Contents

Mitsubishi Electric MDU Instruction Manual PDF

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Summary of Content for Mitsubishi Electric MDU Instruction Manual PDF

Securely insert the connection cable into the MDU connector (until the lock clicks into place). The product will be unable to measure properly if the connection is poor.

Some models/specifications do not measure or display some items. These items and functions will be skipped.

Connector

MDUMDU Breaker main unit Connection cable

Caution

Caution Danger

Indications and what they mean are listed below.

Wrong handling may cause dangerous situation in which possibility of fatal accidents or serious injuries assumed.

Wrong handling may cause dangerous situation in which possibility of significant or minor injuries, or material damages assumed.

INSTRUCTION MANUAL

MDU BREAKER: MDU TYPE MDU-BN, MDU-BP, MDU-BC, MDU-BM MODEL NF250-SEV with MDU, NF250-HEV with MDU NF400-SEW with MDU, NF400-HEW with MDU NF800-SEW with MDU, NF800-HEW with MDU

Using this under certain conditions may cause electrical shock.

Read this Instruction Manual carefully prior to use, so that the product is used properly. After reading this manual, store it in a safe place so that it can be easily referenced when needed. Make sure that the end user receives this Instruction Manual.

For models with CC-Link communication, refer to the PLC Users Manual before reading this Instruction Manual. CC-Link System Master/Local Module Users Manual * The CC-Link version is CC-Link Ver. 1.10.

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1. Safety Precautions 3 2. Precautions for Use 3 2.1 Standard operating conditions 3 2.2 Withstand voltage test 4 2.3 Connection and installation 5 2.4 Requests 6 2.5 Notes on usage 6 3. MDU Breaker Installation Instructions 7 3.1 MDU mounting (external mounting for 250 A frame) 7 3.1.1 Check the wiring of the connection cable 7 3.1.2 Mounting of MDU mounting plate (Figure 2 and 3) 7 3.1.3 Mounting of MDU to MDU Breaker main unit 8 3.2 MDU mounting (external mounting for 400/800 A frame) 9 3.2.1 Mounting of MDU mounting plate 9 3.2.2 Mounting of MDU to MDU Breaker main unit 10 3.3 MDU mounting (panel mounting) 11 3.3.1 No transmission, electric energy pulse output 11 3.3.2 With CC-Link communication/MODBUS communication 13 3.4 Wiring of MDU terminal block 14 3.4.1 External mounting type 14 3.4.2 Panel mounting type 14 4. MDU Features and Functions 16 4.1 Features of MDU 16 4.2 Functions of MDU 16 4.3 Measurement functions 17 4.3.1 Measurement function list 17 4.3.2 Measurement rated values/measurement range and accuracy 18 4.4 Monitoring functions 22 4.4.1 Monitoring function list 22 4.5 How to use monitoring functions 23 4.5.1 MDU Breaker alarms 23 4.5.2 MDU Breaker status 25 4.5.3 Fault causes 25 4.5.4 Electric current demand upper/lower limit alarms 25 4.5.5 Neutral line open phase alarm (NLA) 25 4.6 Network Specifications for MDU 26 4.6.1 Electric energy pulse output 26 4.6.2 CC-Link communication 26 4.6.3 MODBUS communication 26

Table of Contents

2

5. Names and Functions of MDU Parts 27

5.1 Display/operation panel 27

5.2 MDU terminal block section 28

5.3 CC-Link setting area (with CC-Link communication option) 29

5.4 Number of CC-Link communication connectable units and precautions 30

5.5 Installation and wiring for products with CC-Link communication 31

5.5.1 Terminator installation 31

5.5.2 Shielded wire grounding 31

5.6 MODBUS setting area (with MODBUS communication option) 32

5.7 Installation and wiring for products with MODBUS communication 33

6. MDU Detailed Specifications 34

6.1 Precautions for measurement 34

7. MDU Operation Procedure 36

7.1 Operating method for main menu screen 37

7.1.1 Display method for protection characteristic setting values 38

7.1.1-1 Protection characteristic setting and setting method for 250 A frame 38

7.1.1-2 Protection characteristic setting and setting method for 400/800 A frame 39

7.1.2 Method for various settings 40

7.1.2-1 Setting method for measurement-related items 40

7.1.2-2 Setting method for alarms 42

7.1.2-3 Setting method for LCD 44

7.1.2-4 Setting method for date and time 46

7.1.2-5 Setting method for electric energy 47

7.1.2-6 Setting method for measurement items 48

7.1.2-7 Setting method for free display 49

7.1.3 Method for resetting alarms 50

7.1.4 Method for resetting fault cause/current, maximum value, electric energy,

and reactive energy 50

7.1.5 Method for displaying information screen 51

7.2 Operating method for measurement display screen 52

7.2.1 Switching method for display screen 52

7.2.2 Measurement display list 53

7.2.3 Fault/alarm display details 57

8. Appendix 58

8.1 Precautions for setting operation 58

8.2 Precautions when setting via CC-Link communication/MODBUS communication 58

8.3 Communication error codes and solutions 59

8.4 Troubleshooting 59

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1. Safety Precautions This Instruction Manual is meant mainly for those with specialized electrical knowledge who will use this product to manufacture assembled products, perform electrical work, or conduct maintenance and inspections. This also includes those who will operate this product (the end user).

2. Precautions for Use Unless otherwise noted, the following terms in this Instruction Manual indicate the models shown below.

2.1 Standard operating conditions

The standard operating conditions are described below. Be sure to use MDU Breaker within these conditions. [1] Operating ambient temperature: -10C to +40C (must not exceed an average of +35C within a 24 hour period) [2] Ambient storage temperature: -25C to +55C (no condensation/freezing) [3] Relative operating/storage humidity: 85% RH or less (no condensation) [4] Altitude: 2,000 m or lower [5] Operating/storage atmosphere: Must contain hardly any dust, smoke, corrosive gas, combustible gas, moisture, salt, etc. If the ambient temperature of MDU Breaker exceeds +40C, use with a decreasing continuous load current.

Ambient temperature of +50C: 0.9 times, ambient temperature of +60C: 0.7 times Do not install in abnormal environments subject to high temperature, high humidity, dust, corrosive gas, vibration, impact, etc. Doing so may

cause electrical shock, fire, or may cause the product to stop working. Do not wipe the MDU Breaker main unit or MDU with thinner, detergent, or chemical cloth.

Doing so may fade printing, reduce insulation performance, or cause mold to form. Clean with air or by brushing. The case of the MDU may become discolored depending on the environment. However, this will not have any effect on performance. The LCD may have bright (always on) or dark (always off) pixels due to the characteristics of LCDs.

Because LCDs contain many display elements, there is no way to ensure that bright or dark pixels will never occur. Bright or dark pixels are not defects in the product itself.

The screen on the LCD may flicker due to the internal processing for refreshing, but this is not a trouble of the main body.

Caution

Molded Case Circuit Breaker (MCCB) NF400-SEW with MDU, NF400-HEW with MDU

NF800-SEW with MDU, NF800-HEW with MDU

400 A frame

NF250-SEV with MDU, NF250-HEV with MDU

250 A frame 800 A frame

When installing or removing MDU Breaker main unit and a Measuring Display Unit (MDU), first turn the host circuit breaker OFF and confirm that no electricity is flowing. This product must be handled by someone with specialized knowledge.

Caution

4

2.2 Withstand voltage test

When conducting a MDU terminal test, always connect the MDU Breaker main unit and MDU. A voltage measurement transformer is connected between poles on the load side of the MDU Breaker main unit. In the table below, indicates that, because it causes a failure, withstand voltage test between poles on the load side must not be performed.

In the table below, indicates that, although nothing broke during a 500 VDC insulation resistance test, there was a low insulation resistance value. No problems found during withstand voltage test and insulation resistance test conducted on entire main circuit and between ground on MDU

Breaker main unit. When checking DA, DB, DG, 485+, 485-, Ter, SLD, and FG terminal conductivity for models with CC-Link communication/MODBUS communication, do not allow the voltage between each terminal to reach 5 VDC or higher. Doing so may cause failure.

*1. Test with MDU terminals (L1, L2, 114, 113, DA, DB, DG, 485+, 485-, Ter, SLD, FG) as ground side. *2. Test with MDU terminals (114, 113, DA, DB, DG, 485+, 485-, Ter, SLD, FG) as ground side. *3. Do not perform a withstand voltage test between MDU terminals (DA, DB, DG, SLD) and MDU terminal (FG). *4. MDU terminals (DA, DB, DG, SLD, FG) must always be tested together. *5. Do not perform a withstand voltage test between MDU terminals (485+, 485-, Ter, SLD) and MDU terminal (FG). *6. MDU terminals (485+, 485-, Ter, SLD, FG) must always be tested together.

Measurement point/test

Between MDU terminals (L1, L2) and MDU terminals (DA, DB, DG, SLD, FG) (with CC-Link communication) (*3) (*4)

Insulation resistance measurement

ON OFF

Withstand voltage test

ON OFF Test conditions

Between MDU terminals (L1, L2) and MDU terminals (485+, 485-, Ter, SLD, FG) (with MODBUS communication) (*5) (*6)

Status of handle Between live part and ground

Between main circuit and MDU terminals (L1, L2, FG) Between power supply and load terminal

Between main circuit and MDU terminals (114, 113, FG) (with electric energy pulse output) Between main circuit and MDU terminals (DA, DB, DG, SLD, FG) (with CC-Link communication) (*4) Between main circuit and MDU terminals (485+, 485-, Ter, SLD, FG) (with MODBUS communication) (*6) Between MDU terminals (L1, L2) and MDU terminal (FG) Between MDU terminals (L1, L2) and MDU terminals (114, 113, FG) (with electric energy pulse output)

Between different poles

Line side

Load side

Between left and middle poles Between middle and right poles Between left and right poles Between left and neutral poles, Between middle and neutral poles, Between right and neutral poles (for a four-poles circuit breaker) Between left and middle poles Between middle and right poles Between left and right poles Between left and neutral poles, Between middle and neutral poles, Between right and neutral poles (for a four-poles circuit breaker)

2500 VAC 1 min.

2500 VAC 1 min. (*1)

1500 VAC 1 min. (*2)

Caution

5

2.3 Connection and installation

MDU Breaker cannot be used with the power side and load side reversed. Do not forcefully pull the connection cable between the MDU and MDU Breaker main unit (15 N or less). Doing so may loosen or disconnect

the cable. When installed to the MDU, if the MDU Breaker main unit cuts off a fault current and must be replaced with a new unit, also replace

the MDU. It cannot be reused. The connection cable between the MDU and MDU Breaker main unit forms a small-signal circuit. Install it at least 10 cm away from strong circuits.

Use with the area around the connector fixed in place, so that no external forces are applied to the connector connection area when opening/ closing the front door. When bending the cable, maintain a radius of at least 20 mm.

The connector area used to connect to the MDU is insulated from the inside of the MDU Breaker main unit. The product will operate normally and will not break even if the MDU Breaker main unit is powered with the connector area disconnected (open).

If a MDU will be installed later, do so within 1.5 years from installing the MDU Breaker main unit. Do not insert and pull out cables from the connector area more than 20 times each on the MDU Breaker main unit and MDU. Pulling out the connection cable connector when MDU control power is applied may cause a MDU alarm or the like to be erroneously displayed.

If this happens, reset the alarm and clear the memory when pulling out the connector and starting use. Control power is required for the MDU. Apply the control power supply voltage shown on the MDU between the L1 and L2 terminals.

Measurement, display, electric energy pulse output, CC-Link communication, and MODBUS communication cannot be used without power. Install a short-circuit protector (using a circuit breaker or fuse) to the control circuit. If using MDU Breaker with a single-phase two-wire circuit, connect it as shown in Figure 1. The left pole (1-phase) load side is a live part, so be sure to insulate it. Use the middle pole (2-phase) and the right pole (3-phase) current, and two voltage between the middle pole (2-phase) and the right pole (3-phase) as measurement data. Ignore the left pole (1-phase) current, as well as the voltage between the left pole (1-phase) and the middle pole (2-phase) and between the right pole (3-phase) and the left pole (1-phase). If using MDU Breaker with a single-phase three-wire circuit, connect it as shown in Figure 2 below with the neutral line connected to the middle pole (2-phase). If the neutral line is connected to either the left pole (1-phase) or the right pole (3-phase), it will be impossible to measure with MDU.

MDU breaker can not be attached closely. Secure a 30 mm wiring space on the right side of the circuit breaker and mount the main unit for wiring of the connection cable and installation of the connector for the connection cable. When installing the MDU in a box such as a switchboard or control panel, be careful of the ambient temperature. Operating ambient temperature: Use within the range of -10C to +40C (however, the average value for 24 hours should not exceed +35C). If this condition is violated, it may lead to malfunction or loss of lifespan.

Figure 1. Connection method in a single-phase two-wire circuit

Caution: Live part Load

Load side

Line side

Load side

Line side

Figure 2. Connection method in a single-phase three-wire circuit

Note that a three-pole MDU Breaker product cannot be used with a three-phase four-wire system.

The following table shows the items that can be measured when a three-pole product is used with a three-phase four-wire system.

Measurement item

Load current

1 2 3 1 2 200 V

100 V 100 V

3

Line voltage

Harmonic current Electric power/ reactive power Electric energy/ reactive energy Power factor

Voltage phase, N phase

Voltage phase, N phase Between voltage phases, Between voltage phase and N phase

No CT on N phase, so measurement not possible

No VT between N phases, so measurement not possible

Status Reason

No CT on N phase, so measurement not possible

No CT on N phase and no VT between N phases, so N phase not added

No CT on N phase and no VT between N phases, so N phase not added

No CT on N phase and no VT between N phases, so N phase not included

Caution

A connecting wire of 5.5 mm2 or longer is recommended on the primary side.

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2.4 Requests The free warranty period and warranty scope for this product are as follows. Free warranty period The free warranty period lasts for one year from the time of purchase. Warranty scope

(1) Any failures that occur during the warranty period will be repaired free of charge, assuming that the usage status, usage method, usage environment, etc. are as described in the products catalog, Instruction Manual, warning labels, etc., and that the product was used under standard conditions as described in the precautions, etc. However, the free warranty period shall last a maximum of 18 months after manufacture, with a maximum of six months for the distribution period after the product is shipped from Mitsubishi Electric.

(2) A fee will be charged for repairs under the following circumstances, even if the product is still within the free warranty period. Failures resulting from inappropriate storage/handling, carelessness, error, etc. on the customers part. Failures resulting from installation mistakes. Failures resulting from misuse or unreasonable modification. Failures resulting from fires, abnormal voltage, or other external events beyond human control, or from earthquakes, wind disasters, or other

natural disasters. Failures resulting from phenomena that could not be foreseen using the scientific technology standards at the time the product was shipped by

Mitsubishi Electric. The free warranty described here applies only to the delivered product, and does not apply to any damage or the like caused by failures in the delivered product.

This free warranty does not apply to any damage or the like caused due to reprinting or reproducing the information included in this document in whole or in part in any form without the consent of Mitsubishi Electric.

All efforts have been made to keep the information in this document current as software and hardware is revised. However, there may be cases where inconsistencies arise.

2.5 Notes on usage (1) The products described in this Users Manual were designed and manufactured as general-purpose items meant for general industrial use, etc.

Please contact Mitsubishi Electric sales to discuss use for special purposes including atomic energy, electric power, aerospace, medical, or passenger transport devices or systems.

(2) Mitsubishi Electric shall not be held responsible for damage caused for reasons not attributable to Mitsubishi Electric; opportunities or profit lost by customers caused by Mitsubishi Electric product failure; damage caused from extraordinary circumstances, secondary damage, accident compensation, damage to anything other than Mitsubishi Electric products, or compensation for any other work, whether foreseen or not by Mitsubishi Electric.

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3. MDU Breaker Installation Instructions

When mounting or removing the MDU, first turn the host circuit breaker OFF and confirm that no electricity is flowing. First set the MDU Breaker main unit to OFF or TRIP, and then mount the MDU and connection cable.

(1) Check that the connection cable is drawn out through the cable outlet port of the MDU Breaker without catching. (Figure 1)

3.1 MDU Mounting (external mounting for 250 A frame) 3.1.1 Check the wiring of the connection cable

(1) Before mounting of MDU mounting plate, connect the terminals on the load side of the breaker. (2) While pressing the MDU mounting plate to the pressing area of the MDU Breaker main unit, screw the MDU mounting plate into the MDU Breaker main unit. Use the included 310 screws. (3) Ground (class D) the FG terminal.

3.1.2 Mounting of MDU mounting plate (Figure 2 and 3)

Cable outlet port

(Figure 1)

FG terminal screw M46 (tightening torque: 1.4 to 1.8 Nm)

Fixing screws for MDU mounting plate 310 (tightening torque: 1.0 to 1.1 Nm)

MDU mounting plate

(Figure 2)

Pressing area FG terminal screw M46 (tightening torque: 1.4 to 1.8 Nm)

Fixing screws for MDU mounting plate 310 (tightening torque: 1.0 to 1.1 Nm)

MDU mounting plate

Pressing area Fitting (one place)

Connection cable

Guide area

Fitting(one place) Connection cable

Guide area

(Figure 3)

Caution

8

(1) Ground (class D) the FG terminal on the MDU mounting plate. (2) Securely insert the connection cable coming out from the MDU Breaker main unit into the MDU connector (until the lock clicks into place). (Figure 4)

(3) Hook the small tab on the back of the MDU onto the fitting on the MDU mounting plate. (Figure 5)

(4) Remove the MDU terminal cover, and then screw it to the MDU mounting plate. (Figure 6) Use the included M325 fixing screw for MDU. Arrange the connection cable through the guide area. (Figure 7)

3.1.3 Mounting of MDU to MDU Breaker main unit

(Figure 4)

Click!

View of MDU from the back

Insert straight

[1] Insert the connector into the MDU connector with the lock area of the connector to the top.

MDU connector Connector Connection cable

[2] Insert until you hear it click into place.

Fixing screw for MDU M325 (tightening torque: 0.6 to 0.8 Nm)

(Figure 6)(Figure 5)

Termimal cover

While pushing the arrow area, use the area A as a fulcrum and pull it upward.

* When removing the MDU from the MDU Breaker main unit, do it in a reverse procedure to the mounting procedure.

The terminal cover is removable, so use caution when handling it. (Figure 8)

(Figure 7) (Figure 8)

Area A Arrow area

Terminal cover

Connection cable

Guide area

Take note of the connectors orientation and insert it straight. Insert until you feel the lock click into place.

Caution

Make sure that the MDU connection cable is not caught by the plate.

Caution

Do not forcefully pull the connection cable. Doing so may result in a disconnection of the cable.

Caution

MDU connector

9

(1) Screw the MDU mounting plate into the MDU Breaker main unit. (Figures 9, 10) Use the included M48 screws.

(Figure 9) (Figure 10)

FG terminal screw M46 (tightening torque: 1.4 to 1.8 Nm)

FG terminal screw M46 (tightening torque: 1.4 to 1.8 Nm)

Fixing screws for MDU mounting plate M48 (tightening torque: 1.4 to 1.8 Nm)

Fixing screws for MDU mounting plate M48 (tightening torque: 1.4 to 1.8 Nm)

MDU Breaker main unit (400 A frame)

MDU mounting plateMDU mounting plate

Fitting (one each)

MDU Breaker main unit (800 A frame)

3.2 MDU mounting (external mounting for 400/800 A frame) 3.2.1 Mounting of MDU mounting plate

Caution Make sure that the connection cable is not caught and damaged between the MDU mounting plate and MDU.

10

MDU

Connector

Small tab

Hook the small tab on the MDU on the fitting on the mounting plate.

(Figure 12)

MDU mounting plate

3.2.2 Mounting of MDU to MDU Breaker main unit (1) Ground (class D) the FG terminal on the MDU mounting plate. (2) Securely insert the connection cable coming out from the MDU Breaker main unit into the MDU connector (until the lock clicks into place).

(Figure 11)

(Figure 11)

(Figure 13)

Terminal cover

Fixing screw for MDU M326 (tightening torque: 0.6 to 0.8 Nm)

View of MDU from the back[1] Insert the connector into the MDU connector with the lock area of the connector to the top.

(3) Hook the small tab on the back of the MDU on the fitting (1) on the MDU mounting plate. (Figure 12)

Caution Take note of the connectors orientation and insert it straight. Insert until you feel the lock click into place.

[2] Insert until you hear it click into place.

Area A

Arrow area While pushing the arrow area, use area A as a fulcrum and pull it upward.

(Figure 14)

Terminal cover Terminal cover

(4) Remove the MDU terminal cover, and then screw the MDU mounting plate. (Figure 13 & Figure 14) Use the included M325 Fixing screw for MDU. The terminal cover is removable, so use caution when handling it. (Figure 15)

Fixing screw for MDU M325 (tightening torque: 0.6 to 0.8 Nm)

(Figure 15)

Caution Do not forcefully pull the connection cable. Doing so may result in a disconnection of the cable.

Click!

Insert straight

MDU connector Connector Connection cable

MDU connector

11

Install with an amount of space left equal to the measurement on the right or higher. (Figure 17)

(1) Insert the terminal block and mounting bracket connected to the MDU into the holes cut into the panel, from the front of the panel. (Figure 18)

Panel

MDU Terminal block

Mounting bracket

(Figure 18) (Figure 19) View from bottom of MDU View from behind panel

MDU connector

FG terminal screw M46 (tightening torque: 1.4 to 1.8 Nm)

Nuts (M3) (tightening torque: 0.6 to 0.8 Nm)

(Figure 20)

(2) Insert the MDU so that it is pushing against the panel. (Figure 19) Push it against the panel so that the two mounting bracket holes enter into the screw points, from the back of the panel.

(3) Insert the included nuts (M3) into the screw points from the back of the panel, and then tighten them into place. (Figure 20)

MDU panel cutting dimensions

Use a panel with a board thickness from 1 mm to 3.2 mm.

1 Precautions for mounting

2 MDU panel mounting

Model

198

208

263

383 221

158250 A frame

800 A frame

NF250-SEV with MDU

NF800-SEW with MDU NF800-HEW with MDU

NF250-HEV with MDU

244

374 205400 A

frame

NF400-SEW with MDU NF400-HEW with MDU

A B

(No transmission, with pulse output)

72

86.5 R2

(Figure 16)

CL

CL

(Figure 17)

Caution

Screw point Screw point

MDU

3.3 MDU mounting (panel mounting) 3.3.1 No transmission, electric energy pulse output

Rear type and plug-in type are shown. For rear type, leave some space with the connection wiring, insulation barrier, etc.

Caution When mounting the MDU to the panel, be careful not to damage the terminal block or cables.

A B

CL

CL

12

Caution

MDU connector Connection cableConnector

Fasten the connection cable with clamps to avoid undue force.

(1)

(2) Insert until you hear it click into place.

Click!

(1) Connect the connector of the connection cable to the connector of the MDU Breaker main unit's right side.

Securely insert the connection cable coming out from the MDU Breaker main unit into the MDU connector (until the lock clicks into place). (Figure 21)

(Figure 21)

[1] Insert the connector into the MDU connector with the lock area of the connector to the top.

[2] Insert until you hear it click into place.

FG terminal screw

3 Connecting cable connection

MDU connector

Click!

Insert straight

MDU connector Connector Connection cable

Binding band attachment location

Caution

Secure with the binding band in such a way that direct force is not applied to the MDU connector. (No binding band is included.)

Caution Do not forcefully pull the connection cable. Doing so may result in a disconnection of the cable.

13

MDU connector

View from behind panel

(Figure 25)

Nuts (M3) (tightening torque: 0.6 to 0.8 Nm)

FG terminal screw Screw (M46) Tightening torque 1.4 to 1.8 Nm

FG wire (green)

MDU

Terminal block

( ) ( )

Screw (M312) tightening torque 0.6 to 0.8 Nm

( ) Screw (M312) tightening torque 0.6 to 0.8 Nm

fixing bracket (Figure 24)

3.3.2 With CC-Link communication/MODBUS communication

Install with an amount of space left equal to the measurement on the right or higher. (Figure 23)

(1) Connect the terminal block to the fixing bracket. (Figure 24) (Use the two included M312 screws.)

MDU panel cutting dimensions

Use a panel with a board thickness from 1 mm to 3.2 mm. (Figure 23)

1 Precautions for mounting

3 Mounting of terminal block to fixing bracket

2 MDU panel mounting (2) Insert the terminal block and fixing

bracket connected to the MDU into the holes cut into the panel, from the front of the panel.

(1) Screw the FG wire (green) pulled from the MDU to the FG terminal on the fixing bracket. (Use the included M46 screw.)

(2) Insert the MDU so that it is pushing against the panel. Push it against the panel so that the two fixing bracket holes are inserted into the screw points, from the back of the panel. (Refer to 3.3.1 Figure 19 on page 11.)

(3) Insert the included nuts (M3) into the screw points from the back of the panel, and then tighten them into place. (Figure 25)

Model

218

228

282

402 221

158250 A frame

800 A frame

NF250-SEV with MDU

NF800-SEW with MDU NF800-HEW with MDU

NF250-HEV with MDU

263

393 205400 A

frame

NF400-SEW with MDU NF400-HEW with MDU

A B

(CC-Link/MODBUS)

Caution

Caution

(Figure 22)

72

86.5 R2

CL

CL

Rear type and plug-in type are shown. For rere type, leave some space with the connection wiring, insulation barrier, etc.

When mounting the MDU to the panel, be careful not to damage the terminal block or cables.

A B

CL

CL

14

After inserting the electric wire into the terminal, tighten it using the applicable tightening torque. When tightening screws again, start slowly and do so in the vertical direction.

Applicable tightening torque : 0.5 to 0.6 Nm Flathead screwdriver as a tool : Tip thickness of 0.6 mm, total width of 3.5 mm [Recommended screwdriver: PHOENIX CONTACT screwdriver model SZS 0.6 3.5] Electric wire covering stripped length : 7 mm

Electric wire terminal treatment: For a solid wire, the electric wire can be connected with the covering stripped. For a twisted wire, strip the covering, twist the core, and then insert it into the junction area. Make sure that the core filler does not short neighboring poles. Do not solder the core. The following pin terminals (crimped terminals) are also available for purchase.

PHOENIX CONTACT Electric wire cross-section area of 0.25 mm2 : AI 0.25-8 YE (product number 3200852) Electric wire cross-section area of 0.5 mm2 : AI 0.5-8 WH (product number 3200014) Electric wire cross-section area (for two wires) of 0.5 mm2 2 : AI-TWIN 2 0.5-8 WH (serial number 320933)

The products listed above may not be compatible with some electric wires. For details, contact the pin terminal (crimped terminal) manufacturer directly. However, if using a pin terminal (crimp terminal) with a metallic portion longer than 7 mm, cut the metallic portion to 7 mm as shown in the figure below.

Do not forcefully pull the connection cable. Doing so may result in a disconnection of the cable.

3.4 Wiring of MDU terminal block 3.4.1 External mounting type

3.4.2 Panel mounting type

See below for compatible electric current sizes for the MDU terminal block.

One connected

Two connected

Solid wire

0.45 to 1.2 mm

0.45 to 0.8 mm(*)

0.14 to 1.5 mm2

0.14 to 0.75 mm2

Twisted wire

Pin terminalMetallic portion

Cut here. 7 mm

L2L1 MDU

Insulated crimp terminals

Caution

Caution

Securely insert the connection cable coming out from the MDU Breaker main unit into the MDU connector (until the lock clicks into place). (3.3.1 Figure 21 on page 12.)

Use a suitable size of electric wire for crimped terminal. Ground (class D) the earth terminal. Connect earth terminal to mounting plate with the cable FG (green) from MDU unit.

Do not connect three or more electric wires to avoid heating or fire due to loose connection. Do not connect anything to unsused terminals. Erroneous connection will cause failure. Do not put too much tension on electric wire to avoid pulling terminal block out.

4 Connecting cable connection

Caution

Caution

Binding band attachment location

Secure with the binding band in such a way that direct force is not applied to the MDU connector. (No binding band is included.)

15

[Wiring for products with electric energy pulse output]

Caution

[Wiring for products with CC-Link communication]

Caution

Danger

The 114 and 113 pulse output terminals are included with MDUs with electric energy pulse output. The pulse output line forms a small-signal circuit. Install it at least 10 cm away from strong circuits. The wiring length is determined by various

conditions such as the anti-noise performance of the pulse receiver. However, the wiring should not exceed 100 m. If using A/C for the pulse output power supply, make sure that the pulse receiver does not erroneously operate due to leak current caused by

conduit capacitance.

CC-Link communication terminals DA, DB, DG, and SLD are included with CC-Link communication MDUs. Connect these to the CC-Link transmission line. Never connect non-transmission line terminals (such as the L1 and L2 control power supply

terminals). The CC-Link transmission line forms a small-signal circuit. Connecting it improperly is extremely dangerous.

The CC-Link transmission line forms a small-signal circuit. Install it at least 10 cm away from strong circuits. However, install it at least 30 cm away if parallel for a long distance.

If installing a MDU main unit with CC-Link communication, a hole cannot be made in the face board. Making a hole in the face board will leave a gap in the CC-Link communication cable wiring.

[Wiring for products with MODBUS communication]

Caution

Danger MODBUS communication terminals FG, SLD, 485+, 485-, Ter are included with MODBUS communication MDUs. Connect these to the MODBUS transmission line. Never connect non-transmission line terminals (such as the L1 and L2 control power supply

terminals). The MODBUS transmission line forms a small-signal circuit. Connecting it improperly is extremely dangerous.

The MODBUS transmission line forms a small-signal circuit. Install it at least 10 cm away from strong circuits. However, install it at least 30 cm away if parallel for a long distance.

If installing a MDU main unit with MODBUS communication, a hole cannot be made in the face board. Making a hole in the face board will leave a gap in the MODBUS communication cable wiring.

16

4. MDU Features and Functions 4.1 Features of MDU

4.2 Functions of MDU

The load current, line voltage, harmonic current (fundamental frequency; 3rd, 5th, 7th, 9th, 11th, 13th, 15th, 17th, and 19th order; and total), electric power, reactive power, electric energy, reactive energy, power factor, and frequency flowing to MDU Breaker can be measured and displayed. When MDU Breaker is tripped, the fault cause and fault current are stored in non-volatile memory. This information can be used to identify fault causes and recover. The maximum value of measurement items such as demand current and time electric energy is stored in non-volatile memory, along with when the maximum value occurred. This information can be used to identify peak energy usage times. The LCD backlight color changes from white to red when an alarm (PAL, OVER) or fault occurs, allowing users to notice abnormalities even from far away. Data such as measurement values, maximum values (and maximum value occurrence times), fault causes, fault current, and the alarm status can be sent over a field network (CC-Link, MODBUS). Some models do not measure or display (transmit) some items. These items and functions will be skipped.

Caution *1. Refer to 4.3 Measurement functions for details of measurement functions. *2. Either the latest fault cause or the latest fault current is shown. They are not displayed simultaneously. *3. Electric energy pulse output, CC-Link communication, and MODBUS communication can not be installed at the same time. *4. The CC-Link version is CC-Link Ver. 1.10. *5. During MDU panel mounting, a CC-Link/MODBUS cable (part no. FANC-110SBH manufactured by Kuramo Electric Co., LTD.) is used from the

front surface of the MDU to the terminal block on the rear surface. *6. When the MDU control power supply is turning on, a transitional inrush current will be generated. (Inrush current maximum value 2 A,

energization time 1 ms [240 VAC].) *7. Refer to 6.1 Contact capacity and combinations for alarm contact output in MDU Breaker Instruction Manual for Main Unit for alarm

contact output combinations.

Measurement functions (*1)

Load current I

Line voltage V

Harmonic current IH

Electric power P

Reactive power Q

Electric energy EP

Reactive energy EQ

Power factor PF

Frequency Hz

Fault cause, Fault current (*2)

Long time delay

Short time delay

Instantaneous

Line system

Output specifications (*3)

No transmission (standard product)

Electric energy pulse output (option)

CC-Link communication (option) (*4) (*5)

MODBUS communication (option) (*5)

MDU control power supply (permissible voltage range 85% to 110%)

Alarm contact (MDU Breaker main unit option) (Refer to 4.4 Monitoring functions) (*7)

100 to 240 VAC/DC common 12 VA (*6)

PAL, TI

12W, 33W, 13W (applied to three-pole products), 34W (applied to four-pole products)

17

4.3 Measurement functions 4.3.1 Measurement function list

Measurement elements

Present value

Present demand value

All-phase demand maximum value

Maximum value between all wires Maximum value occurrence time between all wires

All-phase demand maximum value occurrence time

Present value

Present value

Demand value

Demand value

Demand value

Integrated value Latest one hour amount One hour amount maximum value Occurrence time of one hour amount maximum value Integrated value Latest one hour amount One hour amount maximum value Occurrence time of one hour amount maximum value

Fundamental frequency maximum value for all phase

Each-order maximum value for all phase Occurrence time of each-order maximum value for all phase

All-phase each-order content ratio All-phase total distortion ratio

Occurrence time of fundamental frequency maximum value for all phase

Present value

Maximum value occurrence time

Present value

Present value

Maximum value

Present value

Each-phase fundamental frequency Each phase, each order (3rd, 5th, 7th, 9th, 11th, 13th, 15th, 17th, 19th order) Total harmonic for each phase

Each-phase 0.0, 1.2 to 999.9, 1000 to 1600 A

00/01/01 00:00 to 99/12/31 23:59

Total harmonic (average value) Maximum phase Each-phase

Total harmonic for each phase Total harmonic maximum value for all phase Occurrence time of total harmony maximum value for all phase

Maximum value occurrence time Maximum value Present value

Maximum value occurrence time Maximum value

Maximum value

Present value

Total harmonic (average value) Between each line

Communication Display Display rauge*

The following table lists measurement elements and elements that can be communicated/displayed. Measurement elements that can be communicated and displayed.

I Load current ( 1.0%)

V Line voltage ( 1.0%)

P Electric power ( 1.5%)

Q Reactive power ( 2.5%)

EP Electric energy ( 2.0%)

EQ Reactive energy ( 3.0%)

PF Power factor ( 5.0%) Hz Frequency ( 2.5%)

IH Harmonic current ( 2.5%)

Fault current ( 15%)

* The minimum value and the maximum value of the display range differ depending on the rated current of the MDU breaker. For details, refer to 4.3.2 Measurement rated values/measurement range and accuracy.

0.0, 1.2 to 999.9, 1000 to 1600 A

00/01/01 00:00 to 99/12/31 23:59

0.0, 22.0 to 99.9, 100 to 759 V

00/01/01 00:00 to 99/12/31 23:59

-2103 to -1000, -999.9 to 999.9, 1000 to 2013 kW

00/01/01 00:00 to 99/12/31 23:59

-2103 to -1000, -999.9 to 999.9, 1000 to 2013 kver

00/01/01 00:00 to 99/12/31 23:59

0.0 to 99999.9 kWh250 A frame 0 to 999999 kWh400/800 A frame

00/01/01 00:00 to 99/12/31 23:00

0.0 to 99999.9 kverh250 A frame 0 to 999999 kverh400/800 A frame

00/01/01 00:00 to 99/12/31 23:00 LAG 50.0 to LAG 99.9, 100.0, LEAD 99.9 to LEAD 50.0% 00/01/01 00:00 to 99/12/31 23:59

0.0, 45.0 to 65.0 Hz

0.0, 2.5 to 99.9, 100 to 800 A

00/01/01 00:00 to 99/12/31 23:59 0.0, 2.5 to 99.9, 100 to 800 A 00/01/01 00:00 to 99/12/31 23:59

0.0, 2.5 to 99.9, 100 to 800 A

0 to 12800 A

0.0 to 99.9, 100%

18

4.3.2 Measurement rated values/measurement range and accuracy

Electric current total present value

I3

(I1 + I3) / 2

(I1 + I2 + I3) / 3

Maximum phase applicable phase

I3

I1, I3

I1, I2, I3

I1, I2, I3, IN

Line system

Single-phase 2-wire

Single-phase 3-wire

Three-phase 3-wire

Three-phase 4-wire

250

125-250 adjustable (in 12.5 A steps)

Rated current In (A)

Accuracy ( 1.0% of In) (*)

Measurement lower limit current (1% of In)

Measurement upper limit current (In 2)

400

4.0 A

4.0 A

800 A

630

6.3 A

6.3 A

1260 A

800

8.0 A

8.0 A

1600 A

Setting value

0 to 15 min. (per 1 min.)

Item

Demand time limit

Display

Blinks at measurement upper limit current Fixed at measurement upper limit current

Communication

0 ALess than 1% of In

Measurement upper limit current exceeded

(1) Electric current [1] The present value is the effective value during a single cycle. [2] Each-phase means the 1-, 2-, 3-, and N-phase. [3] Totals (average value) are calculated as follows when setting the phase and wire (factory setting is three-phase three-wire for three-pole products, and three-phase four-wire for four-pole products). The present value of the maximum phase electric current and present value of the maximum phase electric current demand indicate the maximum value of the following phases via setting the phase and wire.

[4] The electric current demand time limit can be set as follows. The demand time limit is a bulk setting value that includes other measurement elements. (Factory setting is two min.)

[5] The all-phase demand maximum value indicates the maximum value of the demand value for all phases, from when usage began (after previous reset) to now. [6] The electric current measurement rated value, measurement range, and measurement accuracy are shown below.

[7] Display/communication values will be as follows in the following conditions.

* The measurement accuracy is the ratio versus In, regardless of the rated voltage.

Current setting Ir (A) 200-400 adjustable 300-630 adjustable 400-800 adjustable

2.5 A

2.5 A

500 A

19

Display

Blinks at 759 V Fixed at 759 V

Communication

0 VLess than 22 V

Measurement upper limit voltage exceeded

[6] Display/communication values will be as follows in the following conditions.

440 V

80 V (displays up to 22 V, but anything less than 80 V is a reference value)

759 V

4.4 V ( 1.0% of measurement rated voltage)

Measurement lower limit voltage

Measurement upper limit voltage

Measurement rated voltage

Accuracy

(2) Voltage

[4] The maximum value between all wires indicates the maximum value of all line voltages, from when usage began (after previous reset) to now. [5] The voltage measurement rated value, measurement range, and measurement accuracy are shown below.

[1] The present value is the effective value during a single cycle. [2] Between each line means the between phases, such as between 1-phase and 2-phase, 2-phase and 3-phase, 3-phase and 1-phase, 1-phase and N-phase, 2-phase and N-phase, and 3-phase and N-phase. [3] Totals (average value) are calculated as follows when setting the phase wire type. (Factory setting is three-phase three-wire for three-pole products, and three-phase four-wire for four-pole products.) The maximum value between all wires indicates the maximum value of the following interphases via setting the phase and wire.

Setting value

0 to 15 min. (per 1 min.)

Item

Demand time limit

400250 630 800Rated current In (A) Measurement upper limit electric power Measurement lower limit electric power Measurement upper limit reactive power Measurement lower limit reactive power

1,052 kW -1,052 kW 1,052 kvar

-1,052 kvar

1,656 kW -1,656 kW 1,656 kvar

-1,656 kvar

2,103 kW -2,103 kW 2,103 kvar

-2,103 kvar

657.3 kW -657.3 kW 657.3 kvar

-657.3 kvar

(3) Electric power/Reactive power [1] The present value is the effective value during a single cycle. (The electric power during reverse power flow is also measured.) [2] The demand time limit is a bulk setting value that includes other measurement elements. (Factory setting is two min.)

[3] The measurement rated electric power/reactive power, measurement range, and measurement accuracy are shown below.

If either the load current or line voltage exceeds the measurement upper limit, this will be the upper limit (lower limit) even if at or below the electric power/reactive power listed above.

3 In 440 V

Measurement rated electric power 1.5%

Measurement rated reactive power 2.5%

Measurement rated electric power

Measurement rated reactive power

Electric power accuracy

Reactive power accuracy

Measurement upper limit Measurement lower limit

Note: The display value will also blink if either the load current or line voltage reaches the measurement upper limit value.

[4] Display/communication values will be as follows in the following conditions.

Display

0 kW / 0 kvar

Blinks at measurement lower limit electric power/reactive power

Communication

Fixed at Measurement lower limit electric power/reactive power

All I are less than 0.4% of In

All V are 0 V (less than 22 V)

Less than measurement lower limit electric power/reactive power

Blinks at measurement upper limit electric power/reactive power

Fixed at measurement upper limit electric power/reactive power

Measurement upper limit electric power/reactive power exceeded

Voltage total present value

V23

(V12 + V23) / 2

(V12 + V23 + V31) / 3

Maximum phase applicable phase

V23

V12, V23

V12, V23, V31

Line system

Single-phase 2-wire

Single-phase 3-wire

Three-phase 3-wire

Three-phase 4-wire

20

2.0% of actual value for V (100 V to 440 V) I (5 to 100% of In) (PF = 1) 2.5% of actual value for V (100 V to 440 V) I (5 to 100% of In) (PF = 0.5)

3.0% of actual value for V (100 V to 440 V) I (10 to 100% of In) (PF = 0)

0 to 99999.9 kWh/kvarh (250 A frame) 0 to 999999 kWh/kvarh (400/800 A frame)

Electric energy accuracy

Range

The electric energy and reactive energy are measured if the electric current measurement value is around 0.4% or higher. If this exceeds 999999 kWh/kvarh addition will continue with the value reset to 0 kWh/kvarh.

(4) Electric energy/Reactive energy [1] The integrated value is the cumulative total value, from when usage began (after previous reset) to now. (The electric energy during reverse power flow is not added.) [2] The electric energy and reactive energy can be set to any value. [3] The latest one hour amount is the one hour amount from one hour to the next hour as measured by the internal clock. (It is the latest one hour amount only.) [4] The one hour amount maximum value is the maximum value of the latest one hour amount, from when usage began (after previous reset) to now. [5] The measurement range and measurement accuracy for the electric energy and reactive energy are shown below.

2.5% of actual value

0.0, 45.0 to 65.0 Hz

Accuracy

Range

(6) Frequency [1] The measurement accuracy and measurement range for the frequency are shown below.

Display

0.0 Hz

Communication

V12 and V32 are 0 V (less than 22 V)

Less than 45 Hz

65 Hz exceeded

Blinks at 45.0 Hz

Blinks at 65.0 Hz

Fixed at 45.0 Hz

Fixed at 65.0 Hz

[2] Display/communication values will be as follows in the following conditions.

5% for an electric angle of 90

Display

LEAD (forward) 50% to 100% to 50% LAG (delay) forward displays LEAD while delay displays LAG

Communication

LEAD (forward) 0% to 100% to 0% LAG (delay) forward is a negative value (values under 50% are reference values)

Power factor is measured for all phases combined. If 0 A is displayed because the electric current measurement value for a 1-phase was cut-off for the load current near cut-off, the measurement error could increase.

Accuracy

Range

[3] Power factor sizes are shown below.

(5) Power factor [1] The measurement accuracy and measurement range for the power factor are shown below.

100.0%-50.0% 50.0%

LEAD LAG

[2] Display/communication values will be as follows in the following conditions.

Display

100%

Communication

I1, I2 and I3 are 0 A (less than 1.0% of In)

V12 and V32 are 0 V (less than 22 V)

P is 0 kW

Blinks at 50%PF exceeds measurement range

LargeSmall

Reactive energy accuracy

21

(7) Harmonic current [1] The present value is the effective value during a single cycle. [2] The present harmonic current value measures the fundamental frequency and order (3rd, 5th, 7th, 9th, 11th, 13th, 15th, 17th, 19th) of each phase (1-phase, 2-phase, 3-phase, N-phase). [3] Each-phase total present harmonic current value is the total value of the harmonic components for the 3rd, 5th, 7th...17th, and 19th orders (excluding fundamental frequency components). The calculation formula is shown below.

Setting value

0 to 15 min. (per 1 min.)

Item

Demand time limit

(Each-phase IH (ALL) / each-phase IH (1st)) 100

(Each-phase IH (3rd), IH (5th),IH (19th) / each-phase IH (1st)) 100

Each-phase total distortion ratio (%)

Each-phase 3rd, 5th...19th order content ratio (%)

400

6.2

5.0

250

15.8

12.6

630

800

Accuracy ( 2.5% of In) (A) (*)

Measurement lower limit current (2% of In) (A)

Measurement upper limit current (In 1) (A)

10.0

8.0

400

250 630

20.0

16.0

800

Rated current In (A)

400

6400

250

4000

15% of actual value

630

10080

800

12800

Rated current In (A)

Accuracy

Measurement upper limit fault current (A) (In 16)

[4] The all-phase each-order maximum value indicates the maximum value of the present harmonic current values for all phases, from when usage began (after previous reset) to now. [5] The demand time limit is a bulk setting value that includes other measurement elements. (Factory setting is 2 min.)

[6] Each-phase total distortion ratio and each-phase order (3rd, 5th, 7th, 9th, 11th, 13th, 15th, 17th, 19th) content ratio are values calculated as follows.

IAH= IH3 2 + IH5

2 + IH7 2 + IH17

2 + IH19 2

(8) Fault current [1] The fault current measures the overload/short circuit current. [2] The measurement accuracy and measurement range for the overload/short circuit current are shown below.

[7] The harmonic current measurement rated value, measurement range, and measurement accuracy are shown below.

[8] Display/communication values will be as follows in the following conditions.

[3] When a fault occurs, the measurement value blinks even if the fault current do not exceed the measurement upper limit value. (Fault cause/fault current display mode) When the fault current exceeds the measurement upper limit value, the measurement value blinks even if the fault display mode is released.

* The measurement accuracy is the ratio versus In, regardless of the rated voltage.

Display

Blinks at measurement upper limit electric current value

Measurement upper limit electric current value fixed

Communication

0 ALess than 2% of In

Measurement upper limit current exceeded

22

4.4 Monitoring functions 4.4.1 Monitoring function list

Monitoring element

Fault cause

Electric current demand upper/lower limit alarm

Neutral line open phase alarm NLA (*2)

*1. Trip frequency and open/close frequency are enabled when MDU transmission alarm switch (option) and MDU transmission auxiliary switch (option) are installed, respectively. *2. This function is turned ON when the tline system is set to single-phase three-wire system. (The function is turned OFF when set to any other line system.) *3. For 250 A frame, the Load current pre-alarm is enabled when the PAL module (option) is installed. *4. For 250 A frame, the Fault cause on Instantaneous is enabled when the MDU transmission alarm switch (option) is installed.

Load current pre-alarm PAL (*3)

Overcurrent alarm OVER

Electric current demand alarm IDM_AL

Electric current unbalance alarm IUB_AL

Electric current open phase alarm ILA_AL

Long time delay

Short time delay

Instantaneous (*4)

Open/close frequency

Trip frequency

Display

Communication

MDU Breaker alarm

MDU Breaker status (*1)

The following table shows monitoring elements, along with elements that can be displayed on the display or communicated. Display indicates that the item is displayed on the display. Communication indicates that the item can be communicated through CC-Link, MODBUS communication.

23

4.5 How to use monitoring functions 4.5.1 MDU Breaker alarms

The alarm is output to display/over communication when the load current the pre-alarm current, and the duration the pre-alarm operation time (1/2 the long limit time operation time TL).

Do not set it via communication or on the display. For 250 A frame, set it on the PAL module. For 400/800 A frame, set it on the MDU Breaker.

Set to either self-hold or automatic reset via communication or on the display.

Reset the alarm via communication or on the display. Reset method

Self-hold

Automatic reset Automatically resets when the cause of the alarm is removed.

Alarm details

Setting method

Reset method

The alarm is output to display/over communication when the load current exceeds 105 to 125% of the current setting of the circuit breaker.

No settings.

Automatic reset. (No settings.) Automatically resets when the cause of the alarm is removed.

Alarm details

Setting method

Reset method

(1) PAL (load current pre-alarm)

(2) OVER (overcurrent alarm)

The alarm is output to display/over communication when the electric current demand value (*) exceeds the pick up current.

Set via communication or on the display Function: ON/OFF Pick up current: 50 to 100% (per 1%) Demand time limit: 1 to 10 min. (per 1 min), 15, 20, 25, 30 min. (*) (Factory setting is OFF.)

Set to either self-hold or automatic reset via communication or on the display.

Reset the alarm via communication or on the display. Reset method

Self-hold

Automatic reset Automatically resets when the cause of the alarm is removed.

Alarm details

Setting method

Reset method

(3) IDM_AL (electric current demand alarm)

* This differs from the demand time limit for each measurement value.

For automatic reset, the alarm will be reset if the value falls below the pick up current. For self-hold, the alarm will be maintained and will need to be reset manually.

Alarm generated

Pick up current

Alarm reset

Time

Measurement value

24

Monitoring starts when the load current for any phase reaches or exceeds 10% of the measurement rated current. The alarm is output to display/over communication when an energization phase equal to or less than the maximum phase current 10% is generated when monitoring starts and after 30 seconds have passed.

Set via communication or on the display Function: ON/OFF (Factory setting is OFF.) Pick up current: 10% fixed (no settings) Operating time: 30 s fixed (no settings)

Set to either self-hold or automatic reset via communication or on the display.

Reset the alarm via communication or on the display. Reset method

Self-hold

Automatic reset Automatically resets when the cause of the alarm is removed.

Alarm details

Setting method

Reset method

(4) ILA_AL (electric current open phase alarm)

Monitoring starts when the load current for any phase reaches or exceeds 10% of the measurement rated current. The alarm is output to display/over communication when an energization phase equal to or less than the maximum phase current 30% is generated when monitoring starts and after 30 seconds have passed.

Set via communication or on the display Function: ON/OFF (Factory setting is OFF.) Pick up current: 30% fixed (no settings) Operating time: 30 s fixed (no settings)

Set to either self-hold or automatic reset via communication or on the display.

Reset the alarm via communication or on the display. Reset method

Self-hold

Automatic reset Automatically resets when the cause of the alarm is removed.

Alarm details

Setting method

Reset method

(5) IUB_AL (electric current unbalance alarm)

Monitoring starts

Maximum phase current

Measurement rated current 10%

Electric current open phase alarm generated

30 s elapsed

Maximum phase current 10%

I1 I2

I3

Time

Measurement value

Monitoring starts

Maximum phase current

Measurement rated current 10%

Electric current unbalance alarm generated

30 s elapsed

Maximum phase current 30%

I1 I2

I3

Time

Measurement value

25

Communicates the total number of times the MDU Breaker has tripped from when usage began to now.MDU Breaker status

details

Trip frequency

Open/close frequency

Remarks

Fault cause details Outputs to display/over communication the fault cause when MDU Breaker is tripped.

Communicates/displays either long time delay (LTD), short time delay (STD), or instantaneous (INST).

Lower limit alarm generated

Lower limit alarm recovers

Upper limit alarm generated

Upper limit alarm recovers

Upper limit value

Lower limit value

Time Time

Measurement value

Measurement value

4.5.2 MDU Breaker status

4.5.3 Fault causes

Upper/lower limit alarm

An alarm generation status is communicated if the electric current demand (current value of maximum phase electric current demand) exceeds the set upper limit value or falls below the set lower limit value. (It is not output to the display.)

Sets the upper limit setting value and lower limit setting value via communication. (Cannot be set on display.)

Upper limit setting value Sets the upper limit for the measurement value.

Sets the lower limit for the measurement value.Lower limit setting value

Upper limit monitoring

Lower limit monitoring

Monitoring Type

Generation

Recovery

Generation

Recovery

Alarm generation condition

Measurement value > upper limit setting value

Measurement value upper limit setting value

Measurement value < lower limit setting value

Measurement value lower limit setting value

Automatic reset. (No settings.) Automatically resets when the cause of the alarm is removed.

Alarm generation status Shows whether an alarm has been generated.

Setting method

Alarm generation condition

Reset method

4.5.4 Electric current demand upper/lower limit alarms

The following internal accessory devices are required to measure the trip frequency and open/close frequency. Measure trip frequency: MDU transmission alarm switch Measure open/close frequency: MDU transmission auxiliary switch Measure both trip frequency and open/close frequency: MDU transmission alarm switch/auxiliary switch

Communicates the total number of times the MDU Breaker has opened/closed from when usage began to now.

4.5.5 Neutral line open phase alarm (NLA) The alarm generation status is displayed when the line voltage rated operation overvoltage, and the duration operating time. (It is not communicated.)

Set via communication or on the display

Set to either self-hold or automatic reset via communication or on the display.

Reset the alarm via communication or on the display. Reset method

Self-hold

Automatic reset Automatically resets when the cause of the alarm is removed.

Alarm details

Setting method

Reset method

Rated operation overvoltage:

Operating time:

Rated inoperative overvoltage:

Overvoltage inertia inoperative time:

135 VAC fixed (no settings)

1 s fixed (no settings)

120 VAC

0.1 s or more

This function is turned ON when the line system is set to single-phase three-wire system. (The function is turned OFF when set to any other line system.)

26

4.6 Network Specifications for MDU 4.6.1 Electric energy pulse output

Item

Output elements

Contact capacity

Output pulse unit

Output pulse width

Max. wiring length

Solid state relay (SSR), No voltage a contact (113 and 114 terminals: no polarity)

Compatible with 24 VDC and 100 to 200 VAC, 20 mA

1, 10, 100, 1000 and 10000 kWh/pulse (settable)

0.35 to 0.45 s

100 m

Specification

Item Specification

4.6.2 CC-Link communication

Communication method

Communication speed

Synchronization method

Encoding method

Transmission format

Number of occupied stations

CC-Link version

Max. total extension cable length

Number of connected units

Connecting cable

Broadcast polling method

156 k/625 k/2.5 M/5 M/10 Mbps

Frame synchronization method

NRZI

Conforming to HDLC

Remote device occupying 1 station

CC-Link Ver. 1.10

1200 m (156 kbps), 900 m (625 kbps), 400 m (2.5 Mbps), 160 m (5 Mbps), 100 m (10 Mbps)

Max. 42

Cables applicable to CC-Link Ver. 1.10 (shielded 3-core twisted pair cables)

Note: Refer to the CC-Link Partner Association website (http://www.cc-link.org/) for details.

4.6.3 MODBUS communication Item Specification

Communication method

Communication protocol

Synchronization method

Connection method

Communication speed

Bit length

Stop bit

Parity bit

Slave device address

Response time

Terminal resistance

Maximum transmission distance

No. of connectable units

Connection cable

RS-485, 2-wire system, half duplex communication

MODBUS-RTU communication (Binary data transfer)

Start-stop synchronization method

Multidrop network

2400, 4800, 9600, 19200, and 38400 bps

8 bits

1 bit or 2 bits (Default: 1 bit)

ODD, EVEN, and NONE (Default: EVEN)

1 to 127 (Default: 1)

From reception of a query to transmission of a response, it is 1 second or less.

120 , 1/2 W

1,200 m

Up to 31 units per system

An equivalent cable to SPEV (SB)-MPC-0.21P (manufactured by MITSUBISHI CABLE INDUSTRIES, LTD.)

27

5. Names and Functions of MDU Parts Some models do not measure or display (transmit) some items or functions. These items and functions will be skipped. * Refer to 7. MDU Operation Procedure for details.

5.1 Display/operation panel The display direction on the display can be changed. Refer to 7.1.2-3 Setting method for LCD.

[1] ITEM selection switch Used to select items to display on the measurement display screen.

[2] PHASE selection switch Used to select phases to display on the measurement display screen.

[3] VALUE selection switch Used to select measurement values to display on the measurement display screen.

[4] MENU (back) switch Used to switch between the measurement display screen and main menu screen, and to return to the previous screen.

[5] ENTER switch Used to confirm items/details set in the function selection mode.

[6] (UP) and (DOWN) switches Used to set values and select items.

* Refer to 7 MDU Operation Procedure for details on how to operate the device.

[1] ITEM selection switch

[2] PHASE selection switch

[3] VALUE selection switch

[4] MENU (back) switch

[5] ENTER switch

[6] (UP) switch

(DOWN) switch

28

5.2 MDU terminal block section (1) Control power supply terminals: L1 and L2

Connect to the MDU control power supply. They have no polarity.

(2) Ground terminal: FG (on mounting plate) MDU external mounting: FG terminal on mounting plate of MDU Breaker main unit MDU panel mounting: FG terminal on MDU mounting bracket Connect above terminals to class D ground.

(3) Ground terminal: FG (on terminal block) Connect the FG terminal on the terminal block with the FG terminal in (2) above, and then ground (class D).

(4) Pulse output terminals: 114 and 113 (with electric energy pulse output option) These are electric energy pulse output terminals. They have no polarity.

(5) CC-Link communication terminals: DA, DB, DG, and SLD (with CC-Link communication option) Connect to CC-Link communication signals DA, DB, DG, and SLD.

(6) MODBUS communication terminals: FG, SLD, 485+, 485-, and Ter (with MODBUS communication option) Connect to MODBUS communication signals FG, SLD, 485+, and 485-.

If the 485- and Ter terminal are short-circuited, the end MDU of the MODBUS communication can be terminated using the 120 terminal resistor.

Screw size on terminal block is M3.5. Tightening torque is 0.94 to 1.51 Nm. Use crimped terminal size 7.5 mm or less for M3.5 screw.

Screw size on terminal block is M3. Tightening torque is 0.49 to 0.76 Nm. Use crimped terminal size 6.3 mm or less for M3 screw.

Terminal layout figure: Panel mounting specification

Terminal layout figure: External mounting specification

L1 MDU control power supply

L2 Unused FG [1] [2] [3] [4]

No transmission

Pulse output

Unused Unused Unused Unused

Unused Unused 113114

[1] [2] [3] [4]

No transmission

Pulse output

Unused Unused Unused Unused

Unused Unused 113 114

CC-Link

CC-Link

DASLD DG DB

MODBUS

MODBUS

TerSLD

Ter TerSLD

SLD

SLD

SLD

485+

485+

485-

485- 485+485-

[1] [2] [3] [4]

[1] [2] [3] [4]

[1] [2] [3] [4] [5] [6] [7] [8]

L2 L1

FG terminal

MDU control power supply

L2 L1 MDU control power supply

Do not connect anything to unused terminals. Do not use with connecting wiring.

Erroneous connection will cause failure.

Caution

FG terminal

DA DADB DBDG DG

[1] [2] [3] [4] [5] [6] [7] [8]

29

5.3 CC-Link setting area (with CC-Link communication option) The MDU is a remote device station that occupies a single station. MDU input data is retained if a sequencer CPU error or data ring error occurs.

ON ON ON

ON

Station number setting switches8 4 2 1

1 8 4 2 1

10

Setting example: Value of switches when turned ON: 10s place..... 2 10 = 20, 1s place....... 8 1 + 1 1 = 9, 20 + 9 = 29, and then station number is 29.

Set station numbers so that there are no duplicate ones set on the same transmission route. Refer to 5.4 Number of CC-Link communication connectable units and precautions for information on the number of connectable units and combinations with other devices.

(2) Communication speed (baud rate) setting switch Use the communication speed setting switch to set the communication speed.

0 1 2 3

4

Switch setting Communication speed

156 kbps (factory setting) 625 kbps 2.5 Mbps 5 Mbps

10 Mbps Communication speed setting switch

(3) Reset switch The reset switch restarts the MDU status. If the station number (STATION No.) setting switches or communication speed (baud rate) setting switch are operated after the control power supply is turned on, be sure to press the reset switch.

(4) CC-Link communication LEDs The CC-Link communication LEDs indicate the status of the transmission signal line and the error status of the MDU.

LED name

L ERR. LED

SD LED RD LED

L RUN LED

Details

ON : Communication normal OFF : Communication stopped

ON : Communication data error Blinking : Communication data error OFF : Communication normal

Turns ON when sending data Turns ON when receiving data

Station number setting switches

Communication speed setting switch

CC-Link communication LEDs

Reset switch

(1) Station number (STATION No.) setting switches Open the cover for the setting area on the front of the MDU, and use the station number setting switches to set the CC-Link communication station number via BCD code. (Setting range: 1 to 64) (factory setting: 1)

Caution CC-Link operation precautions

[1] Prior to powering the transmission line for CC-Link communication, set the station number for each device, while keeping the number of occupied stations in mind. CC-Link devices use these station numbers to communicate, so setting them is very important.

[2] Use a thin stick to operate the station number setting switches, and make sure that they have been switched all the way to the number to set. Operate the station number setting switches at 10 N or less.

[3] If the station number setting switches are operated after turning the control power supply on, the set station number will not be recognized unless the reset switch is pressed.

[4] Use a thin stick to firmly press the reset switch. [5] Do not use a mechanical pencil to operate the switch. The lead could enter the gap in the switch, resulting in erroneous operation and even

causing failure. [6] The terminal block is not formed from two pieces, so the unit cannot be replaced during communication.

30

5.4 Number of CC-Link communication connectable units and precautions The MDU is a remote device station that occupies a single station. The number of connectable units and combinations with other devices must satisfy both number of connectable units in condition 1 and number of connectable units in condition 2 below.

Number of connectable units in condition 1 {(1 a) + (2 b) + (3 c) + (4 d)} 64

a : Number of units occupying one station (this applies to the MDU) b : Number of units occupying two stations c : Number of units occupying three stations d : Number of units occupying four stations

Number of connectable units in condition 2 {(16 A) + (54 B) + (88 C)} 2304

A : Number of remote I/O single stations 64 B : Number of remote device stations 42 (this applies to the MDU) C : Number of local stations 26

If only MDUs are connected, up to 42 devices can be connected. Number of connectable units in condition 1...... {(1 42) + (2 0) + (3 0) + (4 0)} = 42 64 Number of connectable units in condition 2...... {(16 0) + (54 42) + (88 0)} = 2268 2304

For the MDU panel mounting specification, the terminal block on the panel mounting bracket and the terminal block on the MDU are connected with a special CC-Link cable (15 cm one-way, 30 cm two-way), so keep the following three points in mind.

(1) The one-way 15 cm length of the special CC-Link cable mentioned above is included in the distance between each station. (2) The two-way 30 cm length of the special CC-Link cable mentioned above is included in the maximum transmission distance (total length

distance). (3) The CC-Link version is CC-Link Ver. 1.10. The special CC-Link cable mentioned above is the cable of part no. FANC-110SBH manufactured by Kuramo Electric Co., LTD.

31

5.5 Installation and wiring for products with CC-Link communication 5.5.1 Terminator installation

Terminators are not included with this product. Use the terminator included with the master unit. Refer to the terminator manual included with the master unit for details on terminators.

Terminators (included with the master unit) must be installed on the units at both ends of the CC-Link transmission line.

Master unit MDU MDU

Special CC-Link cable

Terminator (included with master unit)

Cut

Cut Cut

15 mm

5 mm 5 mm 5 mm 5 mm10 mm 10 mm

15 mm

Cut

Insulation tubes

Crimp terminals with insulation sleeves

Special CC-Link cable

5.5.2 Shielded wire grounding Connect both ends of the shielded wires from the special CC-Link cable to SLD on each unit. Use FG on each unit as the dedicated ground. Use class D grounding. If a dedicated ground cannot be used, use a common ground as shown in the figure below.

If the MDU is at the end of the CC-Link transmission line, connect a terminator between DA and DB in the MDU terminal block. MDU external mounting specification: Prepare the terminator included with the master unit as shown in the figure below. MDU panel mounting specification: Preparation not required.

[Preparation method] (1) Cut the resistor legs on both sides of terminator (leave 15 mm on each side).

(2) Cut the insulation tubes 5 mm from their ends.

Te rm

in at

or

Terminator DA

DB

DG

SLD

FG

DA

DB

DG

SLD

FG

DA

DB

DG

SLD

FG

MDU

Dedicated ground ...... Best Common ground ...... OK Common ground ...... Not possible

Class D groundClass D groundClass D ground

MDU MDU MDU MDU MDU

Caution

32

5.6 MODBUS setting area (with MODBUS communication option)

MODBUS operation precautions [1] Prior to powering the transmission line for MODBUS communication, set the address for each device.

MODBUS devices use these addresses to communicate, so setting them is very important. [2] Use a thin stick to operate the address setting switches, and make sure that they have been switched all the way to the one to set.

Operate the address setting switches at 10 N or less. [3] If the address setting switches are operated after turning the control power supply on, the set address will not be recognized unless

the reset switch is pressed. [4] Use a thin stick to firmly press the reset switch. [5] Do not use a mechanical pencil to operate the switch. The lead could enter the gap in the switch, resulting in erroneous operation and even

causing failure.

Caution

(2) MODBUS parity bit setting switches These switches are used to set the MODBUS communication parity bit. (Factory setting: ON, EVEN)

(1) MODBUS address setting switches These switches are used to set the addresses for MODBUS communication. (Factory setting: ON, EVEN) Set the addresses so that there are no duplicate ones set on the same transmission route.

Setting example: Values of the switch when turned ON are 16 and 1. 16 + 1 = 17 Address is 17.

(4) MODBUS communication speed (baud rate) setting switch This switch is used to set the MODBUS communication speed. (Factory setting: 19200 bps)

(5) Reset switch The reset switch restarts the MDU status. If the stop bit setting switch, the parity bit setting switches, the address setting switches, or the communication speed (baud rate) setting switch are operated after the control power supply is turned on, be sure to press the reset switch.

(6) Transmission signal LED The transmission signal LED shows the state of the transmission signal.

Blinking : Transmitting OFF : Transmission stopped

ODD, OFF EVEN, OFF ODD, ON EVEN, ON

NONE NONE EVEN ODD

Switch setting Parity bit

2.4 4.8 9.6 19.2 38.4

2400 4800 9600 19200 38400

Switch setting Communication speed [bps]

(3) MODBUS stop bit setting switch Open the cover for the setting area on the front of the MDU, and set the MODBUS communication stop bit using this switch. (Factory setting: 1 bit)

1-bit 2-bit

Switch setting Stop bit

1 bit 2 bits Address setting switch

Parity bit setting switch

Stop bit setting switch

Baud rate setting switch

MODBUS communication LED

Reset switch

S1bit

ONOFF

EVEN

38.4 9.6

4.8 2.4

RS-485

ON

RESET

B RATE

64 32

16 8

4 2

1 2bit

19.2

PARITY

SD

RD

ADDRESS

ODD

kbps

38.4 9.6

4.8 2.4

B RATE

19.2

kbps

ON

S 2bit

1bit

ON

PARITY EVEN ON

ODD OFF

ON

ADDRESS 64 32 16 8 4 2 1

33

5.7 Installation and wiring for products with MODBUS communication

Master Unit MDU Unit MDU Unit

Ter Ter

(2) Grounding the shielded wire Connect the shielded wire of the MODBUS communication cable to the SLD terminal of each unit at both ends. Connect the shielded wire to FG at one point on the master unit side.

(1) Connection of termination resistor A termination resistor must be connected to the unit at both

ends of the MODBUS communication line. Since the MDU has built-in terminating resistors, it is possible

to connect a terminating resistor by short-circuiting 485- and Ter terminal.

34

6. MDU Detailed Specifications 6.1 Precautions for measurement

(1) Electric current measurement accuracy The MDU electric current measurement accuracy is 1.0% of the maximum current setting (measurement rated current) of the circuit breaker. For example, the permissible difference of NF400-SEW with MDU is 4.0 A (400 A 1.0%), so the permissible difference from a current of 0 A to 400 A would be 4.0 A. If the measurement value is less than 1.0%, the display value is cut off to 0 A. However, if the current is 0.4% or more of the rated value, the electric power and electric energy are measured.

Measurement value

4.0 A

4.0 A

4.0 A

Permissible error range

0 A 400 A Input value

to (time limit) t (Time)

Io

0.95 I I

(2) Demand value The demand value is generally the average value over the demand time limit. The demand time limit (to) is the time until the measurement display value (lo) when a fixed input (I) is continuously powered displays 95% of the input (I). It will take an amount of time roughly equal to three times the time limit (to) to display 100% of the input (I).

(3) Power factor measurement accuracy The MDU power factor measurement accuracy is 5% versus the 90 electric angle. This is phase angle 4.5. With regard to power factor this means that a display value up to around 0.3% (LEAD (forward) 99.7 to LAG (delay) 99.7) at 100% and around 6% (64.9 to 76.0) at 70.7% of LEAD or LAG will be allowed.

Measurement display value

45-45 0

Power factor

-99.7% 100%

+99.7% Permissible error range

-70.7% 76.0%

70.7%

64.9%

4.5 4.5

5% of 90

Permissible error range

Forward (LEAD) Delay (LAG)

35

(4) Intermittent load (such as welder) measurement Items such as current, voltage, and electric power are measured (sampled) once every 250 ms. Any values, such as current value, are calculated

and the measurement value is updated at this timing. However, the minimum update cycle for measurement results displayed on the display or output over communication data is 500 ms. This will result in a larger errors if there is a continuous load (such as due to a resistance welder), and is therefore not suited for measurement in such cases. If a subordinate circuit breaker operates during a short or earth leakage, the operating current might be measured at a low value. Fault current is continuously monitored. However, the operating current of the MDU Breaker itself is measured, so the operating current of a subordinate circuit breaker cannot be measured.

(5) Operation during power outage/restoration The electric energy (integrated value) and reactive energy (integrated value) are stored in non-volatile memory when measurement values

are updated or there is a power outage. When power is restored, it will continue measuring from the data that was stored prior to the power outage. Setting values are stored in non-volatile memory when set, so they do not need to be set again when power is restored. The device stores the last measurement display screen status prior to a power outage, and will return to this screen when the power is restored. The time setting might not be retained during a power outage. It should be reconfigured when power is restored. This setting is required to

measure the maximum value occurrence time and latest one hour amount (the one hour amount from one hour to the next hour as measured by the internal clock).

Maximum values and occurrence times are stored every 30 minutes. If there is a power outage, the data from 30 minutes prior to the power outage until the power outage may not be stored (in the worst case scenario).

36

7. MDU Operation Procedure Display items and functions are set using the selection switches [1] through [4] shown in the figure below. Settings are switched each time a switch is pressed. (For example, when setting the phase it will cycle from 1 2 3 N 1 and repeat.) The UP and DOWN switches ([6]) can be used to set a numerical value for the selected item or when there are further items to select. Some models do not measure or display (transmit) some items or functions. These functions and items will be skipped.

[6] (UP) switch

[4] MENU (back) switch

[5] ENTER switch

[1] ITEM selection switch

[2] PHASE selection switch

[3] VALUE selection switch

(DOWN) switch

37

7.1 Operating method for main menu screen The main menu screen provides access to each display screen. Use the UP/DOWN switches to select a screen to display/set, and then press ENTER to switch to the selected screen. * Text will be inverted (black background and white text) when selected.

ENTER

Select this to display and configure protection characteristics. Refer to 7.1.1.

MENU

[Main menu screen]

MENU

Select this for settings. Refer to 7.1.2.

Select this to reset alarms. Refer to 7.1.3.

Select this to reset fault causes/current, maximum values, electric energy, and reactive energy. Refer to 7.1.4.

Select this to check item settings. Refer to 7.1.5.

PROTECT

SETTING

AL_RST

ERASE

INFO

PROTECT

SETTING

AL_RST

ERASE

INFO

DOWN UP

DOWN UP

ENTER

MENU

ENTER

MENU

ENTER

MENU

ENTER

MENU

PROTECT

SETTING

AL_RST

ERASE

INFO

DOWN UP

PROTECT

SETTING

AL_RST

ERASE

INFO

DOWN UP

PROTECT

SETTING

AL_RST

ERASE

INFO

MENU

MENU

MENU

MENU

[Protection characteristics selection screen] This is used to check overload, short-circuit protection characteristics,

current setting, long time delay operating time, short time delay tripping current, short time delay operating time, and instantaneous tripping current.

[Settings menu screen] This is used to set phase switching, demand time limit, line system settings, pulse unit settings, alarms settings, LCD settings, time settings, and electric energy/reactive energy.

[Information screen] This is used to check item settings for models, the protection characteristics list, the alarm list, and the measurement settings list.

38

7.1.1 Display method for protection characteristic setting values Select PROTECT from the main menu screen and press ENTER to switch to the protection characteristics selection screen. Switches through LTD STD/INST ER LTD.... * Protection characteristics cannot be set (changed). Use the setting dials on the MDU Breaker main unit to change them.

The setting current from the measurement display unit can not be changed for current setting (Ir) and instantaneous tripping current (Ii). Please change with the setting knob on the breaker.

(1) Current setting (Ir) check and long time delay operating time (TL), long time delay lamp characteristics (I6t), N pole protection characteristic (NP) setting

You can check the setting value of current setting (Ir) . The long time delay operating time (TL) switches between 12 60 80 100 12 .... Enter to set the setting value. The long time delay lamp characteristicsI6tswitches between ON OFF ON .... Please enter with Enter. N pole protection characteristic (NP) setting switches between ON OFF ON .... Please enter with Enter. (4 poles only) On the change permission screen, select YES and change the setting with Enter. After pressing the Enter button, it returns to the protection characteristics selection screen.

(2) Set short time delay current (Is), short time delay operating time (Ts) and instantaneous tripping current (Ii) confirm The short time delay current (Is) changes to 2.0 2.5 3.0 3.5 4.0 5.0 6.0 7.0 8.0 9.0 10 2.0 .... Enter to set the setting value. The short time delay operating time (Ts) switches between 0.1 0.2 0.3 0.1 .... Enter to set the setting value. The long time delay lamp characteristics (I6t) switches between ON OFF ON .... Please enter with Enter. You can check the setting value of instantaneous tripping current (Ii). On the change permission screen, select YES and change the setting with Enter. After pressing the Enter button, it returns to the protection characteristics selection screen.

[Main menu screen] [Protection characteristics

selection screen]

To [Protection characteristics selection screen]

To [Protection characteristics selection screen]

PROTECT

SETTING

AL_RST

ERASE

INFO

MENU

PROTECT LTD

STD/INST

ER

To [LTD setting value display screen]

MENU

ENTER

MENU

ENTER

MENU

Select with UP/DOWN

PROTECT

Ir TL at

LTD

A S %

MENU

200 200

PROTECT LTD

MENU

I6t ON OFF

NP ON OFF

ENTER

MENU

ENTER

MENU

ENTER

MENU

7.1.1-1 Protection characteristic setting and setting method for 250 A frame

Ts setting value

I6t ON/OFF NP ON/OFF

100

MENU

OK NO YES

Change NOYES with UP/DOWN

Change NOYES with UP/DOWN

PROTECT LTD

ENTER

MENU

ENTER

MENU

ENTER

MENU

MENU

OK NO YES

PROTECT STD/INSTPROTECT

Is Ts

STD/INST

I r S

MENU

0.3 I2t ON OFF

PROTECT STD/INST

MENU

I i

A 3500

Is setting value

Ii setting value I2t ON/OFF

10.0

[LTD setting value display screen]

TL setting valueIr setting value Set with UP/DOWN

Set with UP/DOWN

Change with UP/DOWN

Set with UP/DOWN

Select with UP/DOWN Select with UP/DOWN

[STD/INST setting value display screen]

39

[LTD setting value display screen]

[STD/INST setting value display screen]

PROTECT

Ir TL at

LTD

[ A ] [ S ] [ % ]

MENU

200 12 200

PROTECT LTD

MENU

I6t ON OFF

PROTECT

Is Ts

STD/INST

[ I r ] [ S ]

MENU

2.0 0.06 I2t ON OFF

PROTECT STD/INST

MENU

I i

[ A ] 1600

ENTER

MENU

ENTER

MENU

(1) Confirm current setting 2 (lr) and long time delay operating time (TL) MDU Breaker main unit current setting 2 (lr) and long time delay operating time (TL) setting values can be confirmed on the LTD setting value display screen.

(2) Confirm short time delay tripping current (Is) and short time delay operating time (Ts), and then confirm instantaneous tripping current (Ii). Short time delay tripping current (ls), short time delay operating time (Ts), and instantaneous tripping current (Ii) setting values can be confirmed on the STD/INST setting value display screen.

Is and Ts setting values

Ii setting value

I6t ON/OFF

Ir and TL setting values

I2t ON/OFF

7.1.1-2 Protection characteristic setting and setting method for 400/800 A frame The setting current from the measurement display unit can not be changed for current setting (Ir) and instantaneous tripping current (Ii). Please change with the setting knob on the breaker.

[Earth leakage characteristics ER setting value display screen]

I r I i TL Is Ts I 6t I 2t In Te

: Current setting : Instantaneous tripping current : Long time delay operating time (at 200%) : Short time delay tripping current : Short time delay operating time (at Is 1.5) : Long time delay lamp characteristics (*) : Short time delay lamp characteristics (*) : Rated sensitivity current : Maximum operating time

PROTECT

--- ---

ER

MENU

(3) Rated Sensitivity Current I n, Maximum Operating Time Te Check * No fuse breaker will be displayed as -.

In and Te setting values

I6t ON

I6t OFF

Current

Operating time

TL

T

Is I2t ON

I2t OFF

Ts

Ii

I

40

(3) Rated Sensitivity Current I n, Maximum Operating Time Te Check * No fuse breaker will be displayed as -.

PROTECT

SETTING

AL_RST

ERASE

INFO

MENU

SETTING MEASURE

ALARM

LCD

ITEM_S

DATE

EP/EQ

MENU

[Main menu screen] [Setting item

selection screen]

MENU

SETTING MEASURE PHASE

DEMAND

PULSE

LINE_S

[Measurement setting selection screen]

To [Measurement setting selection screen]

MENU

SETTING MEASURE PHASE

[Phase switching display screen]

To [Phase switching display screen]

[Allow changes screen]

7.1.2 Method for various settings

7.1.2-1 Setting method for measurement-related items

Select SETTING from the main menu screen and press ENTER to switch to the setting item selection screen. Switches through MEASURE ALARM LCD DATE EP/EQ ITEM_S FREE_S MEASURE....

Select MEASURE from the setting item selection screen and press ENTER to switch to the measurement setting selection screen.

Screen [1] Screen [2]

NORMAL INVERS

Select NOYES with UP/DOWN

MENU

SETTING MEASURE PHASE

OK? NO YES

NOW SETTING....

To [Measurement setting selection screen]

ENTER

MENU

ENTER

MENU

ENTER

MENU

ENTER

MENU

Phase switching setting value Select with UP/DOWN

ENTER

Select with UP/DOWN

Select with UP/DOWN

[Earth leakage characteristics ER setting value display screen]

I r I i TL Is Ts I 6t I 2t In Te

: Current setting : Instantaneous tripping current : Long time delay operating time (at 200%) : Short time delay tripping current : Short time delay operating time (at Is 1.5) : Long time delay lamp characteristics (*) : Short time delay lamp characteristics (*) : Rated sensitivity current : Maximum operating time

PROTECT

--- ---

ER

MENU

In and Te setting values

I6t ON

I6t OFF

Current

Operating time

TL

T

Is I2t ON

I2t OFF

Ts

Ii

I* For 400/800 A frame, ON is set always.

PHASE : Phase switching ON/OFF setting LINE_S : Phase and wire setting DEMAND : Demand time limit setting PULSE : Pulse unit setting

(1) Phase switching setting [Default value: NORMAL (no phase switching)] Select PHASE on the measurement setting selection screen and press ENTER to switch to the phase switching display screen. (Screen [1]) This allows the phase switching setting value to be changed. Select INVERS (phase switching) and press ENTER to decide. Select YES on the allow changes screen and press ENTER to change the setting. (Screen [2]) * NOW SETTING... is displayed until the setting is completed. Once setting is complete, the screen will return to the measurement setting selection screen.

Select MEASURE from the setting item selection screen and press ENTER to switch to the measurement setting selection screen. Switches through PHASE LINE_S DEMAND PULSE PHASE.... (PULSE is only for models with electric energy pulse output.)

41

MENU

SETTING MEASURE PULSE

1 10

10 0 10 0 0

10 0 0 0 [kWh]

ENTER

MENU

SETTING MEASURE PHASE

LINE_S

PULSE

DEMAND

[Measurement setting selection screen]

(3) Demand time limit setting [Default value: 2 min.]

Select DEMAND on the measurement setting selection screen. (Screen [1]) Press ENTER to switch to the demand time limit display screen. (Screen [2]) Setting value switches through 0 1 2 ... 14 15 0.... (in 1 min. steps). Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

Screen [1]

MENU

SETTING MEASURE DEMAND

[Demand time limit display screen]

Screen [2] Demand time limit setting value Select with UP/DOWN

[Allow changes screen]

Screen [3]

To [Measurement setting selection screen]

MENU

SETTING MEASURE DEMAND

OK? NO YES[ m i n ]

3 ENTER

MENU

ENTER

MENU

ENTER

MENU

SETTING MEASURE PHASE

LINE_S

PULSE

DEMAND

[Measurement setting selection screen]

(4) Pulse unit setting [Default value: 1 kWh]

Select PULSE on the measurement setting selection screen. (Screen [1]) Press ENTER to switch to the pulse unit display screen. (Screen [2]) Setting value switches through 1 10 100 1000 10000 1.... Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

Screen [1]

[Pulse unit display screen]

Screen [2] Pulse unit setting value Select with UP/DOWN

[Allow changes screen]

Screen [3]

To [Measurement setting selection screen]

MENU

SETTING MEASURE PULSE

OK? NO YES

ENTER

MENU

ENTER

MENU

Select with UP/DOWN

Select NOYES with UP/DOWN

Select NOYES with UP/DOWN

Select with UP/DOWN

MENU

SETTING MEASURE PHASE

LINE_S

DEMAND

PULSE

[Measurement setting selection screen]

MENU

SETTING MEASURE LINE_S

[Line system display screen] [Allow changes screen]

(2) Line system setting [Default value: 3P3W] (3P4W for four-pole products)

Select LINE_S on the measurement setting selection screen. (Screen [1]) Press ENTER to switch to the line system display screen. This allows the line system setting value to be changed. (Screen [2]) 1P2W (single-phase two-wire) 1P3W (single-phase three-wire) 3P3W (three-phase three-wire) 3P4W (three-phase four-wire) *Only for four-pole products Select an option and then press ENTER to decide the setting value. Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

Screen [1] Screen [2] Screen [3]

1P2W 1P3W 3P3W 3P4W

Line system setting value Select with UP/DOWN

MENU

SETTING MEASURE LINE_S

OK? NO YES

ENTER

MENU

ENTER

MENU

ENTER

To [Measurement setting selection screen]

Select NOYES with UP/DOWN

Select with UP/DOWN

42

7.1.2-2 Setting method for alarms Select ALARM from the setting item selection screen and press ENTER to switch to the alarm setting selection screen. Switches through PAL IDM_AL ILA_AL IUB_AL AL_HOLD PAL....

MENU

SETTING MEASURE

ALARM

LCD

ITEM_S

DATE

EP/EQ

MENU

SETTING ALARM PAL

IDM_AL

ILA_AL

IUB_AL

AL_HOLD

[Setting item selection screen] [Alarm setting

selection screen]

ENTER

MENU

ENTER

MENU

To [PAL setting display screen]

To [Alarm setting selection screen]

(1) Pre-alarm (PAL) setting Select PAL on the alarm setting selection screen and press ENTER to switch to the PAL setting display screen. (Screen [1]) Press Enter to confirm MDU Breaker main unit pre-alarm current (lp) and pre-alarm operating time (Tp) setting values. (Screen [2]) * The setting value cannot be set (changed). For 250 A frame, use the setting dials on the PAL module (option). For 400/800 A frame, use the setting dials on the MDU Breaker main unit.

* There is no setting dial for the pre-alarm operating time. It will be set to 1/2 of long time delay operating time (TL).

MENU

SETTING ALARM PAL

[PAL setting display screen]

Screen [1] Screen [2]Pre-alarm ON/OFF

PU : Ip setting value TIME : Tp setting value

MENU

SETTING ALARM PAL

ON OFF

PU TIME

[ % ] [ S ] 80 30

ENTER

MENU

ENTER

Select with UP/DOWN

MENU

SETTING ALARM PAL

IDM_AL

ILA_AL

IUB_AL

AL_HOLD

[Alarm setting selection screen]

MENU

SETTING ALARM IDM_AL

[Electric current demand alarm setting display screen]

[Allow changes screen]

(2) Electric current demand alarm (IDM_AL) setting [PU default value: 100%, TIME default value: 2 min.] Select IDM_AL on the alarm setting selection screen. (Screen [1]) Press ENTER to switch to the electric current demand alarm setting display screen. (Screen [2]) Select either ON (function enabled) or OFF (function disabled) and press ENTER to decide the setting.

[1] ON (function enabled) setting method The pick up electric current setting value can be changed to a setting value from 50 to 100 (per 1 %). (Screen [3]) Press ENTER to switch to the demand time limit setting value.

The demand time limit setting value can be changed to a setting value from 1 to 10 (per 1 min.) 15 20 25 30 (per 5 min.). (Screen [4]) Press ENTER to switch to the allow changes screen.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [5])

[2] OFF (function disabled) setting method After selecting OFF, press ENTER to switch to the allow changes screen.Select YES and press ENTER to decide the setting. (Screen [5])

Screen [1] Screen [2] Screen [3]

Screen [5] Select NOYES with UP/DOWN

MENU

SETTING ALARM IDM_AL

OK? NO YES

ON OFF

ENTER

MENU

ENTER

MENU

ENTER

MENU

MENU

SETTING ALARM IDM_AL

PU TIME

[ % ] [ m i n ] 299

PU : IDM_AL Pick up electric current setting value

Change with UP/DOWN

Screen [4]

ENTER

MENU

MENU

SETTING ALARM IDM_AL

PU TIME

[ % ] [ m i n ] 99

TIME : IDM_AL Demand time limit setting value

Change with UP/DOWN

[1] When ON

ENTERMENU

[2] When OFF

To [Alarm setting selection screen] ENTER

3

Select with UP/DOWN

Select ONOFF with UP/DOWN

PAL : Pre-alarm setting display IDM_AL : Current demand alarm setting ILA_AL : Current open-phase alarm setting IUB_AL : Current unbalance alarm setting AL_Hold : Alarm reset method setting

43

MENU

SETTING ALARM PAL

IDM_AL

ILA_AL

IUB_AL

AL_HOLD

MENU

SETTING ALARM PAL

IDM_AL

ILA_AL

IUB_AL

AL_HOLD

(3) Electric current open phase alarm (ILA_AL) setting Select ILA_AL on the alarm setting selection screen. (Screen [1]) Press ENTER to switch to the electric current open phase alarm setting display screen. (Screen [2]) Select ON (function enabled) or OFF (function disabled) and press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

(4) Electric current unbalance alarm (IUB_AL) setting Select IUB_AL on the alarm setting selection screen. (Screen [1]) Press ENTER to switch to the electric current unbalance alarm setting display screen. (Screen [2]) Select ON (function enabled) or OFF (function disabled) and press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

ENTER

[Alarm setting selection screen]

MENU

SETTING ALARM ILA_AL

[Electric current open phase alarm setting display screen] [Allow changes screen]

Screen [1] Screen [2] Screen [3] Select NOYES with UP/DOWN

Select ONOFF with UP/DOWN

MENU

SETTING ALARM ILA_AL

OK? NO YES

To [Alarm setting selection screen]

[Alarm setting selection screen]

MENU

SETTING ALARM IUB_AL

[Electric current unbalance alarm setting display screen] [Allow changes screen]

Screen [1] Screen [2] Screen [3]

MENU

SETTING ALARM IUB_AL

ON OFF

ON OFF

OK? NO YES

ENTER

MENU

ENTER

To [Alarm setting selection screen]

ENTER

MENU

ENTER

MENU

ENTER

MENU

Select with UP/DOWN

Select with UP/DOWN

Select ONOFF with UP/DOWN

Select NOYES with UP/DOWN

MENU

SETTING ALARM PAL

IDM_AL

ILA_AL

IUB_AL

AL_HOLD

ENTER

To [Alarm setting selection screen]

(5) Alarm reset method setting [Default value: AUTO (automatic reset)] Select AL_HOLD on the alarm setting selection screen. (Screen [1]) Press ENTER to switch to the alarm reset method setting display screen. (Screen [2]) Select HOLD (self-hold) and press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

[Alarm setting selection screen]

MENU

SETTING ALARM AL_HOLD

[Alarm reset method setting display screen] [Allow changes screen]

Screen [1] Screen [2] Screen [3]

AUTO HOLD

Alarm reset method setting value Select with UP/DOWN

Select NOYES with UP/DOWN

MENU

SETTING ALARM AL_HOLD

OK? NO YES

Select with UP/DOWN

ENTER

MENU

ENTER

MENU

* Set alarm function collectively. Refer to 4.5 How to use monitoring functions for related alarm.

44

To [LCD backlight setting display screen]

MENU

SETTING MEASURE

ALARM

LCD

ITEM_S

DATE

EP/EQ

MENU

SETTING LCD BACK_L

CTRST

BRT_W

BRT_R

VIEW

REV_B/W

[Setting item selection screen] [LCD setting selection screen]

7.1.2-3 Setting method for LCD Select LCD from the setting item selection screen and press ENTER to switch to the LCD setting selection screen. Switches through BACK_L CTRST BRT_W BRT_R VIEW REV_B/W AL_BL BACK_L....

ENTER

MENU

ENTER

MENU

(2) LCD contrast setting [Default value: 2 (center value of 0 to 4)] Select CTRST on the LCD setting selection screen. (Screen [1]) Press ENTER to switch to the LCD contrast setting display screen. (Screen [2]) Use UP/DOWN to switch the contrast of the screen. Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

ENTER

MENU

ENTER

MENU

[LCD setting selection screen]

MENU

SETTING LCD

+

-

CTRST

[LCD contrast setting display screen]

Screen [1] Screen [2] LCD contrast setting value Change with UP/DOWN

MENU

SETTING LCD BACK_L

CTRST

BRT_W

BRT_R

VIEW

REV_B/W

(1) LCD backlight setting [Default value: AUTO (automatic OFF)] Select BACK_L on the LCD setting selection screen and press ENTER to switch to the LCD backlight setting display screen. (Screen [1]) Select AUTO (automatic OFF: automatically turns OFF if there is no activity for around 5 min.; it will turn back ON when a switch is operated), ON (always ON), or OFF (always OFF) and press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [2])

MENU

SETTING LCD BACK_L

[LCD backlight setting display screen] [Allow changes screen]

Screen [1] Screen [2]LCD backlight setting value Select with UP/DOWN

MENU

SETTING LCD BACK_L

OK? NO YES

AUTO ON OFF

ENTER

MENU

To [LCD setting selection screen] ENTER

[Allow changes screen]

Screen [3] Select NOYES with UP/DOWN

MENU

SETTING LCD CTRST

OK? NO YES

ENTER

To [LCD setting selection screen]

Select with UP/DOWN

Select with UP/DOWN

Select NOYES with UP/DOWN

(3) White brightness setting [Default value: 4 (center value of 1 to 7)] Select BRT-W on the LCD setting selection screen. (Screen [1]) Press ENTER to switch to the white brightness setting display screen. (Screen [2]) Use UP/DOWN to switch the white brightness of the screen. Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

ENTER

MENU

ENTER

MENU

[LCD setting selection screen]

MENU

SETTING LCD

+

-

BRT_W

[White brightness setting display screen]

Screen [1] Screen [2] White brightness setting value Change with UP/DOWN

MENU

SETTING LCD BACK_L

CTRST

BRT_W

BRT_R

VIEW

REV_B/W

[Allow changes screen]

Screen [3] Select NOYES with UP/DOWN

MENU

SETTING LCD BRT_W

OK? NO YES

ENTER

To [LCD setting selection screen]

Select with UP/DOWN

BACK_L : LCD backlight setting CTRST : LCD contrast setting BRT_W : White brightness setting BRT_R : Red brightness setting VIEW : View setting (vertical or

horizontal) REV_B/W : Color inversion setting

(black & white) AL_BL : Backlight display during

alarm setting

45

(4) Red brightness setting [Default value: 4 (center value of 1 to 7)] Select BRT_R on the LCD setting selection screen. (Screen [1]) Press ENTER to switch to the red brightness setting display screen. (Screen [2]) Use UP/DOWN to switch the red brightness of the screen. Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

ENTER

MENU

ENTER

MENU

[LCD setting selection screen]

MENU

SETTING LCD

+

-

BRT_R

[Red brightness setting display screen]

Screen [1] Screen [2] Red brightness setting value Change with UP/DOWN

MENU

SETTING LCD BACK_L

CTRST

BRT_W

BRT_R

VIEW

REV_B/W

Select with UP/DOWN

[Allow changes screen]

Screen [3] Select NOYES with UP/DOWN

MENU

SETTING LCD BRT_R

OK? NO YES

ENTER

To [LCD setting selection screen]

[LCD setting selection screen]

MENU

SETTING LCD REV_B/W

[Color inversion (black & white) setting display screen]

Screen [1] Screen [2] Color inversion (black & white) setting value Select with UP/DOWN

NORMAL INVERS

MENU

SETTING LCD BACK_L

CTRST

BRT_W

BRT_R

VIEW

REV_B/W

ENTER

MENU

ENTER

MENU

(6) Color inversion (black & white) setting [Default value: NORMAL] Select REV_B/W on the LCD setting selection screen. (Screen [1]) Press ENTER to switch to the color inversion (black & white) setting display screen. (Screen [2]) Setting value switches through NORMAL INVERS NORMAL.... Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

Select with UP/DOWN

[LCD setting selection screen]

MENU

SETTING LCD VIEW

[View setting display screen]

Screen [1] Screen [2] View setting value Change with UP/DOWN

V-VIEW H-VIEW1 H-VIEW2

MENU

SETTING LCD BACK_L

CTRST

BRT_W

BRT_R

VIEW

REV_B/W

ENTER

MENU

ENTER

MENU

(5) View setting (vertical or horizontal) [Default value: V-VIEW (horizontal display)] Select VIEW on the LCD setting selection screen. (Screen [1]) Press ENTER to switch to the view setting display screen. (Screen [2]) Setting value switches through V-VIEW H-VIEW1 H-VIEW2 V-VIEW.... Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

Select with UP/DOWN

[Allow changes screen]

Screen [3] Select NOYES with UP/DOWN

MENU

SETTING LCD VIEW

OK? NO YES

ENTER

To [LCD setting selection screen]

[Allow changes screen]

Screen [3] Select NOYES with UP/DOWN

MENU

SETTING LCD REV_B/W

OK? NO YES

ENTER

To [LCD setting selection screen]

NORMAL : White background and black text INVERS : Black background and white text

V-VIEW: Horizontal display

H-VIEW1: Vertical display 1

H-VIEW2: Vertical display 2

I

ITEM PHASE VALUE

ALL CURRENT

A 1 2

3 0.0 0.00.0

I

ALL

CURRENTVALUE

PHASE

ITEM

A

1

2 0.0 3 0.0

0.0 A

1

2 0.0 3 0.0

0.0

ALL

CURRENTVALUE

PHASE

IITEM

46

[LCD setting selection screen]

MENU

SETTING LCD AL_BL

[Backlight display during alarm setting display screen]

Screen [1] Screen [2] Backlight display during alarm setting value Select with UP/DOWN

L IGHT BL I NK

MENU

SETTING LCD CTRST

BRT_W

BRT_R

VIEW

REV_B/W

AL_BL

ENTER

MENU

ENTER

MENU

(7) Backlight display during alarm setting [Default value: LIGHT (ON)] Select AL_BL on the LCD setting selection screen. (Screen [1]) Press ENTER to switch to the backlight display during alarm screen. (Screen [2]) Setting value switches through LIGHT BLINK LIGHT.... Press ENTER to decide the setting.

Select YES on the allow changes screen and press ENTER to decide the setting. (Screen [3])

[Allow changes screen]

Screen [3] Select NOYES with UP/DOWN

MENU

SETTING LCD AL_BL

OK? NO YES

ENTER

To [LCD setting selection screen]

LIGHT : ON BLINK : Blink

7.1.2-4 Setting method for date and time [Default value: 17/01/01 00:00] Select DATE on the setting item selection screen. (Screen [1]) Press ENTER to switch to the time setting display screen. (Screen [2] to Screen [6]) Press ENTER to scroll through year month day hour minute allow changes screen, and MENU to scroll back through allow changes screen minute hour day month year. Select an item to change, and then change the value with UP/DOWN.

After setting the minute, press ENTER to switch to the allow changes screen. Select YES and press ENTER to decide the setting. (Screen [7]) *The year setting takes a two digit number, where 00 to 99 corresponds to 2000 to 2099.

MENU

SETTING MEASURE

ALARM

LCD

ITEM_S

DATE

EP/EQ

MENU

00:00 TIMEDATE

SETTING DATE

[Setting item selection screen] [Time setting display screen]

[Allow changes screen]

Screen [1] Screen [2]

Screen [7]

Time setting value Change with UP/DOWN

Change NOYES with UP/DOWN

MENU

SETTING DATE

OK? NO YES

ENTER

MENU

ENTER

MENU 18/01/01

MENU

00:00 TIMEDATE

SETTING DATE

[Time setting display screen]

Screen [3]

ENTER

MENU 18/02/01

MENU

00:00 TIMEDATE

SETTING DATE

[Time setting display screen]

Screen [4]

ENTER

MENU 18/02/02

MENU

TIMEDATE

SETTING DATE

[Time setting display screen]

Screen [5]

ENTER

MENU 18/02/02

ENTER To [Setting item selection screen]

01:00

MENU

TIMEDATE

SETTING DATE

[Time setting display screen]

Screen [6]

ENTER

MENU 18/02/02 01: 01

Select with UP/DOWN

Select with UP/DOWN

47

7.1.2-5 Setting method for electric energy

MENU

SETTING MEASURE

ALARM

LCD

ITEM_S

DATE

EP/EQ

MENU

SETTING EP/EQ EP

EQ

[Setting item selection screen] [Electric energy setting

selection screen]

Select EP/EQ from the setting item selection screen and press ENTER to switch to the electric energy setting selection screen. Switches from EP EQ EP....

ENTER

MENU

ENTER

MENU

MENU

SETTING EP/EQ EP

[Electric energy setting display screen]

To [Electric energy setting display screen]

Screen [1] Electric energy setting value Change with UP/DOWN

Next digit

................

................ Last digit

[ k W h ] 000115

ENTER

MENU

ENTER

MENU

ENTER

MENU

Select NOYES with UP/DOWN

[Allow changes screen]

Screen [2]

MENU

SETTING EP/EQ EP

OK? NO YES

ENTER

To [Electric energy setting selection screen]

MENU

SETTING EP/EQ EQ

[Reactive energy setting display screen]

Screen [1] Reactive energy setting value Change with UP/DOWN

[ k v a r h ] 000079

[Allow changes screen]

Screen [2]

MENU

SETTING EP/EQ EQ

OK? NO YES

Next digit Last digit ENTER

MENU

ENTER

MENU

ENTER

MENU

ENTER

To [Electric energy setting selection screen]

Select NOYES with UP/DOWN

Select with UP/DOWN

EP : Electric energy setting EQ : Reactive energy setting

(1) Electric energy setting Select EP on the electric energy setting selection screen and press ENTER to switch to the electric energy setting display screen. (Screen [1]) Press ENTER to scroll through first digitlast digit allow changes screen, and MENU to scroll back through allow changes screen last digitfirst digit. Select a digit to change the value. After setting the last digit, press ENTER to display the allow changes screen. Select YES and press ENTER to decide the setting. (Screen [2])

(2) Reactive energy setting Select EQ on the electric energy setting selection screen and press ENTER to switch to the reactive energy setting display screen. (Screen [1]) Press ENTER to scroll through first digitlast digit allow changes screen, and MENU to scroll back through allow changes screen last digitfirst digit. Select a digit to change the value. After setting the last digit, press ENTER to display the allow changes screen. Select YES and press ENTER to decide the setting. (Screen [2])

48

ENTER

7.1.2-6 Setting method for measurement items

MENU

SETTING MEASURE

ALARM

LCD

ITEM_S

DATE

EP/EQ

MENU

SETTING ITEM_S I

V

P

Q

EP

[ON]

[Setting item selection screen] [Measurement item

selection screen]

Select ITEM_S from the setting item selection screen and press ENTER to switch to the measurement item selection screen. Switches through I V P Q EP EQ PF Hz HIA HI% FREE SEQ_CHK I ....

I : Load current V : Line voltage P : Electric power Q : Reactive power EP : Electric energy EQ : Reactive energy PF : Power factor Hz : Frequency HI (A) : Harmonic current HI (%) : Harmonic current

content ratio FREE : Free display SEQ_CHK : Phase sequence display (*)

ENTER

MENU

ENTER

MENU

MENU

SETTING ITEM_S I

[ON/OFF switch screen]

To [ON/OFF switch screen]

ONOFF Select with UP/DOWN

ENTER

MENU

Select NOYES with UP/DOWN

Current setting status

[Allow changes screen]

MENU

SETTING ITEM_S I

OK? NO YES

ON OFF

[Default value: All items ON] Select I on the measurement item selection screen and press ENTER to switch to the ON/OFF switch screen. (Screen [1]) Select ONOFF to change the setting.

Press ENTER to display the allow changes screen. Select YES and press ENTER to decide the setting. (Screen [2]) Other items can be changed the same way.

Screen [1] Screen [2]

To [Measurement item selection screen]

Select with UP/DOWN

* Only for 400/800 A frame

49

ENTER

7.1.2-7 Setting method for free display

MENU

SETTING ALARM

LCD

ITEM_S

FREE_S

DATE

EP/EQ

MENU

SETTING

I 1 CURRENT

FREE_S 1/4P_L

1/4P_R

2/4P_L

2/4P_R

ITEM PHASE VALUE

[Setting item selection screen] [Free display setting

selection screen]

Select FREE_S from the setting item selection screen and press ENTER to switch to the free display setting selection screen. Switches through 1/4P_L 1/4P_R 2/4P_L 2/4P_R 3/4P_L 3/4P_R 4/4P_L 4/4P_R 1/4P_L.... The display pattern can be freely changed to suit the application.

[Default value: Unregistered] Select 1/4P_L on the free display setting selection screen and press ENTER to confirm measurement items. (Screen [1])

Select an item from ITEM and press ENTER to decide the setting. (Screen [2]) Select an item from PHASE and press ENTER to decide the setting. (Screen [3]) * Items without a PHASE element are displayed as -.

Select an item from VALUE and press ENTER to decide the setting. (Screen [4]) Press ENTER to display the allow changes screen. Select YES and press ENTER to decide the setting. (Screen [5]) Other items can be changed the same way.

1/4P_L : Left side of page 1 1/4P_R : Right side of page 1 2/4P_L : Left side of page 2 2/4P_R : Right side of page 2 3/4P_L : Left side of page 3 3/4P_R : Right side of page 3 4/4P_L : Left side of page 4 4/4P_R : Right side of page 4

ENTER

MENU

Select NOYES with UP/DOWN

[Allow changes screen]

MENU

SETTING FREE_S 1/4P_L

OK? NO YES

Screen [5]

MENU

SETTING FREE_S 1/4P_L

ENTER

MENU

ENTER

MENU

ENTER

MENU

ENTER

MENU

Screen [1] Screen [2]

I 1 CURRENT

ITEM PHASE VALUE

MENU

SETTING FREE_S 1/4P_L

1 CURRENT

PHASE VALUE

-

I

V

ITEM

Select with UP/DOWN

Screen [3]

MENU

SETTING FREE_S 1/4P_L

I CURRENT

PHASE VALUE

1

2

3

ITEM

Select with UP/DOWN

} } Screen [4]

MENU

SETTING FREE_S 1/4P_L

I

PHASE

1

CURRENT

DEMAND

D_MAX

ITEM VALUE

FREE1/4

ITEM PHASE VALUE

- -

1/4 PAG E I /1 / CUR

--min

--/--/-- --:-- --/--/-- --:-- 0.0 0.0

[ A ] I /1 / DM

3 min [ A ]

1/4P_L

Example screen after setting

1/4P_R

Select with UP/DOWN

ENTER

MENU

To screen [1]

To [Free display setting selection screen]

Select with UP/DOWN

50

Select NOYES with UP/DOWN

[Allow changes screen]

MENU

AL_RST

OK? NO YES

7.1.3 Method for resetting alarms

[Main menu screen]

MENU

ENTER

MENU

Select NOYES with UP/DOWN

[Allow changes screen]

MENU

ERASE TRIP

OK? NO YES

ENTER

MENU

PROTEC

SETTING

AL_RST

ERASE

INFO

7.1.4 Method for resetting fault cause/current, maximum value, electric energy, and reactive energy

[Main menu screen] [Setting item selection screen]

PROTECT

SETTING

AL_RST

ERASE

INFO

MENU

ERASE TRIP

EP

EQ

ALL

MENU

ENTER

MENU

ENTER To [Main menu screen]

ENTER

To [Setting item selection screen]

Select with UP/DOWN

TRIP : Reset fault cause/current EP : Reset electric energy(to 0 kWh) EQ : Reset reactive energy(to 0 kvarh) ALL : Reset load current, line voltage, electric power,

reactive power, power factor, harmonic current, occurrence time of maximum/minimum harmonic current content values Electric energy, reactive energy, fault cause/current, and alarms are not reset

* Reset all alarms at once. Refer to 4.5 How to use monitoring functions for related alarm. * Resets PAL with alarm contact output (option).

* TRIP: Resets the fault cause and the fault current, and resets LTD, STD, INST. * Resets PAL with alarm contact output (option).

Select AL_RST from the main menu screen and press ENTER to display the allow changes screen. Select YES and press ENTER to reset alarms.

Select ERASE from the main menu screen and press ENTER to switch to the setting item selection screen. Switches through TRIP EP EQ ALL TRIP.... Select an item, and then select YES on the allow changes screen and press ENTER to decide the setting. Other items can be set similarly.

51

MENU

INFO MODEL

TYPE AF I nMAX POLE COM ADDRESS

NF 400AF

----mA 3P

CC-Link 1

/ / / / / /

7.1.5 Method for displaying information screen Select INFO from the main menu screen and press ENTER to switch to the setting item display screen. Switches through MODEL PROTECT ALARM MEASURE MODEL.... Select an item and press ENTER to confirm the setting for each item.

[Main menu screen]

[Setting item display screen]

[Setting item display screen]

[Setting item display screen]

[Setting item display screen]

[Model screen] [Protection characteristics

display list screen]

PROTECT

SETTING

AL_RST

ERASE

INFO

MENU

INFO MODEL

PROTECT

ALARM

MEASURE

MENU

MENU

INFO PROTECT

LTD Ir TL at I6t ON

200[ ] 60[ ]

200[ ]

/ : : : :

MENU

INFO MODEL

PROTECT

ALARM

MEASURE

A s %

[Alarm display list screen]

MENU

INFO ALARM

PAL

PU TIME

ON 80[ ] 30[ ]

/

: :

MENU

INFO MODEL

PROTECT

ALARM

MEASURE

% s

[Measurement setting display list screen]

MENU

INFO MEASURE

PHASE LINE_S DEMAND

INVERS 3P3W 3[ ]min

/ / /

MENU

INFO MODEL

PROTECT

ALARM

MEASURE

MENU

INFO MEASURE

DATE / 17/01/01 PULSE /

MENU

INFO PROTECT

STD Is Ts I2t ON

2.0[ xIr ] 0.06[ ]

/ : : :

s

MENU

INFO PROTECT

INST Ii ER -- --

6400[ ] / : /

A

ENTER MENU

ENTER MENU

DOWN UP

DOWN UP

DOWN UP

MENU

INFO ALARM

IDM_AL

PU TIME

ON 100[ ] 2[ ]

/

: :

% min

MENU

INFO ALARM

ECA NLA ILA_AL IUB_AL AL_HOLD

OFF OFF OFF OFF

AUTO

/ / / / /

DOWN UP

DOWN UP

ENTER MENU ENTER MENU ENTER MENU

03:49

-----[ ]kWh

DOWN

UP

DOWN

UP

DOWN

UP

52

7.2 Operating method for measurement display screen 7.2.1 Switching method for display screen

Press MENU to switch between the main menu screen and measurement display screen. The measurement display screen can be displayed from any screen by holding MENU for two seconds.

* The screen that was last displayed will be initially displayed next time.

ITEM items switch through I V P Q EP EQ PF Hz HI (A) HI (%) FREE1/4 FREE2/4 FREE3/4 FREE4/4 TRIP ALARM SEQ-CHK I ....

[Load current screen] [Line voltage screen] [Electric power screen]

[Measurement display screen]

1 DEMAND

I

V

P

Q ITEM

PHASE VALUE

PROTECT

SETTING

AL_RST

ERASE

INFO

MENU

[Main menu screen]

MENU

MENU

V

ITEM PHASE VALUE

ALL CURRENT

[ V ]

1-2 2-3

3-1 0.0 0.00.0

* Can be changed by pressing ITEM twice, selecting with UP/DOWN, and pressing ENTER.

....... Item, phase, value Select with UP/DOWN

Select with UP/DOWN

DEMAND

ALL

1

2

3 PHASE

VALUE

* Can be changed by pressing PHASE twice, selecting with UP/DOWN, and pressing ENTER.

PHASE items switch through ALL 1 2 3 N (only for four-pole product specification) ALL.... * Items without a PHASE element are displayed as -.

I

ITEM PHASE VALUE

ALL CURRENT

[ A ]

V

ITEM PHASE VALUE

ALL CURRENT P

ITEM PHASE VALUE

- CURRENT

[ k W ]

0.0 1 2

3 0.0 0.00.0

[ V ]

1-2 2-3

3-1 0.0 0.00.0

VALUE items switch through CURRENT DEMAND D_MAX D_MAX_P CURRENT....

DOWN

UP

DOWN

UP

DOWN

UP

DOWN

UP

DOWN

UP

DOWN

UP

I

ITEM PHASE VALUE

1 CURRENT

[ A ]

0.0 I1

I

ITEM PHASE VALUE

2 CURRENT

[ A ]

0.0 I2

I

ITEM PHASE VALUE

3 CURRENT

[ A ]

0.0 I3

I

ITEM PHASE VALUE

ALL CURRENT

[ A ]

1 2

3 0.0 0.00.0

DOWN

UP

DOWN

UP

DOWN

UP

I

ITEM

* Can be changed by pressing VALUE twice, selecting with UP/DOWN, and pressing ENTER.

Select with UP/DOWN

Select with UP/DOWN

I

ITEM PHASE VALUE

1 CURRENT

A

0.0 I 1

I

ITEM PHASE VALUE

1 DEMAND

A

0.0 DT=2min I 1

I

ITEM PHASE VALUE

D_MAX

A

340.0 1 7 / 0 1 / 0 1 0 0 : 2 5

DT3min

I

ITEM PHASE VALUE

D_MAX_P

A

0.0 DT3min

1

CURRENT

DEMAND

D_MAX

D_MAX_P

PHASE

VALUE

I

ITEM

53

7.2.2 Measurement display list

[Demand value/maximum value] [Demand value/

all-phase maximum value]

[Maximum value between all wires]

[Demand value/maximum value]

[Demand value/maximum value]

[One hour amount maximum value]

[One hour amount maximum value]

[Demand value/present value]

[Demand value/present value]

[Average value]

[Demand value/present value]

[Latest one hour amount]

[Latest one hour amount]

[Present value]

[Present value]

[Present value]

[Present value]

[Integrated value]

[Integrated value]

[Maximum value][Present value]

(1) Horizontal display

[Present value]

[1 ] L

oa d

cu rr

en t

[2 ] L

in e

vo lta

ge [3

] E le

ct ric

p ow

er [4

] R ea

ct iv

e po

w er

[5 ] E

le ct

ric e

ne rg

y [6

] R ea

ct iv

e en

er gy

[7 ] P

ow er

fa ct

or [8

] F re

qu en

cy

EP

ITEM PHASE VALUE

CURRENT

k W h

2000

I

ITEM PHASE VALUE

ALL CURRENT

A

EP

ITEM PHASE VALUE

DEMAND

k W h

0 EP

ITEM 1 7 / 0 1 / 0 1 0 0 : 0 0

PHASE VALUE

D_MAX

k W h

0

I

ITEM PHASE VALUE

ALL DEMAND I

ITEM PHASE VALUE

D_MAX

A

340.0 1 7 / 0 1 / 0 1 0 0 : 2 5

I

ITEM PHASE VALUE

D_MAX_P

A

0.0

V

ITEM PHASE VALUE

ALL CURRENT V

ITEM PHASE VALUE

AVE CURRENT

V

V

ITEM PHASE VALUE

MAX

V

4200.0 1 7 / 0 1 / 0 1 0 0 : 2 5

DT3minDT3min

P

ITEM PHASE VALUE

CURRENT

k W

P

ITEM PHASE VALUE

DEMAND

k W DT3min

P

ITEM PHASE VALUE

D_MAX

k W

175.20.0 1 7 / 0 1 / 0 1 0 0 : 2 5

0.0 DT3min

Q

ITEM PHASE VALUE

CURRENT

k v a r

Q

ITEM PHASE VALUE

DEMAND

k v a rDT3min

Q

ITEM PHASE VALUE

D_MAX

k v a r

120.90.0 1 7 / 0 1 / 0 1 0 0 : 2 5

0.0 DT3min

EQ

ITEM PHASE VALUE

CURRENT

k v a r h

EQ

ITEM PHASE VALUE

DEMAND

k v a r h

EQ

ITEM PHASE VALUE

D_MAX

k v a r h

079 1 7 / 0 1 / 0 1 0 0 : 0 0

0

PF

ITEM PHASE VALUE

CURRENT

PF

ITEM PHASE VALUE

MAX

LAG

100.0 1 7 / 0 1 / 0 1 0 0 : 2 5

82.3

DT3min A 1 2

3 0.0 0.00.01 2

3 0.0 0.00.0

V 1-2 2-3

3-1 0.0 0.00.0

Hz

ITEM PHASE VALUE

CURRENT

H z

0.0

54

[1 4]

P ha

se se

qu en

ce d

isp lay

sc re

en

[Maximum value/total value][Demand value/maximum value]

[Present value/1st order][Present value/total value] [Demand value]

[Measurement item/ 1/4] [Measurement item/ 4/4]

[Maximum value/3rd order] [Maximum value/19th order]

[Present value/19th order]

...........

.......

..........

[Fault cause/ current display screen]

[Alarm display screen] [Phase sequence display screen]

Errors are displayed in inverse.

*Refer to 7.2.3 for details on what is displayed.

* Only for 400/800 A frame

POSI : Normal phase NEGA : Reverse phase

[9 ] H

ar m

on ic

c ur

re nt

[10 ] H

arm on

ic cu

rre nt

co nte

nt rat

io [11

] M ea

su re

m en

t it em

(f re

e dis

pla y)

[12 ] F

au lt c

au se

/cu rre

nt d

isp lay

sc re

en [1

3] A

la rm

d is

pl ay

s cr

ee n

Phase detection results displayed in inverse (enabled for three-phase three-wire, displayed as --- when disabled)

HIA

ITEM PHASE VALUE

ALL DEMAND

HIA

ITEM PHASE VALUE

D_MAX

A

HIA)

ITEM PHASE VALUE

M1St

A

313134 1 7 / 0 1 / 0 1 0 0 : 2 51 7 / 0 1 / 0 1 0 0 : 2 5

DT3min

DT3min

HIA

ITEM PHASE VALUE

ALL Total

A 1 2

3 0.0 0.00.0

M1s

HIA)

ITEM PHASE VALUE

M3rd

A

102 1 7 / 0 1 / 0 1 0 0 : 2 5

M3 rd

HIA)

ITEM PHASE VALUE

M19th

A

17.6 1 7 / 0 1 / 0 1 0 0 : 2 5

M19 th

Tot a l

HIA

ITEM PHASE VALUE

ALL 1St

A 1 2

3 0.0 0.00.0

1s t

HIA

ITEM PHASE VALUE

ALL 19th

A 1 2

3 0.0 0.00.0

19 th A

1 2

3 0.0 0.00.0

FREE1/4

ITEM PHASE VALUE

1/4PAGE I/1/CUR

--min

--/--/------ --/--/------ 0.0 0.0

A I/1/DM

3min A

FREE4/4

ITEM PHASE VALUE

4/4PAGE ------/---/------ ------/---/------

--min

--/--/------ --/--/------ ------ ------

----- -------min

Without fault record

TRIP

ITEM PHASE VALUE

TR I P

ALARM

ITEM PHASE VALUE

ALARM PAL -- - - - -

- - - I DM _ AL I L A _ AL IUB _ AL

SEQ_CHK

ITEM PHASE VALUE

OVER

SEQ POS I NEGA

[Content ratio/total value] [Content ratio/3rd order]

HI

ITEM PHASE VALUE

ALL THD

TH D

1 2

3 0.0 0.00.0

HI

ITEM PHASE VALUE

ALL 3rd

3 rd

1 2

3 0.0 0.00.0

[Content ratio/19rd order]

HI

ITEM PHASE VALUE

ALL 19th

19 th

1 2

3 0.0 0.00.0

.......

55

[Demand value/ current value]

[Present value]

I

ALL

CURRENTVALUE

PHASE

ITEM

[ A ]

1

2 0.0 3 0.0

0.0

[Present value] [Average value]

[Demand value/ maximum value]

[Maximum value between all wires]

[Present value] [Demand value/ present value]

[Demand value/ maximum value]

[Demand value/all- phase maximum value]

[Present value] [Demand value/ present value]

[Demand value/ maximum value]

[Present value]

PF

-

CURRENTVALUE

PHASE

ITEM

[ % ]

100.0

[Present value]

Hz

-

CURRENTVALUE

PHASE

ITEM

[ H z ]

0.0

[Maximum value]

PF

-

MAXVALUE

PHASE

ITEM

[ % ]

82.3 1 7 / 0 1 / 0 1

0 0 : 2 5

[Integrated value]

EP

-

CURRENTVALUE

PHASE

ITEM

[ k W h ]

[Latest one hour amount]

[One hour amount maximum value]

EP

-

DEMANDVALUE

PHASE

ITEM

[ k W h ]

02000

EP

-

D_MAXVALUE

PHASE

ITEM

[ k W h ]

0 1 7 / 0 1 / 0 1

0 0 : 0 0

[Integrated value]

EQ

-

CURRENTVALUE

PHASE

ITEM

[ k v a r h ]

[Latest one hour amount]

[One hour amount maximum value]

EQ

-

DEMANDVALUE

PHASE

ITEM

[ k v a r h ]

079

EQ

-

D_MAXVALUE

PHASE

ITEM

[ k v a r h ]

0 1 7 / 0 1 / 0 1

0 0 : 0 0

LAG

(2) Vertical display (view setting H-VIEW1) [1

] L oa

d cu

rr en

t [2

] L in

e vo

lta ge

[3 ] E

le ct

ric p

ow er

[4 ] R

ea ct

iv e

po w

er

[5 ] E

le ct

ric e

ne rg

y [6

] R ea

ct iv

e en

er gy

[7 ] P

ow er

fa ct

or [8

] F re

qu en

cy

V

ALL

CURRENTVALUE

PHASE

ITEM

V

1-2

2-3

3-1 0.0 0.0

0.0

I

ALL

DEMANDVALUE

PHASE

ITEM

A

1

2 0.0 3 0.0

0.0

DT 3min

I

D_MAXVALUE

PHASE

ITEM

A DT 3min

340.0 1 7 / 0 1 / 0 1

0 0 2 5

V

AVE

CURRENTVALUE

PHASE

ITEM

V

0.0

V

MAXVALUE

PHASE

ITEM

V

420 1 7 / 0 1 / 0 1

0 0 2 5

P

CURRENTVALUE

PHASE

ITEM

k W

P

DEMANDVALUE

PHASE

ITEM

k W

0.00.0

P

D_MAXVALUE

PHASE

ITEM

k W

175.2 1 7 / 0 1 / 0 1

0 0 2 5

I

D_MAX_PVALUE

PHASE

ITEM

A DT 3min

0.0

DT 3minDT 3min

Q

CURRENTVALUE

PHASE

ITEM

k v a r

Q

DEMANDVALUE

PHASE

ITEM

k v a r

0.00.0

Q

D_MAXVALUE

PHASE

ITEM

k v a r

120.9 1 7 / 0 1 / 0 1

0 0 2 5

DT 3minDT 3min

56

..........

......

[Present value/ 1st order]

[Present value/ total value]

[Present value/ 19th order]

[Demand value/ maximum value]

[Maximum value/ total value]

[Demand value]

[Maximum value/ 3rd order]

[Maximum value/ 19th order]

.........[Measurement item/ 1/4]

[Measurement item/ 4/4]

[Alarm display screen]

Errors are displayed in inverse

[Phase sequence display screen]

POSI : Positive phase NEGA : Negative phase

[Fault cause/ current display screen]

Without fault record

* Refer to 7.2.3 for details on what is displayed.

Phase detection results displayed in inverse (enabled for three-phase three-wire, displayed as --- when disabled)

HIA

ALL

TotalVALUE

PHASE

ITEM

A

1

2 0.0 3 0.0

0.0

HIA

ALL

1StVALUE

PHASE

ITEM

A

1

2 0.0 3 0.0

0.0 Tot a l 1s t

HIA

ALL

19thVALUE

PHASE

ITEM

A

HIA

D_MAXVALUE

PHASE

ITEM

A

134 1 7 / 0 1 / 0 1

0 0 2 5

HIA

ALL

DEMANDVALUE

PHASE

ITEM

A DT 3min DT 3min

HIA

M1StVALUE

PHASE

ITEM

A

313 1 7 / 0 1 / 0 1

0 0 2 5

1

2 0.0 3 0.0

0.0 19 th

1

2 0.0 3 0.0

0.0

M1s t

HIA

M3rdVALUE

PHASE

ITEM

A

1 7 / 0 1 / 0 1 0 0 2 5

M3 rd

HIA

M19thVALUE

PHASE

ITEM

A

17.6 1 7 / 0 1 / 0 1

0 0 2 5

M19 th

FREE1/4

VALUE

PHASE

ITEM

1/4PAG E I /1 / CUR

I /1 / DM

--min A

0.0 --/--/------

--min A

0.0 --/--/------

FREE4/4

VALUE

PHASE

ITEM

4/4PAG E ------/---/------

------/----/------

--min ------

------- --/--/------

--min ------

------- --/--/------

ALARM

VALUE

PHASE

ITEM

ALARM PAL IDM_AL ILA_AL IUB_AL

OVER

SEQ_CHK

VALUE

PHASE

ITEM

SEQ POSI NEGA

TRIP

VALUE

PHASE

ITEM

TR I P

......[Content ratio/ total value]

HI

ALL

THDVALUE

PHASE

ITEM

1

2 0.0 3 0.0

0.0 TH D

[Content ratio/ 3rd order]

HI

ALL

3rdVALUE

PHASE

ITEM

1

2 0.0 3 0.0

0.0 3 rd

[Content ratio/ 19rd order]

HI

ALL

19thVALUE

PHASE

ITEM

1

2 0.0 3 0.0

0.0 19 rd

[9 ] H

ar m

on ic

c ur

re nt

[1 1]

M ea

su re

m en

t i te

m (f

re e

di sp

la y)

[1 0]

H ar

m on

ic c

ur re

nt c

on te

nt ra

tio

[1 3]

A la

rm d

is pl

ay s

cr ee

n [1

4] P

ha se

s eq

ue nc

e di

sp la

y sc

re en

[1 2]

F au

lt ca

us e/

cu rre

nt d

is pl

ay s

cr ee

n

* Only for 400/800 A frame

57

7.2.3 Fault/alarm display details

[Fault cause/current display screen] With fault records

[Fault cause/current display screen] Without fault records

[Alarm display screen]

Displayed in inverse when an alarm occurs.

LTD : Long time delay trip STD : Short time delay trip INST : Instantaneous trip*

Fault cause

Fault current

Overload/short trip

PAL : Load current pre-alarm (250 A frame: enabled with PAL module (option), displayed as --- if disabled. 400/800 A frame: enabled when MDU unit setting is ON; displayed as --- if OFF)

OVER : Overcurrent alarm NLA : Neutral line open phase alarm (enabled when phase wire type is 1P3W) IDMAL : Electric current demand alarm (enabled when communication, display is ON;

displayed as --- if OFF) ILAL : Electric current open phase alarm (enabled when communication, display is

ON; displayed as --- if OFF) IUBAL : Electric current unbalance alarm (enabled when communication, display is ON;

displayed as --- if OFF)

TRIP

ITEM PHASE VALUE

TR I P I NST

TRIP

ITEM PHASE VALUE

TR I P A

11328

ALARM

ITEM PHASE VALUE

AL AR M PAL - - - - - -

- - - I DM _ AL I L A _ AL IUB _ AL

OVER

* The fault cause due to the instantaneous tripping of the 250 A frame becomes effective when the MDU transmission alarm switch (option) is installed. Also, if a fault that exceeds the measurement upper limit fault current (16 times the maximum rated current) occurs, the fault factor/fault current may not be measured or displayed.

When a fault or alarm occurs, the screen automatically switches to the fault cause/current display screen or alarm display screen, respectively. The backlight changes to red. If an operation button is pressed, the backlight switches back to white, and the display screen switches to the screen that was displayed prior to the alarm display screen. (The alarm output status will be retained until the output alarm is reset.) If the alarm reset method is set to automatic reset, the backlight will switch back to white and the display screen will switch to the screen that was displayed prior to the alarm display screen, once the cause of the alarm is eliminated. (The output alarm will also be reset.)

58

Send clear fault current/cause

& receive normal response

8.2 Precautions when setting via CC-Link communication/MODBUS communication

Consecutive setting of different settings (demand time limit, alarm reset method, storage clear)

Demand time limit setting

Demand time limit setting

Clear all Alarm reset method setting

Demand time limit setting ..........

Consecutive setting of different settings (demand time limit, storage clear)

Clear electric energy

Demand time limit setting

Clear fault current/cause ..........

Consecutive transmission of different commands (demand time limit, alarm reset method, storage clear)

Send demand time limit setting &

receive normal response

Wait 3 s

Wait 3 s

Wait 3 s

Wait 3 s

Wait 3 s

Wait 3 s

Send clear all & receive normal

response

Send alarm reset method setting &

receive normal response

Send demand time limit setting &

receive normal response

..........

Consecutive transmission of different commands (demand time limit, storage clear)

Send clear electric enegy & receive normal response

..........

8. Appendix 8.1 Precautions for setting operation The display can be used to set and clear the items described in 7.1.2 Method for various settings, 7.1.3 Method for resetting alarms, and 7.1.4 Method for resetting fault cause/current, maximum value, electric energy, and reactive energy. When items are set or cleared, the non-volatile memory storage will be overwritten for all of these except for the items described in 7.1.2-4 Setting method for day and time. It takes some time to overwrite the non-volatile memory storage, and items may not be properly overwritten in the non-volatile memory if they are set or cleared in quick succession. Therefore, as shown in the examples below, wait around three seconds after setting or clearing an item, before setting or clearing another item (regardless of whether the items are similar or different).

If using a product with CC-Link communication/MODBUS communication, CC-Link communication can also be used to send certain commands and setting values to a MDU, allowing items to be set and cleared just as when operating the display (as described above). (Refer to MDU Breaker Programming Manual for details on what can be configured and cleared.) The non-volatile memory storage is overwritten (depending on what is set or cleared) when setting and clearing over CC-Link communication /MODBUS communication, and items may not be properly overwritten in the non-volatile memory if set/clear commands are transmitted in quick succession. Therefore, as shown in the examples below, wait around three seconds after transmitting a set or clear command, before transmitting another command (regardless of whether the commands are similar or different).

Send demand time limit setting &

receive normal response

Send demand time limit setting &

receive normal response

Wait 3 s

Wait 3 s

Wait 3 s

Wait 3 s

Wait 3 s

Wait 3 s

59

8.3 Communication error codes and solutions (1) With CC-Link transmission option

Error code Note: The numbers in parentheses are in hexadecimal notation.

Digital command, analog command, or pulse command

Undefined command. Set the correct command.

Turn the MDU control power supply OFF and then ON again, or press the reset switch.

Set the channel number to the correct value.

Set the setting value to the correct value.

Set the upper limit value and lower limit value so that they do not cross.

Hardware error.

Channel number out of range.

Setting value out of configuration range.

Group number out of range. Set the group number to the correct value.

Upper limit value and lower limit value cross.

Standard command between devices

1 (01h)

16 (10h) 192 (C0h)

193 (C1h)

194 (C2h)

209 (D1h)

65 (41h)

66 (42h)

81 (51h)

83 (53h)

Error details Solution

8.4 Troubleshooting

Note: Errors other than those listed above are detected by the detector on the command transmission side. Refer to the Instruction Manual for that device for details.

Note: If the error status flag (RX(n+1) A) is set once to 1 (ON), the error status flag will not be set to 0 (OFF) even if the CPU of PLC is reset. To set the error status flag to 0 (OFF), set the error reset status flag (RY(n+1) A) to 1 (ON). However, even if the error status is released when the error reset status flag is set to 1 (ON), if there is an error in the retransmitted data, the error status flag will once again be set to 1 (ON). Therefore, refer to the error code and eliminate the cause of the error prior to retransmitting.

Note: Errors other than those listed above are detected by the detector on the command transmission side. Refer to the Instruction Manual for that device for details.

Error code

Illegal function Please correct it to the correct function.

Please use the register described in MDU breaker programming manual MODBUS communication.

Please correct the setting value to the correct value.

Please review the timing of the query.

Register address error

Slave abnormality

Slave Busy

Data value error Please correct it to the correct data.

01h

02h

03h

04h

06h

Error details Solution

(2) With MODBUS transmission option

Check the following if your device appears to be failing. (1) Is the MDU applied control power?

(2) Nothing is displayed on the display. Is the connection cable connector fully plugged in? Is it disconnected?

(3) The device is powered but the current is 0 A. If the electric current measurement value is less than the measurement lower limit current (less than 1.0% of the measurement rated current), it is cutoff so that the display value is 0 A.

(4) Unable to monitor when transmitting/communicating even though a value is displayed on the display. [1] With CC-Link communication

Confirm that there are no errors in the communication line connection, and that no wires are disconnected. Are there any stations with the same station number on the same transmission route? If there are, configure the correct station number and then press the reset switch.

Is the communication speed set to the same value as the master device? If it is different, configure the correct communication speed and then press the reset switch.

[2] With MODBUS communication Confirm that there are no errors in the communication line connection, and that no wires are disconnected. Are there any stations with the same station number on the same transmission route? If there are, configure the correct address and then press the reset switch.

Is the communication speed set to the same value as the master device? If it is different, configure the correct communication speed and then press the reset switch.

Is the setting of the master unit and parity bit the same? If it is different, set the correct parity bit, then press the reset switch. Is the setting of the master unit and the stop bit the same? If it is different, set the correct stop bit, then press the reset switch.

(5) The electric current value measured by the device differs from other measurement values. (Permissible error value or greater.) Confirm that the measurement instrument used for comparison measures the effective value correctly. The device indicates the effective value. If the measurement instrument used for comparison measures the average value instead of the effective value, distortion in the current flowing through the measurement circuit will create a significant difference.

60

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