Pr. Name Initial value Setting range Description
Earth (ground) fault Reset method
249 H101
Earth (ground) fault detection at start 0
0 Not detected at start Not restricted
1 Detected at start
2 Restricted
V/F Magnetic flux
2 BCN-C22005-991
2 Output short-circuit fault (E.SCF) Select the reset operation and fault indication for an output short-circuit.
The fault indication for an output short-circuit (E.OC1 to E.OC3, and E.SCF) can be changed by the Pr.521 setting.
When an output short-circuit is detected while Pr.521 = "1", E.SCF is displayed and the inverter output is shut off. When E.SCF occurs while Pr.521 = "1", E.SCF can be reset only by turning OFF the control circuit power. (E.OC1
to E.OC3 can be reset by any reset method.) This restriction prevents the inverter from being damaged due to repeated reset operations by the other methods
such as entering the RES signal. When E.SCF occurs, the output short-circuit detection (ALM4) signal can be output. For the terminal used to output the ALM4 signal, set "23" (positive logic) or "123" (negative logic) in any of Pr.190
to Pr.196 (Output terminal function selection). If the automatic bypass switching after inverter fault is enabled (Pr.138 is not set to "1"), the operation is not
switched to the commercial power supply operation even when E.SCF occurs.
NOTE When short-circuit resistance is large, the current does not reach the short-circuit detection level. In such a case,
an output short-circuit cannot be detected. Changing the terminal assignment using Pr.190 to Pr.196 (Output terminal function selection) may affect the
other functions. Set parameters after confirming the function of each terminal. E.SCF does not activate the retry function. E.SCF is not cleared by turning ON the Fault clear (X51) signal. If E.SCF occurs during emergency drive operation, the output is shut off. The communication data code for E.SCF is 20 (H14).
Pr. Name Initial value Setting range
Description Operation after detection Reset method
521 H194
Output short-circuit detection 0
0 E.OC1 to E.OC3 Not restricted 1 E.SCF Restricted
Operation panel indication E.SCF FR-LU08
indication Fault
Name Output short-circuit fault
Description The inverter output is shut off when an output short-circuit is detected while Pr.521 = "1". When Pr.521 = "0" (initial value), E.OC1, E.OC2, or E.OC3 appears when an output short-circuit is detected.
Check point Check for output short-circuit.
Corrective action Check the wiring to make sure that any output short circuit does not occur, then turn OFF the control circuit power to reset the inverter.
3 BCN-C22005-991
3 Extended detection time of the output current and zero current
The setting range of the Pr.151 Output current detection signal delay time and Pr.153 Zero current detection time is extended.
4 Selecting the command interface in the Network operation mode (Pr.338, Pr.339)
The proximity dog (X76) signal can be input via communication. The following table shows the command interface for the function in the Network operation mode, determined by
the parameter settings: an external terminal or a communication interface (RS-485 terminals or communication option).
[Explanation of Terms in Table] EXT: External terminal only Combined: Either external terminal or communication interface
Pr. Name Initial value Setting range Description
151 M461
Output current detection signal delay time 0 s 0 to 300 s
Set the output current detection time. Enter the time from when the output current reaches the set current or higher to when the Output current detection (Y12) signal is output.
153 M463
Zero current detection time 0.5 s 0 to 300 s
Set the time from when the output current drops to the Pr.152 setting or lower to when the Zero current detection (Y13) signal is output.
Pr.338 Communication operation command source 0: NET 1: EXT Pr.339 Communication speed command source 0: NET 1: EXT 2: EXT 0: NET 1: EXT 2: EXT
X76 Proximity dog Combined EXT
36
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IB(NA)-0600835-C
1
1 .......................................... 3
2 ............................................................ 4
3 ........................................................ 9
4 ............................... 11
5 ......................................... 11
6 ..................................................... 13
,
( : ,
,
,
,
, , 10 , 250 IEC 61140 1 EN M , ,,, OFF1 OFF PM
, , P/+N/-
( )
, , , , :LD ND HD 0 50 SLD 0 40 95RH() ( 3 ) ()2065 ( ) 2500m5.9m/s2 *1 10 55HzXYZ ( 3 ) , )
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*1 FR-A840-04320(160K) 2.9m/s2
*2 DoS
( UVW) PM PM UV W PM PM PM (UVW) PM PM (U,V,W)
, , STOP/RESET PM PM LX X13 STF STR =0
PTC / 400V , , , , 1 PM PM PM ()PMPM PM, ON DoS*2 VPN DoS
, ()
PM PM
()
( )
,IM PM
PM PM PM,PM
3
1
*1
*2 IEC60721-3-3:1994 3C2/3S2
*3 FR-A820-00340(5.5K) FR-A840-00170(5.5K)
NOTE (FR-A820-00046(0.4K)
*1
*2 1000m , 500m 3%
*3 FR-A840-04320(160K) 2.9m/s2
*4
EMC Pr.19
FM( FM ) FM: AM: (DC0 10V)
OFF 60Hz 9999( )
CA( CA ) CA: (DC0 20mA) AM: (DC0 10V)
ON 50Hz 8888( 95%)
FR-A840-04320(160K)
6
*1 FR-A820-00250(3.7K) FR-A840-00126(3.7K) 1cm
*2 FR-A820-01250(22K) FR-A840-00620(22K) , 40 (SLD , 30 )
, ( 0cm)
*3 FR-A840-04320(160K) 30cm
*4
LD,ND( )HD -10 +50 ( )
SLD -10 +40
IEC60721-3-3:1994 3C2/3S2:95%RH :90%RH
-20 +65 *1
( )
2500 *2
5.9m/s2 *310 55Hz XYZ
FR-A820-00046-1-GN
1312 12
4
2
2.1
FM
*1 FR-A820-03800(75K) FR-A840-02160(75K) 75kW FR-HEL
P1 P/+ FR-A820-03800(75K) FR-A840-02160(75K)
*2 , R1/L11S1/L21
*3 (Pr.178 Pr.189) 13
*4 JOG JOG/ Pr.291
*5 (Pr.73Pr.267) / OFF ON 102 PTC
Pr.561
*6 2W1k
*7 PR PX FR-A820-00046(0.4K) 00490(7.5K)FR-A840-00023(0.4K) 00250(7.5K)
*8 P/+(P3)-PR PR FR-A820-00046(0.4K) 01250(22K)FR-A840-00023(0.4K) 01800(55K)
*9 P3
*10 (Pr.195Pr.196) 13
*11 (Pr.190 Pr.194) 13
*12 F/C(FM) Pr.291
*13
NOTE 10cm
/
5
CA
*1 FR-A820-03800(75K) FR-A840-02160(75K) 75kW FR-HEL P1 P/+ FR-A820-03800(75K) FR-A840-02160(75K)
*2 , R1/L11S1/L21
*3 (Pr.178 Pr.189) 13 *4 JOG JOG/ Pr.291 *5 (Pr.73Pr.267) / OFF ON 102 PTC
Pr.561 *6 2W1k *7 PR PX FR-A820-00046(0.4K) 00490(7.5K)FR-A840-00023(0.4K) 00250(7.5K) *8 P/+(P3)-PR PR FR-A820-00046(0.4K) 01250(22K)FR-A840-00023(0.4K) 01800(55K)
*9 P3 *10 (Pr.195Pr.196) 13 *11 (Pr.190 Pr.194) 13
NOTE 10cm
/
6
2.2
2% 20m
200V 220V 150% 1 )
400V 440V 150% 1
*1 FR-A820-03160(55K) FR-A840-01800(55K) : HIV (600V 2 ) 75
50 20m
FR-A820-03800(75K) FR-A840-02160(75K) : ( ) (LMFC( ) ) 90
50
*2 200V FR-A840-01160(45K) (THHW ) 75 40
20m
FR-A840-01800(55K) ( ) (THHN ) 90 40
21
*3 FR-A820-00770(15K) FR-A840-01160(45K) : (PVC ) 70 40
20m
FR-A820-00930(18.5K) FR-A840-01800(55K) : (XLPE ) , 90 40
*4 R/L1S/L2T/L3UVWPRPXP/+N/-P1P3
FR-A820-00340(5.5K)FR-A820-00490(7.5K) PRPX
FR-A820-00930(18.5K)
FR-A840-03250(110K)FR-A840-03610(132K) P/+
FR-A840-04320(160K)
[V] [m/m] [m] [A] 1000
NOTE ND SLD LD HD
*4
Nm
HIV mm2 *1 AWG/MCM *2 PVC mm2 *3
R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW P/+ P1
R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW
FR-A820-00046(0.4K) 00167(2.2K)
M4 1.5 2-4 2-4 2 2 2 2 14 14 2.5 2.5 2.5
FR-A820-00250(3.7K) M4 1.5 5.5-4 5.5-4 3.5 3.5 3.5 3.5 12 12 4 4 4
FR-A820-00340(5.5K) M5(M4) 2.5 5.5-5 5.5-5 5.5 5.5 5.5 5.5 10 10 6 6 6
FR-A820-00490(7.5K) M5(M4) 2.5 14-5 8-5 14 8 14 5.5 6 8 16 10 16
FR-A820-00630(11K) M5 2.5 14-5 14-5 14 14 14 8 6 6 16 16 16
FR-A820-00770(15K) M6 4.4 22-6 22-6 22 22 22 14 4 4 25 25 16
FR-A820-00930(18.5K) M8(M6) 7.8 38-8 22-8 38 22 38 14 2 4 35 25 25
FR-A820-01250(22K) M8(M6) 7.8 38-8 38-8 38 38 38 22 2 2 35 35 25
FR-A820-01540(30K) M8(M6) 7.8 60-8 60-8 60 60 60 22 1/0 1/0 50 50 25
FR-A820-01870(37K) M10(M8) 26.5 80-10 60-10 80 60 80 22 3/0 1/0 70 70 35
FR-A820-02330(45K) M10(M8) 26.5 100-10 100-10 100 100 100 38 4/0 4/0 95 95 50
FR-A820-03160(55K) M12(M8) 46 100-12 100-12 100 100 100 38 40 40 95 95 50
FR-A820-03800(75K) M12(M8) 46 150-12 150-12 125 125 125 38 250 250 120 120
FR-A820-04750(90K) M12(M8) 46 150-12 150-12 150 150 150 38 300 300 150 150
*4
Nm
HIV mm2 *1 AWG/MCM *2 PVC mm2 *3
R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW P/+ P1
R/L1 S/L2 T/L3
UVW R/L1 S/L2 T/L3
UVW
FR-A840-00023(0.4K) 00126(3.7K)
M4 1.5 2-4 2-4 2 2 2 2 14 14 2.5 2.5 2.5
FR-A840-00170(5.5K) M4 1.5 2-4 2-4 2 2 3.5 3.5 12 14 2.5 2.5 4
FR-A840-00250(7.5K) M4 1.5 5.5-4 5.5-4 3.5 3.5 3.5 3.5 12 12 4 4 4
FR-A840-00310(11K) M5 2.5 5.5-5 5.5-5 5.5 5.5 5.5 5.5 10 10 6 6 10
FR-A840-00380(15K) M5 2.5 8-5 5.5-5 8 5.5 8 5.5 8 10 10 6 10
FR-A840-00470(18.5K) M6 4.4 14-6 8-6 14 8 14 8 6 8 16 10 16
FR-A840-00620(22K) M6 4.4 14-6 14-6 14 14 22 14 6 6 16 16 16
FR-A840-00770(30K) M6 4.4 22-6 22-6 22 22 22 14 4 4 25 25 16
FR-A840-00930(37K) M8 7.8 22-8 22-8 22 22 22 14 4 4 25 25 16
FR-A840-01160(45K) M8 7.8 38-8 38-8 38 38 38 22 1 2 50 50 25
FR-A840-01800(55K) M8 7.8 60-8 60-8 60 60 60 22 10 1/0 50 50 25
FR-A840-02160(75K) M10 26.5 60-10 60-10 60 60 60 22 1/0 1/0 50 50 25
FR-A840-02600(90K) M10 26.5 60-10 60-10 60 60 80 22 3/0 3/0 50 50 25
FR-A840-03250(110K) M10(M12) 26.5 80-10 80-10 80 80 80 22 3/0 3/0 70 70 35
FR-A840-03610(132K) M10(M12) 26.5 100-10 100-10 100 100 100 38 4/0 4/0 95 95 50
FR-A840-04320(160K) M12(M10) 46 150-12 150-12 125 125 150 38 250 250 120 120 70
FR-A840-04810(185K) M12(M10) 46 150-12 150-12 150 150 150 38 300 300 150 150 95
FR-A840-05470(220K) M12(M10) 46 100-12 100-12 2100 2100 2100 60 24/0 24/0 295 295 95
FR-A840-06100(250K) M12(M10) 46 100-12 100-12 2100 2100 2125 60 24/0 24/0 295 295 95
FR-A840-06830(280K) M12(M10) 46 150-12 150-12 2125 2125 2125 60 2250 2250 2120 2120 120
7
2.3
0.3 0.75mm2
30m( FM 200m)
200V
PC
,
(A1,B1,C1,A2,B2,C2)
SD 0V
(2020 10
*1 MTW
*2 A1B1C1A2B2C2
2.4 CC-Link IE TSN
CC-Link IE TSN
*1 2020 9 FR-A800-GN
*2 2022 10 FR-A800-GN
*3 ClassB 2.0 1.0
*4 GX Works3
mm2
UL *1
0.3 AI 0,34-10TQ
CRIMPFOX 6
0.5 AI 0,5-10WH AI 0,5-10WH-GB
0.75 AI 0,75-10GY A 0,75-10 AI 0,75-10GY-GB
1 AI 1-10RD A 1-10 AI 1-10RD/1000GB
1.251.5 AI 1,5-10BK A 1,5-10 AI 1,5-10BK/1000GB*2
0.75 2 AI-TWIN 20,75-10GY
mm2
0.3 0.75 BT 0.75-11 VC 0.75 NICHIFU NH 69
1Gbps 100Mbps*1
CC-Link IE TSN Class B 2.0*2*3 1.0 A*2 2.0
*4 CC-Link IE TSN Class B125s 10000s 1Gbps/500s 10000s 100Mbps*1 CC-Link IE TSN Class A1000s 6400000s
CC-Link IE TSN Class B CC-Link IE TSN Class A /
CC-Link IE TSN Class B IEEE802.1AS IEEE1588v2 CC-Link IE TSN Class A
121
100m
Ethernet
CC-Link IE TSN Class B CC-Link IE TSN Class A
Ethernet IEEE802.3 1000BASE-T ANSI/TIA/EIA-568-B Category 5e 4
RJ-45
1
RX 64
RY 64
RWr 128
RWw 128
8
CC-Link IE TSN
NOTE CC-Link IE TSN
1000BASE-T Ethernet
2020 10
*1 SC-E5EW SC-E5EW-L
NOTE CC-Link IE TSN CC-Link
1Gbps CC-Link IE TSN Class B CC-Link IE TSN HUB TSN HUB
Ethernet
5e STP
RJ-45 IEEE802.3 (1000BASE-T) ANSI/TIA/EIA-568-B(Category 5e)
SC-E5EW *1
TSN HUB CC-Link CC-Link IE TSN B CC-Link IE TSN HUB
0 1 2 3 4 5 6 7 8 9 A B C
D E F
0 1 2 3 4 5 6 7 8 9 A B C
D E F
(FR-DU08)
9
Ethernet Ethernet OFF
PORT1 PORT2
1 PORT1 PORT2 1
2 PORT1 PORT2 PORT1-PORT1 PORT1-
PORT2
NOTE CC-Link IE TSN CC-Link IE TSN
3
3.1 (FR-DU08)
No.
(a) M
Pr.992
(b) MODE
[PU/EXT] (2 ) Pr.1610
(c) SET Pr.52Pr.774 Pr.776
(d) ESC
(e) PU/EXT PU PUJOG [MODE] PU
10
(FR-DU08)
3.1.1 ( )
*1
*2
*3
*4
*5 USB , USB USB , ( )
11
4
(ALM)
RUN
CPU RUN
5
FR-A800
(UVW)
2%
6
2
/ AM EMC EMC
ON, 3
EMC ON
EMC OFF
*1 EMC ON/OFF
*1 FINEMET FT-3KM F
FINEMET
(ALM ) 5
(RY ) (RY ) 5
(STF STR ) (RUN )
5
(STF STR ) (Y12)
5
12
10 P/+ N/-
EV 24V OFF
100 )
STFSTR ONOFF 4
P/+PR
10E 5
ON
ON
PLG PLG PLG)
MC
, MC( 2 )
, ,
JEM1038-AC-3
OFF ON ,
MC MC
PM
( )
: ZCAT3035-1330 TDK
2 PM , PM
, MC1 MC2
,
( SF-V5RU,SF-THYPM
13
6
(FR-DU08)
Pr.
0 *14 0 30% 6/4/3/2/ 1% *1
1 *14 0 120Hz 120Hz *2
60Hz *3
2 *14 0 120Hz 0Hz
3 *14 0 590Hz 60/50Hz *10
4 *14 3 ( ) 0 590Hz 60/50Hz *10
5 *14 3 ( ) 0 590Hz 30Hz
6 *14 3 ( ) 0 590Hz 10Hz
7 *14 0 3600s 5s *4
15s *5
8 *14 0 3600s 5s *4
15s *5
9 *14 0500A *2
0 3600A *3
10 0 120Hz,9999 3Hz
11 0 10s,8888 0.5s
12 0 30% 4/2/1% *6
13 0 60Hz 0.5Hz
14 0 5,12 15 0
15 JOG 0 590Hz 5Hz
16 JOG 0 3600s 0.5s
17 MRS 0,2,4 0
18 0 590Hz 120Hz *2
60Hz *3
19 0 1000V, 8888,9999
9999/8888 *10
20 1 590Hz 60/50Hz *10
21 0,1 0
22 ( )
0 400% 150%
23
0 200%,9999 9999
24 27
(4 7 )
0 590Hz,9999 9999
28 0,1 0
29 0 6 0
30
0 2,10,11, 20,21,100 102,110,111, 120,121
0
31 1A
0 590Hz,9999
9999
32 1B 9999
33 2A 9999
34 2B 9999
35 3A 9999
36 3B 9999
37 0,1 9998 0
41 0 100% 10%
42 0 590Hz 6Hz
43 0 590Hz,9999 9999
44 2 0 3600s 5s
45 2 0 3600s,9999 9999
46 2 0 30%,9999 9999
47 2V/F( ) 0 590Hz,9999 9999
48 2 0 400% 150%
49 2 0 590Hz,9999 0Hz
50 2 0 590Hz 30Hz
51 2 0500A,9999*2
9999 0 3600A,9999*3
52
0,5 14,17 20,22 36,38 46,50 57,61, 62,64,67,68,71 75,87 98,100
0
54 FM/CA *10
1 3,5 14, 17,18,21,24,32 34,36,46,50,52, 53,61,62,67,70, 87 90,92,93, 95,97,98
1
55 0 590Hz 60/50Hz *10
56 0 500A *2
03600A *3
57 0,0.1 30s,9999 9999
58 0 60s 1s
59 0 3,11 13 0
60 0,4,9 0
61 0500A,9999*2
9999 0 3600A,9999*3
62 0 400%,9999 9999
63 0 400%,9999 9999
64 0 10Hz,9999 9999
65 0 5 0
66
0 590Hz 60/50Hz *10
67 0 10,101 110 0
68 0.1 600s 1s
69 0 0
70 0 100% 0%
71
0 6,13 16, 20,23,24,30,33, 34,40,43,44,50, 53,54,70,73,74, 330,333,334, 8090,8093,8094, 9090,9093,9094
0
72 PWM 0 15 *2
2 06,25 *3
73 0 7,10 17 1
74 0 8 1
75 /PU /PU
0 3,14 17, 1000 1003, 1014 1017 *2
14
03,1417, 100103, 114117, 10001003, 10141017, 11001103, 11141117 *3
76 0 2 0
77 0 2 0
78 0 2 0
79 *14 0 4,6,7 0
80
0.4 55kW, 9999 *2
9999 0 3600kW, 9999 *3
81 2,4,6,8,10,12, ,9999 9999
82 0 500A,9999 *2
9999 0 3600A,9999 *3
83 0 1000V 200/400V *7
84 10 400Hz,9999 9999
85 0 400Hz,9999 9999
86 0 300%,9999 9999
89
0 200%,9999 9999
90 (R1) 0 50,9999 *2
99990 400m,9999 *3
91 (R2) 0 50,9999 *2
99990 400m,9999 *3
92 (L1)/d (Ld)
0 6000mH,9999 *2 9999 0 400mH,9999 *3
93 (L2)/q (Lq)
0 6000mH,9999 *2 9999 0 400mH,9999 *3
94 X 0 100%,9999 9999
95 0 2 0
96 / 0,1,11,101 0
100 V/F1 1 0 590Hz,9999 9999
101 V/F1 1 0 1000V 0V
102 V/F2 2 0 590Hz,9999 9999
103 V/F2 2 0 1000V 0V
104 V/F3 3 0 590Hz,9999 9999
105 V/F3 3 0 1000V 0V
106 V/F4 4 0 590Hz,9999 9999
107 V/F4 4 0 1000V 0V
108 V/F5 5 0 590Hz,9999 9999
109 V/F5 5 0 1000V 0V
110 3 0 3600s,9999 9999
111 3 0 3600s,9999 9999
112 3 0 30%,9999 9999
113 3V/F( 0 590Hz,9999 9999
114 3 0 400% 150%
115 3 0 590Hz 0Hz
116 3 0 590Hz 60/50Hz *10
117 PU 0 31 0
118 PU 48,96,192,384,57 6,768,1152 192
119 PU / 0,1,10,11 1
120 PU 0 2 2
121 PU 0 10,9999 1
122 PU 0,0.1 999.8s,9999 9999
Pr. 123 PU 0 150ms,9999 9999
124 PU CR/LF 0 2 1
125 *14 2 0 590Hz 60/50Hz *10
126 *14 4 0 590Hz 60/50Hz *10
127 PID 0 590Hz,9999 9999
128 PID
0,10,11,20,21, 40 43,50,51, 60,61,70,71,80, 81,90,91,100, 101,1000,1001, 1010,1011,2000, 2001,2010,2011
0
129 PID 0.1 1000%, 9999 100%
130 PID 0.1 3600s,9999 1s
131 PID 0 100%,9999 9999
132 PID 0 100%,9999 9999
133 PID 0 100%,9999 9999
134 PID 0.01 10s,9999 9999
135
0,1 0
136 MC 0 100s 1s
137 0 100s 0.5s
138 -
0,1 0
139 -
0 60Hz, 8888,9999 9999
140 0 590Hz 1Hz
141 0 360s 0.5s
142 0 590Hz 1Hz
143 0 360s 0.5s
144 0,2,4,6,8,10,12 ,102,104,106, 108,110,112
4
145 PU 0 7
147 0 590Hz,9999 9999
148 0V 0 400% 150%
149 10V
0 400% 200%
150 0 400% 150%
151
0 10s 0s
152 0 400% 5%
153 0 10s 0.5s
154
0,1,10,11 1
155 RT 0,10 0
156 0 31,100,101 0
157 OL 0 25s,9999 0s
158 AM
1 3,5 14, 17,18,21,24,32 34,36,46,50, 52 54,61,62, 67,70,87 98
1
159
0 10Hz,9999 9999
160 *14*16
0,1,9999 0
161 /
0,1,10,11 0
162
0 3,10 13, 1000 1003, 1010 1013
0
163 1 0 20s 0s
164 1 0 100% 0%
165 0 400% 150%
166
0 10s,9999 0.1s
167 0,1,10,11 0
168
169
170 0,10,9999 9999
171 0,9999 9999
172 /
9999,(0 16) 0
173 0 1999,9999 9999
174 0 1999,9999 9999
Pr.
14
178 STF
0 20,22 28, 32,37,42 48, 50 53,57 62, 64 74,76 80, 84,85,87 89, 92 96,128,129, 9999 *12
60
179 STR 61
180 RL 0
181 RM 1
182 RH 2
183 RT 3
184 AU 4
185 JOG 5
186 CS 6
187 MRS 24
188 STOP 25
189 RES 62
190 RUN 0 8,10 20,22, 25 28,30 36, 38 57,60,61, 63 68,70,79,80, 84,85,90 99, 100 108,110 116,120,122,125 128,130 136,138 157,160,161, 163 168,170, 179,180,184,185, 190 199, 200 208,211 213,247,300 308,311 313, 347,9999 *13
0
191 SU 1
192 IPF 2
193 OL 3
194 FU 4
195 ABC1 99
196 ABC2 9999
232 239
8 15
0 590Hz,9999 9999
240 Soft-PWM 0,1 1
241 0,1 0
242 1 2
0 100% 100%
243 1 4
0 100% 75%
244 0,1,101 105, 1000,1001,1101 1105
1
245 0 50%,9999 9999
246 0.01 10s 0.5s
247
0,9999 9999
248 0 2 0
249 0,1 0
250 0 100s,1000 1100s,8888, 9999
9999
251 0,1 1
252 0 200% 50%
253 0 200% 150%
254 1 3600s,9999 60s
255 0 255 0
256
0 100% 100%
257 0 100% 100%
258 0 100% 100%
259 0,1,11 0
260 PWM 0,1 1
261 0 2,11,12, 21,22 0
262 0 20Hz 3Hz
263 0 590Hz,9999 60/50Hz *10
264 1 0 3600s 5s
265 2 0 3600s,9999 9999
266 0 590Hz 60/50Hz *10
267 4 0 2 0
268 0,1,9999 9999
269
270
0 3,11,13 0
271 0 400% 50%
272 0 400% 100%
273 0 590Hz,9999 9999
274 1 4000 16
275
0 300%,9999 9999
276 PWM 0 9,9999 *2
9999 0 4,9999 *3
278 0 30Hz 3Hz
279 0 400% 130%
280 0 2s 0.3s
281 0 5s 0.3s
282 0 30Hz 6Hz
283 0 5s 0.3s
284 0,1 0
285 ( )
0 30Hz,9999 9999
286 0 100% 0%
287
0 1s 0.3s
Pr.
288 0 2,10,11,20 22 0
289 5 50ms,9999 9999
290 0 7 0
291 0,1,10,11,20, 21,100(FM ) 0 0,1(CA )
292 0,1,3,5 8,11 0
293
0 2 0
294 UV 0 200% 100%
295 0,0.01,0.10, 1.00,10.00 0
296 0 6,99,1000 106,199,9999 9999
297 / 0 5,1000 9998,9999 9999
298 0 32767,9999 9999
299
0,1,9999 0
313 *15
DO0 0 8,10 20, 22,25 28,30 36,38 57,60, 61,63 66,70, 79,84 99, 100 108, 110 116,120, 122,125 128, 130 136, 138 157,160, 161,163 166, 168,170,179, 184 199, 200 208,211 213,247 250, 300 308, 311 313,347 350,9999
9999
314 *15
DO1 9999
315 *15
DO2 9999
316 *17
DO3 9999
317 *17
DO4 9999
318 *17
DO5 9999
319 *17
DO6 9999
320 *17
RA1 0 8, 10 20, 22, 25 28, 30 36, 38 57, 60, 61, 6368, 70, 79, 80, 84 91, 94 99, 200 208, 211 213, 247 250, 9999
9999
321 *17
RA2 9999
322 *17
RA3 9999
328 / 0 9999 0
331 RS-485 0 31(0 247) 0
332 RS-485 3,6,12,24,48,96, 192,384,576,768, 1152
96
333 RS-485 / 0,1,10,11 1
334 RS-485 0 2 2
335 RS-485 0 10,9999 1
336 RS-485 0 999.8s,9999 0s
337 RS-485 0 150ms,9999 9999
338 0,1 0
339 0 2 0
340 0 2,10,12 0
341 RS-485 CR/LF 0 2 1
342 EEPROM 0,1 0
343 0
349*15
/ReadyBit / / DriveControl
0,1,100,101, 1000,1001, 1100,1101, 10000,10001, 10100,10101, 11000,11001, 11100,11101
0
350 *8 0,1,9999 9999
351 *8 0 30Hz 2Hz
352 *8 0 10Hz 0.5Hz
353 *8 0 16383 511
354 *8 0 8191 96
355 *8 0 255 5
356 *8 0 16383 0
357 *8 0 255 5
358 *8 0 13 1
359 *8 PLG 0,1,100,101 1
360 *8 16 0 127 0
361 *8 0 16383 0
362 *8 0.1 100 1
363 *8 0 5s 0.5s
364 *8 PLG 0 5s 0.5s
365 *8 0 60s,9999 9999
366 *8 0 5s,9999 9999
367 *8 0 590Hz,9999 9999
368 *8 0 100 1
369 *8 PLG 0 4096 1024
374 0 590Hz,9999 9999
376 *8 0,1 0
380 S 1 0 50% 0
381 S 1 0 50% 0
382 S 2 0 50% 0
383 S 2 0 50% 0
384 0 250 0
Pr. 385 0 590Hz 0
386 0 590Hz 60/50Hz *10
393 *8 0 2,10 12 0
394 *8 0 32767 1
395 *8 0 32767 1
396 *8 P 0 1000 60
397 *8 0 20s 0.333s
398 *8 D 0 100 1
399 *8 0 1000 20
413 *8 PLG 1 32767 1
414 0 2,11,12 0
415 0,1 0
416 0 5 0
417 0 32767 1
419
0 2,10,100, 110,200,210, 300,310,1110, 1310
0
420
1 32767 1
421
1 32767 1
422 0 150sec-1 25sec-1
423 0 100% 0%
424 0 50s 0s
425 0 5s 0s
426 0 32767 100
427 0 400K,9999 40K
428 0 5 0
429 0,1 1
430
0 5,12,13, 100 105,112, 113,1000 1005, 1012,1013,1100 1105,1112,1113, 2000 2005, 2012,2013,2100 2105,2112,2113, 3000 3005, 3012,3013,3100 3105,3112,3113, 8888,9999
9999
432 *8 0 400% 0%
433 *8 0 400% 150%
434*15 IP 1 0 255 192
435*15 IP 2 0 255 168
436*15 IP 3 0 255 50
437*15 IP 4 0 255 2
438*15 1 0 255 255
439*15 2 0 255 255
440*15 3 0 255 255
441*15 4 0 255 0
446 0 150sec-1 25sec-1
450 2
0,1,3 6,13 16,20,23,24,30, 33,34,40,43,44, 50,53,54,70,73, 74,330,333,334, 8090,8093, 8094,9090,9093, 9094,9999
9999
451 2 0 6,10 14, 20,100 106, 110 114,9999
9999
453 2 0.4 55kW,9999 *2
9999 0 3600kW,9999 *3
454 2 2,4,6,8,10, 9999 9999
455 2 0 500A,9999 *2
9999 0 3600A,9999 *3
456 2 0 1000V 200/400V *7
457 2 10 400Hz,9999 9999
458 2 (R1) 0 50,9999 *2
99990 400m,9999 *3
459 2 (R2) 0 50,9999 *2
99990 400m,9999 *3
460 2 (L1)/d (Ld)
0 6000mH,9999 *2 9999
0 400mH,9999 *3
461 2 (L2)/q (Lq)
0 6000mH,9999 *2 9999
0 400mH,9999 *3
462 2 (X) 0 100%,9999 *2
9999 0 100%,9999 *3
463 2 /
0,1,11,101 0
464
0 360.0s 0
Pr.
15
465 1 4
0 9999
0
466 1 4 0
467 2 4 0
468 2 4 0
469 3 4 0
470 3 4 0
471 4 4 0
472 4 4 0
473 5 4 0
474 5 4 0
475 6 4 0
476 6 4 0
477 7 4 0
478 7 4 0
479 8 4 0
480 8 4 0
481 9 4 0
482 9 4 0
483 10 4 0
484 10 4 0
485 11 4 0
486 11 4 0
487 12 4 0
488 12 4 0
489 13 4 0
490 13 4 0
491 14 4 0
492 14 4 0
493 15 4 0
494 15 4 0
495 0,1,10,11 0
496 1 0 4095 0
497 2 0 4095 0
498 0,9696 (0 9999) 0
500*15 0 999.8s 0s
501*15 0 0
502*15 0 4,11,12 0
503 1 0(1 9998) 0
504 1
0 9998,9999 9999
505 1 590Hz,9999 60/50Hz *10
506
0 100% 100%
507 ABC1 /
0 100% 100%
508 ABC2 /
0 100% 100%
514 0 600s, 9999 9999
515 1 200, 9999 1
516 S 0.1 2.5s 0.1s
517 S 0.1 2.5s 0.1s
518 S 0.1 2.5s 0.1s
519 S 0.1 2.5s 0.1s
522 0590Hz,9999 9999
523
100,111,112, 121,122,123, 124,200,211, 212,221,222, 223,224,300, 311,312,321, 322,323,324, 400,411,412, 421,422,423, 424,9999
9999
524 0590Hz,9999 9999
539 MODBUS RTU
0 999.8s, 9999 9999
541*15 0,1 0
547 USB 0 31 0
548 USB 0 999.8s,9999 9999
549 0,1 0
550 0,1,9999 9999
551 PU 1 3,9999 9999
552 0 30Hz,9999 9999
553 PID 0.0 100%, 9999 9999
554 PID 0 3,10 13 0
555 0.1 1.0s 1s
556 0.0 20.0s 0s
557
0 500A *2 03600A *3
560 2 0 32767,9999 9999
561 PTC 0.50 30.00k, 9999 9999
563 0 65535 0
564 0 65535 0
Pr.
565 2
0 400Hz,9999 9999
566 2
0 300%,9999 9999
569 2 0 200%,9999 9999
570 0 3 2
571 0.0 10.0s,9999 9999
573 4mA 1 4,11 14, 21 24,9999 9999
574 2 0 2 0
575 0 3600s,9999 1s
576 0 590Hz 0Hz
577 900 1100% 1000%
592 0 2 0
593 0 25% 10%
594 0 50% 10%
595 0 50% 10%
596 0.1 3600s 5s
597 0.1 3600s 5s
598 175 215V/350 430V*7,9999
9999
599 X10 0,1 0
600 1 1
0 590Hz,9999 9999
601 1 1
1 100% 100%
602 1 2
0 590Hz,9999 9999
603 1 2
1 100% 100%
604 1 3
0 590Hz,9999 9999
606 0,1 1
607 110 250% 150%
608 2
110 250%, 9999 9999
609 PID / 1 5 2
610 PID 1 5 3
611 0 3600s,9999 9999
617
0 300%,9999 9999
635 *8 0 3 0
636 *8 1 16384 1
637 *8 1 16384 1
638 *8 0 3 0
639 0,1 0
640 0,1 0
641 2 0,7,8,9999 0
642 2 0 30Hz 3Hz
643 2 0 400% 130%
644 2
0 2s 0.3s
645 2 0 5s 0.3s
646 2 0 30Hz 6Hz
647 2 0 5s 0.3s
648 2 0,1 0
650 2 0,1 0
651 2 0,1 0
653 0 200% 0
654 0 120Hz 20Hz
655 0,1,10,11 0
656 1
800 1200%
1000%
657 2 1000%
658 3 1000%
659 4 1000%
660 0,1 0
661 0 40%,9999 9999
662 0 300% 100%
663
0 100 0
665 0 200% 100%
668 0 200% 100%
673 SF-PR
2,4,6,9999 9999
674 SF-PR 0 500% 100%
675
1,9999 9999
679 2 0 100%,9999 9999
680 2
0 1s,9999 9999
681 2
0 2,10,11,20 22,9999 9999
682 2 0.1 100%, 9999 9999
683 2 0.1 100%, 9999 9999
684 0,1 0
686 2 0(1 9998) 0
Pr.
687 2
0 9998,9999 9999
688 3 0(1 9998) 0
689 3
0 9998,9999 9999
690 0 3600s,9999 1s
692 2 1
0 590Hz,9999 9999
693 2 1 1 100% 100%
694 2 2
0 590Hz,9999 9999
695 2 2 1 100% 100%
696 2 3
0 590Hz,9999 9999
699 5 50ms,9999 9999
702 0 400Hz,9999 9999
706 0 5000mV/ (rad/s),9999 9999
707 ( ) 10 999,9999 9999
711 d Ld 0 100%,9999 9999
712 q Lq 0 100%,9999 9999
717 ( Kr)
0 200%,9999 9999
721
0 6000s,10000 16000s,9999 9999
724 ( ) 0 7,9999 9999
725 100 500%,9999 9999
738 2 (f)
0 5000mV/ (rad/s),9999 9999
739 2 Ld 0 100%,9999 9999
740 2 Lq 0 100%,9999 9999
741 2 Kr
0 200%,9999 9999
742 2
0 6000s,10000 16000s,9999 9999
743 2 0 400Hz,9999 9999
744 2 ( )
10 999,9999 9999
745 2 ( )
0 7,9999 9999
746 2 100 500%,9999 9999
747 2
0,9999 9999
753 2PID
0,10,11,20,21,50, 51,60,61,70,71,80 ,81,90,91,100,101 ,1000,1001,1010, 1011,2000,2001, 2010,2011
0
754 2PID
0 590Hz,9999 9999
755 2PID 0 100%,9999 9999
756 2PID 0.1 1000%,9999 100%
757 2PID 0.1 3600s,9999 1s
758 2PID 0.01 10.00s, 9999 9999
759 PID 0 43,9999 9999
760 0,1 0
761 0 100%,9999 9999
762 0 3600s,9999 9999
763 0 100%,9999 9999
764 0 3600s,9999 9999
765 2 0,1 0
766 2 0 100%,9999 9999
767 2 0 3600s,9999 9999
768 2 0 100%,9999 9999
769 2 0 3600s,9999 9999
774 1 1 3,5 14, 17 20,22 36, 38 46,50 57, 61,62,64,67,68, 71 75,87 98, 100,9999
9999
775 2 9999
776 3 9999
777 4mA
0 590Hz,9999 9999
778 4mA 0 10s 0s
779 *15
0 590Hz,9999 9999
788 0,9999 9999
791 0 3600s,9999 9999
792 0 3600s,9999 9999
799 0.1,1,10,100, 1000kWh 1kWh
800 0 6,9 14, 20,100 106, 109 114
20
801 0 400%,9999 9999
802 0,1 0
803 0 2,10,11 0
804 0 6 0
805 RAM 600 1400% 1000%
806 RAM EEPROM)
600 1400% 1000%
Pr.
16
807 0 2 0
808 / 0 400Hz 60/50Hz *10
809 /
0 400Hz,9999 9999
810 0 2 0
811 0,1,10,11 0
812 ( )
0 400%,9999
9999
813 ( 3 ) 9999
814 ( 4 ) 9999
815 2 9999
816 9999
817 9999
818 1 15 2
819 0 2 0
820 P 1 0 1000% 60%
821 1 0 20s 0.333s
822 1 0 5s,9999 9999
823 *8 1 0 0.1s 0.001s
824 P 1( )
0 500% 100%
825 1( )
0 500ms 5ms
826 1 0 5s,9999 9999
827 1 0 0.1s 0s
828 0 1000% 60%
829 *8 PLG 0 4096,9999 9999
830 P 2 0 1000%,9999 9999
831 2 0 20s,9999 9999
832 2 0 5s,9999 9999
833 *8 2 0 0.1s,9999 9999
834 P 2 0 500%,9999 9999
835 2 0 500ms 9999
836 2 0 5s,9999 9999
837 2 0 0.1s,9999 9999
840 0 3,24,25,9999 9999
841 1 600 1400%,9999 9999
842 2 600 1400%,9999 9999
843 3 600 1400%,9999 9999
844 0 5s,9999 9999
845 0 5s,9999 9999
846 0 10V,9999 9999
847 1
0 400%,9999 9999
848 1
0 400%,9999 9999
849 0 200% 100%
850 0 2 0
851 *8 PLG
0 4096 2048
852 *8 PLG
0,1,100,101 1
853 *8 0 100s 1s
854 0 100% 100%
855 *8
0,1 0
858 4 0,1,4,9999 0
859 /PM
0 500A,9999 *2 9999
0 3600A,9999 *3
860 2 /PM
0 500A,9999 *2 9999
0 3600A,9999 *3
862 *8 PLG 0,1 0
863 *8 PLG
1 32767 1
864 0 400% 150%
865 0 590Hz 1.5Hz
866 0 400% 150%
867 AM 0 5s 0.01s
868 1 0 6,9999 0
869 *11
0 5s 0.02s
870 0 5Hz 0Hz
872 0,1 0
873 *8 0 400Hz 20Hz
874 OLT 0 400% 150%
875 0,1 0
876 *8 0,1 1
877
0 2 0
878 0 1s 0s
879 0 400% 150%
880 0 200 7
881 0 1000% 0%
882 0 2 0
883 300 1200V DC380/ DC760V *7
884
0 5 0
Pr. 885 0 590Hz,9999 6Hz
886 0 200% 100%
888 1 0 9999 9999
889 2 0 9999 9999
890 (0 511) 0
891 0 4,9999 9999
892 30 150% 100%
893
0.1 55kW *2 0 3600kW *3
894 0 3 0
895 0,1,9999 9999
896 0 500,9999 9999
897 0,1 1000h,9999 9999
898 0,1,10,9999 9999
899 0 100%,9999 9999
C0 (900) *9 FM/CA
C1 (901) *9 AM
C2 (902) *9 2 0 590Hz 0Hz
C3 (902) *9 2 0 300% 0%
125 (903) *9
2
0 590Hz 60/50Hz *10
C4 (903) *9 2 0 300% 100%
C5 (904) *9 4 0 590Hz 0Hz
C6 (904) *9 4 0 300% 20%
126 (905) *9 4 0 590Hz 60/50Hz *10
C7 (905) *9 4 0 300% 100%
C12 (917) *9
1
0 590Hz 0Hz
C13 (917) *9 1 0 300% 0%
C14 (918) *9
1
0 590Hz 60/50Hz *10
C15 (918) *9 1 0 300% 100%
C16 (919) *9
1 /
0 400% 0%
C17 (919) *9
1 /
0 300% 0%
C18 (920) *9
1 /
0 400% 150%
C19 (920) *9
1 /
0 300% 100%
C8 (930) *9,*11
0 100% 0%
C9 (930) *9,*11
0 100% 0%
C10 (931) *9,*11
0 100% 100%
C11 (931) *9,*11
0 100% 100%
C38 (932) *9
4 ( / )
0 400% 0%
C39 (932) *9
4 /
0 300% 20%
C40 (933) *9
4 /
0 400% 150%
C41 (933) *9
4 /
0 300% 100%
C42 (934) *9 PID 0 500,9999 9999
C43 (934) *9 PID 0 300% 20%
C44 (935) *9 PID 0 500,9999 9999
C45 (935) *9 PID 0 300% 100%
977 0,1 0
989 10 *2 10 *2
100 *3 100 *3
990 PU 0,1 1
991 PU 0 63 58
992 M
0 3,5 14, 17 20,22 36, 38 46,50 57, 61,62,64,67,68, 71 75,87 98, 100
0
994 0.1 100%,9999 9999
995 0.1 100% 100%
997 0 255,9999 9999
998 *14
PM 0,3003,3103, 8009,8109,9009 ,9109
0
Pr. 999 *14
1,2,10 13, 20,21,9999 9999
1000 0 2 0
1002 Lq 50 150%,9999 9999
1003 0,8 12,50Hz 0
1004 0 3 0
1005 0 3 0
1006 ( ) 2000 2099 2000
1007 ( )
101 131,201 229,301 331,401 430,501 531, 601 630,701 731,801 831, 901 930, 1001 1031, 1101 1130, 1201 1231
101
1008 ( )
0 59,100 159, 200 259,300 359,400 459,500 559,600 659, 700 759,800 859,900 959, 1000 1059, 1100 1159, 1200 1259, 1300 1359, 1400 1459, 1500 1559, 1600 1659, 1700 1759, 1800 1859, 1900 1959, 2000 2059, 2100 2159, 2200 2259, 2300 2359
0
1013
0 590Hz 60/50Hz *10
1015
0 2,10 12 0
1016 PTC
0 60s 0s
1018 0,1,9999 9999
1020 0 4 0
1021 0 2 0
1022 0 9 2
1023 1 8 4
1024 0,1 0
1025 0 4 0
1026 0 100% 90%
1027 (1ch) 1 3,5 14, 17 20,22 24,32 36, 39 42,46, 52 54,61,62, 64,67,68,71 75,87 98, 201 213, 222 227, 230 232, 235 238
201
1028 (2ch) 202
1029 (3ch) 203
1030 (4ch) 204
1031 (5ch) 205
1032 (6ch) 206
1033 (7ch) 207
1034 (8ch) 208
1035 1 8 1
1036 0,1 0
1037 600 1400 1000
1038 (1ch)
1 255
1
1039 (2ch) 2
1040 (3ch) 3
1041 (4ch) 4
1042 (5ch) 5
1043 (6ch) 6
1044 (7ch) 7
1045 (8ch) 8
1046 1 8 1
1047 0,1 0
1048 0 60min 0min
1049 USB 0,1 0
1072
0 10s 3s
1073 0,1 0
1074 0.05 3Hz, 9999 1Hz
1075 0 3 0
1076 0 3 0
1077 0.1 50m 1m
1078 1 50000kg 1kg
1079 1 50000kg 1kg
1103 0 3600s 5s
1106 0 5s,9999 9999
1107 0 5s,9999 9999
1108 0 5s,9999 9999
1113 0 2,10,9999 9999
1114 0,1 1
1115 0 9998ms 0s
1116 P
0 100% 0%
1117 P 1
0 300,9999 9999
Pr.
17
*1 6%: FR-A820-00046(0.4K)00077(0.75K)FR-
A840-00023(0.4K)00038(0.75K) 4%: FR-A820-00105(1.5K) 00250(3.7K)FR-
A840-00052(1.5K) 00126(3.7K) 3%: FR-A820-00340(5.5K)00490(7.5K)FR-A840-
00170(5.5K)00250(7.5K) 2%: FR-A820-00630(11K) 03160(55K)FR-A840-
00310(11K) 01800(55K) 1%: FR-A820-03800(75K) FR-A840-02160(75K)
*2 FR-A820-03160(55K) FR-A840-01800(55K)
*3 FR-A820-03800(75K) FR-A840-02160(75K)
*4 FR-A820-00490(7.5K) FR-A840-00250(7.5K)
*5 FR-A820-00630(11K) FR-A840-00310(11K)
*6
4%: FR-A820-00490(7.5K) FR-A840- 00250(7.5K)
2%: FR-A820-00630(11K) 03160(55K)FR-A840- 00310(11K) 01800(55K)
1%: FR-A820-03800(75K) FR-A840-02160(75K)
*7 200V /400V *8
*9 *10 FM /CA *11 CA *12 60 Pr.178, 61
Pr.179 *13 9293192193 Pr.190
Pr.194 *14 *15 CC-Link IE TSN *16 Pr.160=9999 CC-Link
IE TSN *17
1118 P 2
0 300,9999 9999
1119
0 300,9999 9999
1121 0 400Hz 120Hz *2
60Hz *3
1130 *15
0,1 0
1134 PID 0 100% 100%
1135 PID 0 100% 100%
1136 2PID 0 500.00,9999 9999
1137 2PID 0 300% 20%
1138 2PID 0 500,9999 9999
1139 2PID 0 300% 100%
1140 2PID /
1 5 2
1141 2PID 1 5 3
1142 2PID 0 43,9999 9999
1143 2PID 0 100%,9999 9999
1144 2PID 0 100%,9999 9999
1145 2PID 0 100%,9999 9999
1146 2PID 0 3,10 13 0
1147 2 0 3600s,9999 1s
1148 2 0 590Hz 0Hz
1149 2 900 1100% 1000%
1150 1199 1 50 0 65535 0
1220 / 0 2 0
1221 0,1 0
1222 1 0.01 360s 5s
1223 1 0.01 360s 5s
1224 1 0 20000ms 0ms
1225 1 0 2,10 12, 100 102,110 112
10
1226 2 0.01 360s 5s
1227 2 0.01 360s 5s
1228 2 0 20000ms 0ms
1229 2 0 2,10 12, 100 102,110 112
10
1230 3 0.01 360s 5s
1231 3 0.01 360s 5s
1232 3 0 20000ms 0ms
1233 3 0 2,10 12, 100 102,110 112
10
1234 4 0.01 360s 5s
1235 4 0.01 360s 5s
1236 4 0 20000ms 0ms
1237 4 0 2,10 12, 100 102,110 112
10
1238 5 0.01 360s 5s
1239 5 0.01 360s 5s
1240 5 0 20000ms 0ms
1241 5 0 2,10 12, 100 102,110 112
10
1242 6 0.01 360s 5s
1243 6 0.01 360s 5s
1244 6 0 20000ms 0ms
1245 6 0 2,10 12, 100 102,110 112
10
1246 7 0.01 360s 5s
1247 7 0.01 360s 5s
1248 7 0 20000ms 0ms
1249 7 0 2,10 12, 100 102,110 112
10
1250 8 0.01 360s 5s
1251 8 0.01 360s 5s
1252 8 0 20000ms 0ms
1253 8 0 2,10 12, 100 102,110 112
10
1254 9 0.01 360s 5s
1255 9 0.01 360s 5s
1256 9 0 20000ms 0ms
1257 9 0 2,10 12, 100 102,110 112
10
1258 10 0.01 360s 5s
1259 10 0.01 360s 5s
1260 10 0 20000ms 0ms
1261 10 0 2,10 12, 100 102,110 112
10
1262 11 0.01 360s 5s
1263 11 0.01 360s 5s
1264 11 0 20000ms 0ms
Pr.
1265 11 0 2,10 12, 100 102,110 112
10
1266 12 0.01 360s 5s
1267 12 0.01 360s 5s
1268 12 0 20000ms 0ms
1269 12 0 2,10 12, 100 102,110 112
10
1270 13 0.01 360s 5s
1271 13 0.01 360s 5s
1272 13 0 20000ms 0ms
1273 13 0 2,10 12, 100 102,110 112
10
1274 14 0.01 360s 5s
1275 14 0.01 360s 5s
1276 14 0 20000ms 0ms
1277 14 0 2,10 12, 100 102,110 112
10
1278 15 0.01 360s 5s
1279 15 0.01 360s 5s
1280 15 0 20000ms 0ms
1281 15 0,2,10,12,100, 102,110,112 10
1282 0 6 4
1283 0 30Hz 2Hz
1284 0 10Hz 0.5Hz
1285 4 0 9999 0
1286 4 0 9999 0
1287 4
0 9999 2048
1288 4
0 9999 0
1289 0 200% 40%
1290 0 10s 0.5s
1292 0,1 0
1293 0,1 0
1294 4 0 9999 0
1295 4 0 9999 0
1296 0 2 0
1297 0 32767 0
1298 2 0 150s-1 25s-1
1299 2 0,1 0
1300 1343
1348 P/PI 0 400Hz 0Hz
1349 0,1,10,11 0
1350 1359
1410 4 0 9999 0
1411 4 0 9999 0
1412 f
0 2,9999 9999
1413 2 f
0 2,9999 9999
1442 *15
IP 1 Ethernet
0 255 0
1443 *15
IP 2 Ethernet
0 255 0
1444 *15
IP 3 Ethernet
0 255 0
1445 *15
IP 4 Ethernet
0 255 0
1446 *15
IP 2 Ethernet
0 255,9999 9999
1447 *15
IP 3 Ethernet
0 255,9999 9999
1448 *15
IP 4 Ethernet
0 255,9999 9999
1459 *15
0 2 0
1480 0,1,(2,3,4,5, 81,82,83,84, 85)
0
1481 1 0 400%, 8888,9999
9999
1482 2 0 400%, 8888,9999
9999
1483 3 0 400%, 8888,9999
9999
1484 4 0 400%, 8888,9999
9999
1485 5 0 400%, 8888,9999
9999
1486 0 590Hz 60/50Hz*10
1487 0 590Hz 6Hz
1488 0 400%,9999 20%
1489 0 400%,9999 20%
Pr. 1490 0 400%,9999 9999
1491 0 400%,9999 9999
1492 /
0 60s 1s
1499
Pr.CLR (0,)1 0
ALL.CL (0,)1 0
Err.CL (0,)1 0
Pr.CPY (0,)1 3 0
Pr.CHG
IPM IPM 0,3003 0
AUTO
Pr.Md (0,)1,2 0
Pr.
18
1
1996 EMC 1997 EMC
CE
: Mitsubishi Electric Europe B.V.
: Mitsubishi-Electric-Platz 1, 40882 Ratingen, Germany
EMC EMC CE
EMC : 2014/30/EU
: EN61800-3:2004+A1:2012 Second environment/PDS Category C3
,
,
:
First environment
Second environment
EMC
C3 EMC EMC
EMC Installation Manual BCN-A21041-204 MF-S-112113
EMC 20m
EMC
CE
: 2014/35/EU
: EN61800-5-1:2007
2
6
: 40
EN60204-1IEC60364-5-52
6 PVC
EN IEC
, (RCD) (RCM) , B RCD RCM
IEC60664 400V
2 FR-A820 ,
FR-A820-01540(30K)FR-A840-00770(30K) IP00 2 IP2X
3 IP54
FR-A840-00620(22K)FR-A820-00167(2.2K) IP20 2
EN60204-1IEC60364-5-52
A1B1C1A2B2C2 30VDC0.3A
4
FR-A820-00105(1.5K) 00250(3.7K) FR-A840-00083(2.2K)00126(3.7K)
FR-A820-00340(5.5K) 01250(22K) FR-A840-00170(5.5K) 00620(22K)
19
( 3 )
*1 1000m 500m 3%
T JCC L UL489 MCCB
FR-A820 T J CC UL489 MCCB
EN IEC
*1 US National Electrical Code
200V
100kA rms 240V
400V
100kA rms 500V
RoHS RoHS 2011/65/EU CE
LD,ND( )HD: -10 +50 SLD: -10 +40
-20 +65 -20 +65
95% RH 95% RH 95% RH
2500m*1 2500m 10000m
FR-A820-[]-GN 00046 (0.4K)
00077 (0.75K)
00105 (1.5K)
00167 (2.2K)
00250 (3.7K)
00340 (5.5K)
00490 (7.5K)
00630 (11K)
00770 (15K)
(V) 240V
(A)
15 20 30 40 60 80 150 175 200
15 20 20 30 50 70 125 150 200
MCCB (A)*1 15 15 25 40 60 80 110 150 190
FR-A820-[]-GN 00930 (18.5K)
01250 (22K)
01540 (30K)
01870 (37K)
02330 (45K)
03160 (55K)
03800 (75K)
04750 (90K)
(V) 240V
(A)
225 300 350 400 500 500
200 250 300 350 400 500 600 700
MCCB (A)*1 225 300 350 450 500 700 900 1000
FR-A840-[]-GN 00023 (0.4K)
00038 (0.75K)
00052 (1.5K)
00083 (2.2K)
00126 (3.7K)
00170 (5.5K)
00250 (7.5K)
00310 (11K)
00380 (15K)
00470 (18.5K)
00620 (22K)
00770 (30K)
(V) 500V
(A)
6 10 15 20 30 40 70 80 90 110 150 175
6 10 10 15 25 35 60 70 90 100 125 150
MCCB (A)*1 15 15 15 20 30 40 60 70 90 100 150 175
FR-A840-[]-GN 00930 (37K)
01160 (45K)
01800 (55K)
02160 (75K)
02600 (90K)
03250 (110K)
03610 (132K)
04320 (160K)
04810 (185K)
05470 (220K)
06100 (250K)
06830 (280K)
(V) 500V
(A)
200 250 300
175 200 250 300 350 400 500 600 700 800 900 1000
MCCB (A)*1 225 250 450 450 500
20
Pr.9
NOTE
1 (OCR) (
)
SF-V5RUH Pr.9 =0
(1) Pr.71 11316505354100%
(2) Pr.9
*1 Pr.9 50%
*2 % % %
*3 6Hz
*4 150%
21
2 ULcUL
UL 508C, CSA C22.2 No.274-13
3
National Electrical Code TJCC L UL489 MCCBE
Canadian Electrical Code T J CC L UL489 MCCBE
FR-A820 T J CC UL489 MCCB E
*1 US National Electrical Code
*2
*3 ULcUL UL MMP-T
*4 E 480Y/277V 50kA 25kA *5 E UT-TU UT-CV3
National Electrical Code (Article 310) National Electrical Code (Article 430) 125%
(R/L1S/L2T/L3) (UVW) UL 75
200V
100kA rms 240V
400V
100kA rms 500V
FR-A820-[]-GN 00046 (0.4K)
00077 (0.75K)
00105 (1.5K)
00167 (2.2K)
00250 (3.7K)
00340 (5.5K)
00490 (7.5K)
00630 (11K)
00770 (15K)
(V) 240V
(A) 15 20 30 40 60 80 150 175 200
15 20 20 30 50 70 125 150 200
MCCB (A) *1*2
15 15 25 40 60 80 110 150 190
E *3 (A) 8 13 18 25 32
(kA)*4 50 50 50 25 25
FR-A820-[]-GN 00930 (18.5K)
01250 (22K)
01540 (30K)
01870 (37K)
02330 (45K)
03160 (55K)
03800 (75K)
04750 (90K)
(V) 240V
(A) 225 300 350 400 500 500
200 250 300 350 400 500 600 700
MCCB (A) *1*2
225 300 350 450 500 700 900 1000
E (A)
(kA)
FR-A840-[]-GN 00023 (0.4K)
00038 (0.75K)
00052 (1.5K)
00083 (2.2K)
00126 (3.7K)
00170 (5.5K)
00250 (7.5K)
00310 (11K)
00380 (15K)
00470 (18.5K)
00620 (22K)
00770 (30K)
(V) 500V
(A) 6 10 15 20 30 40 70 80 90 110 150 175
6 10 10 15 25 35 60 70 90 100 125 150
MCCB (A) *1*2
15 15 15 20 30 40 60 70 90 100 150 175
E *3 (A) 4 6.3 8 13 18 25 32
(kA)*4 50 50 50 50 50 25 25
FR-A840-[]-GN 00930 (37K)
01160 (45K)
01800 (55K)
02160 (75K)
02600 (90K)
03250 (110K)
03610 (132K)
04320 (160K)
04810 (185K)
05470 (220K)
06100 (250K)
06830 (280K)
(V) 500V
(A) 200 250 300
175 200 250 300 350 400 500 600 700 800 900 1000
MCCB (A) *1*2
225 250 450 450 500
E (A)
(kA)
VAC
MMP-T32 480Y/277
22
Pr.9
NOTE
1 (OCR) (
)
SF-V5RUH Pr.9 =0
3 EAC
EAC EAC
EAC
2010
CU-TR Custom-Union Technical Regulation EAC
CU
3
MADE IN JAPAN
3 SERIAL
CU
CU
Mitsubishi Electric (Russia) LLC
52, bld 1 Kosmodamianskaya Nab 115054, Moscow, Russia
+7 (495) 721-2070
FAX +7 (495) 721-2071
(1) Pr.71 11316505354100%
(2) Pr.9
*1 Pr.9 50%
*2 % % %
*3 6Hz
*4 150%
SERIAL
SERIAL 1 2 6
1 1 9 1 9 X 10 Y 11 Z 12
23
4
SJ/T11364 GB/T26572 GB/T26572
*1
*2
5
GB/T 16855.1
GB/T 12668.502
GB 28526
GB/T 12668.3
GB/T 12668.501
EMC GB/T 12668.3
6
UKCA
2020 1 31 2021 1 1
*2
*1
(Pb)
(Hg)
(Cd)
(Cr(VI))
(PBB)
(PBDE)
UKCA
18 )
24
7 ErP
ErP
0.12kW 1000kW
SLD
: 12 **
Model name
Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100) (%)
load point 4 (90;50) (%)
load point 5 (50;50)
(%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.8 15.0 3.3 3.3 3.3 2.6 2.6 2.6 2.5 2.5 IE2
FR-A820-00077(0.75K)(-**) 2.9 15.0 3.1 3.1 3.1 2.2 2.2 2.2 1.8 1.9 IE2
FR-A820-00105(1.5K)(-**) 4 21.0 3.3 3.3 3.3 2.4 2.4 2.4 2.0 2.0 IE2
FR-A820-00167(2.2K)(-**) 6.4 21.0 2.9 2.9 2.9 2.0 2.0 2.0 1.7 1.7 IE2
FR-A820-00250(3.7K)(-**) 10 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.7 1.7 IE2
FR-A820-00340(5.5K)(-**) 13 23.0 2.6 2.6 2.6 1.7 1.6 1.7 1.3 1.3 IE2
FR-A820-00490(7.5K)(-**) 19 23.0 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-00630(11K)(-**) 24 24.2 2.9 2.9 2.9 1.3 1.3 1.3 0.8 0.8 IE2
FR-A820-00770(15K)(-**) 29 30.7 3.2 3.2 3.2 1.6 1.6 1.6 1.2 1.2 IE2
FR-A820-00930(18.5K)(-**) 35 30.7 3.1 3.1 3.1 1.6 1.6 1.6 1.1 1.2 IE2
FR-A820-01250(22K)(-**) 48 30.7 3.1 3.1 3.1 1.6 1.6 1.6 1.1 1.1 IE2
FR-A820-01540(30K)(-**) 59 34.7 3.0 3.0 3.0 1.6 1.5 1.6 1.1 1.1 IE2
FR-A820-01870(37K)(-**) 71 43.6 2.8 2.8 2.8 1.5 1.5 1.5 1.1 1.1 IE2
FR-A820-02330(45K)(-**) 89 43.6 2.9 2.9 2.9 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-03160(55K)(-**) 120 73.0 2.6 2.6 2.6 1.3 1.3 1.3 0.8 0.9 IE2
FR-A820-03800(75K)(-**) 145 79.1 2.4 2.4 2.4 1.3 1.3 1.3 0.9 0.9 IE2
FR-A820-04750(90K)(-**) 181 70.9 2.5 2.5 2.5 1.2 1.2 1.2 0.7 0.7 IE2
FR-A840-00023(0.4K)(-**) 1.8 19.0 3.2 3.2 3.2 2.8 2.8 2.8 2.8 2.8 IE2
FR-A840-00038(0.75K)(-**) 2.9 19.0 2.6 2.6 2.6 1.8 1.8 1.8 1.5 1.6 IE2
FR-A840-00052(1.5K)(-**) 4 19.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2
FR-A840-00083(2.2K)(-**) 6.3 22.0 2.1 2.1 2.1 1.5 1.5 1.5 1.3 1.3 IE2
FR-A840-00126(3.7K)(-**) 10 22.0 2.1 2.1 2.1 1.4 1.4 1.4 1.2 1.2 IE2
FR-A840-00170(5.5K)(-**) 13 27.0 1.9 1.9 1.9 1.3 1.3 1.3 1.1 1.1 IE2
FR-A840-00250(7.5K)(-**) 19 27.0 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00310(11K)(-**) 24 28.5 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00380(15K)(-**) 29 28.5 1.8 1.8 1.8 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00470(18.5K)(-**) 36 34.5 1.6 1.6 1.6 2.3 2.3 2.3 0.7 0.7 IE2
FR-A840-00620(22K)(-**) 47 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.7 IE2
FR-A840-00770(30K)(-**) 59 40.3 1.6 1.5 1.6 0.8 0.8 0.8 0.6 0.6 IE2
FR-A840-00930(37K)(-**) 71 49.7 1.8 1.7 1.7 1.0 0.9 1.0 0.7 0.8 IE2
FR-A840-01160(45K)(-**) 88 49.7 1.8 1.7 1.8 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-01800(55K)(-**) 137 49.7 1.7 1.7 1.7 0.9 0.8 0.8 0.6 0.6 IE2
FR-A840-02160(75K)(-**) 165 70.9 1.8 1.8 1.6 0.9 0.9 0.8 0.6 0.5 IE2
FR-A840-02600(90K)(-**) 198 70.9 1.8 1.8 1.7 0.9 0.9 0.8 0.6 0.5 IE2
FR-A840-03250(110K)(-**) 248 99.1 1.5 1.5 1.5 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-03610(132K)(-**) 275 99.1 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2
FR-A840-04320(160K)(-**) 329 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-04810(185K)(-**) 367 139.8 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2
FR-A840-05470(220K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.4 0.4 IE2
FR-A840-06100(250K)(-**) 465 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06830(280K)(-**) 521 169.4 1.5 1.5 1.5 0.7 0.7 0.7 0.5 0.5 IE2
25
LD
: 12 **
Model name
Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100) (%)
load point 4 (90;50)
(%)
load point 5 (50;50)
(%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.6 15.0 3.3 3.3 3.3 2.7 2.7 2.7 2.5 2.5 IE2
FR-A820-00077(0.75K)(-**) 2.7 15.0 3.0 3.0 3.0 2.1 2.1 2.1 1.8 1.8 IE2
FR-A820-00105(1.5K)(-**) 3.7 21.0 3.3 3.3 3.3 2.4 2.4 2.4 2.1 2.1 IE2
FR-A820-00167(2.2K)(-**) 5.8 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.8 1.8 IE2
FR-A820-00250(3.7K)(-**) 8.8 21.0 3.0 3.0 3.0 2.1 2.1 2.1 1.9 1.9 IE2
FR-A820-00340(5.5K)(-**) 12 23.0 2.5 2.5 2.5 1.6 1.6 1.6 1.3 1.3 IE2
FR-A820-00490(7.5K)(-**) 17 23.0 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-00630(11K)(-**) 22 24.2 2.8 2.8 2.8 1.2 1.2 1.2 0.8 0.8 IE2
FR-A820-00770(15K)(-**) 27 30.7 3.2 3.1 3.2 1.6 1.6 1.6 1.2 1.2 IE2
FR-A820-00930(18.5K)(-**) 32 30.7 3.2 3.2 3.2 1.7 1.7 1.7 1.2 1.2 IE2
FR-A820-01250(22K)(-**) 43 30.7 3.2 3.2 3.2 1.6 1.6 1.6 1.1 1.2 IE2
FR-A820-01540(30K)(-**) 53 34.7 3.0 2.9 1.8 1.5 1.5 1.5 1.1 1.1 IE2
FR-A820-01870(37K)(-**) 65 43.6 2.7 2.7 2.7 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-02330(45K)(-**) 81 43.6 2.8 2.8 2.8 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-03160(55K)(-**) 110 73.0 2.7 2.7 2.7 1.3 1.3 1.3 0.9 0.9 IE2
FR-A820-03800(75K)(-**) 132 79.1 2.4 2.4 2.4 1.3 1.3 1.3 0.9 0.9 IE2
FR-A820-04750(90K)(-**) 165 70.9 2.5 2.5 2.5 1.2 1.2 1.2 0.7 0.7 IE2
FR-A840-00023(0.4K)(-**) 1.6 19.0 3.3 3.3 3.3 2.9 2.9 2.9 2.9 2.9 IE2
FR-A840-00038(0.75K)(-**) 2.7 19.0 2.6 2.6 2.6 1.9 1.8 1.8 1.6 1.6 IE2
FR-A840-00052(1.5K)(-**) 3.7 19.0 2.1 2.1 2.1 1.7 1.7 1.7 1.5 1.5 IE2
FR-A840-00083(2.2K)(-**) 5.8 22.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2
FR-A840-00126(3.7K)(-**) 8.8 22.0 2.1 2.1 2.1 1.4 1.4 1.4 1.2 1.2 IE2
FR-A840-00170(5.5K)(-**) 12 27.0 1.8 1.8 1.8 1.3 1.3 1.3 1.1 1.1 IE2
FR-A840-00250(7.5K)(-**) 18 27.0 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00310(11K)(-**) 22 28.5 1.9 1.9 1.9 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00380(15K)(-**) 27 28.5 1.8 1.8 1.8 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00470(18.5K)(-**) 33 28.5 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-00620(22K)(-**) 43 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.7 IE2
FR-A840-00770(30K)(-**) 53 40.3 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-00930(37K)(-**) 65 49.7 1.7 1.7 1.7 1.0 0.9 1.0 0.7 0.7 IE2
FR-A840-01160(45K)(-**) 81 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-01800(55K)(-**) 110 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.6 0.6 IE2
FR-A840-02160(75K)(-**) 137 70.9 1.8 1.8 1.6 0.9 0.9 0.8 0.6 0.5 IE2
FR-A840-02600(90K)(-**) 165 70.9 1.8 1.8 1.7 0.9 0.9 0.8 0.6 0.5 IE2
FR-A840-03250(110K)(-**) 198 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-03610(132K)(-**) 248 99.1 1.5 1.5 1.5 0.8 0.8 0.8 0.5 0.5 IE2
FR-A840-04320(160K)(-**) 275 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-04810(185K)(-**) 329 139.8 1.5 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-05470(220K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06100(250K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06830(280K)(-**) 465 169.4 1.5 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
26
ND
: 12 **
Model name
Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100) (%)
load point 4 (90;50) (%)
load point 5 (50;50)
(%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 1.1 15.0 3.6 3.6 3.6 3.0 3.0 3.0 2.9 2.9 IE2
FR-A820-00077(0.75K)(-**) 1.9 15.0 3.1 3.1 3.1 2.3 2.3 2.3 2.0 2.0 IE2
FR-A820-00105(1.5K)(-**) 3 21.0 3.4 3.4 3.4 2.5 2.5 2.5 2.2 2.2 IE2
FR-A820-00167(2.2K)(-**) 4.2 21.0 2.9 2.9 2.9 2.1 2.1 2.1 1.8 1.8 IE2
FR-A820-00250(3.7K)(-**) 6.7 21.0 2.6 2.6 2.6 1.9 1.9 1.9 1.5 1.5 IE2
FR-A820-00340(5.5K)(-**) 9.1 23.0 2.5 2.5 2.5 1.6 1.6 1.6 1.3 1.3 IE2
FR-A820-00490(7.5K)(-**) 13 23.0 2.6 2.3 2.3 1.5 1.4 1.5 1.1 1.1 IE2
FR-A820-00630(11K)(-**) 18 24.2 2.5 2.5 2.5 1.2 1.2 1.2 0.8 0.8 IE2
FR-A820-00770(15K)(-**) 23 30.7 3.1 3.0 3.1 1.6 1.6 1.6 1.2 1.2 IE2
FR-A820-00930(18.5K)(-**) 29 30.7 3.0 3.0 3.0 1.6 1.6 1.6 1.2 1.2 IE2
FR-A820-01250(22K)(-**) 34 30.7 2.9 2.9 2.9 1.5 1.5 1.5 1.1 1.1 IE2
FR-A820-01540(30K)(-**) 44 34.7 2.9 2.8 2.9 1.5 1.5 1.5 1.1 1.1 IE2
FR-A820-01870(37K)(-**) 55 43.6 2.6 2.6 2.6 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-02330(45K)(-**) 67 43.6 2.7 2.7 2.7 1.4 1.4 1.4 1.0 1.0 IE2
FR-A820-03160(55K)(-**) 82 73.0 2.4 2.4 2.4 1.2 1.2 1.2 0.8 0.8 IE2
FR-A820-03800(75K)(-**) 110 79.1 2.3 2.3 2.3 1.2 1.2 1.2 0.9 0.9 IE2
FR-A820-04750(90K)(-**) 132 70.9 2.4 2.4 2.4 1.2 1.1 1.2 0.7 0.7 IE2
FR-A840-00023(0.4K)(-**) 1.1 19.0 3.8 3.8 3.8 3.5 3.5 3.5 3.5 3.5 IE2
FR-A840-00038(0.75K)(-**) 1.9 19.0 2.9 2.9 2.9 2.2 2.2 2.2 2.0 2.0 IE2
FR-A840-00052(1.5K)(-**) 3 19.0 2.2 2.2 2.2 1.8 1.8 1.8 1.6 1.6 IE2
FR-A840-00083(2.2K)(-**) 4.6 22.0 2.2 2.2 2.2 1.7 1.6 1.7 1.5 1.5 IE2
FR-A840-00126(3.7K)(-**) 6.9 22.0 2.0 2.0 2.0 1.5 1.5 1.5 1.3 1.3 IE2
FR-A840-00170(5.5K)(-**) 9.1 27.0 1.9 1.9 1.9 1.4 1.4 1.4 1.2 1.2 IE2
FR-A840-00250(7.5K)(-**) 13 27.0 1.8 1.8 1.8 1.1 1.1 1.1 0.8 0.8 IE2
FR-A840-00310(11K)(-**) 18 28.5 1.8 1.8 1.8 1.1 1.0 1.0 0.8 0.8 IE2
FR-A840-00380(15K)(-**) 24 28.5 1.8 1.8 1.8 1.1 1.1 1.1 0.8 0.8 IE2
FR-A840-00470(18.5K)(-**) 29 34.5 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-00620(22K)(-**) 34 34.5 1.5 1.5 1.5 0.9 0.5 0.9 0.7 0.7 IE2
FR-A840-00770(30K)(-**) 43 40.3 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-00930(37K)(-**) 54 49.7 1.7 1.7 1.7 1.0 0.9 0.9 0.7 0.7 IE2
FR-A840-01160(45K)(-**) 66 49.7 1.7 1.7 1.7 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-01800(55K)(-**) 84 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.6 0.6 IE2
FR-A840-02160(75K)(-**) 110 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2
FR-A840-02600(90K)(-**) 137 70.9 1.8 1.8 1.7 0.9 0.9 0.9 0.6 0.6 IE2
FR-A840-03250(110K)(-**) 165 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-03610(132K)(-**) 198 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-04320(160K)(-**) 248 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-04810(185K)(-**) 275 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-05470(220K)(-**) 329 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06100(250K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06830(280K)(-**) 417 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
27
HD
: 12 **
8
SERIAL SERIAL
2020 9 FR-A800-GN
100Mbps
/
2022 10 FR-A800-GN CC-Link IE TSN Class A
2.0
Model name
Rated Apparent power (kVA)
Stand by loss (W)
load point 1 (90;100)
(%)
load point 2 (50;100)
(%)
load point 3 (0;100) (%)
load point 4 (90;50)
(%)
load point 5 (50;50)
(%)
load point 6 (0;50) (%)
load point 7 (50;25) (%)
load point 8 (0;25) (%)
IE class
FR-A820-00046(0.4K)(-**) 0.6 15.0 5.0 5.0 5.0 4.5 4.5 4.4 4.4 4.4 IE2
FR-A820-00077(0.75K)(-**) 1.1 15.0 3.5 3.5 3.5 2.9 2.9 2.9 2.6 2.6 IE2
FR-A820-00105(1.5K)(-**) 1.9 21.0 3.4 3.4 3.4 2.8 2.7 2.8 2.5 2.5 IE2
FR-A820-00167(2.2K)(-**) 3 21.0 3.1 3.0 3.1 2.3 2.3 2.3 2.0 2.0 IE2
FR-A820-00250(3.7K)(-**) 4.2 21.0 3.0 3.0 3.0 2.5 2.5 2.5 1.9 1.9 IE2
FR-A820-00340(5.5K)(-**) 6.7 23.0 2.4 2.4 2.4 1.7 1.7 1.7 1.4 1.4 IE2
FR-A820-00490(7.5K)(-**) 9.1 23.0 2.4 2.3 2.4 1.4 1.4 1.4 1.1 1.1 IE2
FR-A820-00630(11K)(-**) 13 24.2 2.5 2.5 2.5 1.3 1.3 1.3 0.9 0.9 IE2
FR-A820-00770(15K)(-**) 18 30.7 3.1 3.1 3.1 1.7 1.7 1.7 1.3 1.3 IE2
FR-A820-00930(18.5K)(-**) 23 30.7 3.1 3.1 3.1 1.7 1.7 1.7 1.3 1.3 IE2
FR-A820-01250(22K)(-**) 29 30.7 3.0 3.0 3.0 1.6 1.6 1.6 1.2 1.2 IE2
FR-A820-01540(30K)(-**) 34 34.7 2.7 2.7 2.7 1.5 1.5 1.5 1.1 1.1 IE2
FR-A820-01870(37K)(-**) 44 43.6 2.7 2.7 2.7 1.5 1.5 1.5 1.2 1.2 IE2
FR-A820-02330(45K)(-**) 55 43.6 2.6 2.6 2.6 1.4 1.3 1.4 1.0 1.0 IE2
FR-A820-03160(55K)(-**) 67 73.0 2.3 2.3 2.3 1.2 1.2 1.2 0.8 0.8 IE2
FR-A820-03800(75K)(-**) 82 79.1 2.3 2.3 2.3 1.2 1.2 1.2 0.9 0.9 IE2
FR-A820-04750(90K)(-**) 110 70.9 2.3 2.3 2.3 1.1 1.1 1.1 0.7 0.7 IE2
FR-A840-00023(0.4K)(-**) 0.6 19.0 5.6 5.6 5.6 5.4 5.4 5.4 5.4 5.4 IE2
FR-A840-00038(0.75K)(-**) 1.1 19.0 2.6 2.6 2.6 2.2 2.2 2.2 2.2 2.3 IE2
FR-A840-00052(1.5K)(-**) 1.9 19.0 3.1 3.1 3.1 2.5 2.5 2.5 2.4 2.4 IE2
FR-A840-00083(2.2K)(-**) 3 22.0 2.4 2.4 2.4 1.9 1.9 1.9 1.7 1.8 IE2
FR-A840-00126(3.7K)(-**) 4.6 22.0 2.1 2.1 2.1 1.6 1.6 1.6 1.4 1.4 IE2
FR-A840-00170(5.5K)(-**) 6.9 22.0 1.8 1.8 1.8 1.4 1.4 1.4 1.2 1.2 IE2
FR-A840-00250(7.5K)(-**) 9.1 27.0 1.8 1.8 1.8 1.1 1.1 1.1 0.9 0.9 IE2
FR-A840-00310(11K)(-**) 13 28.5 1.8 1.8 1.8 1.1 1.1 1.1 0.9 0.9 IE2
FR-A840-00380(15K)(-**) 18 28.5 1.7 1.7 1.7 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00470(18.5K)(-**) 24 34.5 1.5 1.5 1.5 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-00620(22K)(-**) 29 34.5 1.5 1.5 1.5 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-00770(30K)(-**) 34 40.3 1.6 1.5 1.5 1.0 1.0 1.0 0.8 0.8 IE2
FR-A840-00930(37K)(-**) 43 49.7 1.7 1.6 1.6 1.0 0.9 1.0 0.7 0.7 IE2
FR-A840-01160(45K)(-**) 54 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-01800(55K)(-**) 66 49.7 1.6 1.6 1.6 0.9 0.9 0.9 0.7 0.7 IE2
FR-A840-02160(75K)(-**) 84 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2
FR-A840-02600(90K)(-**) 110 70.9 1.9 1.9 1.7 1.0 1.0 0.9 0.6 0.6 IE2
FR-A840-03250(110K)(-**) 137 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-03610(132K)(-**) 165 99.1 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-04320(160K)(-**) 198 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-04810(185K)(-**) 248 139.8 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-05470(220K)(-**) 275 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06100(250K)(-**) 329 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
FR-A840-06830(280K)(-**) 367 169.4 1.4 1.4 1.4 0.7 0.7 0.7 0.5 0.5 IE2
SERIAL
SERIAL
SERIAL 1 2 6
1 1 9 1 9 X 10 Y 11 Z 12
28
1
[]
618
[]
(1)
(2)
(3)
2
(1) 7
(2)
3
FAFA
4
(1)
(2)
(3)
(4)
5
6
(1) :
(2)
29
CD-ROM CD-ROM PDF
CD-ROM CD-ROM ,
, CD-ROM
CD-ROM ,
CD-ROM ,
CD-ROM ,
NOTE CD-ROM
CD-ROM CD-ROM PDF
CD-ROM
1. , CD-ROM CD-ROM
2.
3.
4.
5. PDF
CD-ROM
1. , CD-ROM CD-ROM
2. index.html
3. 3
PDF CD-ROM MANUAL
30
MEMO
31
2019 4 IB(NA)-0600835-A
2020 8 IB(NA)-0600835-B OFF Pr.25911 Pr.506 Pr.57311 1421 24 RLFRLR Pr.244100010011101 1105 Pr.507 ABC1 /ABC2 / 100Mbps
2022 9 IB(NA)-0600835-C (Pr.514Pr.515Pr.523Pr.524Pr.1013Pr.178 Pr.189 84Pr.190 Pr.196 65 66)
Pr.890 CC-Link IE TSN Class A 2.0 ErP
1 BCN-C22005-957
FR-A800/A800 Plus
1
IP55
*1 IP55
*2 Pr.523 Pr.524
*3 Pr.523 100200300400 Pr.524
Pr.
FM CA
523
H320*1 9999
100111112121 122123124
200211212221
222223224 300311312321
322323324 400411412421
422423424
9999
524
H321*1*2 9999
0 590Hz*3 Pr.523
0 100%*3 PID PID
Pr.523 PID
9999*3
515
H322*1 1
1 200
9999*3
1013
H323*1
60Hz 50Hz 0 590Hz E.CPUE.1 E.3 E.5 E.7
514
H324*1 9999
0.1 600s
9999 Pr.68
136
A001 MC 1s 0 100s MC2 MC3
139 A004
-
9999 0 60Hz
88889999
57 A702
9999
0
0.1 30s
9999
V/F PM
BCN-C22005-957_CHN.fm 1
2 BCN-C22005-957
*1
Pr.190 Pr.196 ( )
*2 DC
AC FR-A8AR
*3 Pr.180 Pr.189 ( )
*4 Pr.190 Pr.196
NOTE MC2MC3
(RUNSUIPFOLFU) DC24V 0.1A
(A1-C1B1-C1A2-B2B2-C2)
(FR-A8AR)
AC230V 0.3A DC30V 0.3A
IM R/L1 S/L2 T/L3
X84
CS
RES
SD
U V W
Y65
MC2
SE
MC3
MC2 DC24V
MC3
/
MCCB
MC2
MC3
MC2
MC3
ALM3
BCN-C22005-957_CHN.fm 2
3 BCN-C22005-957
X84 3s ON
Y65 ON
ED
ALM3 ON
X84 ON 3s
Pr.523 2[][]3[][]
X84 OFF
OFF
X51 ON
24V R1S1 12
X84 Pr.178 Pr.18984
Y65 Pr.190 Pr.196 65 165
ALM3 Pr.190 Pr.196
66 166
Pr.338Pr.339 X84
Pr.502 0 E.SER
Pr.523 9999 Pr.524 9999 Pr.523 100200300400
Pr.800 91020109110Pr.451 1020110
9999
V/F
PM
PM
FR-A8NS
R1S1
Pr.30=2102
BCN-C22005-957_CHN.fm 3
4 BCN-C22005-957
Pr.523 211
CS
Pr.523 411
*1 CS
NOTE FR-A800-CRNBB3
E.PUE
RES
X84
STF
ALM3
Pr.514
Y65
ALM
Pr.524
3s
ON
ON
ON
ON
ON
ON
3s
STF
X84
CS*1
MC3
MC2
MC3
MC2
Pr.136
Y65
MC
MC
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
BCN-C22005-957_CHN.fm 4
5 BCN-C22005-957
Pr.523Pr.524 Pr.523
*1 PM
NOTE PID PU /PU
Pr.515Pr.514 Pr.515 Pr514
ALM Pr.67
7
NOTE Pr.65
Pr.523
1[][]
2[][]
3[][]*1
Pr.515 9999 200
4[][]*1
[]00
[]11
Pr.524 []12
[]21
PID
Pr.524 PID Pr.128 []22
[]23 2PID
Pr.524 PID Pr.753
[]24
2PID
9999
BCN-C22005-957_CHN.fm 5
6 BCN-C22005-957
Pr.136Pr.139Pr.57 Pr.523 3[][]4[][]
Pr.136 MC Pr.139 - MC2MC3
CS Pr.57 9999 CS
ON CS CS
V/F PM
CS OFF
Pr.523=3[][]
Pr.523=4[][]
Pr.139
Pr.523 3[][]4[][]
Pr.190 Pr.19618 19
MC2MC3
MC2MC3
*1 CS Pr.162=0 310 13 Pr.338 1
*2 ON
*3 OFF
*4 MC
NOTE Pr.135=1
MC2
MC3
MC *4
MC2 MC3
CS*1 ON
OFF *2
X84 ON
OFF *3
RES ON
OFF
MC
ON
OFF
MC2-OFFMC3-ON
MC2-ONMC3-OFF
ONOFF
BCN-C22005-957_CHN.fm 6
7 BCN-C22005-957
PID PID Pr.524 PID Pr.128 Pr.753
PID PID PID
PID Pr.523 22[]32[] E.CPUE.1 E.3
E.5 E.7 PID
Pr.1013
*1 2
*2 Pr.523 200300 OFF
PID
/ PID
Pr.128Pr.753 4 4
/ Pr.128Pr.753
Pr.129Pr.756 100%
Pr.130Pr.757 1s
Pr.134Pr.758
/ Pr.128Pr.753
PID
E.OC1 E.OP3 E.ECA
E.OC2 E.16 E.MB1
E.OC3 E.17 E.MB2
E.OV1 E.18 E.MB3
E.OV2 E.19 E.MB4
E.OV3 E.20 E.MB5
E.THT E.PE E.MB6
E.THM E.PUE E.MB7
E.FIN E.RET E.EP
E.IPF E.PE2 E.MP
E.UVT E.CPU E.EF
E.ILF E.CTE E.IAH
E.OLT E.P24 E.LCI
E.SOT E.CDO E.PCH
E.LUP E.IOH E.PID
E.LDN E.SER E.1 *2
E.BE *1 E.AIE E.2 *2
E.GF E.USB E.3 *2
E.LF E.SAF *1 E.5 *2
E.OHT E.PBT *1 E.6 *1*2
E.PTC E.OS E.7 *1*2
E.OPT E.OSD E.11
E.OP1 E.ECT E.13
E.OP2 E.OD
BCN-C22005-957_CHN.fm 7
8 BCN-C22005-957
PID
PID
*1 FR-A800-LC
Pr.52Pr.774 Pr.776Pr.992 68
*1 1
*2 7
Pr.190 Pr.196
ALM 99 199 ON
ALM3 66 166
ON 3s
OFF
PID
OHX31*1X32X41*1TRGTRC X51RESX70X71
OHX31*1X32X41*1TRGTRC X51RESX70X71
RTX9X17X18MCSQX84 RTX9X17X18MCSQX64
X65X66X67X79X84
ON X14X77X78X80
0
1
2
3 *2
4
5
11
12
13 *2
14
15
2[]*1
3[]*1
4[]*1
BCN-C22005-957_CHN.fm 8
9 BCN-C22005-957
2 Y30Y31
Y30 Y31 PLG
PLG Y30Y31
NOTE Y30 Y31
BCN-C22005-957_CHN.fm 9
1 BCN-C22005-969
FR-A800/A800Plus
1 (E.PE6)
E.PE6
Pr.890 7
*1 FR Configurator2
NOTE E.PE6
E.PE6 3 Y91
E.PE6 SAFE OFF
E.PE6 X51
E.PE6
E.PE6 172 HAC
E.PE6 Pr.890
Pr.890
Pr.890 No. No.
7 No.1 3
E.PE6 FR-LU08
*1
E.PE6
Pr.890 7
E.PE6 OFF/ON
Pr.
890 H325
0 (0 9999)
No.
1 1357
Ethernet
2 2367
3 4567
4 8 9999
Pr.890 Pr.890
BCN-C22005-969_CHN.fm 1
2 BCN-C22005-969
2 P3 200V/400V
P3
P3
P3PR
FR-A820-00770(15K) 01250(22K) FR-A840-00470(18.5K) 01800(55K)
P3 PR
P/+N/-
FR-BU2FR-BUBU
FR-CV MT-RC FR-HC2 FR-XC
FR-A820-00770(15K) 01250(22K)FR-A840-00470(18.5K)
01800(55K) FR-CVFR-HC2FR-XC P/+ P3 P/+ P3
P3N/- P/+N/-
P3N/-
FR-A820-00770(15K) 01250(22K) FR-A840-00470(18.5K) 01800(55K)
P3PR FR-A820-00770(15K) 01250(22K)
FR-A840-00470(18.5K) 01800(55K)
P3 PR
P/+N/- FR-BU2FR-BUBU FR-CVMT-RCFR-HC2
FR-XC
P1
R
P3 PR N/-P/+
FR-HEL
FR-A820-00770(15K)01250(22K) FR-A840-00470(18.5K)01800(55K)
P1
R
P3 PR N/-P/+
FR-HEL
FR-A820-00770(15K)01250(22K) FR-A840-00470(18.5K)01800(55K)
BCN-C22005-969_CHN.fm 2
3 BCN-C22005-969
FR-BU2FR-BUBUFR-CVMT-RC
FR-HC2FR-XC P/+
P3
FR-BU2 GRZG
FR-BU2GRZG
U
V W
P/+
N/-
R/L1
S/L2
T/L3
M
PR
N/- BUE SD
P/+
A
B
C
FR-BU2
GRZG
RR
MCCB MC
OFFON
MC T
10m
OCR
MC
OCR
PR
PX
BCN-C22005-969_CHN.fm 3
1 BCN-C22005-980
FR-A800/A800Plus
1 S1S2 FR Configurator2
FR Configurator2 S1S2 USB
FR Configurator2 S1S2
1.28E FR Configurator2 S1S2
FR Configurator2 FR Configurator2
S1S2
Pr.1038 Pr.1045 0
OFF
2 TypeE
ULcUL TypeE TypeE
UL MMP-T
1 STF 21 X0 101 RUN
2 STR 22 X1 102 SU
3 AU 23 X2 103 IPF
4 RT 24 X3 104 OL
5 RL 25 X4 105 FU
6 RM 26 X5 106 ABC1
7 RH 27 X6 107 ABC2
8 JOG 28 X7 121 DO0
9 MRS 29 X8 122 DO1
10 STP(STOP) 30 X9 123 DO2
11 RES 31 X10 124 DO3
12 CS 32 X11 125 DO4
15 S2 33 X12 126 DO5
16 S1 34 X13 127 DO6
35 X14 128 RA1
36 X15 129 RA2
37 DY 130 RA3
BCN-C22005-980_CHN.fm 1
1 BCN-C22005-991
FR-A800 /FR-A800Plus
1 /
E.GF OFF
Pr.249 1 2E.GF
V/F
Pr.72 PWM
NOTE 20ms
Pr.249 Pr.249
E.GF Pr.249 2
E.GF OFF E.GF
E.GF OFF RES
Pr.249 2 E.GF ALM4
ALM4 Pr.190 Pr.196 23 123
Pr.67 0 Pr.249 2 E.GF
Pr.138 1 Pr.249 2 E.GF
NOTE Pr.190 Pr.196
E.GF Pr.249 2 X51
E.GF Pr.249 2
Pr.
249 H101
0
0
1
2
/F
2 BCN-C22005-991
2 E.SCF
Pr.521 E.OC1 E.OC3/E.SCF
Pr.521 1 E.SCF
Pr.521 1 E.SCF OFF E.SCF
E.OC1 E.OC3
E.SCF OFF RES
E.SCFALM4
ALM4Pr.190Pr.19623123
Pr.138 1 E.SCF
NOTE
Pr.190 Pr.196
E.SCF
E.SCF X51
E.SCF
E.SCF 20 H14
Pr.
521 H194
0 0 E.OC1 E.OC3
1 E.SCF
E.SCF FR-LU08
Pr.521 1 Pr.521
Pr.521 0 E.OC1 E.OC3
OFF
3 BCN-C22005-991
3 /
Pr.151 Pr.153
4 Pr.338Pr.339
X76
RS-485
[ ]
Pr.
151
M461 0s 0 300s
Y12
153 M463
0.5s 0 300s Pr.152 Y13
Pr.338 0NET 1
Pr.339 0NET 1 2 0NET 1 2
X76
32
http://cn.MitsubishiElectric.com/fa/zh/
IB(NA)-0600835-C
800-GN CC-Link IE TSN communication function built-in type INSTRUCTION MANUAL (STARTUP) (ENGLISH)
CC-Link IE TSN ()()
CC-Link IE TSN
HEAD OFFICE: TOKYO BUILDING 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN
IN VER
TER A
800-G N
FR -A
800-G N
IN STR
U C
TIO N
M A
N U
A L (STA
R TU
P)
C
Class B/A
A800-GN FR-A820-00046(0.4K)-04750(90K)-GN FR-A840-00023(0.4K)-06830(280K)-GN
CD-ROM CD-ROM FR-A800 CD-ROM
Thank you for choosing this Mitsubishi Electric Inverter. This Instruction Manual (Startup) and the enclosed CD-ROM give handling information and precautions for use of this product. This Instruction Manual (Startup) provides essential information and precautions for use of this product. For more detailed information, refer to the FR-A800 Instruction Manual (Detailed) in the CD-ROM enclosed with the product. Do not use this product until you have a full knowledge of the equipment, safety information and instructions. Please forward this Instruction Manual (Startup) and the enclosed CD-ROM to the end user.
()CD-ROM ()CD-ROMFR-A800 () , ()CD-ROM
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