Carrier OPN APP v3 Installation And Start Up Guide PDF

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Summary of Content for Carrier OPN APP v3 Installation And Start Up Guide PDF

Fan Coil for AppController

Installation and Start-up Guide

CARRIER CORPORATION 2021 Catalog No. 11-808-508-01 9/21/2021

Verify that you have the most current version of this document from www.hvacpartners.com, the Carrier Partner Community website, or your local Carrier office.

Important changes are listed in Document revision history at the end of this document.

CARRIER CORPORATION 2021. All rights reserved throughout the world. i-Vu is a registered trademark of Carrier Corporation. All other trademarks are the property of their respective owners.

Contents Fan Coil for AppController overview and specifications ....................................................................................... 1

What is the Fan Coil application? ...................................................................................................................... 1 Specifications ........................................................................................................................................................ 2 Safety considerations ........................................................................................................................................... 3

Installing the controller ........................................................................................................................................ 4 Mounting the controller ....................................................................................................................................... 4 Wiring the controller for power ........................................................................................................................... 5

To wire for power............................................................................................................................. 5 Addressing the controller .................................................................................................................................... 6 Wiring for communications ................................................................................................................................. 6

Wiring specifications for BACnet MS/TP and ARC156 .................................................................... 6 To wire the controller to the BACnet network .................................................................................. 7

Wiring inputs and outputs ................................................................................................................................... 8 Inputs and outputs table ................................................................................................................. 8 Input wiring specifications .............................................................................................................. 9 Inputs .............................................................................................................................................. 9 Binary outputs ............................................................................................................................... 10 Analog outputs .............................................................................................................................. 10 To wire inputs and outputs............................................................................................................ 11

Field-supplied sensor hardware ....................................................................................................................... 13

Wiring sensors to the controller ......................................................................................................................... 14 Wiring devices to the controller's Rnet port .................................................................................................. 14

Rnet wiring specifications ............................................................................................................. 15 To wire ZS sensors to the controller .............................................................................................. 15 To wire the Wireless Adapter for wireless sensors ........................................................................ 16 To wire an Equipment Touch to the controller .............................................................................. 18 To wire the TruVu ET Display ...................................................................................................... 19

Wiring a CO2 sensor .......................................................................................................................................... 20 Wiring specifications ..................................................................................................................... 20 To wire the CO2 sensor to the controller ....................................................................................... 20

Wiring a relative humidity sensor ................................................................................................................... 21 Wiring specifications ..................................................................................................................... 21 To wire the RH sensor to the controller ......................................................................................... 21

Wiring equipment to outputs ............................................................................................................................. 22 Wiring specifications ......................................................................................................................................... 22 Wiring diagram legend ..................................................................................................................................... 23 Heating/Cooling: 2-pipe changeover/2-position valve control .................................................................. 24 Heating/Cooling: 2-pipe changeover/Modulating water valve ................................................................... 25 Cooling only: 2-position valve.......................................................................................................................... 26 Cooling only: Modulating valve ....................................................................................................................... 27 Heating only: 2-position valve ......................................................................................................................... 28 Heating only: Modulating valve ...................................................................................................................... 29 Heating/Cooling: 2-pipe changeover with auxiliary electric heat (2-position valve) .............................. 30 Heating/Cooling: 2-pipe changeover with auxiliary electric heat (modulating valve) .......................... 31 Heating/Cooling: 4-pipe/2-position valve ..................................................................................................... 32 Heating/Cooling: 2-pipe/2-position valve cooling with total electric heat .............................................. 33 Heating/Cooling: 2-pipe/Modulating valve cooling with total electric heat ............................................ 34 Heating/Cooling: 4-pipe/Modulating valve .................................................................................................. 35 Heating/Cooling: 2-pipe/2-position valve heating with DX cooling .......................................................... 36 Heating/Cooling: 2-pipe/Modulating valve with DX cooling ...................................................................... 37 Motor wiring for fan coil relay board ............................................................................................................... 37 Motor wiring for single speed field-supplied relay ........................................................................................ 38

Contents

Motor wiring for 2-speed field-supplied relay ................................................................................................ 38 Motor wiring for 3-speed field-supplied relay ................................................................................................ 39 Outdoor air ventilation damper (2-position or DCV) ..................................................................................... 39

Start-up ............................................................................................................................................................... 40 Select or create a custom control program and graphic ............................................................................. 40 Service Test ......................................................................................................................................................... 41 Configure the Fan Coil for AppController's properties ................................................................................. 42

Sequence of Operation ....................................................................................................................................... 43 Scheduling .......................................................................................................................................................... 43 Indoor fan ............................................................................................................................................................ 44 Cooling ................................................................................................................................................................. 45 Heating ................................................................................................................................................................ 46 Changeover mode detection ............................................................................................................................ 47 Indoor air quality ................................................................................................................................................ 48 Dehumidification ............................................................................................................................................... 49 Demand Limiting ............................................................................................................................................... 49 Thermostat Linkage .......................................................................................................................................... 50 Airside Linkage................................................................................................................................................... 50

Troubleshooting .................................................................................................................................................. 51 LED's .................................................................................................................................................................... 51 Serial number ..................................................................................................................................................... 52 To replace the controller's battery .................................................................................................................. 52

Compliance ........................................................................................................................................................ 53 FCC Compliance ................................................................................................................................................. 53 CE Compliance ................................................................................................................................................... 53 BACnet Compliance ........................................................................................................................................... 53

Appendix A: Fan Coil for AppController wire list ................................................................................................ 54

Appendix B: Device Address Binding................................................................................................................. 55

Appendix C: Fan Coil for AppController Points/Properties ............................................................................... 56 Status................................................................................................................................................................... 56 Unit Configuration .............................................................................................................................................. 58 Setpoints ............................................................................................................................................................. 61 Setpoints for ZS and wireless sensors............................................................................................................ 68 Alarm Configuration .......................................................................................................................................... 69 Service Configuration ........................................................................................................................................ 71 Service Test ......................................................................................................................................................... 78 Maintenance ....................................................................................................................................................... 79 Alarms ................................................................................................................................................................. 82 Linkage ................................................................................................................................................................ 84 I/O Points ............................................................................................................................................................ 85

Appendix D: Fan Coil for AppController Points/Properties on the Equipment Touch ....................................... 88 Navigation screens ............................................................................................................................................ 88 Startup Wizard ................................................................................................................................................... 91 Thermostat Linkage Source ............................................................................................................................. 93

Document revision history.................................................................................................................................. 94

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What is the Fan Coil application?

The AppController is a field-installed controller that mounts on a fan coil. The AppController must be downloaded in the field with the Fan Coil application in order to control a fan coil unit. The Fan Coil application is available in EquipmentBuilder and is identical to the Fan Coil application that ships from the factory.

NOTE The Fan Coil for AppController application does NOT support Metric units.

The Fan Coil application provides optimum energy efficiency. This controller allows the fan coil to run in 100% stand-alone mode, communicate to an i-Vu Control System, or a BACnet Third Party Building Automation System (BAS).

Fan Coil for AppController overview and specifications

Fan Coil for AppController overview and specifications

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Specifications

Power 24 Vac 10%, 5060 Hz 20 VA power consumption

26 Vdc (25 V min, 30 V max) Single Class 2 source only, 100 VA or less

BACnet Port For communication with the controller network using BACnet ARC156 (156 kbps) or BACnet MS/TP (9600 bps 76.8 kbps)

Rnet port Supports up to 10 wireless and/or ZS sensors, and one Equipment Touch or

TruVu ET Display

Supplies 12 Vdc/210 mA power to the Rnet at an ambient temperature of 77F (25C) with a 24 Vac nominal power source.

NOTE Ambient temperature and power source fluctuations may reduce the power supplied by the Rnet port.

NOTE If the total power required by the sensors on the Rnet exceeds the power supplied by the Rnet port, use an external power source. The Wireless Adapter,

Equipment Touch, or TruVu ET Display must be powered by an external power

source. See the specifications in each device's Installation and Start-up Guide to determine the power required.

Local Access port For system start-up and troubleshooting using Field Assistant

Inputs 6 inputs configurable for thermistor or dry contact. 1 and 2 are also configurable for 05 Vdc sensors.

NOTES

7 and 8 are unused.

Input 5 has a maximum temperature of 140F (60C).

Input resolution 10 bit A/D

Analog outputs 3 analog outputs, 010 Vdc (5 mA max)

Binary outputs 5 binary outputs, dry relay contacts rated at 1 A max. @ 24 Vac/Vdc. Configured normally open

Output resolution 8 bit A/D, using filtered PWM

Real time clock Battery-backed real time clock keeps track of time in the event of a power failure

Battery 10-year Lithium CR2032 battery retains the following data for a maximum of

10,000 hours during power outages: control programs, graphics, editable properties, schedules, and trends.

Protection Built-in surge and transient protection for power and communications in compliance with EN61000-6-1.

Incoming power and network connections are protected by non-replaceable

internal solid-state polyswitches that reset themselves when the condition that causes a fault returns to normal.

The power, network, input, and output connections are also protected against transient excess voltage/surge events lasting no more than 10 msec.

CAUTION To protect against large electrical surges on serial EIA-485 networks, place a PROT485 at each place wire enters or exits the building.

Fan Coil for AppController overview and specifications

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Status indicators LEDs indicate status of communications, running, errors, and power.

Environmental operating range

0 to 130F (-18 to 54C), 0 to 90% relative humidity, non-condensing

Storage temperature range -24 to 140F (-30 to 60C), 0 to 90% relative humidity, non-condensing

Physical Rugged GE C2950HF Cycoloy plastic

Overall dimensions A: B:

5-5/8 in. (14.3 cm) 5-1/8 in. (13 cm)

Mounting dimensions C: D: E:

5-1/4 in. (13.3 cm) 2-9/16 in. (6.5 cm) 3/16 in. (.5 cm)

Panel depth 2 in. (5.1 cm)

Weight 0.44 lbs. (0.20 kg)

BACnet support Conforms to the BACnet Advanced Application Controller (B-AAC) Standard Device Profile as defined in ANSI/ASHRAE Standard 135-2012 (BACnet) Annex L, Protocol Revision 9

Listed by UL-916 (PAZX), cUL-916 (PAZX7), FCC Part 15-Subpart B-Class A, CE

Safety considerations

WARNING Disconnect electrical power to the controller before wiring it. Failure to follow this warning could cause electrical shock, personal injury, or damage to the controller.

Installing the controller

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1 Mount the controller (page 4).

2 Wire the controller for power (page 5).

3 Set the controller's address (page 6).

4 Wire the controller to the BACnet MS/TP or BACnet ARC156 network (page 6).

5 Wire inputs and outputs (page 8).

6 Wire sensors to the controller (page 14).

7 Wire equipment to outputs (page 22).

Mounting the controller

WARNING

When you handle the controller: Do not contaminate the printed circuit board with fingerprints, moisture, or any foreign material.

Do not touch components or leads. Handle the board by its edges.

Isolate from high voltage or electrostatic discharge. Ensure that you are properly grounded.

Screw the controller into an enclosed panel using the mounting slots on the coverplate. Leave about 2 in. (5 cm) on each side of the controller for wiring. Mounting hole dimensions 5 9/16" (14.1 cm) between mounting slot center lines.

Installing the controller

Installing the controller

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Wiring the controller for power

WARNING Do not apply line voltage (mains voltage) to the controller's ports and terminals.

CAUTIONS

The controller is powered by a Class 2 power source. Take appropriate isolation measures when mounting it in a control panel where non-Class 2 circuits are present.

Carrier controllers can share a power supply as long as you:

Maintain the same polarity.

Use the power supply only for Carrier controllers.

To wire for power

1 Remove power from the power supply.

2 Pull the screw terminal connector from the controller's power terminals labeled Gnd and Hot.

3 Connect the transformer wires to the screw terminal connector.

NOTE If using a grounded transformer, connect the ungrounded lead to the Hot terminal to avoid damaging the transformer.

4 Apply power to the power supply.

5 Measure the voltage at the controllers power input terminals to verify that the voltage is within the operating range of 21.626.4 Vac.

6 Insert the screw terminal connector into the controller's power terminals.

7 Verify that the Power LED is on and the Run LED is blinking.

Installing the controller

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Addressing the controller

You must give the controller an address that is unique on the network. You can address the controller before or after you wire it for power.

1 If the controller has been wired for power, pull the screw terminal connector from the controller power terminals labeled Gnd and Hot. The controller reads the address each time you apply power to it.

2 Using the rotary switches, set the controller address. Set the Tens (10's) switch to the tens digit of the address, and set the Ones (1's) switch to the ones digit.

EXAMPLE If the controllers address is 25, point the arrow on the Tens (10's) switch to 2 and the arrow on the Ones (1's) switch to 5.

10's

1's

1

3

45

2

7 8

9

6

0

1

3

45

2

7 8

9

6

0

CAUTION The factory default setting is 00 and must be changed to successfully install your controller.

Wiring for communications

The controller communicates using BACnet on the following types of network segments:

MS/TP communicating at 9600 bps, 19.2 kbps, 38.4 kbps, or 76.8 kbps

ARC156 communicating at 156 kbps

NOTE For more networking details, see the Open Controller Network Wiring Installation Guide.

Wiring specifications for BACnet MS/TP and ARC156

Cable: 22 AWG or 24 AWG, low-capacitance, twisted, stranded, shielded copper wire

Maximum length: 2000 feet (610 meters)

WARNING Do not apply line voltage (mains voltage) to the controller's ports and terminals.

Installing the controller

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To wire the controller to the BACnet network

1 Pull the screw terminal connector from the controller's power terminals labeled 24 Vac and Gnd (Return).

2 Check the communications wiring for shorts and grounds.

3 Connect the communications wiring to the controllers screw terminals labeled Net +, Net -, and Shield.

NOTE Use the same polarity throughout the network segment.

4 Set the communication type and baud rate.

For...

Set Communications Selection jumper to...

Set DIP switches 1 and 2 to...

Set DIP switches 3 and 4 to...

MS/TP BACnet MS/TP The appropriate baud rate. See the MS/TP Baud diagram on the controller.

Off/Off

ARC156 BACnet ARC156 N/A. Baud rate will be 156 kbps

regardless of the DIP switch settings.

Off/Off

NOTE Use the same baud rate for all controllers on the network segment.

5 Wire the controllers on a BACnet MS/TP or BACnet ARC156 network segment in a daisy-chain configuration.

6 If the controller is at either end of a network segment, connect a BT485 to the controller.

7 Insert the power screw terminal connector into the controller's power terminals.

8 Verify communication with the network by viewing a Module Status report in the i-Vu interface.

Installing the controller

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Wiring inputs and outputs

WARNING Do not apply line voltage (mains voltage) to the controller's ports and terminals.

See Appendix A (page 54) to print a blank wire list.

Inputs and outputs table

I/O Type I/O

Terminal

Gnd

Terminal

Point Name/

Function

Hardware/

Signal

Jumper

Position of Pins

Zone Temp/

Zone Temp

AI Rnet Gnd Space Temperature - Prime Variable Communicating N/A

CO2 or RH

Sensor

AI IN-1* 2 - Gnd Optional IAQ or RH sensor 0-5 Vdc IN-1

Bottom

SAT Sensor AI IN-2 4 - Gnd Supply Air Temperature 10K Thermistor IN-2

Top

RAT Sensor AI IN-3 6 - Gnd Return Air Temperature 10K Thermistor N/A

Changeover

Temp

AI IN-4* 8 - Gnd Changeover switch

Changeover sensor

Dry Contact

Thermistor

N/A

Input Channel

#5

BI IN-5* 1 - Gnd Remote Occupancy Contact

Fan Status

Dry Contact N/A

Overflow

Contact

BI IN-6 1 - Gnd Condensate Overflow Switch Dry Contact N/A

OA Damper AO AO-1* 2 - Gnd Outdoor Air Damper 0-10 Vdc

2-10 Vdc

N/A

2-Pipe Valve /

Heating Valve

AO AO-2 4 - Gnd 2-Pipe Valve/Heating Coil Valve 0-10 Vdc N/A

Cooling Valve AO AO-3 6 - Gnd Cooling Valve 0-10 Vdc N/A

Fan High Spd BO BO-1* 1 - Pwr High Speed Fan

Stage 2 EH

Relay N/A

Fan Med Spd BO BO-2* 1 - Pwr Medium Speed Fan

Stage 3 EH

Relay N/A

Fan G / Low Spd BO BO-3 1 - Pwr Low Speed Fan Relay N/A

2-Pos Valve/

Heating Valve

BO BO-4* 1 - Pwr 2-Pipe Valve

Heating Valve (4-pipe)

EH stage 1 (4-pipe)

Relay N/A

Cooling Valve BO BO-5* 1 - Pwr Cooling Valve (4-pipe)

EH stage 1 (w/2-Pipe/Electric Heat)

DX stage 1

Relay N/A

Legend

AI - Analog Input

BI - Binary Input

AO - Analog Output

BO - Binary Output

*These channels are configurable.

Installing the controller

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Input wiring specifications

Input Maximum length Minimum gauge Shielding

05 Vdc 500 feet (152 meters)

22 AWG 100 feet (30.4 meters) unshielded

100 - 500 feet shielded

Thermistor Dry contact

Pulse counter TLO

500 feet (152 meters)

22 AWG 100 feet (30.4 meters) unshielded

100 - 500 feet shielded

ZS sensors

Wireless Adapter for wireless sensors

Equipment Touch

TruVu ET Display

See Wiring devices to the controller's Rnet port (page 14).

Inputs

The controller has 6 inputs that accept the following signal types.

These inputs...

Support this signal type...

Description

All Thermistor Precon type 2 (10 kOhm at 77F/25C)

Input voltage for IN-5: 1 to 2.52 Vdc Input voltage for all other inputs: 0.33 to 2.52 Vdc

All Dry contact A 3.3 Vdc wetting voltage detects contact position, resulting in a 0.3 mA maximum sense current when the contacts are closed.

IN-1, IN-2 05 Vdc The input impedance of the controller is approximately 30 kOhm.

All Pulse counter Pulse counting up to 10 pulses per second. Minimum pulse width (on or off time) required for each pulse is 50 msec.

Installing the controller

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Binary outputs

The controller has 5 binary outputs. You can connect each output to a maximum of 24 Vac/26 Vdc. Each output is a dry contact rated at 1 A, 24 V maximum and is normally open.

To size output wiring, consider the following:

Total loop distance from the power supply to the controller, and then to the controlled device

NOTE Include the total distance of actual wire. For 2-conductor wires, this is twice the cable length.

Acceptable voltage drop in the wire from the controller to the controlled device

Resistance (Ohms) of the chosen wire gauge

Maximum current (Amps) the controlled device requires to operate

Analog outputs

The controller has 3 analog outputs that support voltage. The controlled device must share the same ground as the controller and have the following input impedance:

010 Vdc

Minimum impedance 2000 Ohms, max 5 mA

NOTE Ohm's law: -10V/.005a = 2000 Ohms

Installing the controller

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To wire inputs and outputs

Pull the screw terminal connector from the controller's power terminals labeled Gnd and Hot.

1 Connect the input wiring to the screw terminals on the controller.

NOTES

Connect the shield wire to the GND terminal with the ground wire.

IN-5 and IN-6 share the GND terminal above IN-5.

2 Set the appropriate jumpers on the controller.

To use... For...

IN-1 Thermistor Set jumpers IN-1 to the Therm position.

IN-1 05 Vdc Set jumpers IN-1 to the 0-5 Vdc position.

IN-2 Thermistor/ Dry contact

Set jumpers IN-2 to the Thermistor/Dry contact position.

All Thermistor Dry contact

Verify the IN-5 jumper is on.

Rnet Port ZS sensors

Wireless Adapter for wireless sensors

Equipment Touch

TruVu ET Display

Set the Rnet jumper to Rnet.

Installing the controller

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3 Connect the analog output wiring to the screw terminals on the controller and to the controlled device.

4 Connect the binary output wiring to the screw terminals on the controller and to the controlled device.

5 Insert the power screw terminal connector into the controller's power terminals.

Installing the controller

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Field-supplied sensor hardware

The controller is configurable with the following field-supplied sensors:

Sensor Part numbers Notes

Space temperature sensor 33ZCT55SPT

Space ZS sensors (page 15, page 14)

Temperature

Temperature and CO2

Temperature and RH Temperature and RH and CO2

See the ZS Sensors Installation Guide.

Carrier wireless sensors See Wireless Sensors Installation Guide.

Supply air temperature sensor 33ZCSENSAT

Changeover 33ZCSENGHG

CO2 sensor (page 20) 33ZCSPTCO2-01 33ZCSPTCO2LCD-01

33ZCT55CO2

Required only for demand control ventilation - a

dedicated 24-Vac transformer is required

Space relative humidity sensor (page 21)

33ZCSENSRH-02 A dedicated 24 Vac transformer is required

Fan status switch CRSTATUS005A00 or field-supplied

For specific details about sensors other than ZS or wireless, see the Carrier Sensors Installation Guide.

Wiring sensors to the controller

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You can wire the following sensors to the controller:

ZS sensors (page 15, page 14)

Wireless Adapter for the Wireless sensors (page 15, page 14)

CO2 sensor (page 20)

Relative Humidity sensor (page 21)

NOTE This document gives instructions for wiring the sensors to the controller. For mounting and wiring the sensors, see the Carrier Sensors Installation Guide.

*For detailed instructions, see the applicable Installation Guide and Application Guide for the ZS or Wireless line of sensors.

WARNING Disconnect electrical power to the controller before wiring it. Failure to follow this warning could cause electrical shock, personal injury, or damage to the controller.

CAUTION

Do not run sensor or relay wires in the same conduit or raceway with Class 1 AC or DC service wiring.

Do not abrade, cut, or nick the outer jacket of the cable.

Do not pull or draw cable with a force that may harm the physical or electrical properties.

Avoid splices in any control wiring.

Wiring devices to the controller's Rnet port

The Rnet communicates at a rate of 115 kbps and should be wired in a daisy-chain configuration.

Supports up to

10 wireless and/or ZS sensors (5 per control program)

One Equipment Touch

One TruVu ET Display

NOTE ZS sensors, a Wireless Adapter, and an Equipment Touch can share the Rnet, but not SPT sensors.

Wiring sensors to the controller

Wiring sensors to the controller

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Rnet wiring specifications

NOTE Use the specified type of wire and cable for maximum signal integrity.

Description 4 conductor, shielded or unshielded, CMP, plenum rated cable

Conductor 22 AWG (7x0096) bare copper if Rnet has only sensors

Maximum length 500 feet (152 meters)

Insulation Low-smoke PVC (or equivalent)

Color Code Black, white, green, red

Shielding If shielded, Aluminum/Mylar shield (100% coverage) with TC drain wire, terminated at controller

UL temperature rating 32167F (075C)

Voltage 300 Vac, power limited

Listing UL: NEC CL2P, or better

To wire ZS sensors to the controller

ZS Sensors are thermistor-based temperature sensors that may optionally sense humidity, CO2, or VOC. ZS

Sensors are wired to the Rnet port on i-Vu Open controllers. You can use the following ZS sensors:

ZS Standard

ZS Plus

ZS Pro

ZS Pro-F

NOTES

The ZS CO2 model uses 190 mA during sample period. Use auxiliary 12 Vdc, unless it is the only device on the Rnet port.

A control program can use no more than 5 ZS Sensors

SPT sensors cannot share the Rnet with other devices.

For detailed instructions, see the ZS Sensor Installation Guide.

1 Remove power from the controller.

2 Partially cut, then bend and pull off the outer jacket of the Rnet cable(s). Do not nick the inner insulation.

Strip about .25 inch (.6 cm) of the inner insulation from each wire.

Outer Jacket

Inner insulation.25 in. (.6 cm)

Wiring sensors to the controller

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3 Wire each terminal on the sensor to the same terminal on the controller. See diagram below.

NOTE Carrier recommends that you use the following Rnet wiring scheme:

Connect this wire... To this terminal...

Red

Black

White

Green

+12V

Rnet-

Rnet+

Gnd

4 Apply power to the controller.

To wire the Wireless Adapter for wireless sensors

WARNING Do not apply line voltage (mains voltage) to the Wireless Adapter.

The Carrier wireless sensors are available in 868, 902, and 928 MHz radio frequency. The sensors are thermistor- based temperature sensors that may optionally sense humidity.

Wireless sensors communicate through a Wireless Adapter, which is wired to the Rnet port of the controller.

REQUIREMENTS

A v6.5 or later i-Vu system

v6-xx-xxx or later controller drivers

To configure the control program for the desired user interaction with the sensor, see the Wireless Sensors Application Guide. For detailed instructions, see the Wireless Sensors Installation Guide.

To wire, power, and mount the Wireless Adapter

NOTES

The Wireless Adapter requires a 24 Vac power supply. It is not powered by the Rnet.

If the Wireless Adapter will be:

Daisy-chained on the Rnet with ZS sensors, an Equipment Touch, or TruVu ET Displayuse the standard 4-conductor Rnet wiring.

The only device on the Rnet, you can use a 3-conductor cable instead of the standard 4-conductor Rnet cable.

Wiring sensors to the controller

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1 Turn off the power to the controller that the Wireless Adapter will be wired to.

2 Partially cut, then bend and pull off the outer jacket of the Rnet cable(s). Do not nick the inner insulation.

Inner insulation

Outer jacket

Foil shield

.25 in. (.6 cm)

Shield wire

3 Strip about 0.25 inch (0.6 cm) of the inner insulation from each wire.

4 Wire the Rnet +, Rnet -, and Gnd terminals on the controller's Rnet port to the terminals of the same name on the Wireless Adapter's Rnet connector.

NOTE If using shielded wire, connect the shield wire and the ground wire to the Gnd terminal.

5 Wire the 24 Vac external power supply to the Wireless Adapter's power connector.

6 Mount the Wireless Adapter by inserting 2 screws through the mounting tabs on each end of the Wireless Adapter.

7 Apply power to the external power supply.

8 Verify that the LED on top of the Wireless Adapter is blinking. See "LED" below.

9 Turn on the controller's power.

LED

The blue LED on the top of the Wireless Adapter indicates the following:

If the LED is... Then the device...

Off Is not powered or there is a problem.

Blinking Is working properly.

Steadily on Has a problem. Do one of the following:

Cycle power to the device.

Insert a small screwdriver or paper clip into the hole next to the LED to reboot the device.

Wiring sensors to the controller

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To wire an Equipment Touch to the controller

NOTES

The Equipment Touch requires a 24 Vac power supply. It is not powered by the Rnet.

If the Equipment Touch will be:

Daisy-chained on the Rnet with ZS sensors or a Wireless Adapter, use the standard 4-conductor Rnet wiring and follow the wiring instructions To wire ZS sensors to the controller (page 15).

The only device on the Rnet, you can use a 2-conductor cable instead of the standard 4-conductor Rnet cable and follow the instructions below.

For complete Equipment Touch installation instructions including wiring diagrams, see the Equipment Touch

Installation and Setup Guide.

CAUTION The controller can share a power supply with the Carrier controller as long as:

The power supply is AC power.

You maintain the same polarity.

You use the power source only for Carrier controllers.

1 Turn off the controller's power.

2 Partially cut, then bend and pull off the outer jacket of the cable. Do not nick the inner insulation.

3 Strip about 0.25 inch (0.6 cm) of the inner insulation from each wire.

4 Wire the controller's Rnet+ and Rnet- terminals to the terminals of the same name on the Equipment Touch's connector.

NOTE If using shielded wire, connect the shield wire and the ground wire to the Gnd terminal.

5 Turn on the controller's power.

6 Turn on the Equipment Touch.

Wiring sensors to the controller

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To wire the TruVu ET Display

WARNING Do not apply line voltage (main) - 24 Vdc power only.

Wiring power

Wire the TruVu ET Display 24V DC connector to the 24 Vdc power supply using 2-conductor 18 AWG wire. Maximum distance 100 feet (30 meters).

CAUTION The TruVu ET Display can share a power supply with the Carrier controller as long as:

The power supply is DC power.

You maintain the same polarity.

You use the power source only for Carrier controllers.

Wiring communication

1 Turn off the controller's power.

2 Wire the TruVu ET Display's RS485 connector to the controller's Rnet port, G to Gnd, + to Rnet +, - to Rnet - using 2-conductor 22 AWG wire with a maximum distance of 500 feet (152 meters).

3 Turn on the controller's power.

For complete TruVu ET Display installation instructions, see the TruVu ET Display Installation and Start-up Guide.

Wiring sensors to the controller

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Wiring a CO2 sensor

Part #33ZCSPTCO2LCD-01 (Display model) Part #33ZCSPTCO2-01 (No display)

Part #33ZCT55CO2 (No display) Part #33ZCT56CO2 (No display)

A CO2 sensor monitors carbon dioxide levels. As CO2 levels increase, the controller adjusts the outside air

dampers to increase ventilation and improve indoor air quality. A CO2 sensor can be wall-mounted or mounted in a

return air duct. Duct installation requires an Aspirator Box Accessory (Part #33ZCASPCO2).

The sensor has a range of 02000 ppm. The CO2 sensors power requirements exceed what is available. Provide

a dedicated 24Vac transformer or DC power supply.

Wiring specifications

Cable from sensor to controller: If <100 ft (30.5 meters) 22 AWG, unshielded If >100 ft (30.5 meters) 22 AWG, shielded

Maximum length: 500 feet (152 meters)

To wire the CO2 sensor to the controller

1 Wire the sensor to the controller.

2 Verify IN-1 jumper is in the 0-5 Vdc position.

3 Install a field-supplied dedicated 24 Vac transformer or DC power supply.

4 Apply power and verify sensor readings.

Wiring sensors to the controller

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Wiring a relative humidity sensor

Wall and duct sensor - Part #33ZCSENSRH-02

The relative humidity (RH) sensor may be used for humidity control (dehumidification) when applied to a fan coil.

NOTE You cannot use a relative humidity sensor when using both a CO2 and OAQ sensor on the controller.

Wiring specifications

Cable from sensor to controller: If <100 ft (30.5 meters) 22 AWG, unshielded If >100 ft (30.5 meters) 22 AWG, shielded

Maximum length: 500 feet (152 meters)

To wire the RH sensor to the controller

1 Strip the outer jacket from the cable for at least 4 inches (10.2 cm). Strip .25 inch (.6 cm) of insulation from each wire.

2 Wire the sensor to the controller. See diagram below.

3 Sensor may be terminated at Input 1.

4 Apply power and verify sensor readings.

Wiring equipment to outputs

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Use the following wiring specifications and diagrams to wire equipment to the controller's outputs:

Heating/Cooling: 2-pipe changeover/2-position valve control (page 24)

Heating/Cooling: 2-pipe changeover/Modulating water valve (page 25)

Cooling only: 2-position valve (page 26)

Cooling only: Modulating valve (page 27)

Heating only: 2-position valve (page 28)

Heating only: Modulating valve (page 29)

Heating/Cooling: 2-pipe changeover with auxiliary electric heat (2 position valve) (page 30)

Heating/Cooling: 2-pipe changeover with auxiliary electric heat (modulating valve) (page 31)

Heating/Cooling: 4-pipe/2-position valve (no changeover) (page 32)

Heating/Cooling: 4-pipe modulating valve (page 35)

Heating/Cooling: 2-pipe/2-position valve cooling with total electric heat (page 33)

Heating/Cooling: 2-pipe/Modulating valve cooling with total electric heat (page 34)

Heating/Cooling: 2-pipe/2-position valve heating with DX cooling (page 36)

Heating/Cooling: 2-pipe/Modulating valve with DX cooling (page 37)

Motor wiring for fan coil relay board (page 37)

Motor wiring for single speed field-supplied relay (page 38)

Motor wiring for 2-speed field-supplied relay (page 38)

Motor wiring for 3-speed field supplied relay (page 39)

Outdoor air ventilation damper (2-position or DCV) (page 39)

Wiring specifications

To size output wiring, consider the following:

Total loop distance from the power supply to the controller, and then to the controlled device

NOTE Include the total distance of actual wire. For 2-conductor wires, this is twice the cable length.

Acceptable voltage drop in the wire from the controller to the controlled device

Resistance (Ohms) of the chosen wire gauge

Maximum current (Amps) the controlled device requires to operate

Wiring equipment to outputs

Wiring equipment to outputs

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Wiring diagram legend

CCV

CHGOVR

COND SW

DX relay

EH relay

FS

Gnd

Hot

OADAMPER

REMOTE

RH/CO2

SAT

SPT

RAT

RMT/FS

T55

2PIPEHCV

n/c

N.C.

N.O.

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

Cooling coil valve

Changeover temp

Condensate overflow switch

Direct expansion cooling relay

Electric heat relay

Fan Status

Ground

24 Vac ungrounded power

Outside air damper

Remote occupancy sensor

Relative humidity sensor/CO2 sensor

Supply air temperature sensor

Space temperature sensor

Return air temperature

Remote occupancy/Fan status

Alternate space temperature sensor

2-pipe valve/Heating coil valve

No connection

Normally closed

Normally open

Wiring equipment to outputs

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Heating/Cooling: 2-pipe changeover/2-position valve control

Wiring equipment to outputs

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Heating/Cooling: 2-pipe changeover/Modulating water valve

Wiring equipment to outputs

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Cooling only: 2-position valve

Wiring equipment to outputs

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Cooling only: Modulating valve

Wiring equipment to outputs

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Heating only: 2-position valve

Wiring equipment to outputs

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Heating only: Modulating valve

Wiring equipment to outputs

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Heating/Cooling: 2-pipe changeover with auxiliary electric heat (2-

position valve)

Wiring equipment to outputs

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Heating/Cooling: 2-pipe changeover with auxiliary electric heat

(modulating valve)

Wiring equipment to outputs

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Heating/Cooling: 4-pipe/2-position valve

Wiring equipment to outputs

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Heating/Cooling: 2-pipe/2-position valve cooling with total electric heat

Wiring equipment to outputs

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Heating/Cooling: 2-pipe/Modulating valve cooling with total electric

heat

Wiring equipment to outputs

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Heating/Cooling: 4-pipe/Modulating valve

Wiring equipment to outputs

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Heating/Cooling: 2-pipe/2-position valve heating with DX cooling

Wiring equipment to outputs

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Heating/Cooling: 2-pipe/Modulating valve with DX cooling

Motor wiring for fan coil relay board

NOTE Configure Fan (G) Output Type = Fan On

Wiring equipment to outputs

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Motor wiring for single speed field-supplied relay

NOTE Configure Fan (G) Output Type = Fan Low

Motor wiring for 2-speed field-supplied relay

NOTE Configure Fan (G) Output Type = Fan Low

Wiring equipment to outputs

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Motor wiring for 3-speed field-supplied relay

NOTE Configure Fan (G) Output Type = Fan Low

Outdoor air ventilation damper (2-position or DCV)

Start-up

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Use one of the following interfaces to start up, access information, read sensor values, and test the controller.

This interface... Provides a...

Field Assistant application -

Runs on a laptop that connects to controller's Local Access port 1

Temporary interface

Equipment Touch device -

Connects to controller's Rnet port 2

Temporary or permanent interface

i-Vu application Available for BACnet systems only

Permanent interface

System Touch device

Available only for BACnet MS/TP systems.

Wire to a BACnet MS/TP network connector and a 24 Vac power supply 3

Temporary or permanent interface

1 Requires a USB Link (Part #USB-L). 2 See the Equipment Touch Installation and Setup Guide for detailed instructions. 3 See the System Touch Installation and Setup Guide for detailed instructions.

CAUTION If multiple controllers share power but polarity was not maintained when they were wired, the

difference between the controller's ground and the computer's AC power ground could damage the USB Link and

the controller. If you are not sure of the wiring polarity, use a USB isolator between the computer and the USB Link. Purchase a USB isolator online from a third-party manufacturer.

Select or create a custom control program and graphic

The field-installed AppController does not come from the factory with a control program or graphic. You must load

a control program and graphic as part of the installation/commissioning of the AppController. You can select a control program and graphic from EquipmentBuilder that has all the configurations that are currently available on a factory-installed Fan Coil for AppController.

After creating your control program, save and download it to the AppController. If desired, create a custom graphic using ViewBuilder. See ViewBuilder Help for details.

NOTE Third party integration information for current Carrier PIC products, whether on a factory-installed controller

or selected from EquipmentBuilder, can be found on the Carrier Control Systems Support Site http://www.hvacpartners.com/, https://accounts.ivusystems.com/ under Support Center > Controls Support > Controls Product Information.

Start-up

Start-up

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Service Test

Navigation: i-Vu / Field Assistant:

Properties > Control Program > Configuration > Service Configuration > Service Test

You can use Service Test to verify proper operation of cooling, heating stages, fan, and OA damper. We highly recommended using Service Test at initial system start-up and during troubleshooting. See Appendix C: Points/Properties for more information.

Service Test differs from normal operation as follows:

Outdoor air temperature limits for cooling and heating are ignored.

Normal fan delays (delay on) and minimum/maximum run times are ignored. A 15-second delay for electric heat allows the fan to start operating.

Supply Air temperature limits are ignored.

Alarm statuses are ignored, but all alarms and alerts are still broadcast on the network, if applicable.

You can turn Service Test on or off from the Equipment Touch, Field Assistant, or i-Vu application . Select Default Value of Enable to turn on and Disable to turn off.

NOTES

Service Test allows testing of each controller function.

We recommend you return every individual Service Test variable (Fan Test, Hearing Test, etc.) to Disable or 0.00 after testing each function.

All outputs return to normal operation when Service Test is set to Disable.

Service Test functions

Service Test enables the test mode and stops the normal operation of the unit. Set Service Test to Enable before any other test can be performed.

Fan Test tests the fan operation. The fan test is automatic. Set Fan Test to Enable to run the fan at the lowest

available speed, depending on your configured fan speed. The fan operates at that speed for approximately

15 seconds and then automatically increments to the next higher speed. The process repeats until it reaches the highest speed.

Fan Speed displays the actual operating speed of the fan during the test.

Cooling Test activates the units cooling. During cooling test, the appropriate cooling device is activated. If DX cooling is configured, the supply fan output is activated and deactivated in conjunction with this test. (For 2- pipe/electric heat, the water valve output is tested during this test.)

Heating Test activates the units heating. During the heating test, the appropriate heating device is activated.

If Electric Heat is configured, the supply fan output activates and deactivates in conjunction with this test. (For 2-pipe/electric heat, the electric heat output is tested during this test).

Preload OA Damper drives the damper actuator output to 7.5% open. The installer should secure the damper

shaft to the actuator with the damper in the fully closed position at this time. This provides sufficient preload on the damper seal to insure it fully closes.

Open Vent Damper 100% opens the damper to the 100% or fully open position. The output increases slowly

to drive the damper to the fully open position.

Return all individual variables to Disable. Set Service Test to Disable or cycle power to the controller to return to normal operation.

Start-up

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Configure the Fan Coil for AppController's properties

You must configure certain points and properties. Appendix C (page 56) is a complete list of all the points and

properties, with descriptions, defaults, and ranges. These properties affect the unit operation and/or control. Review and understand the meaning and purpose of each property before changing it.

To start up the controller, configure your necessary points/properties in the following:

Unit Configuration (page 58)

Setpoints (page 61)

Service Configuration (page 71)

Examples of some settings that you need to configure for start-up are the Occupied and Unoccupied Heating and Cooling setpoints, found in the Setpoints section of Appendix C (page 56).

Sequence of Operation

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The Fan Coil for AppController controls mechanical cooling and heating based on its own space temperature input

and setpoints. An optional CO2 (Indoor Air Quality) sensor mounted in the space maximizes occupant comfort

when used with the DCV ventilation damper option. See Scheduling (page 43) for occupancy types.

The following sections describe the Fan Coil for AppController's functionality. All points in this sequence of operation refer to the Equipment Touch, i-Vu, or Field Assistant interface.

Scheduling

Scheduling

You must configure time periods to schedule the transitions from occupied to unoccupied operation. The time

periods control the space temperature to occupied heating and cooling setpoints. The controller operates

continuously in the Occupied mode until you either configure a Time Schedule or a third party control system Enables/Disables the BAS On/Off point. You must set the local time and date for these functions to operate properly.

You can change the occupancy source to one of the following:

Occupancy Schedules

The controller is occupied 24/7 until you configure a time schedule using the Equipment Touch, Field Assistant, or the i-Vu application, or until a third party control system Enables/Disables the BAS On/Off

point. You can disable this by going to Configuration > Unit Configuration > Occupancy Schedules and changing the point from Enable to Disable and clicking OK.

NOTE You must Enable this point in order for the Equipment Touch, Field Assistant, or the i-Vu application to assign a time schedule to the controller.

Schedule

The unit operates according to the schedule configured and stored in the unit. The schedule is accessible in the Equipment Touch, Field Assistant, or the i-Vu application. The daily schedule consists of a start and stop time (standard or 24 hour mode) and seven days of the week, starting with Monday and ending on Sunday.

Occupancy Input Contact (optional)

If configured for remote occupancy control (default), the controller can use an external dry contact closure to

determine the occupancy status of the unit. Disable the Occupancy Schedules to use the occupancy contact input.

NOTE Scheduling can only be controlled from one source.

BAS (Building Automation System) On/Off

For use with a Building Automation System that supports network scheduling, you must disable the

Occupancy Schedules so the BAS can control the unit through a network communication and the BAS scheduling function.

NOTE Scheduling can either be controlled from the unit or the BAS, but not both.

System Occupancy

Uses the network to obtain an occupancy status value from another controller, which is read over the network and used by this controller. Occupancy Schedules MUST be set to Disable to use this function.

NOTE Scheduling can only be controlled from one source.

Sequence of Operation

Sequence of Operation

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Indoor fan

You can configure the indoor fan to operate in any 1 of 3 Fan Modes:

Auto (default) - runs intermittently during both occupied and unoccupied periods

Continuous - runs continuously during occupied periods and intermittently during unoccupied periods

Always on - runs continuously regardless of occupancy

In the Continuous mode, the fan is turned on when one of the following is true:

It is in occupied mode, as detemined by its occupancy status

There is a demand for cooling or heating in the unoccupied mode

There is a call for dehumidification (optional)

When power is reapplied after a power outage, or when transitioning from unoccupied to occupied, you can configure a delay of 5 - 600 (default 60) seconds before starting the fan. Configure as follows:

Fan On Delay defines the delay time (0 - 30 seconds, default 30) before the fan begins to operate after

heating or cooling is started and is automatically overridden if electric heat or DX cooling are active.

Fan Off Delay defines the delay time (0 - 180 seconds, default 120) the fan continues to operate after heating or cooling stops.

If the condensate overflow alarm, the test mode is active, or a Fire / Smoke Shutdown alarm is active; the fan is shut down immediately, regardless of occupancy state or demand. The fan continues to run as long as the cooling,

heating, DCV, or dehumidification is active. If the space temperature failure alarm, condensate overflow alarm, or the test mode is active, the fan shuts down immediately, regardless of occupancy state or demand.

Automatic Fan Speed Control - The Fan Coil for AppController controls up to 3 fan speeds using a Fan Interface

board or field-installed relays. The fan motor operates at the lowest speed possible to provide quiet and efficient fan operation with the best latent capability during cooling. The motor increases speed if additional cooling or

heating is required to reach the desired space temperature setpoint. The motor's speed increases as the space temperature rises above the cooling setpoint or falls below the heating setpoint. The amount of space

temperature increase above or below the setpoint that is required to increase the fan speed is configurable. Also, the fan speed increases as the Supply Air Temperature approaches the configured minimum or maximum SAT limits if DX cooling or electric heat is active.

Configuring Automatic Fan Speed setpoints When configured for more than 1 speed, the fan speed selection is based on Space Temperature compared to the Effective Setpoints. For example, if configured for a 3-speed fan,

the fan will go to Medium speed when the Space Temp exceeds the Cool 1/ Heat 1 level. The setpoint graph represents this as the yellow and light blue areas. The fan increases to High speed when the Space Temp exceeds

Cool 2/ Heat 2 level. These are represented by the orange and dark blue areas. Speed is reduced when the Space Temp passes the same threshold, but includes a non-adjustable Hysteresis (differential) of 0.5 F (.27 C) for

both heating and cooling modes. All color bands (yellow, orange, light blue and dark blue) MUST be set to more than 0.5 F (.27 C).

Manual Fan Speed Control - When you use the controller with the optional SPT sensor, the automatic fan speed operation may be overridden from the SPT sensor (if applicable). You can select any available motor speed or automatic operation.

Sequence of Operation

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Unoccupied Fan Cycling - When Unoccupied Fan Cycling is set to Enable (default), the controller operates the equipments fan for 1 minute every hour during the unoccupied period. The fan operates at the lowest speed

Fan Speed Control - Electric Heat Override - When electric heat is required and active, the control continuously monitors the supply air temperature to verify it does not rise above the configured Maximum Heating SAT Limit

[90F (32.2C) default]. As the SAT approaches the limit minus 10 F (5.5 C), the fan speed increases to ensure the SAT remains below the limit. This provides the most quiet and efficient operation by running the fan at the lowest speed possible.

Fan Speed Control - DX Cooling override - When DX (direct expansion) mechanical cooling is required and active, the control continuously monitors the supply air temperature to maintain the SAT at or above the configured

Minimum Cooling SAT Limit [50F (10C) default] plus 5 F (2.7 C). When the SAT drops below this value, the fan speed increases to prevent the SAT from dropping further. The fan operates at the lowest speed to maximize latent capacity during cooling.

Fan Status (Option) - The optional input can be configured as a fan status input. If configured as Fan Status, the controller compares the status of the fan to the desired commanded state. When the fan is commanded to run

(ON), the fan status is checked and verified to match the commanded state. If the fan status is not on, then a supply fan alarm is generated after 1 minute and the equipments OAD is disabled. If the equipment has hydronic heat configured, the heating algorithm maintains the desired fan-off setpoint.

Cooling

The Fan Coil for AppController operates one stage of DX cooling or chilled water valve (2-position or modulating) to maintain the desired cooling setpoint. The PI (Proportional-integral) cooling algorithm controls the cooling. The

desired Supply Air Temperature setpoint [Cooling Control Setpoint] is calculated by the controller. This setpoint is compared to the actual supply air temperature and determines valve operation for modulating or 2-position control valves or staging for DX control.

The following conditions must be true in order for the cooling algorithm to run:

Cooling is set to Enable.

Space temperature reading is valid.

For 2-pipe systems, the water temperature is suitable for cooling

Heat mode is not active and for DX, the 5-minute compressor time-guard timer has expired

OAT is greater than the Cooling Lockout Temperature if OAT is available.

Condensate Overflow input is Normal.

If occupied, the SPT is greater than the Occupied Cooling Setpoint.

If unoccupied, the SPT is greater than the Unoccupied Cooling Setpoint.

If all the above conditions are met, cooling is energized as required, otherwise it is disabled. If cooling is active and the SAT approaches the minimum SAT limit, the cooling valve modulates closed. (For DX cooling, if the SAT

drops below the configured minimum SAT value plus 5 F (2.7 C), the fan is indexed to a higher speed. If this is insufficient and if the SAT falls below the minimum limit, the DX cooling stage is disabled.)

Sequence of Operation

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The configuration screens contain Min SAT and Cooling Lockout, based on outdoor air temperature (OAT). Both can be adjusted to meet various specifications.

For DX cooling, there is a 5-minute minimum off-time for the compressor as well as a 4-minute minimum on-time to prevent oil migration.

After a compressor is staged off, it may be restarted again after a normal time-guard period of 5 minutes and if the supply air temperature increases above the minimum supply air temperature limit.

Modulating Chilled Water - The control can operate a modulating (0-10 Vdc) type, NO or NC, chilled water valve connected to the cooling coil of the unit in order to maintain the desired cooling setpoint. The valve modulates to

maintain the SAT at the calculated Cooling Control Setpoint. The control also prevents the SAT from exceeding the Minimum Cooling SAT limit.

2- Position Chilled Water - The control can operate a 2-position, NO or NC, chilled water valve connected to the

cooling coil of the unit to maintain the desired cooling setpoint. The valve is controlled so the SAT does not exceed the Minimum Cooling SAT limit.

Single Stage Direct Expansion (DX) - The control can operate a single stage of DX cooling in order to maintain the

desired cooling setpoint. The DX stage is controlled so the SAT does not exceed the Minimum Cooling SAT limit and is subject to a 4-minute minimum on-time. The compressor output is not energized unless the SAT is >

Minimum Cooling SAT limit plus 15 F (8.3 C). Once disabled, the compressor cannot be restarted for at least 5 minutes.

Heating

The Fan Coil for AppController operates one stage of electric heat or a hot water valve (2-position or modulating)

to maintain the desired heating setpoint. The heating is controlled by the PI (Proportional-integral) heating algorithm. The desired Supply Air Temperature setpoint [Heating Control Setpoint] is calculated by the Fan Coil

for AppController. This setpoint is compared to the actual supply air temperature and used to determine valve operation for modulating or 2-position control valves or staging for electric heat.

The following conditions must be true in order for the cooling algorithm to run:

Heat Enable is set to Enable.

Space temperature reading is valid.

For 2-pipe systems, the water temperature is suitable for heating.

Cool mode is not active and, for electric heat, the 2-minute minimum off-timer has expired.

Condensate Overflow input is Normal.

OAT is less than the Heating Lockout Temperature if OAT is available.

If occupied, the SPT is greater than the Occupied Cooling Setpoint.

If unoccupied, the SPT is greater than the Unoccupied Cooling Setpoint.

Sequence of Operation

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If all the above conditions are met, the heating outputs are energized as required, otherwise they are de-

energized. If the heating is active and the SAT approaches the maximum SAT limit, the heating valve modulates closed. For electric heating, if the SAT rises above the configured Maximum SAT limit minus 10 F (5.5 C), the

fan is indexed to a higher speed. If this is insufficient and the SAT rises above the maximum limit, the EH heating stage is disabled. After the electric heater stage is turned off, it may be restarted again after the supply air

temperature falls below the Maximum Heating SAT limit minus 15 F (8.3 C). There is a 2-minute minimum off-timer for the electric heater stage to insure protection against excessive cycling.

The configuration screens contain the Max SAT parameter as well as Heating Lockout based on outdoor air temperature (OAT). Both can be adjusted to meet various specifications.

Modulating Hot Water / Steam Heating - The control can operate a modulating (0-10 Vdc) type, NO or NC, hot

water or steam valve, connected to the heating coil of the unit and supplied by a boiler in order to maintain the desired heating setpoint. The valve is controlled so the SAT does not exceed the Maximum Heating SAT limit. If the fan is off, the valve modulates to maintain the SAT at the configured Fan Off Value temperature.

2- Position Hot Water / Steam Heating - The control can operate a 2-position, NO or NC, hot water or steam valve, connected to the heating coil of the unit and supplied by a boiler in order to maintain the desired heating setpoint.

The valve is controlled so the SAT does not exceed the Maximum Heating SAT limit. If the fan is off, the valve opens and closes to maintain the SAT at the configured Fan Off Value.

Single Stage Electric Heat - The control can operate a single stage of electric heat in order to maintain the desired

heating setpoint. The heat stage is controlled so the SAT does not exceed the Maximum Heating SAT limit. The electric heat output is not energized unless the SAT is < Maximum Heating SAT limit minus 15 F (8.3 C) and, once disabled, cannot be restarted for at least 2 minutes to prevent excessive cycling.

Combination Heating - The control can operate a modulating (0-10 Vdc) type, or 2-position type, NO or NC, water

valve connected to a 2-pipe heating/cooling coil of the unit and also a single stage of electric heat in order to maintain the desired heating setpoint. The valve is used to meet the heating requirements in the space when the

changeover mode is heat. The electric heater is used when the changeover mode is cool. The heat is controlled so that the SAT does not exceed the Maximum Heating SAT limit. If the fan is off and the changeover mode is heat, the valve is controlled to maintain the SAT at the configured Fan Off Value temperature.

Changeover mode detection

The Fan Coil for AppController control determines the changeover mode for 2-pipe heating/cooling systems. The controller monitors a local changeover thermistor sensor or switch, dependent upon configuration. User-

configurable temperature setpoints determine the heat or cool mode. When the sensed temperature exceeds the Changeover Heat Limit, the system changeover mode is set to heat. When the sensed temperature falls below the

Changeover Cool Limit, the system changeover mode is set to cool. For applications using a switch, the heat mode is determined when the input is open, while a closed switch indicates cool mode.

Additionally, an Analog Network Input point and a BACnet Analog Value input variable are also provided to allow a network-supplied analog value of the system water temperature to determine the changeover mode. The Analog

Network Input point has the highest priority, followed by the BACnet AV point, then the local input, if multiple inputs are supplied simultaneously.

Sequence of Operation

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Indoor air quality

The Fan Coil for AppController controls either 2-position or Demand Controlled Ventilation (DCV) to provide the

necessary ventilation to the occupied space. To meet any ventilation requirement, the fan must always be configured for the Continuous or Always On mode of operation. If the fan is configured for Automatic operation,

the fan is started during occupied periods, if required, but ASHRAE base ventilation requirements will NOT be met using Automatic fan operation.

Demand Control Ventilation (DCV)

If the optional indoor air quality sensor (CO2) is installed, the Fan Coil for AppController maintains indoor air

quality, via a modulating OA damper providing demand-controlled ventilation. The control operates the modulating

OA damper during occupied periods. The control monitors the CO2 level and compares it to the configured

setpoints and adjusts the ventilation rate as required.

The control provides proportional ventilation to meet the requirements of ASHRAE specifications by providing a

base ventilation rate and then increasing the rate as the CO2 level increases. The control begins to proportionally

increase ventilation when the CO2 level rises above the start ventilation setpoint and reaches the full ventilation

rate when the CO2 level is at or above the maximum setpoint.

A user-configurable minimum damper position insures that proper base ventilation is delivered when occupants

are not present. If the additional outdoor air being introduced for ventilation causes an unacceptable drop in the supply air temperature, or could cause a coil freeze-up condition, then the control can be set to temper the supply

air during DCV control. Reheat Enable must be set to Enable and 2-Pipe Changeover must be set to No. Heating must be available. The control uses heating to prevent the supply air from falling below the user-configured

Temper/Reheat SAT setpoint. Access the IAQ configurations on the Properties page > Equipment tab > Configuration.

The following conditions must be true for this algorithm to run:

Damper Control is configured for DCV

The unit is in an occupied mode

The fan is on

If enabled, the fan status must be On

IAQ sensor reading is greater than the DCV Start Control Setpoint

The control has 4 adjustable setpoints:

DCV Start Control setpoint

DCV Maximum Control setpoint

Minimum damper position

DCV Maximum damper position

2-Position OA Ventilation Damper Type - The control can be configured to operate an OA ventilation damper in a 2-position mode to provide ventilation during occupied periods. The damper opens 100% during any occupied or

override period to insure proper ventilation is delivered to the occupied space. If the fan is off or the space is unoccupied, the damper closes.

The following conditions must be true in order for this algorithm to run:

Damper Control is configured for 2-position

The unit is in an occupied mode

Fan is on

If enabled, the fan status must be on

Sequence of Operation

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Dehumidification

The controller provides occupied and unoccupied dehumidification, which requires an accessory space relative

humidity sensor. When using a relative humidity sensor to control dehumidification during occupied or unoccupied times, the appropriate dehumidification setpoints are used accordingly. A request for dehumidification is

generated when the indoor relative humidity becomes greater than the dehumidification setpoint. The dehumidification request starts the unit, if not already operating. If cooling or heating is currently operating, then

dehumidification is delayed until the cooling or heating load is satisfied. Once satisfied, dehumidification enables cooling and the fan operates at its lowest speed.

During cooling, the unit both cools and dehumidifies. However, once the requirement for cooling is satisfied, and if there is still a call for dehumidification, the unit continues to provide dehumidification and reheat. If a heating coil

is installed downstream of the cooling coil and REHEAT is enabled while dehumidification is active, the hydronic heating coil maintains the supply air temperature at the configured Temper/Reheat SAT setpoint. This prevents

overcooling of the space, as long as the space temperature remains at least 1F (-17.2C) below the occupied cooling setpoint. Dehumidification is disabled if the SPT falls below the Occupied Heating Setpoint.

The following conditions must be true for this algorithm to run:

Cooling is set to Enable

Space temperature reading is valid

OAT is greater than the Cooling lockout temperature if OAT is available

Condensate Overflow input is Normal

Space temperature is above the occupied heating setpoint

Space temperature is below the current cooling setpoint

If unoccupied, the space RH is greater than the Unocc Relative Humidity setpoint

If occupied, the space RH is greater than the Occ Relative Humidity setpoint

The following must also be true for the reheat to operate during dehumidification:

A hydronic heating coil is installed in the reheat position

Space temperature is at least 1F (-17.2C) below the occupied cooling setpoint

2-Pipe Changeover is set to no

Demand Limiting

The Fan Coil for AppController accepts 3 levels of demand limit from the network. In response to a demand limit,

the unit decreases its heating setpoint and increases its cooling setpoint to widen the range in order to immediately lower the electrical demand. You can change the responding temperature adjustment for both heating and cooling and each demand level. The response to a particular demand level may also be set to 0.

Sequence of Operation

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Thermostat Linkage

The controller uses one wall-mounted SPT-type sensor to control multiple units using Thermostat Linkage. A single

unit is selected as a master and configured for the total number of linked units (including the master). The slave units must be sequentially addressed, below the masters address.

The master sends the setpoints, occupancy status, space temperature, and optional sensor value from the master to the slave units. Each slave then sends its operating mode and supply air temperature. If a local sensor for

either RH or CO2 is provided, the value at the slave fan coil, rather than the value received through Thermostat

Linkage, is used.

Each slave sends its operating mode and supply air temperature. When using Thermostat Linkage, the units do not need to be the same type or have the same coils. Each unit may be independently configured for coil types,

fan operation, etc. Thermostat Linkage is designed to support a maximum of 8 units operating together, using a single SPT sensor.

Airside Linkage

The Fan Coil for AppController receives information through Airside Linkage and operates as an air source for a

sub-zoned system using VVT terminals. The fan coil becomes the equipment master and receives its setpoints,

occupancy, and space temperature from the zoning system. If the optional CO2 or RH sensors is connected to any

zone, the fan coil also receives this data through Linkage.

NOTE Do not connect a RH or CO2 sensor to the fan coil unit if you use Airside Linkage. The local value is

overridden by Linkage.

The fan coil uses this information to provide the air required to satisfy the load in the zones. The operating mode and supply air temperature of the fan coil is sent to all the zones in the system. Airside Linkage has the highest priority and overrides both local control and Thermostat Linkage.

Troubleshooting

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If you have problems mounting, wiring, or addressing the controller, contact Carrier Control Systems Support.

NOTE To help you troubleshoot, obtain a Module Status (Modstat) from the controller and review the System Error and Warning details.

LED's

The LEDs indicate if the controller is speaking to the devices on the network. The LEDs should reflect communication traffic based on the baud rate set. The higher the baud rate the more solid the LEDs become.

Verify the LED patterns by cycling power to the controller and noting the lights and flashes.

LEDs Status

Power Lights when power is being supplied to the controller.

NOTE The controller is protected by internal solid state Polyswitches on the incoming power and network connections. These Polyswitches are not replaceable, but they will reset themselves if the condition that caused the fault returns to normal.

Rx Lights when the controller receives data from the network segment; there is an Rx LED for Ports 1 and 2.

Tx Lights when the controller transmits data from the network segment; there is an Rx LED for Ports 1 and 2.

Run Lights based on controller health.

Error Lights based on controller health.

The Run and Error LED's indicate controller and network status.

If Run LED shows... And Error LED shows... Status is...

1 flash per second 1 flash per second, alternating with the Run LED

The controller files are archiving. Archive is complete when Error LED stops flashing.

2 flashes per second Off Normal

2 flashes per second 2 flashes,

alternating with Run LED

Five minute auto-restart delay after system error

2 flashes per second 3 flashes, then off

The controller has just been formatted

2 flashes per second 4 flashes, then pause Two or more devices on this network have the same network address

2 flashes per second 1 flash per second The controller is alone on the network

Troubleshooting

Troubleshooting

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If Run LED shows... And Error LED shows... Status is...

2 flashes per second On Exec halted after frequent system errors, due to:

Controller halted

Program memory corrupted

One or more programs stopped

5 flashes per second On Exec start-up aborted, Boot is running

5 flashes per second Off Firmware transfer in progress, Boot is running

7 flashes per second 7 flashes per second, alternating with Run LED

Ten second recovery period after brownout

14 flashes per second 14 flashes per second, alternating with Run LED

Brownout

On On Failure. Try the following solutions:

Turn the controller off, then on.

Download memory to the controller.

Replace the controller.

NOTE If you resolve the issue but the Error LED does not turn off, cycle power to the controller.

Serial number

If you need the controller's serial number when troubleshooting, the number is on a sticker on the back of the main controller board.

To replace the controller's battery

To determine when to replace the battery, remove power and measure the voltage. If the voltage is below 2.9 volts, you need to replace the battery.

CAUTION Power must be ON to the controller when replacing the battery, or your date, time, and trend data will be lost.

1 Remove the battery from the controller, making note of the battery's polarity.

2 Insert the new battery, matching the battery's polarity with the polarity indicated on the controller.

Compliance

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FCC Compliance

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part

15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate

radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.

CAUTION Changes or modifications not expressly approved by the responsible party for compliance could void the users authority to operate the equipment.

CE Compliance

WARNING This is a Class A product. In a domestic environment, this product may cause radio interference in which case the user may be required to take adequate measures.

BACnet Compliance

Compliance of listed products to requirements of ASHRAE Standard 135 is the responsibility of BACnet

International. BTL is a registered trademark of BACnet International.

Compliance

Appendix A: Fan Coil for AppController wire list

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54

Open System Network - Fan Coil for AppController

Project Name:

Location:

Controller:

Network Number:

MAC Address:

Point/

Cable#

Inputs

(+)

(G) Input

Type

Jumper

Position

of Pins

I/O Sensor

code

Equipment

Name

Point

Name

IN-1 Gnd Therm/Dry

Contact

Upper

IN-1

IN-1 Gnd 0-5Vdc Lower

IN-2 Gnd Therm/Dry

Contact

Upper

IN-2

IN-2 Gnd 0-5Vdc Lower

IN-3 Gnd Therm/Dry

Contact

N/A IN-3

IN-4 Gnd Therm/Dry

Contact

N/A IN-4

IN-5 Gnd Therm/Dry

Contact

N/A IN-5

IN-6 Gnd Therm/Dry

Contact

N/A IN-6

IN-7 Unused

IN-8 Unused

Point/

Cable#

Outputs

(+)

COM B-Output

Type

Jumper Position

of Pins

I/O Sensor

code

Equipment

Name

Point

Name

AO-1 Gnd N/A N/A AO-1

AO-2 Gnd N/A N/A AO-2

AO-3 Gnd N/A N/A AO-3

BO-1 Pwr N.O. N/A BO-1

BO-2 Pwr N.O. N/A BO-2

BO-3 Pwr N.O. N/A BO-3

BO-4 Pwr N.O. N/A BO-4

BO-5 Pwr N.O. N/A BO-5

Appendix A: Fan Coil for AppController wire list

Appendix B: Device Address Binding

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Device Address Binding (DAB) allows the controller to receive data from other Open controllers when they are

connected by a network. The controller receives data from other Open or BACnet controllers when they are installed as part of an i-Vu Control System. The data transfer takes the form of DAB, which you must configure.

Currently, the controller implements DAB for the following variables:

System Outdoor Air Temperature

System Occupancy

System Leaving Load Water Temp

System Control Setpoint

System Cool Demand Level

System Space RH

You can implement DAB on network points with an undefined BACnet address, displayed in Field Assistant and the i-Vu interface on the Properties page > Network Points tab. See example below.

Appendix B: Device Address Binding

Appendix C: Fan Coil for AppController Points/Properties

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The following tables describe all of the possible settings for your controller on the i-Vu or Field Assistant Properties tab.

NOTE Some of the properties are available only when other settings have been enabled. For example, Status >

Indoor Air Quality CO2 (ppm) is visible only when Configuration > Service Configuration > Hardwired Sensor is set to IAQ Sensor.

See Appendix D (page 88) for the points and properties available on the Equipment Touch interface.

NOTE Engineering units shown in this document in the defaults and ranges are strictly for reference. You must enter an integer only.

Status

Navigation: i-Vu / Field Assistant: Properties > Control Program > Status

Point Name/Description Range

System Mode The controller's current operating mode. R: OFF

Fan Only Economize

Cooling Heating

Cont Fan Test

Start Delay Temper SAT

Fire Shutdown

Shutdown IAQ Override Dehumidify

Space Temperature - Prime Variable The space temperature value currently used for control.

R: -56 to 245F (-48.9 to 118.3C)

Supply Air Temperature Displays the current supply air temperature. R: -56 to 245F (-48.9 to 118.3C)

Return Air Temperature Displays the current return air temperature. R: -56 to 245F (-48.9 to 118.3C)

Outdoor Air Temperature The outdoor air temperature used for control. R: -56 to 245F (-48.9 to 118.3C)

Appendix C: Fan Coil for AppController Points/Properties

Appendix C: Fan Coil for AppController Points/Properties

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Point Name/Description Range

Fan / Speed The commanded state of the supply fan. R: Off Low

Med High On

Supply Fan Status Displays the current operating status of the fan.

(Displayed if the Input Ch #5 Function is set to Fan Status.)

R: Off/On

Freezestat Displays the current state of the freezestat device. R: Normal/Alarm

Heating Output Displays the current active heating capacity as a percentage of the total available capacity.

R: 0 to 100%

Cooling Output Displays the current active cooling capacity as a percentage of the total available capacity.

R: 0 to 100%

Damper Output Displays the current position of the damper as a function of the

amount of outdoor air. Configuration > Service Configuration > Ventilation Damper Type must be set to 2-Pos or DCV.

R: 0 to 100%

Changeover Mode 2-pipe changeover systems only. Displays the available operating

mode based on the current water temperature being supplied to the unit. (Applicable to 2-pipe changeover systems.)

R: Cool/Heat

Space Relative Humidity Displays the current value of relative humidity sensor, if present. (Applicable if Relative Humidity Source is not set to N/A.)

R: 0 to 100%

Dehumidification Displays whether the space requires dehumidification. (Applicable if RH Control is set to Enable and there is a valid RH sensor value.)

D:

R:

Inactive

Inactive/Active

Indoor Air Quality CO2 (ppm) Displays the current CO2 sensor value.

(Applicable if IAQ Source is not set to N/A.)

R: 0 to 9999 ppm

Shutdown When Active, provides a means to stop heating and cooling in an orderly manner. All alarms are reset and current active alarms are displayed.

D:

R:

Inactive

Inactive/Active

Appendix C: Fan Coil for AppController Points/Properties

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Unit Configuration

Navigation: i-Vu / Field Assistant: Properties > Control Program > Configuration > Unit Configuration

Point Name/Description Default/Range

Heat Enable Enables or disables heating operation. D:

R:

Enable

Disable/Enable

Cool Enable Enables or disables cooling operation. D:

R:

Enable

Disable/Enable

Reheat Enable Enables a heating coil in the reheat position to temper the supply air. During dehumidification or IAQ override, reheat is active if all of the following are true:

The SPT is 1 F less than the Occupied Cooling Setpoint

Heat Type (Service Configuration) is not set to None

2-Pipe Changeover (Service Configuration) is set to No

Heating Coil Position (Service Configuration) is set to Reheat

D:

R:

Disable

Disable/Enable

Fan Mode The supply fan's operating mode.

Options: Auto - The fan cycles on/off in conjunction with heating or cooling.

Continuous - The fan runs continuously during occupancy and intermittently during unoccupied periods with heating or cooling.

Always On - The fan runs continuously regardless of occupancy or calls for heating and cooling.

D:

R:

Auto

Auto Continuous Always On

Fan On Delay How long the fan should delay starting after heating or cooling starts. Automatically overridden to 0 if configured for DX cooling or electric heat is active.

D:

R:

10 seconds

0 to 60 seconds

Fan Off Delay The number of seconds that the fan continues to run after heating or cooling has ended.

D:

R:

90 seconds

0 to 180 seconds

Unoccupied Fan Cycling When set to Enable, the controller cycles the indoor fan on for 1 minute each hour during the unoccupied time period.

D:

R:

Enable

Disable/Enable

Minimum Cooling SAT In cooling mode, the cooling outputs are controlled so that the supply air temperature does not drop below this value.

D:

R:

50F (10C)

38 to 60F (3.3 to 15.5C)

Maximum Heating SAT In heating mode, the heating outputs are controlled so the supply air temperature does not rise above this value.

D:

R:

90F (32.2C)

80 to 140F (26.6 to 60C)

Temper/Reheat SAT The desired supply air temperature to be maintained during dehumidification or IAQ override. Reheat Enable must be set to Enable.

D:

R:

68F (20C)

55 to 85F (12.7 to 29.4C)

Appendix C: Fan Coil for AppController Points/Properties

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Point Name/Description Default/Range

Fan Off Value Hydronic heating only - The supply air temperature, read from the SAT sensor, to be maintained when the fan is off.

D:

R:

50F (10C)

40 to 120F (4.4 to 48.9C)

Vent Dmpr Pos / DCV Min Pos The minimum outdoor air damper position maintained

during occupied periods. Service Configuration > Ventilation Damper Type must be set to DCV.

D:

R:

20%

0 to 100%

DCV Max Vent Damper Pos The maximum outdoor air damper position allowed while DCV is active.

D:

R:

100%

0 to 100%

Filter Service Alarm Timer The amount of time the fan will run before generating a Filter Alarm. Set to 0 to disable the alarm and reset accumulated fan hours.

D:

R:

600 hr

0 to 9999 hr

Pushbutton Override Enables or disables the use of a pushbutton override from a local space temperature sensor.

D:

R:

Enable

Disable/Enable

T55 Override Duration The amount of time that the controller runs in the occupied

mode when a user presses the T55 sensor's override button for 1 to 10 seconds. Pushbutton Override must be set to Enable.

D:

R:

0 hr

0 to 4 hrs

Setpoint Adjustment Enables or disables the setpoint adjustment mechanism on the local space sensor.

D:

R:

Enable

Disable/Enable

Setpoint Adjustment Range - The maximum amount that a user can adjust the setpoint on the local SPT sensor.

D:

R:

5 F (2.7 C)

0 to 5 F (0 to 2.7 C)

Cooling Lockout Temperature Cooling is inhibited below this outdoor air temperature. D:

R:

45F (7.2C)

-65 to 80F (-53.9 to 26.6C)

Heating Lockout Temperature Heating is inhibited above this outdoor air temperature.

D:

R:

65F (18.3C)

35 to 150F (1.6 to 65.5C)

Power Fail Restart Delay How long the controller delays normal operation after the

power is restored. Typically used to prevent excessive demand when recovering from a power failure.

D:

R:

5 seconds

0 to 600 seconds

Occ Override Delay The amount of time the controller remains occupied after the remote occupancy switch returns to the unoccupied position.

D:

R:

15 minutes

0 to 240 minutes

Occupancy Schedules Enables or disables the occupancy schedule function. D:

R:

Enable

Disable/Enable

Sensor Calibration

Space Temperature The current space temperature. R: -56 to 245F (-48.9 to 118.3C)

Space Temp Calibration A calibration offset value to allow the local space temperature sensor to be adjusted to match a calibrated standard measuring the temperature in the same location.

D:

R:

0 F/ C

-9.9 to 10 F (-5.5 to 5.5 C)

Appendix C: Fan Coil for AppController Points/Properties

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Point Name/Description Default/Range

Supply Air Temperature Displays the current supply air temperature. R: -56 to 245F (-48.9 to 118.3C)

Supply Air Temp Calibration A calibration offset value to allow the supply air temperature sensor to be adjusted to match a calibrated standard measuring the temperature in the same location.

D:

R:

0 F/ C

-9.9 to 10 F (-5.5 to 5.5 C)

Return Air Temperature Displays the current return air temperature. R: -56 to 245F (-48.9 to 118.3C)

Return Air Temp Calibration A calibration offset value to allow the return air temperature sensor to be adjusted to match a calibrated standard measuring the temperature in the same location.

D:

R:

0 F/ C

-9.9 to 10 F (-5.5 to 5.5 C)

Space Relative Humidity Displays the current value of relative humidity sensor, if present. (Applicable if Relative Humidity Source is not set to N/A.)

R: 0 to 100%

Relative Humidity Calibration A calibration offset value allows the local relative

humidity sensor to be adjusted to match a calibrated standard measuring the space relative humidity in the same location.

D:

R:

0%rh

-15 to 15%rh

Changeover Temperature The current value of the system water temperature, if present.

R: -56 to 245F (-48.9 to 118.3C)

Changeover Temp Sensor Calibration A calibration offset value allows the changeover

water temperature sensor to be adjusted to match a calibrated standard measuring the temperature in the same location.

D:

R:

0 F/ C

-9.9 to 10 F (-5.5 to 5.5 C)

Appendix C: Fan Coil for AppController Points/Properties

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61

Setpoints

Navigation: i-Vu / Field Assistant: Properties > Control Program > Configuration > Setpoints

Select a color band on the setpoint graph to see the current setpoints in the Heating and Cooling fields. The values in this graphic are Fahrenheit. See setpoint descriptions below.

NOTE This graphic is an example only. Your setpoints may differ.

Appendix C: Fan Coil for AppController Points/Properties

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62

Occupied Setpoints

The occupied setpoints described below are the setpoints under normal operating conditions. The Demand Level 13 setpoints apply if demand limiting is used.

Demand limiting is a cost-saving strategy to reduce energy consumption. The strategy expands the occupied heating and

cooling setpoints when the system reaches one of 3 levels of consumption. With the expanded setpoints, the equipment works less, thereby saving energy. By default, Demand Level 1 expands the occupied heating and cooling setpoints by

1 F ( .5C), Demand Level 2 by 2 F (1.1 C), and Demand Level 3 by 4 F (2.2 C). If the occupied heating or cooling setpoints change, the (effective) demand level setpoints automatically change by the same amount. See Sequence of Operation for more information.

Default

Range: -40 to 245F (-40 to 118.3C)

Demand Level

Point Name/Description Occupied 1 2 3

Occupied Heating Green

The heating setpoint the controller maintains while in occupied mode.

D:

R:

70F (21.1C)

40 to 90F (4.4 to 32.2C)

69F (20.5C)

68F (20C)

66F (18.9C)

Occupied Cooling Green

The cooling setpoint the controller maintains while in occupied mode.

D:

R:

76F (24.4C)

55 to 99F (12.7 to 37.2C)

77F (25C)

78F (25.5C)

80F (26.6C)

Occupied Heating 1 Light Blue The space temperature must be less than the Occupied

Heating 1 setpoint for the VVT Master to consider the zone a heating caller in a linked system. In a single-zone application,

the heating requirement begins as soon as the space temperature falls below the Occupied Heating setpoint. We

recommend that the Occupied Heating 1 value be set no less than 0.5 F (.27 C) below the Occupied Heating setpoint.

69F (20.5C)

68F (20C)

67F (19.4C)

65F (18.3C)

Occupied Heating 2 Dark Blue The space temperature must be less than the Occupied

Heating 2 setpoint to generate a low space temperature

alarm. We recommend that this value be set no less than 0.5 F (.27 C) below the Occupied Heating 1 setpoint.

67F (19.4C)

66F (18.9C)

65F (18.3C)

63F (17.2C)

Occupied Cooling 1 Yellow The space temperature must be greater than the Occupied

Cooling 1 setpoint for the VVT Master to consider the zone a cooling caller in a linked system. In a single-zone application,

the cooling requirement begins as soon as the space temperature exceeds the Occupied Cooling setpoint. We

recommend that the Occupied Cooling 1 value be set no less than 0.5 F (.27 C) above the Occupied Cooling setpoint.

77F (25C)

78F (25.5C)

79F (26.1C)

81F (27.2C)

Occupied Cooling 2 Orange The space temperature must be greater than the Occupied

Cooling 2 setpoint to generate a high space temperature

alarm. We recommend that this value be set no less than 0.5 F (.27 C) above the Occupied Cooling 1 setpoint.

79F (26.1C)

80F (26.6C)

81F (27.2C)

83F (28.3C)

Appendix C: Fan Coil for AppController Points/Properties

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63

Unoccupied Setpoints

Point Name/Description Default/Range

Unoccupied Heating Gray The heating setpoint the controller maintains while in unoccupied mode.

D:

R:

60F (15.5C)

40 to 90F (4.4 to 32.2C)

Unoccupied Cooling Gray The cooling setpoint the controller maintains while in unoccupied mode.

D:

R:

90F (32.2C)

45 to 99F (7.2 to 37.2C)

Unoccupied Heating 1 Light Blue The space temperature must be less than the Unoccupied Heating 1 setpoint for the

VVT Master to consider the zone an unoccupied heating caller in a linked system. In a single-zone application, the unoccupied heating requirement begins as soon as the

space temperature falls below the Unoccupied Heating setpoint. We recommend that the Unoccupied Heating 1 value be set no less than 0.5 F (.27 C) below the Unoccupied Heating setpoint.

D:

R:

59F (15C)

40 to 90F (4.4 to 32.2C)

Unoccupied Heating 2 Dark Blue The space temperature must be less than the Unoccupied Heating 2 setpoint to

generate an unoccupied low space temperature alarm. We recommend that this value be set no less than 0.5 F (.27 C) below the Unoccupied Heating 1 setpoint.

D:

R:

57F (13.9C)

40 to 90F (4.4 to 32.2C)

Unoccupied Cooling 1 Yellow The space temperature must be greater than the Unoccupied Cooling 1 setpoint for the

VVT Master to consider the zone an unoccupied cooling caller in a linked system. In a single-zone application, the unoccupied cooling requirement begins as soon as the

space temperature exceeds the Unoccupied Cooling setpoint. We recommend that the Unoccupied Cooling 1 value be set no less than 0.5 F (.27 C) above the Unoccupied Cooling setpoint.

D:

R:

91F (32.7C)

45 to 99F (7.2 to 37.2C)

Unoccupied Cooling 2 Orange

The space temperature must be greater than the Unoccupied Cooling 2 setpoint to

generate an unoccupied high space temperature alarm. We recommend that this value be set no less than 0.5 F (.27 C) above the Unoccupied Cooling 1 setpoint.

D:

R:

93F (33.9C)

45 to 99F (7.2 to 37.2C)

Heating Capacity Used for Optimal Start, this is the rate at which the space temperature changes when the heating system runs at full capacity to maintain designed occupied heating setpoint.

D: R:

3 F (1.6 C)/hr

0 to 120 F (0 to 66.6 C)/hr

Heating Design Temp The geographically-based outdoor air temperature at which the

heating system must run constantly to maintain comfort. This information is available in ASHRAE publications and most design references.

D:

R:

0F/C

-100 to 150F (-73.3 to 65.5C)

Cooling Capacity Used for Optimal Start, this is the rate at which the space

temperature changes when cooling system runs at full capacity to maintain designed occupied cooling setpoint.

D:

R:

3 F (1.6 C)/hr

0 to 140 F (0 to 77.7 C)/hr

Cooling Design Temp The geographically-based outdoor air temperature at which the cooling system must run constantly to maintain comfort. This information is available in ASHRAE publications and most design references.

D:

R:

100F (37.7C)

-100 to 150F (-73.3 to 65.5C)

Appendix C: Fan Coil for AppController Points/Properties

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Installation and Start-up Guide All rights reserved

64

Hysteresis The desired difference between the temperature at which the zone color changes as the space temperature departs from the acceptable range between the

heating and cooling setpoints (green) into the Cooling 1 (yellow) or Heating 1 (light blue) and the temperature at which the zone color changes back to the acceptable range between the heating and cooling setpoints.

For example, the following graph shows the zone color that results as the space

temperature departs from and returns to the acceptable range in a zone with the following settings:

Color Change Hysteresis = .5 F (.27 C) (applies as the temperature returns to the acceptable range)

Occupied cooling setpoint = 76F (24.4C)

Occupied heating setpoint = 70F (21.1C)

NOTE The values in the graph below are Fahrenheit.

Time

Temp

Occupied heating setpoint: 70

75.5

70.5

Occupied cooling setpoint: 76 .5 hysteresis

.5 hysteresis

D:

R:

0.5 F (.27 C)

0 to 120 F (0 to 66.6 C)

Learning Adaptive Optimal Start

When the Learning Adaptive Optimal Start algorithm runs, the learned heating capacity or learned cooling capacity values are adjusted based on the color that is achieved when occupancy begins. The adjustment amounts for each color are displayed in the thermographic color fields (shown above with English default values).

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Point Name/Description Range

English

Metric

Red The amount the zones learned heating capacity is adjusted when the Learning

Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is red.

D:

R:

0.1900

0 to 1

.1055

0 to 0.5555

DkBlue The amount the zones learned heating capacity is adjusted when the Learning Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is dark blue.

D:

R:

0.1300

0 to 1

.0722

0 to 0.5555

LtBlue The amount the zones learned heating capacity is adjusted when the Learning

Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is light blue.

D:

R:

0.0600

0 to 1

.0333

0 to 0.5555

Green The amount the zones learned heating capacity is adjusted when the Learning

Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is green.

D:

R:

0.0600

0 to 1

.0333

0 to 0.5555

SpGrn The amount the zones learned cooling capacity is adjusted when the Learning Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is green.

D:

R:

0.0600

0 to 1

.0333

0 to 0.5555

Yellow The amount the zones learned cooling capacity is adjusted when the Learning

Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is yellow.

D:

R:

0.0600

0 to 1

.0333

0 to 0.5555

Orange The amount the zones learned cooling capacity is adjusted when the

Learning Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is orange.

D:

R:

0.1300

0 to 1

.0722

0 to 0.5555

Red The amount the zones learned cooling capacity is adjusted when the Learning Adaptive Optimal Start algorithm runs, when the zones thermographic color at occupancy is red.

D:

R:

0.1900

0 to 1

.1055

0 to 0.5555

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Effective Setpoints

The Effective Setpoints graph shows the current occupied or unoccupied setpoints. If occupied, these values are the

current programmed setpoints plus the offset of any setpoint adjustment that may be in effect. If unoccupied, the values are the programmed unoccupied setpoints. The values in the above graphic are Fahrenheit.

Point Name/Description Default/Range

Heating (Occupied or Unoccupied, depending on mode) The current programmed Heating setpoint adjusted by any offset that may be in effect.

R: 0 to 120F (-17.7 to 48.9C)

Cooling (Occupied or Unoccupied, depending on mode) The current programmed Cooling setpoint adjusted by any offset that may be in effect.

R: 0 to 120F (-17.7 to 48.9C)

Learned cooling capacity The cooling capacity learned by Learning Adaptive Optimal

Start that is required to bring the space temperature down to the occupied cooling setpoint prior to the occupied time.

R: _F/C

Learned heating capacity The heating capacity learned by Learning Adaptive Optimal

Start that is required to bring the space temperature up to the occupied heating setpoint prior to the occupied time.

R: _F/C

Min Setpoint Separation Minimum separation that must be maintained between the heating and cooling setpoints. May be adjusted at Configuration > Service

Configuration > Min Setpoint Separation. See the Service Configuration for additional detail.

R: _F/C

Optimal Start The number of hours prior to occupancy, at which the Optimal Start

function may begin to adjust the effective setpoints to achieve the occupied setpoints by the time scheduled occupancy begins. Enter 0 to disable Optimal Start.

NOTE Optimal Start is automatically disabled when occupancy is controlled by a network write to the controller's keypad_ovrde variable. (Display name: BAS On/Off, in

Properties > Control Program > Maintenance > Occupancy > BAS On/Off. or when utilizing Airside Linkage or the System Occupancy Network Variable.

D:

R:

1 hr

0 to 4 hrs

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Point Name/Description Default/Range

Optimal Start Type The method used to change from unoccupied to occupied setpoint.

Options: None* Unit will not change to occupied setpoint until the scheduled time or the unit

goes into an occupied mode. Setpoints do not ramp, but change immediately from unoccupied to occupied values.

Temp Compensated* Unit changes to occupied setpoints at a variable time prior to the occupied time, which is calculated by the current difference between space

temperature and the appropriate heating or cooling setpoint. At that time, the setpoints do not ramp, but change immediately from unoccupied to occupied values.

Learning Adaptive Start Unit gradually changes to occupied setpoints by adjusting the unoccupied setpoints over a specified period of time to achieve the occupied setpoint by the time scheduled occupancy begins.

*When selecting None or Temp Compensated, you should set all Learning Adaptive Optimal Start transition factors to 0, as shown below.

D:

R:

Temperature Compensated

None

Temperature Compensated Learning Adaptive

Heat Start K factor (min/deg) If Optimal Start Type is Temp Compensated, this is the time in minutes per degree that the equipment starts before the occupied period when

the space temperature is below the occupied heating setpoint (including any setpoint offset).

D:

R:

15.00 (27.00)

0 to 99 (0 to 177)

Cool Start K factor (min/deg) If Optimal Start Type is Temp Compensated, this is the

time in minutes per degree that the equipment starts before the occupied period when the space temperature is above the occupied cooling setpoint (including any setpoint offset).

D:

R:

15.00 (27.00)

0 to 99 (0 to 177)

Occ Relative Humidity Setpoint The control setpoint used during occupied periods. Configuration > Service Configuration > RH Control must be set to Enable.

D:

R:

60%rh

0 to 100%rh

Unocc Relative Humidity Setpoint The control setpoint used during unoccupied periods. Configuration > Service Configuration > RH Control must be set to Enable.

D:

R:

95%rh

0 to 100%rh

DCV Start Ctrl Setpoint The value that the CO2 level must exceed to begin the IAQ

control function. Configuration > Service Configuration > Ventilation Damper Type must be set to DCV.

D:

R:

500ppm

0 to 9999 ppm

DCV Max Ctrl Setpoint The value that the CO2 level must exceed for the IAQ function

to control the damper to its DCV Max Vent Damper Pos. Configuration > Service Configuration > Ventilation Damper Type must be set to DCV.

D:

R:

1000ppm

0 to 9999 ppm

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Setpoints for ZS and wireless sensors

Setpoints for ZS and wireless sensors

To configure setpoint properties for ZS or wireless sensors, Ctrl+click anywhere on the Zone Setpoints: graph at the top of the Setpoints section in order to access the Properties microblock popup.

In the popup, on the Properties > Sensor tab, configure ZS or wireless sensors for Setpoint Adjust.

Edit Increment Amount of offset in degrees for each press of the up or down arrows on the ZS or wireless sensor for setpoint adjustment.

D:

R:

1

0.1

0.5 1

Allow Setpoint Adjust Check to allow setpoint adjustments on the specified ZS or Carrier wireless sensor.

D:

R:

(1) enabled

disabled/enabled

Sensor Setpoint Adjust Option Check to select the ZS or wireless setpoint adjustment display.

D: 3

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Alarm Configuration

Navigation: i-Vu / Field Assistant: Properties > Control Program > Configuration > Alarm Configuration

Point Name/Description Default/Range

Space Temperature Alarm

Occupied Alarm Hysteresis This value is added to the occupied high effective setpoint and subtracted from the occupied low effective setpoint to establish the occupied high

and low limits that the space temperature must exceed before an occupied SPT alarm is generated. The alarm returns to normal when the space temperature drops below the high effective setpoint or rises above the low effective setpoint.

D:

R:

5 F (2.7 C)

2 to 20 F (1.1 to 11.1 C)

Alarm Delay (min/deg) Determines the amount of delay before an occupied space temperature alarm is generated when the controller transitions to the occupied mode.

The delay time equals this value multiplied by the difference between the sensor temperature and occupied alarm setpoint plus 15 minutes.

D:

R:

10 minutes

0 to 30 minutes

Unoccupied Low SPT Alarm Limit The value that the space temperature must drop below to generate a Space Temperature Alarm in the unoccupied mode. There is a fixed hysteresis of 1 F (.5 C) for return to normal.

D:

R:

45F (7.2C)

35 to 90F (1.6 to 32.2C)

Unoccupied High SPT Alarm Limit The value that the space temperature must exceed

to generate a Space Temperature Alarm in the unoccupied mode. There is a fixed hysteresis of 1 F (.5 C) for return to normal.

D:

R:

95F (35C)

45 to 100F (7.2 to 37.7C)

Supply Air Temperature Alarm

Low SAT Alarm Limit The value that the supply air temperature must drop below to

generate a Supply Air Temp Alarm. There is a fixed hysteresis of 3 F (1.6 C) for return to normal.

D:

R:

45F (7.2C)

15 to 90F (-9.4 to 32.2C)

High SAT Alarm Limit The value that the supply air temperature must exceed to generate a Supply Air Temp Alarm. There is a fixed hysteresis of 3 F (1.6 C) for return to normal.

D:

R:

120F (48.9C)

90 to 175F (32.2 to 79.4C)

Return Air Temperature Alarm

Low RAT Alarm Limit The value that the return air temperature must drop below to generate a Return Air Temp Alarm. There is a fixed hysteresis of 1 F (.6 C) for return to normal.

D:

R:

50F (10C)

35 to 90F (1.6 to 32.2C)

High RAT Alarm Limit The value that the return air temperature must exceed to

generate a Return Air Temp Alarm. There is a fixed hysteresis of 1 F (.5 C) for return to normal.

D:

R:

120F (48.9C)

70 to 140F (21.1 to 60C)

Condensate Overflow Alarm

Overflow Alarm Delay The delay time before an alarm is generated after the alarm condition occurs.

D:

R:

10 seconds

5 to 600 seconds

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Point Name/Description Default/Range

Space Humidity Alarm

Occupied High RH Alarm Limit The value that the relative humidity sensor must exceed to generate a Space Humidity Alarm in the occupied mode if RH Control is set to Enable. There is a fixed hysteresis of 5%rh for return to normal.

D:

R:

100%rh

45 to 100%rh

Alarm Delay (min/%RH) Determines the amount of delay before an occupied RH

alarm is generated when the controller transitions to the occupied mode. The delay time equals this value multiplied by the difference between the sensor RH value and the occupied RH setpoint plus 15 minutes.

D:

R:

5 minutes

0 to 30 minutes

Unocc High RH Alarm Limit The value that the relative humidity sensor must exceed to generate a Space Humidity Alarm in the unoccupied mode if RH Control is set to Enable. There is a fixed hysteresis of 5%rh for return to normal.

D:

R:

100%rh

45 to 100%rh

IAQ / Ventilation Alarm

Occupied High CO2 Alarm Limit The value that the CO2 sensor must exceed to

generate an Indoor Air Quality Alarm in the occupied mode if DCV Control is set to Enable. There is a fixed hysteresis of 100ppm for return to normal.

D:

R:

1100ppm

0 to 9999 ppm

Alarm Delay (min/ppm) The fractional portion of a minute used to determine the amount of delay before an indoor air quality alarm is generated when the controller

transitions to the occupied mode. The delay time equals this value multiplied by the

difference between the sensor CO2 value and the setpoint plus 15 minutes.

D:

R:

0.25 minutes

0.10 to 1.00 minutes

Alarms Displayed on ZS or SPT Sensor (if optional sensor is connected)

Space Temperature Alarm If set to display, shows the alarm indicator on the communicating zone sensors, if the Space Temperature alarm is active.

D:

R:

Ignore

Ignore/Display

Supply Air Temp Alarm If set to display, shows the alarm indicator on the communicating zone sensors, if the Supply Air Temp alarm is active.

D:

R:

Ignore

Ignore/Display

Return Air Temp Alarm If set to display, shows the alarm indicator on the communicating zone sensors, if the Return Air Temp alarm is active.

D:

R:

Ignore

Ignore/Display

Condensate Overflow Alarm If set to display, shows the alarm indicator on the communicating zone sensors with display, if the Condensate Overflow alarm is active.

D:

R:

Display

Ignore/Display

Space High Humidity Alarm If set to display, shows the alarm indicator on the SPT Pro and SPT Pro Plus' sensor if the Space Relative Humidity alarm is active.

D:

R:

Ignore

Ignore/Display

Space High CO2 Alarm If set to display, shows the alarm indicator on the SPT Pro and SPT Pro Plus' sensor if the Indoor Air Quality alarm is active.

D:

R:

Ignore

Ignore/Display

Freezestat Alarm If set to display, shows the alarm indicator on the communicating zone sensors if the Freezestat alarm is active.

D:

R:

Display

Ignore/Display

Fire/Smk Alarm If set to display, shows the alarm indicator on the communicating zone sensors, if the Fire/Smoke Alarm is active.

D:

R:

Display

Ignore/Display

Fan Failure Alarm If set to display, shows the alarm indicator on the communicating zone sensors with display, if the Supply Fan Failure alarm is active.

D:

R:

Ignore

Ignore/Display

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Point Name/Description Default/Range

Maintenance Displayed on ZS Sensor

ZS Config Fault If set to display, shows the maintenance indicator on the ZS Pro Sensor, if ZS Sensor is configured incorrectly.

D:

R:

Ignore

Ignore/Display

Air Side Linkage Fault If set to display, shows the maintenance indicator on a ZS Sensor with display, if the Airside Linkage is in a Fault condition.

D:

R:

Ignore

Ignore/Display

Thermostat Linkage Fault If set to display, shows the maintenance indicator on the ZS Pro Sensor, if Thermostat Linkage is in a Fault condition.

D:

R:

Ignore

Ignore/Display

Dirty Filter Alarm If set to display, shows the alarm indicator on the communicating zone sensors, if a Filter alarm is active.

D:

R:

Display

Ignore/Display

Net OAT Fault If set to display, shows the maintenance indicator on a ZS Sensor, if the network outside air reading is not valid.

D:

R:

Ignore

Ignore/Display

SPT Sensor Fault If set to display, shows the maintenance indicator on a ZS Sensor with display, if the zone temperature sensor reading is not valid.

D:

R:

Ignore

Ignore/Display

Service Configuration

Navigation: i-Vu / Field Assistant: Properties > Equipment > Configuration > Service Configuration

Point Name/Description Default/Range

# of Fan Speeds The number of fan motor speeds. D:

R:

Three

One

Two Three

High Speed EH Only Multi-speed fan applications. When enabled and electric heat is active, the fan runs at high speed. Viewable only when Service Test is enabled and Heat Test is active.

D:

R:

Enable

Disable/Enable

Fan (G) Output Type When set to Fan On, G output is energized when any fan speed is

active (required for ECM and 33ZC fan control board). When set to Fan Low, the output is only energized for Low Speed.

D:

R:

Fan Low

Fan On/Fan Low

2-Pipe Changeover Indicates that the water source connected to this equipment

supplies both heating and cooling depending on the season. Set to Yes if water source is not a dedicated heating and cooling source.

D:

R:

No

No/Yes

Changeover Config Defines the type of sensor that determines the suitability of the water in a 2-pipe changeover system. Requires Configuration > Service Configuration > 2-Pipe Changeover set to Yes.

D:

R:

Thermistor

Switch/Thermistor

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Point Name/Description Default/Range

Changeover Cool Limit Defines the lower limit of a changeover system and determines when the water is suitable for cooling. Temperatures below this value are

suitable. Configuration > Service Configuration > 2-Pipe Changeover must be set to Yes. Only valid if Changeover Config is set to Thermistor.

D:

R:

60F (15.5C)

40 to 65F (4.4 to 18.3C)

Changeover Heat Limit Defines the upper limit of a changeover system and determines when the water is suitable for heating. Temperature above this value is

considered suitable. Configuration > Service Configuration > 2-Pipe Changeover must be set to Yes Only valid if Changeover Config is set to Thermistor.

D:

R:

80F (26.6C)

65 to 99F (18.3 to 37.2C)

Heat Type The type of heating that the unit has. Selecting 2-Pipe Electric automatically sets 2-Pipe Changeover to Yes.

D:

R:

2-Position

None Modulating

2-Position 1 Stage Electric 2-Pipe/Electric

Heating Coil Position When 2 or more coils are present, the position of the heating

coil in the air stream, with respect to the cooling coil. Preheat indicates a heating coil is before the cooling coil. Reheat indicates the heating coil is after the cooling coil. Configuration > Service Configuration > 2-Pipe Changeover must be set to No.

D:

R:

Reheat

Preheat/Reheat

Valve Control Defines the type of valve control used. Applies when Heat Type is configured for 2-Pipe/Electric only.

D:

R:

Modulating

Modulating 2-Position

Valve Type Indicates the position of the control valve with no power applied.

Applicable to 2-Pipe Changeover systems (2-position or modulating Heat Type only), or the hot water valve in 4-pipe (non 2-pipe changeover) systems.

D:

R:

NC

NC (normally closed) NO (normally open)

Cool Type The type of cooling that the unit has. Applicable to non-2-pipe changeover systems only and is visible when Properties > Equipment > Configuration > Service Configuration > 2-Pipe Changeover is set to No.

D:

R:

2-Position

None

Modulating 2-Position 1 Stage DX

Cooling Valve Type Indicates the position of the cooling valve with no power applied.

Applicable to 2-position cooling valves used with F&B control or modulating cooling valves used in cooling only or non-changeover applications.

D:

R:

NC

NC (normally closed) NO (normally open)

Ventilation Damper Type The ventilation damper control being used.

D:

R:

None

None 2-Pos DCV

Damper Actuator Type Used to determine damper output signal range (closed open).

D:

R:

0-10 V

0-10 V 2-10 V

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Point Name/Description Default/Range

Hardwired Sensor The type of sensor used on the controller's RH/IAQ hardwire input. This setting determines the control channel input function.

Options: RH Sensor Relative humidity for zone dehumidification IAQ Sensor Indoor air quality for DCV control

NOTE RH and IAQ are also available with communicating ZS or Wireless RH and ZS CO2

sensors.

D:

R:

None

None

RH Sensor IAQ Sensor

RH Control Enables or disables zone dehumidification control if valid RH sensor values are available.

D:

R:

Disable

Disable/Enable

Min Setpoint Separation Minimum separation that must be maintained between the heating and cooling setpoints.

D:

R:

5 F (2.7 C)

2 to 10 F (1.1 to 5.5 C)

Input Ch #5 Function Determines the function of the input connected to channel #5.

NOTE When using Wireless Remote Occupancy contact for Carrier wireless sensors:

D: Fan Status R: Fan Status/Freezestat

D:

R:

Remote Occupancy

Fan Status

Freezestat Remote Occupancy

Ch #5 Normal Logic State Specifies the state of the contact when the input #5 is in the normal state. (Either unoccupied or the fan is off.)

D:

R:

Open

Open/Closed

Overflow Switch Alarm State Specifies the alarm state of condensate switch input. (The unit shuts down if this point is in alarm.)

D:

R:

Closed

Open/Closed

CO2 Sensor Min Input Volts The lowest voltage that should be read from the

hardwired CO2 sensor. Configuration > Service Configuration > Hardwired Sensor must

be set to IAQ Sensor.

D:

R:

1.00 V

0 to 2 V

CO2 Sensor Max Input Volts The highest voltage that should be read from the

hardwired CO2 sensor. Configuration > Service Configuration > Hardwired Sensor must

be set to IAQ Sensor.

D:

R:

5.00 V

2 to 5 V

CO2 Sensor Value @ Min Volts The ppm value that correlates to the hardwired CO2

sensor's low voltage reading. Configuration > Service Configuration > Hardwired Sensor must be set to IAQ Sensor.

D:

R:

0 ppm

0 to 9999 ppm

CO2 Sensor Value @ Max Volts The ppm value that correlates to the hardwired CO2

sensor's high voltage reading. Configuration > Service Configuration > Hardwired Sensor must be set to IAQ Sensor.

D:

R:

2000 ppm

0 to 9999 ppm

RH Sensor Min Input Volts The lowest voltage that should be read from the hardwired

relative humidity (RH) sensor. Configuration > Service Configuration > Hardwired Sensor must be set to RH Sensor.

D:

R:

0.00 V

0 to 2 V

RH Sensor Max Input Volts The highest voltage that should be read from the hardwired RH sensor. Configuration > Service Configuration > Hardwired Sensor must be set to RH Sensor.

D:

R:

5.00 V

0 to 5.00 V

RH Sensor Value @ Min Volts The % relative humidity that correlates to the hardwired

RH sensor's low voltage reading. Configuration > Service Configuration > Hardwired Sensor must be set to RH Sensor.

D:

R:

100%

60 to 100%

RH Sensor Value @ Max Volts The % relative humidity that correlates to the hardwired

RH sensor's high voltage reading. Configuration > Service Configuration > Hardwired Sensor must be set to RH Sensor.

D:

R:

0%

0 to 40%

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Point Name/Description Default/Range

RAT Temp Control When set to Enable, control uses RAT value rather than the communicating sensors temperature value. Configuration > Service Configuration > Hardwired Sensor must be set to RH Sensor.

D:

R:

Disable

Disable/Enable

Sensor Binder / Zone Temp / Zone Humidity / ZS Zone CO2

Ctrl+click on the name of these properties to access the microblock popup Properties

page > Details tab. See below for instructions on configuring your ZS or Wireless sensors.

See the microblock Help for more detailed explanations.

Sensor Binder - Use the Associated Sensors table to configure the Rnet to use additional ZS or Wireless sensors.

Network Type - Set to Rnet

Address - Enter the DIP switch settings that are on the additional ZS sensors (up to

5 total) or RnetID assigned to each Wireless sensor in SensorBuilder

Lock Display - Check to make the sensor display-only

D: (Index) - (1)

Network Type - Rnet

Address - 1

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Point Name/Description Default/Range

Zone Temp - Configure additional ZS or wireless temperature sensors used on the controller.

Use - Check to include ZS or wireless sensors' value in the Combined Algorithm (Average is the default).

Raw Value - Displays sensed temperature for each ZS or wireless temperature sensor's address

Calibration - If needed, enter value to adjust the Corrected Value from the Raw

Value, in order to calibrate an individual ZS or wireless sensor's sensed value.

Combination Algorithm - Use Average, Maximum, or Minimum zone temperature to calculate the Corrected Value for temperature control.

D:

(Index) Area - (1) Main Sensor

Use - checked

Calibration - 0

Combination Algorithm - Average

Input Smoothing - None

Show on Sensors - Calculated Value

Display Resolution - 1

COV Increment - .1

ZS Zone CO2 - Configure additional ZS CO2 sensors used on the controller.

Use - Check to include ZS sensors' value in the Combined Algorithm (Maximum is the default).

Raw Value -Displays sensed CO2 for each ZS CO2 sensor's address

Calibration - If needed, enter value to adjust the Corrected Value from the Raw Value, in order to calibrate an individual ZS sensor's sensed value.

Combination Algorithm - Use Average, Maximum, or Minimum ZS CO2 to calculate

the Corrected Value for CO2 control.

(Index) Area - (1) Main ZS Sensor

Use - unchecked

Calibration - 0

Combination Algorithm - Maximum

Input Smoothing - Medium

Show on Sensors - Calculated Value

Display Resolution - 1

COV Increment - 10

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Point Name/Description Default/Range

Zone Humidity - Configure additional ZS or wireless humidity sensors used on the controller.

Use - Check to include ZS or wireless sensors' value in the Combined Algorithm (Maximum is the default).

Raw Value - Displays sensed humidity for each ZS or wireless humidity sensor's address

Calibration - If needed, enter value to adjust the Corrected Value from the Raw

Value, in order to calibrate an individual ZS or wireless sensor's sensed value.

Combination Algorithm - Use Average, Maximum, or Minimum ZS or wireless humidity to calculate the Corrected Value for humidity control.

D: (Index) Area - (1) Main Sensor

Use - unchecked

Calibration - 0

Combination Algorithm - Maximum

Input Smoothing - None

Show on Sensors - Calculated Value

Display Resolution - 1

COV Increment - 1

WS Battery Strength % Displays charge strength indicated on the wireless space temperature sensor. If there are multiple wireless sensors, it displays the lowest value.

R: %

WS Signal Strength % Displays radio signal strength of the wireless space temperature sensor. If there are multiple wireless sensors, it displays the lowest value.

R: %

Rnet Sensed Occupancy Displays occupancy status detected by wireless infrared motion sensor.

R: Off/On

ZS model to show on graphic Select the ZS model, from the drop-down list, that you want to display on the graphic.

D:

R:

ZS Pro-F model

ZS Base model

ZS Plus model ZS Pro model ZS Pro-F model

WS model to show on graphic Select the wireless model, from the drop-down list, that you want to display on the graphic.

D:

R:

WS Plus model

WS Base model

WS Plus model WS Pro model

Net Space Temp to show on graphic Select the type of sensor to display on graphic. D:

R:

Equipment Touch

Network Temp Equipment Touch

System Space Temperature Allows this controller to use a space temperature value

from another controller over the network. The remote controller must be equipped with a network-accessible space temperature sensor.

D:

R:

-999.0F (-999.0C)

-50 to 150F (-45.5 to 65.5C)

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Point Name/Description Default/Range

System Setpoint Adjustment The space temperature setpoint adjustment value received over the network.

D:

R:

-999.0F (-999.0C)

-5 to 5 F (-2.7 to 2.7 C)

System Space RH Allows using another controller's relative humidity value over the

network. The remote controller must be equipped with a network-accessible relative humidity sensor value.

D:

R:

-999

2 to 100%

System Space AQ Allows this controller to use a CO2 value from another controller

over the network. The remote controller must be equipped with a network-accessible

CO2/IAQ sensor value.

D:

R:

-999

300 to 9999 ppm

System Cool Demand Level The system cool demand level being received over the network.

D:

R:

0.00

0 to 3

System Heat Demand Level The system heat demand level being received over the network.

D:

R:

0.00

0 to 3

System Outdoor Air Temperature Allows the controller to use an outdoor air

temperature value from the network. The remote controller must have a network- accessible outdoor air temperature sensor value.

D:

R:

-999.0F (-999.0C)

-50 to 150F (-45.5 to 65.5C)

System Water Temperature Allows a changeover temperature sensor value (system

water temperature) from a central water plant to be read over the network and used by this controller. The remote controller must be equipped with a leaving water temperature sensor value that is network-accessible.

D:

R:

-999.0F (-999.0C)

0 to 250F (0 to 121.1C)

System Fire / Smoke Allows a fire or smoke detector status value from another

controller to be read over the network and used by this controller. The remote controller must be equipped with a network-accessible occupancy status point.

D:

R:

Off

Off/On

System Occupancy Allows reading and using another controller's occupancy status value over the network. The remote controller must have a network-accessible Occupancy Status point.

D:

R:

Unoccupied

Unoccupied/Occupied

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Service Test

Service Test

Point Name/Description Default/Range

Service Test Enable to stop automatic control so you can test the controller's outputs. Automatically resets to Disable after 1 hour.

D:

R:

Disable

Disable/Enable

Fan Test Enable to test the controller's fan operation. Sequences the fan from the low speed to the highest speed of the unit and operates at each speed for 15 seconds. Service Test must be set to Enable.

D:

R:

Disable

Disable/Enable

Fan Speed Displays the current fan speed being tested. R: Off

Low Med

High On

Cooling Test Enable to test the unit's cooling. During the test, the appropriate cooling device is activated. If DX cooling is configured, the supply fan output is activated and

deactivated. For changeover units configured as 2-pipe/electric heat, the water valve output is tested. Service Test must be set to Enable.

D:

R:

Disable

Disable/Enable

Heating Test Enable to test the unit's heating. During the test, the appropriate heating

device is activated. If electric heat is configured, the supply fan output is activated and deactivated. For changeover units configured as 2-pipe/electric heat, the electric heat output is tested. Service Test must be set to Enable.

D:

R:

Disable

Disable/Enable

Preload OA Damper Enable to drive the OA Damper 7.5% open. The installer should

secure the damper shaft to the actuator with the damper in the fully closed position at this time. This assures a tight seal when the damper is in the closed position. Service Test must be set to Enable.

D:

R:

Disable

Disable/Enable

Open Vent Damper 100% Enable to test the OA Damper output. During the test, the damper is driven slowly to the 100%, or fully open, position. You must perform the Preload OA Damper Position test before this test and set Service Test to Enable.

D:

R:

Disable

Disable/Enable

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Maintenance

Navigation: i-Vu / Field Assistant: Properties > Control Program > Maintenance

Point Name/Description Default/Range

Unit

Occupancy Status The controller's occupancy status as determined by a network schedule, a local schedule, or a timed override.

R: Unoccupied/Occupied

Temp Compensated Start or Learning Adaptive Start Indicates the type of optimal start (if any) that is configured and whether the algorithm is active or inactive.

R: Inactive/Active

Space Temp Source The source of the controlling space temperature value

States: Sensor Failure No valid space temperature or sensor status = failed

SPT Sensor An SPT sensor is connected to the controller's Rnet port RAT/T55 Using a RAT or T55 sensor wired to I/O terminal

Network A network temperature sensor is bound to the controller's space temperature AV

Airside Linkage The space temperature is from a linked terminal Locked Value The controller's space temperature input has been manually locked

at a value T-Stat Linkage Space temperature shared via Thermostat Linkage

ZS Sensor - A ZS sensor is connected to the controller's Rnet port Wireless Sensor - A Carrier wireless sensor is connected to the controller's Wireless Adapter, which is connected to the Rnet port

R: Sensor Failure

SPT Sensor RAT/T55

Network Airside Linkage

Locked Value T-Stat Linkage

ZS Sensor Wireless Sensor

Setpoint Adjustment The amount that a user has adjusted the setpoints at a zone sensor.

R: 0 to 5 F (0 to 2.7 C)

Effective Heat Setpoint The current heating setpoint. May include offsets from the configured occupied/unoccupied setpoints resulting from Optimal Start or Demand Limit.

R: _F/C

Effective Cool Setpoint The current cooling setpoint. May include offsets from the

configured occupied/unoccupied setpoints resulting from Optimal Start or Demand Limit.

R: _F/C

Relative Humidity Source The source of the relative humidity value.

States: N/A No sensor value associated with this device

Local A physical sensor is wired and connected to the appropriate input channel of this controller

Network A network sensor value provided to this controller Linkage The sensor value from an active Linkage connection, such as Airside

Linkage Locked Value The controller's sensor input is manually locked to a specific value

ZS/WS Sensor A ZS or Carrier wireless sensor is connected to the controller's Rnet port

R: N/A

Local Network

Linkage Locked Value ZS/WS Sensor

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Point Name/Description Default/Range

IAQ Source The source of the indoor air quality value.

States:

N/A No sensor value associated with this device Local A physical sensor is wired and connected to the appropriate input channel

of this controller Network A network sensor value provided to this controller

Linkage The sensor value from a linked device, obtained through Airside Linkage, Thermostat Linkage, or Condenser Water Linkage.

Locked Value The controller's sensor input is manually locked to a specific value ZS Sensor A ZS wireless sensor is connected to the controller's Rnet port

R: N/A Local

Network Linkage

Locked Value ZS Sensor

Outdoor Air Temperature Source The source of the OAT value.

States:

N/A No sensor value associated with this device Local A physical sensor is wired and connected to the appropriate input channel

of this controller Network A network sensor value provided to this controller

Linkage The sensor value from a linked device, obtained through Airside Linkage,

Thermostat Linkage, or Condenser Water Linkage. Locked Value The controller's sensor input is manually locked to a specific valuet

R: N/A Local

Network Linkage Locked Value

Changeover Source The source of the changeover input (contact or thermistor, as configured).

States: N/A No sensor value associated with this device

Local A physical sensor is wired and connected to the appropriate input channel of this controller

Network A network sensor value provided to this controller Linkage The sensor value from a linked device, obtained through Airside Linkage,

Thermostat Linkage, or Condenser Water Linkage. Locked Value The controller's sensor input is manually locked to a specific valuet

R: N/A Local

Network Linkage Locked Value

System Cooling Demand Level The system cool demand level received over the network.

R: 0 to 3

System Heating Demand Level The system heat demand level received over the network.

R: 0 to 3

Heating Control Setpoint The calculated supply air temperature setpoint the heating device maintains when in the heating mode. The disabled value is 40F.

R: 40 to 140F (4.4 to 60C)

Cooling Control Setpoint The calculated supply air temperature setpoint the cooling

device maintains when in the cooling or dehumidification modes. The disabled value is 150F.

R: 38 to 150F (3.3 to 65.5C)

Calculated DCV Damper Position The calculated minimum damper position to maintain during an AQ override condition.

R: 0 to 100%

Reset Filter Alarm Set this to On to reset an active Filter Alarm and restart the Filter

Service Alarm Timer. After the alarm returns to normal, this automatically changes to Off.

D:

R:

Off

Off/On

Overflow Contact The current state of the overflow input (if present). D:

R:

Open

Open/Closed

Input Channel #5 The current state of the input (if present) connected to channel #5. R: Open/Closed

Changeover Temperature The current system water temperature for 2-pipe changeover.

R: -56 to 245F (-48.9 to 118.3C)

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Point Name/Description Default/Range

Changeover Switch The current state of the changeover switch input, when present. R: Closed/Cool / Open/Heat

Fire/Smk Shutdown Displays the current state of the System Fire/Smoke network input.

R: Normal/Alarm

Occupancy

BAS On/Off Determines the occupancy state of the controller and can be set over the network by another device or third party BAS.

Options:

Inactive Occupancy is determined by a configured schedule.

Occupied The controller is always in the occupied mode. Unoccupied The controller is always in the unoccupied mode.

NOTE If BAS On/Off is set to either Unoccupied or Occupied, the Optimal Start routine is automatically disabled.

D:

R:

Inactive

Inactive

Occupied Unoccupied

Schedules The controller's occupancy status based on the local schedule. R: Unoccupied/Occupied

Pushbutton Override Active indicates if a user pushed the sensor's override button to override the occupancy state.

R: Off/Active

Override Time Remaining The amount of time remaining in an override period. R: 0 to 480 minutes

Occupancy Contact The current status of Input Channel #5 when configured as a Remote Occupancy contact input.

R:

Inactive

Active Occupied

System Occupancy The status of the System Occupancy network point. D:

R:

Inactive

Inactive Unoccupied Occupied

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Local BACnet Schedule R: Off/On

Configure ZS Sensors by setting the following options in the Local BACnet Schedule microblock popup. Click Local BACnet Schedule to access the microblock popup Properties page > Details tab.

See the microblock Help for more detailed explanations.

Sensor Configuration

Allow Force Unoccupied: Check to allow a user to save energy by

forcing the zone into an unoccupied schedule on the ZS sensor. The user does this by holding the sensor's On/Off button for at least 3

seconds. This forced state remains in effect until the schedule transitions to unoccupied or until a user presses the sensor's On/Off button again.

D:

R:

Enabled

Disabled/Enabled

Force Unoccupied without Delay: Check to allow a user to force a zone to unoccupied immediately instead of the normal 3-second delay.

NOTE This option is not available if Allow TLO Set During Occupied is checked.

D:

R:

Enabled

Disabled/Enabled

Timed Local Override

Increment: Minutes that the microblock adds to the zone's occupied time for each click of the zone's local override button or switch.

D: 30:00 mm:ss

Maximum Duration: Maximum value (up to 960 minutes) the

microblock outputs, regardless of additional pulses from the controller's input.

D:

R:

60:00 mm:ss

0 to 960:00 mm:ss

Alarms

Navigation: i-Vu / Field Assistant: Properties > Control Program > Alarms

Point Name/Description Range

Fire / Smoke Shutdown Indicates if the unit is in a Fire / Smoke Shutdown condition. R: Normal/Alarm

Space Temperature Indicates if the space temperature sensor exceeds the high or low alarm limit.

R: Normal/Alarm

Alarming Temperature The value of the alarming space temperature sensor. Visible only in an alarm condition.

R: The sensor's range

Alarm Limit Exceeded The alarm limit that the alarming space temperature sensor exceeded. Visible only in an alarm condition.

R: -60 to 250F (-51.1 to 121.1C)

SPT Sensor Indicates if the SPT space temperature sensor fails to communicate with this controller after having successfully communicated previously. (Only displayed if SPT sensor is connected and has communicated successfully.)

R: Normal/Alarm

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Point Name/Description Range

ZS/WS Temp Sensor Indicates a configured ZS or wireless zone temperature sensor is no longer communicating.

R: Normal/Alarm

ZS/WS Sensor Configuration Indicates if the ZS or wireless space temperature sensor is not configured correctly.

R: Normal/Alarm

Space Temp Sensor Indicates if the space temperature sensor fails. R: Normal/Alarm

Wireless Battery Strength Alarm Indicates one of the configured wireless space temperature sensors is displaying low charge strength.

R: Normal/Alarm

Wireless Signal Strength Alarm Indicates one of the configured wireless space temperature sensors is displaying low radio signal strength.

R: Normal/Alarm

Supply Fan Failure Indicates an alarm condition if the supply fan's status fails to match the fan's commanded state when ON. (Only applicable if Input Ch#5 is set to Fan Status.)

R: Normal/Alarm

Indoor Air Quality Indicates if the occupied CO2 level exceeds the configured high

alarm limit.

R: Normal/Alarm

Freezestat Indicates a potential coil freeze condition exists because the input has

been in an alarm state for more than 3 minutes. A delay of 3 minutes is provided between the input alarm detection and the alarm generation in order to correct the potential coil freeze condition and prevent nuisance alarms.

R: Normal/Alarm

Supply Air Temperature Indicates if the supply air temperature exceeds the high temperature alarm limit or drops below the low temperature alarm limit.

R: Normal/Alarm

Return Air Temperature Displays the current return air temperature sensor exceeds the high or low alarm limit.

R: Normal/Alarm

Condensate Overflow Indicates the current state of the overflow switch. R: Normal/Alarm

Filter Indicates a dirty filter condition when the filter runtime exceeds the value of the Filter Service Alarm Timer.

R: Clean/Dirty

Space Relative Humidity Indicates if the relative humidity exceeds the high RH alarm limit.

R: Normal/Alarm

Outdoor Air Temp Sensor Indicates if the controller is no longer receiving a valid outdoor air temperature value either through the network or from a local sensor.

R: Normal/Alarm

Changeover Sensor Indicates the controller is no longer receiving the system water temperature value.

R: Normal/Alarm

Airside Linkage Indicates that Airside Linkage has failed. R: Normal/Alarm

Thermostat Linkage Indicates a failure exists between this unit and the other units in the group operating as a single zone using Thermostat Linkage.

R: Normal/Alarm

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Linkage

Navigation: i-Vu / Field Assistant: Properties > Control Program > Linkage

Point Name/Description Range

Airside Linkage

Airside Linkage If Active, the controller is part of a linked system, acting as an air source to provide the required heating or cooling to a zoning system. If Not Active, the controller is a stand-alone device.

R: Not Active/Active

Airside Linkage Collector Allows viewing of the Collector Inputs from VVT Master and the feedback from the Airsource, in a Linked System.

Air Source Mode Displays the operating mode of this equipment as reported to Linkage.

R: OFF

WARMUP

HEAT COOLING

FREECOOL PRESSURE

EVAC VENT

Air Source Supply Air Temp Displays the Supply Air Temperature value reported to Linkage.

R: -40 to 245F (-40 to 118.3C)

Thermostat Linkage

Thermostat Linkage Indicates whether this unit is a part of a group of units operating as a single zone using Thermostat Linkage.

R: Not Active/Active

Linkage Thermostat Appl (Provider) For those slave units not sequentially addressed

and polled by the master unit, set the Network Number and Address of the master unit in this slave unit.

Network Number

Address

R:

R:

1 to 65534

1 to 99

Linkage Thermostat Appl (Collector) Set the Number of Providers to the total number of fan coil units (including the master) that are in the thermostat linkage system.

Application Instance

Number of Providers

D:

R:

1

1 to 8

Alarm if < # of Linked Units Used to set the minimum number of communicating units that are connected with this master unit through Thermostat Linkage. The

function is disabled if set to 0. Set this value in the master only to the system size to detect and alarm any slave zone failures.

D:

R:

0

0 to 8

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I/O Points

The values shown on the I/O Points Properties page are the raw values at the I/O objects and may not match values shown

on status displays that are affected by control program logic.

i-Vu users logged in as Power User and above are able to edit various parameters associated with the input channels and the display names for all channels.

We strongly recommend that you leave these parameters at their defaults. I/O can only be used for the purpose designed in the equipment control program. Modifying these parameters may result in unpredictable equipment control.

See Wiring inputs and outputs (page 8) for more information. This table lists each of the I/O channels, their functions, associated hardware, and terminal numbers.

Navigation: i-Vu / Field Assistant: Properties > I/O Points

WARNINGS

Do not change the Value, Offset/Polarity, Exp:Num, I/O Type, Sensor/Actuator Type, Min/Max, or Resolution I/O

configuration parameter for the points listed below. Changing these parameters could cause improper control and/or equipment damage.

Use extreme caution if locking a point as this may also cause improper control and/or equipment damage.

Point Name/Description Range

Zone Temp / Zone Temp (SPT Standard, SPT Plus, SPT Pro, and SPT Pro Plus sensors

only). Sensor configurations on the microblock's Properties > Details tab are listed below. For more information, see the Carrier Sensors Installation Guide.

NOTE Do not edit settings on the Zone Temp microblock on the right.

R: -56 to 245F (-48.9 to 118.3C)

Sensor Type:

Min Present Value - Minimum present value the sensor transmits before indicating an alarm.

D:

45F (7.2C)

Max Present Value - Maximum present value the sensor transmits before indicating an alarm.

D:

96F (35.5C)

Setpoint Adjustment:

Max Adjust The amount that a user may adjust the setpoint at the sensors.

D:

R:

5 F (2.7 C)

0 to 15 F (0 to 8.3 C)

Reset setpoint adjust to zero when unoccupied - Resets the setpoint bias to zero when the controller transitions to unoccupied.

D: Off

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Timed Local Override:

Allow Continuous (SPT Pro only) If checked, a user can press the

sensor's local override button until the Max Accum value is reached, then press one more time to have a continuous override until the next occupied

period or until the user cancels the override. The display shows On during a continuous override.

D:

R:

Off

Off/On

Each Pulse The amount of time added to the total override time when a user pushes the sensor's override button.

D:

R:

30:00 mm:ss

0:00 to 1440:00 mm:ss

Max Accum The maximum amount of override time accumulated when a user pushes the sensor's override button.

D:

R:

240:00 mm:ss

0:00 to 2000:00 mm:ss

Cancel override How long a user must push the sensor's override button to cancel an override.

D:

R:

3 seconds

0 to 60 seconds

Sensor Array:

Sensor calculation method - When using multiple SPT sensors, select the process variable to be passed to the controller.

D:

R:

Avg

Avg, Min, Max

BACnet configuration:

Network Visible - Must be enabled for other BACnet objects to read or write to this point, and for this point to generate alarms.

D:

Enabled

Object Name - Do not change. D: zone_temp

CO2 Sensor The current voltage of the controller's RH/CO2 input. R: 0 to 9999 ppm

RH Sensor The current voltage of the controller's RH/CO2 input. R: 0 to 100%

SAT Sensor The value of the controller's supply air temperature sensor input, prior to any operator-configured Calibration Offset.

R: -56 to 245F (-48.9 to 118.3C)

RAT Sensor The value of the controllers return air temperature sensor input, prior to any operator-configured Calibration Offset.

R: -56 to 245F (-48.9 to 118.3C)

Changeover Temp The value of the controllers changeover water temperature sensor input, prior to any operator-configured Calibration Offset.

R: -56 to 245F (-48.9 to 118.3C)

WS Battery Strength % Displays charge strength indicated on the wireless space temperature sensor. If there are multiple wireless sensors, it displays the lowest value.

R: _%

WS Signal Strength % Displays radio signal strength of the wireless space temperature sensor. If there are multiple wireless sensors, it displays the lowest value.

R: _%

Zone Humidity The value provided by the controller's ZS or wireless sensor (if present). See details below.

R: _%

Zone Temp The value provided by the controller's ZS or wireless sensor (if present). R: _F

ZS Zone CO2 The value provided by the controller's ZS sensor (if present). R: _ppm

Changeover The current state of the changeover contact input. R: Open/Closed

Input Channel #5 The current state of the input (if present) connected to channel #5. R: Open/Closed

Overflow Contact The current state of the overflow input (if present). R: Open/Closed

Sensor Invalid This internal input monitors the communication between the controller and the SPT sensor. Off indicates communication is normal.

R: Off/On

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Rnet Sensed Occupancy Displays occupancy status detected by wireless infrared motion sensor.

R: Off/On

OA Damper The current, commanded output of the outdoor air damper, if equipped. R: 0 to 100%

2-Pipe Valve/Heating Valve The assigned output channel's current configuration- dependent, commanded output.

R: 0 to 100%

Cooling Valve The assigned output channel's current commanded, configuration- dependent fan output.

R: 0 to 100%

Fan High Spd The assigned output channel's current configuration-dependent, commanded fan output if # of Fan Speeds is set to 2 or 3.

R: Off/On

Fan Med Spd The current commanded fan output if # of Fan Speeds is set to 3. R: Off/On

Fan G / Low Spd The assigned output channel's current configuration-dependant, commanded output. If the # of Fan Speeds is set to 1 or if Fan (G) Output Type is set to

Fan On, then this output is on whenever the fan is commanded to run. Otherwise, the output is the Low speed fan output.

R: Off/On

2-pos Valve/Heating Valve The assigned output channel's current configuration- dependant, commanded output.

R: Off/On

Cooling Valve The assigned output channel's current configuration-dependant, commanded output.

R: Off/On

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NOTE Engineering units shown in this document in the defaults and ranges are strictly for reference. You must enter an integer only.

Navigation screens

Screen Names Display Details

Standby

Not an interactive screen. Touch anywhere to advance to Home screen.

Screen displays after the Inactivity Timer expires (default is 5 minutes).

Displays:

Space temperature

Current setpoints

Mode - Cooling, Fan Speed, Economizer

Occupancy

OAT, if available

Home

Click on the right to navigate to Snapshot screen.

Displays:

Space temperature

Current setpoints

Mode - Cooling, Fan Speed, Economizer

Occupancy

OAT, if available

Allows:

Pushbutton Override

Space Setpoint Offset Adjustment

Appendix D: Fan Coil for AppController Points/Properties on the Equipment Touch

Appendix D: Fan Coil for AppController Points/Properties on the Equipment Touch

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Screen Names Display Details

Snapshot

Forward to Fan Coil App Properties Menu screen - click on the right

Navigates to:

Alarm status

Schedules

Trends

Back to the Home screen - click

on the left

Displays:

SAT, if allowed

RH, if available and allowed

IAQ, if available and allowed

OAT, if available and allowed

Coil & Dampers' positions and % open

Displays:

Fan Coil for AppController alarms,

if present

Fan speed

Filter status

Fan & Mode Control

Manually set Modes and Fan Speed.

Displays:

Fan Mode

Fan Speed

Cool Mode

Heat Mode

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Screen Names Display Details

Fan Coil App Properties Menu

Navigates to Property pages

Login with one of the following passwords:

User level - type user

Admin level - type admin

Factory level - type Touch

NOTE Only the buttons that are

authorized for a specific password level are visible.

Show/Hide Configuration

Configure Show/Hide conditions for values on the following screens:

Standby

Home

Snapshot

NOTE Only displayed for the Factory or Admin password. (See above.)

T-Stat Linkage Source Address

Click on the bottom to navigate to Startup Wizard.

Set up T-Stat Linkage using the following properties:

Thermostat Src/Coll Network#

Thermostat Src Address Type: (IP

Address/MAC)

MSTP Address of Collector

IP Address of Collector (to set an

IP address, the MSTP address must be set to "0")

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Startup Wizard

Navigation: Equipment Touch: Startup Wizard

Point Name/Description Range

2-Pipe Changeover Indicates that the water source connected to this equipment supplies both heating and cooling depending on the season. Set to Yes if water source is not a dedicated heating and cooling source.

D:

R:

No

No/Yes

Heat Type The type of heating that the unit has. D:

R:

None

None

Modulating 2-Position

1 Stage Electric 2-Pipe/Electric

Heating Coil Position When 2 or more coils are present, the position of the heating coil in the air stream, with respect to the cooling coil. Preheat indicates a heating coil is before the cooling coil. Reheat indicates the heating coil is after the cooling coil.

D:

R:

Reheat

Preheat/Reheat

Valve Control Defines the type of valve control used. Applies when Heat Type is configured for 2-Pipe/Electric only.

D:

R:

Modulating

Modulating 2-Position

Valve Type Indicates the position of the control valve with no power applied. D:

R:

NC

NC (normally closed) NO (normally open)

Cool Type The type of cooling that the unit has. D:

R:

2-Position

None

Modulating 2-Position 1 Stage DX

Cooling Valve Type Indicates the position of the cooling valve with no power applied. D:

R:

NC

NC (normally closed) NO (normally open)

Ventilation Damper Type The ventilation damper control being used.

D:

R:

None

None 2-Pos DCV

Damper Actuator Type Used to determine damper output signal range (closed open). D:

R:

0-10 V

0-10 V 2-10 V

Vent Dmpr Pos / DCV Min Pos The minimum outdoor air damper position maintained during occupied periods.

D:

R:

20%

0 to 100%

DCV Max Vent Damper Pos The maximum outdoor air damper position allowed while DCV is active.

D:

R:

100%

0 to 100%

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Point Name/Description Range

# of Fan Speeds The number of fan motor speeds. D:

R:

Three

One

Two Three

Hardwired Sensor The type of sensor used on the controller's RH/CO2 hardwire input. This setting determines the control channel input function.

Options: RH Sensor Relative humidity for zone dehumidification IAQ Sensor Indoor air quality for DCV control

NOTE RH and IAQ are also available with communicating ZS RH and CO2 sensors.

D:

R:

None

None

RH Sensor IAQ Sensor

RH Control Enables or disables zone dehumidification control if valid RH sensor values are available.

D:

R:

Disable

Disable/Enable

Input Ch #5 Function Determines the function of the input connected to channel #5.

NOTE When using Wireless Remote Occupancy contact for Wireless sensors:

D: Fan Status R: Fan Status/Freezestat

D:

R:

Remote Occupancy

Fan Status

Freezestat Remote Occupancy

Ch #5 Normal Logic State Specifies the state of the contact when the input #5 is in the normal state.

D:

R:

Open

Open/Closed

Overflow Switch Alarm State Specifies the alarm state of condensate switch input. (The unit shuts down if this point is in alarm.)

D:

R:

Closed

Open/Closed

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Thermostat Linkage Source

Navigation: Equipment Touch: Startup Wizard > T-Stat Linkage Source Address

T-Stat Linkage Source Address Range

Use this screen to set up T-Stat Linkage Source Address using the following properties (listed below). To navigate to Startup Wizard, click on the bottom.

Thermostat Src/Coll Network# Enter the thermostat's MSTP network number. D:

R:

0

0 to 65,534

Thermostat Src Address Type Select the type of BACnet network of the source water controller.

D:

R:

MSTP

MSTP or IP Address

MSTP Address: Set the MAC address of the source water controller.

NOTE The MSTP address and IP address are mutually exclusive. To set an IP address, the MSTP address must be 0.

D:

R:

0

0 to 99

IP Address: Set the MAC address of the source water controller.

NOTE The MSTP address and IP address are mutually exclusive. To set an IP address, the MSTP address must be 0.

D:

R:

0.0.0.0

0.0.0.0 to 255.255.255.255

Document revision history

Fan Coil for AppController CARRIER CORPORATION 2021

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94

Important changes to this document are listed below. Minor changes such as typographical or formatting errors are not listed.

Date Topic Change description Code*

9/21/21 Wiring devices to the controller's Rnet

port

Removed hybrid wiring configuration for Rnet port X-TS-AK-E

10/29/20 Sequence of Operation > Indoor Fan Corrected the default from Continuous to Auto. C-TS-BL-E

8/18/20 Cover, What is the Fan Coil application Updated company logo C-D

1/24/19 Wiring devices to the controller's Rnet

port

Removed star configuration from the first paragraph. X-TS-TS-O

Specifications Added surge CAUTION to Protection specification. X-TS-AK-E-CC

10/26/18 Field-supplied hardware Removed SPT sensors. C-D

Wiring inputs and outputs > Input

wiring specifications

Removed SPT sensor from Input wiring table, added TruVu ET

Display, and referred user to the device's Installation and Start-

up Guide.

C-D

Wiring devices to the controller's Rnet

port

Combined overview and wiring on the zone sensors and

touchscreen devices. Added TruVu ET Display.

C-D

Specifications Reworded Rnet port specification and added power supplied by

Rnet port.

Reworded Protection specification and added first paragraph.

X-H-JS-O

3/13/18 Points and Properties > Alarm

Configuration

Hysteresis corrected C-AE-WB-O

1/11/18 Sequence of Operation > Indoor Fan Section added on Configuring Automatic Fan Speed setpoints C-AE-AP-E-WB

1/9/18 Points and Properties Updated to support wireless sensors and motion detectors. C-AE-NP-E

12/6/17 Service Configuration

I/O Points

Properties updated C-AE-NP-E-WB

9/26/17 Field-supplied sensor hardware New topic. C-TS-AP-F-WB

9/7/17 Analog outputs Corrected impedance from 500 Ohms to 2000 Ohms C-AE-ZL-E-WB

Controller specifications

ZS sensor overview

Corrected total number of ZS and wireless sensors to 10. C-D

2/24/17 Changed "WS" to "wireless". C-D

1/19/17 Sequence of Operation and Properties Metric values added C-AE-CP-E

Sequence of Operation > Indoor fan

Unit Configuration - Maximum Heating

SAT

Default corrected from 110F to 90F C-AE-CP-E

Carrier wireless sensor overview

To install the Wireless Adapter for

wireless sensors

New Topics C-D

Wiring devices to the controller's Rnet

port

Added Wireless Adapter for wireless sensors. Added overview of

all sensors.

C-D

Input wiring specifications Added Wireless Adapter for wireless sensors C-D

Document revision history

Document revision history

Fan Coil for AppController CARRIER CORPORATION 2021

Installation and Start-up Guide All rights reserved

95

Important changes to this document are listed below. Minor changes such as typographical or formatting errors are not listed.

Date Topic Change description Code*

To wire the controller to the network Added BACnet ARC156 connection information C-D

Wiring for communications Changed from Wiring the controller to the MS/TP network C-D

Controller specifications Added BACnet ARC156 connection and Wireless Adapter for

Carrier wireless sensors. Corrected SPT information.

C-D

Cover

What is the controller?

Changed to latest controller image C-D

9/13/16 Formatting error fixed C-D

2/19/16 Start-up Added caution regarding the USB Link C-TS-RD-E-JH

1/12/16 Fan Coil for AppController

Points/Properties

Updated to remove all BACview reference

Added ZS Sensor and Equipment Touch support

Condenser Water is now referred to as Source Water

C-AE-MM-O

Restore factory defaults Added information on using the Factory Defaults jumper C-D-LJ-E-RD

* For internal use only

Manualsnet FAQs

If you want to find out how the OPN APP Carrier works, you can view and download the Carrier OPN APP v3 Installation And Start Up Guide on the Manualsnet website.

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The Installation And Start Up Guide should include all the details that are needed to use a Carrier OPN APP. Full manuals and user guide PDFs can be downloaded from Manualsnet.com.

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