Honeywell TB7200 Series User Manual Download

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REFERENCE MANUAL

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63-4522-02

Wireless Installation & Integration

Reference Guide for TB7200/TB7300/

TB7600 Series Thermostats

Contents

Product Overview .............................................................1

Compatibility ....................................................................2

ZigBee Mesh Network Overview ......................................2

Basic Initial Design and Deployment Considerations .......3

Site Survey Overview .......................................................5

Performing A Site Survey .................................................6

Best Practices for Initial Network Start-up ........................11

Programming in WEBs-AX Workbench ............................14

Integration .........................................................................24

Tips and Things You Need To Know .................................28

Wireless Device Status LEDs ...........................................28

Troubleshooting ................................................................29

Appendix A: Thermostat Objects ......................................30

Objects Supported by TB7200 and TB7300 Series .......30

Objects Supported by TB7600 Series ...........................33

List of Property Numeric Value Range Restrictions .......38

List of Property Enumeration Sets for BV Objects .........40

List of Property Enumeration Sets for MV Objects .........42

Disclaimer .........................................................................50

Trademarks .......................................................................50

HONEYWELL THERMOSTAT(S)

MAIN MESH CLUSTER

NETWORK

FIELD WIRING

ELIMINATED

MESH TOPOLOGY

WIRELESS NETWORK

TB-RP5000W

REPEATER

REMOTE HONEYWELL

THERMOSTAT(S) CLUSTER

M32554

PRODUCT OVERVIEW

The TB7200, TB7300, and TB7600 Series wireless

communicating thermostats are ideal for retrofit applications

where the addition of communicating field bus wiring within

the building space is prohibitive. These wireless thermostats

allow for the use of equipment wiring used by existing

electronic thermostats.

The Honeywell wireless thermostats, along with the

TB-VWG-APP-1014 wireless communication card and the

network driver and device .jar files, are specifically designed

to be used by Honeywell WEBs-AX controllers WEB-2xx,

WEB-6xx, and WEB-7xx controllers powered by Niagara

This reference document provides wireless installation

guidelines, .jar file installation, wireless thermostat setup in

WEBStation-AX, and reference information on the available

wireless objects and object properties supported by each

wireless model.

NOTE: Wireless installations require careful consideration of

the environment where the wireless devices will be

installed. We highly recommend a site survey be

performed prior to bidding on or accepting a job.

Summary of Contents for TB7200 Series

Page 1: ... TB RP5000W REPEATER REMOTE HONEYWELL THERMOSTAT S CLUSTER M32554 PRODUCT OVERVIEW The TB7200 TB7300 and TB7600 Series wireless communicating thermostats are ideal for retrofit applications where the addition of communicating field bus wiring within the building space is prohibitive These wireless thermostats allow for the use of equipment wiring used by existing electronic thermostats The Honeywe...

Page 2: ...s Mesh networking is a type of network where each node in acts as an independent router It allows for continuous connections and reconfiguration around broken or blocked paths by hopping and re meshing from node to node until the final destination is reached General characteristics of the wireless physical communication layer are Uses a wireless physical layer of 2 4GHz with data rates of 250 kbps...

Page 3: ...ls it is highly unlikely that the wireless thermostat transmissions will be successful between floors Clear line of sight deployment To avoid network interference with 802 11 Wi Fi devices in the 2 4GHz spectrum Honeywell recommends the use of 802 15 4 channels 15 and 25 ONLY 802 11 Wi Fi transmissions overlap and may interfere with other channel selections allowed by 802 15 4 Channels 11 to 26 Wi...

Page 4: ...0 wireless thermostats per controller If 50 thermostats are installed five thermostats should be within 50 feet of the controller with wireless card Fig 4 and Fig 5 Always install the controller with wireless card closest to the center of all associated wireless thermostats Always locate the controller with wireless card near or in the direct line of sight to as many wireless thermostats as possib...

Page 5: ...ortant to understand that the survey values recorded are provided as a worst case scenario of a point to point application Once the whole network is deployed with a WEBs AX controller and wireless communication card and all wireless thermostats are present and functioning as routers the ability of the network to efficiently route wireless signals cannot be compared to this simple survey analysis m...

Page 6: ...ters with the same PAN ID and Channel as the wireless communication card NOTE Using five thermostats repeaters for the site survey will save time in completing the survey If you have fewer than five you may need to shut down and move the controller several times to test the number of hops at the site Best Practices When Performing the Site Survey Always hold the thermostat vertically to ensure pro...

Page 7: ...e radius is the first hop from the controller Any thermostat or repeater should be NO FARTHER than 5 hops to and from the WEBs AX controller with the wireless communication card This is due to the nature of the ZigBee stack in the wireless controllers Walk about the floor where a cluster of thermostats are to be installed Locate the boundary where the signal strength is about 20 The signal strengt...

Page 8: ... Next test the signal strength at each location where a thermostat is to be installed The signal strength at each location can be anywhere from 10 to 100 Testing each proposed thermostat location ensures no unexpected obstacles or unfore seen sources of interference will affect each wireless thermostat at the time of installation 4 Once all thermostats within the radius have been tested place a th...

Page 9: ... be installed The signal strength at each location can be anywhere from 10 to 100 Testing each proposed thermostat location ensures no unexpected obstacles or unfore seen sources of interference will affect each wireless thermostat at the time of installation Fig 12 shows the Proposed Site Floor Plan Example with three hops as indicated by the red hop 1 blue hop 2 and purple hop 3 arcs Fig 12 Prop...

Page 10: ... 5 hops each Once the network is deployed and all wireless thermostats are present and functioning as routers the ability of the network to efficiently route wireless signals cannot be compared to this simple survey analysis method Site Survey Summary Always write your transmission results on a plan when possible Use TB RP5000W repeaters if remote devices are too far to bridge or the signal is too...

Page 11: ...resses Please note that once a device has been assigned a ZigBee address and has joined the active ZigBee network it will save its assigned ZigBee address to flash memory and use it afterwards even after a power failure or a network restart The ONLY time a device would require a NEW ZigBee address is if the network is restarted with either a new PAN ID or a new Channel value This causes the curren...

Page 12: ...te ZigBee addresses to the other devices in building B Initial Network Startup at the Job Site 1 As shown in Fig 16 below first power up the orange devices in sequence and wait until they are joined to the network or matched to their offline created counterparts 2 All the remaining yellow devices nodes controllers can now all be powered up to also join the network 3 This start up sequencing allows...

Page 13: ...le WEBs controller is dependent on the resources available for the WirelessTstatNetwork driver jar file and the extent of integration added to the station itself When additional functions and services are added to the station the available resources for the driver will be less Once you have configured the station for the wireless network and all other features graphics services histories alarms et...

Page 14: ...rovided with the wireless card 2 Copy the WirelessTstatNetwork jar and WirelessTstatDevices jar files to your local WEBStation AX module folder The jar files are available for download from on the Honeywell Buildings Forum http buildingsforum honeywell com 3 Open the controller s Platform then click on Software Manager 4 Select the wirelessTstat file the wirelessTstatDevices file and the basicDriv...

Page 15: ...Pan ID and the Zigbee Channel for the wireless network in the Wireless Parameters Config section All ther mostats and the wireless network should use the same Pan ID and Channel Pan ID range is 1 500 0 is not a valid PAN ID option In multi level buildings or buildings with more than one wireless thermostat network on the same floor set a different PAN ID for each network Channel should be set to 1...

Page 16: ... ID ZigBee Channel This is where the current Channel frequency used by the wireless thermostat network is set While the range is from 11 to 26 2405 MHz to 2480 MHz 5 MHz channel spacing use only Channel 15 or 25 Please note that channel 26 is attenuated by 4 db compared to the other channels The default of 10 is not a valid Channel 802 11 Wi Fi transmissions overlap and may interfere with other ch...

Page 17: ... Channel and that are powered up will be discovered The Discovered Device folder lists the current thermostats and repeaters detected by the WEBs AX controller that have the same PAN ID and Channel settings as the WEBs AX controller A Yellow highlight indicates a previously discovered thermostat that has not updated it s mandatory wireless heartbeat to the WEBs AX controller and is now offline to ...

Page 18: ...ns and bindings would already be done and assigned Select the number of devices to add of the same type and the starting local MAC address each thermostat will be assigned in the field Then select the required thermostat model number that will be installed on the job site Remember to select ALL thermostats if more than one is required The thermostat can be enabled now or at a later date if the ins...

Page 19: ...relessTstatNetwork folder in the database window This enables the thermostat to display all its point extensions The add button allows you to edit the device before it is addedt to the network Quick add is directly added to the network 4 You can rename the thermostats now or after they are added to the database by double clicking each device 5 Review the status of each device in the Database secti...

Page 20: ...cess is done Afterwards it is up to the user to pick and choose what is needed for the implementation We recommend selecting only the objects needed for the integration and discarding the unused objects Name The thermostat s given name in the database The name is constructed of the thermostat model number and its current local MAC address Ex A TB7300C5014W with a local MAC address of 21 will carry...

Page 21: ...nabled Enables or disables the communication to the wireless thermostat It can be used if a complete database is created for all the devices and the installation integration is done in segments Health Health status of the device The Last Ok Time represents the last time the WEBs AX controller received the mandatory heartbeat from the thermostat Device Info Address Info and Communication Module Inf...

Page 22: ...B7300 TB7600 SERIES THERMOSTATS 63 4522 02 22 6 To see the points available for a thermostat or repeater double click on a point to see the WirelessTstatPoint Manager view then click on the Discover button We recommend only adding the points needed for each device ...

Page 23: ...ick Add Like adding thermostats you can add one point at a time or group select and add all desired points to the database Changes to point parameters can be made as you add them to the data base or after the points are added Refer to additional sections in the remainder of this reference guide to learn more about the available objects for each ther mostat ...

Page 24: ...GLOBAL COMMANDS ALL DEVICES ALL THERMOSTATS OUTDOOR TEMPERATURE OUTDOOR TEMPERATURE AND OUTDOOR HUMIDITY ENTHALPY OUTDOOR TEMPERATRE AND HVAC PLANT CURRENT MODE GLOBAL COMMANDS SPECIFIC DEVICES SPECIFIC AREA THERMOSTATS SCHEDULE SCHEDULE AND OUTDOOR TEMPERATURE RESTRICT USER ACCESS TO THERMOSTAT ROOM TEMPERATURE FOR TESTING AND OVERRIDE REMOTE CONTROL OF THE AUXILIARY OUTPUT OUTDOOR TEMPERATURE DE...

Page 25: ...Temperature Numeric Occupied and Unoccupied Heat Setpoints Numeric Occupied and Unoccupied Cool Setpoints Numeric Outdoor Temperature Numeric Supply Temperature Numeric If available Occupancy Command Enum System Mode Enum Heating Valve Status Enum Cooling Valve Status Enum PI Heating Demand Numeric PI Cooling Demand Numeric Window Alarm Boolean Filter Alarm Boolean Service Alarm Boolean Fig 19 Typ...

Page 26: ...ts Numeric Occupied and Unoccupied Cool Setpoints Numeric Room Humidity Numeric If available Room Humidity Setpoint Numeric If available Outdoor Temperature Numeric Supply Temperature Numeric If available Occupancy Command Enum System Mode Enum Fan Mode Enum Fan Status Enum Heating Valve Status Enum Cooling Valve Status Enum PI Heating Demand Numeric PI Cooling Demand Numeric Window Alarm Boolean ...

Page 27: ...pancy Command Enum Effective Occupancy Enum System Mode RTU Enum or System Mode HPU Enum G Fan Boolean Y1 Cool Boolean Y2 Cool Boolean W1 Heat Boolean W2 Heat Boolean or Reversing Valve Boolean Economizer Output Numeric if available Aux Boolean DI 1 Status Boolean DI 2 Status Boolean Frost Alarm Boolean if available Filter Alarm Boolean if available Service Alarm Boolean if available Fan Lock Alar...

Page 28: ...e refer to the health status Last Ok Time value for the total amount of time a single thermostat has not updated its mandatory 3 minutes heartbeat update to the WEBs AX controller WIRELESS DEVICE STATUS LEDS Wireless Communication Card Status LEDs Thermostat and Repeater Wireless Status LEDs WEBs AX Controller Wireless Card TB VWG APP 1014 LED Status Indicators 1 x 200ms short blink Power on 2 x 2...

Page 29: ...n the thermostat repeater network card If it is only blinking twice ensure that the PAN ID and Channel of the thermostat repeater is the same as the WEBs AX controller it must communicate with 2 When commissioning a network use channels 15 or 25 Alternate these channels between floors 3 If a particular thermostat refuses to join the network and cannot be seen by the WEBs AX controller move the the...

Page 30: ...Room Humidity Numeric Point Present Value R Supply Temperature Numeric Point Present Value R Occupied Cooling Setpoint Numeric Writable Present Value R W Occupied Heating Setpoint Numeric Writable Present Value R W Stand By Cooling Setpoint Numeric Writable Present Value R W Stand By Heating Setpoint Numeric Writable Present Value R W Unoccupied Cooling Setpoint Numeric Writable Present Value R W ...

Page 31: ...oolean Point Present Value R Fan Status Enum Point Present Value R Aux Status Boolean Point Present Value R BI1 Status Boolean Point Present Value R BI2 Status Boolean Point Present Value R UI3 Status Boolean Point Present Value R PIR Motion Status Boolean Point Present Value R Service Alarm Boolean Point Present Value R Filter Alarm Boolean Point Present Value R Window Alarm Boolean Point Present...

Page 32: ...lue R W Pipe Number Enum Writable Present Value R W Output 1 Configuration Enum Writable Present Value R W Aux Configuration Enum Writable Present Value R W Fan Mode Sequence Enum Writable Present Value R W Setpoint Function Boolean Writable Present Value R W Reheat Time Base Boolean Writable Present Value R W Proportional Band Enum Writable Present Value R W Auto Fan Boolean Writable Present Valu...

Page 33: ...umeric Point Present Value R Supply RH Numeric Point Present Value R Occupied Cooling Setpoint Numeric Writable Present Value R W Occupied Heating Setpoint Numeric Writable Present Value R W Unoccupied Cooling Setpoint Numeric Writable Present Value R W Unoccupied Heating Setpoint Numeric Writable Present Value R W Dehumidification RH Setpoint Numeric Writable Present Value R W Humidification RH S...

Page 34: ...e R Humidifier Output Numeric Point Present Value R Dehumidification Status Boolean Point Present Value R Economizer Output Numeric Point Present Value R G Fan Status Boolean Point Present Value R W2 Status Boolean Point Present Value R W1 Status Boolean Point Present Value R Y1 Status Boolean Point Present Value R Y2 Status Boolean Point Present Value R Reversing Valve Status Boolean Point Presen...

Page 35: ...perature Numeric Writable Present Value R W Power up Delay Numeric Writable Present Value R W Progressive Recovery Boolean Writable Present Value R W Aux Contact Boolean Writable Present Value R W Fan Purge Delay Boolean Writable Present Value R W Heating Stages Enum Writable Present Value R W Cooling Stages Enum Writable Present Value R W Heating CPH Enum Writable Present Value R W Cooling CPH En...

Page 36: ...olean Writable Present Value R W Room Humidity Override Boolean Writable Present Value R W Proprational Band Enum Writable Present Value R W Unoccupied Time Numeric Writable Present Value R W RH Display Boolean Writable Present Value R W Dehumidification Hysteresis Numeric Writable Present Value R W Frost Protection Boolean Writable Present Value R W Fan Control Boolean Writable Present Value R W ...

Page 37: ...tus can be established and monitored Object Name Object Type Object Property TB7600A5x14W TB7652A5x14W TB7600B5x14W TB7652B5x14W TB7605B5x14W TB7656B5x14W TB7607B5x14W TB7657B5x14W TB7600H5x14W TB7652H5x14W Mechanical Cooling Enable Boolean Writable Present Value R W Mixed Air Setpoint Numeric Writable Present Value R W High Balance Point Numeric Writable Present Value R W Low Balance Point Numeri...

Page 38: ...hest PI Heating Demand Numeric Point percent min 0 max 100 Highest PI Cooling Demand Numeric Point percent min 0 max 100 AO2 Status Numeric Point percent min 0 max 100 RUI1 Status Numeric Point temperature min 40 max 122 Occupied Cooling Setpoint Numeric Writable temperature min 54 max 100 Occupied Heating Setpoint Numeric Writable temperature min 40 max 90 Stand By Cooling Setpoint Numeric Writab...

Page 39: ...Numeric Writable temperature min 40 max 90 Cooling Setpoint Limit Numeric Writable temperature min 54 max 100 Stand By Time Numeric Writable hours min 5 0 max 240 0 Unoccupied Time Numeric Writable hours min 5 0 max 240 0 Dehumidification Hysteresis Numeric Writable percent min 2 max 20 Dehumidification Max Cooling Numeric Writable percent min 20 max 100 Economizer Changeover Setpoint Numeric Writ...

Page 40: ...n Frost Alarm Boolean Point falseText Off trueText On Set Clock Alarm Boolean Point falseText Off trueText On Service Alarm Boolean Point falseText Off trueText On Filter Alarm Boolean Point falseText Off trueText On Fan Lock Alarm Boolean Point falseText Off trueText On Window Alarm Boolean Point falseText Off trueText On Heat Stages Lockout Status Boolean Point falseText Off trueText On Cool Sta...

Page 41: ...l trueText Override Config Setpoint Type Boolean Writable falseText Permanent trueText Temporary Outdoor Temperature Override Boolean Writable falseText Normal trueText Override Room Humidity Override Boolean Writable falseText Normal trueText Override Auto Mode Enable Boolean Writable falseText Disabled trueText Enabled Setpoint Function Boolean Writable falseText Dual Setpoints trueText Attached...

Page 42: ...rost alarms 7 Filter clock alarms 8 Filter frost clock alarms 9 Service alarms 10 Service frost alarms 11 Service clock alarms 12 Service frost clock alarms 13 Filter service alarms 14 Service filter frost alarms 15 Service filter clock alarms 16 Clock filter frost service alarms Aux Configuration 1 Not Used 2 Normally Opened With Occupancy 3 Normally Closed With Occupancy 4 Normally Opened With O...

Page 43: ... None 2 Rem NSB 3 Rem OVR 4 Filter 5 Service 6 Fan Lock Alarm Effective Occupancy 1 Occupied 2 Unoccupied 3 Temporary Occupied 4 Stand by Fan Mode TB73xx See Table Note 3 on page 49 1 Low 2 Med 3 High 4 Auto 5 On Fan Mode TB76xx See Table Note 3 on page 49 1 On 2 Auto 3 Smart Fan Mode Sequence TB73xx See Table Note 3 on page 49 1 Low Med High 2 Low High 3 Low Med High Auto 4 Low High Auto 5 On Aut...

Page 44: ... Minutes 13 6 5 Minutes 14 7 Minutes 15 7 5 Minutes 16 8 Minutes 17 8 5 Minutes 18 9 Minutes Heat Pump Stage 1 One Stage 2 Two Stages Heating CPH 1 3 CPH 2 4 CPH 3 5 CPH 4 6 CPH 5 7 CPH 6 8 CPH Cooling Valve Status Heating Valve Status 1 Closed 2 Opened Keypad Lockout TB73xx 1 Level 0 2 Level 1 3 Level 2 4 Level 3 5 Level 4 6 Level 5 Keypad Lockout TB72xx 1 Level 0 2 Level 1 3 Level 2 4 Level 3 Ke...

Page 45: ...efault Zone Handle 2 Default Minus Occupancy 3 Full Release Occupancy Command 1 Local Occupancy 2 Occupied 3 Unoccupied On Off Control CPH 1 3 CPH 2 4 CPH 3 5 CPH 4 6 CPH 5 7 CPH 6 8 CPH Output 1 Configuration TB72xx 1 One Output 2 Separate Outputs PI Cooling Weight PI Heating Weight 1 0 2 25 3 50 4 75 5 100 Pipe Number 1 Two Pipes 2 Four Pipes Proportional Band TB76xx 1 3 ºF 1 7 ºC 2 4 ºF 2 2 ºC ...

Page 46: ...og sensor RBI2 Config 1 None 2 Filter 3 Service Reheat Config 1 None 2 Analogue Duct Heater Only 3 On Off Duct Heater Only 4 On Off Peripheral Heating Only 5 Analogue Duct and On Off Peripheral Heating Reheat CPH 1 2 CPH 2 3 CPH 3 4 CPH 4 5 CPH 5 6 CPH 6 7 CPH 7 8 CPH Zone Sequence 1 Cool 2 Heat Sequence Of Operation TB73xx TB72xx Note 2 1 Cooling only 2 Heating only 3 Cooling reheat 4 Heating reh...

Page 47: ... Cool 4 Heat 5 Emergency System Mode TB76xx 1 Off 2 Auto 3 Cool 4 Heat System Mode TB72xx TB73xx See Table Notes 1 and 2 on page 49 1 Off 2 Auto Temporary Occupancy Time TB76xx 1 0 Hours 2 1 Hour 3 2 Hours 4 3 Hours 5 4 Hours 6 5 Hours 7 6 Hours 8 7 Hours 9 8 Hours 10 9 Hours 11 10 Hours 12 11 Hours 13 12 Hours Object Index Range Restrictions ...

Page 48: ... 7 Hours 9 8 Hours 10 9 Hours 11 10 Hours 12 11 Hours 13 12 Hours 14 13 Hours 15 14 Hours 16 15 Hours 17 16 Hours 18 17 Hours 19 18 Hours 20 19 Hours 21 20 Hours 22 21 Hours 23 22 Hours 24 23 Hours 25 24 Hours UI3 Config 1 None 2 COC NH Change over dry contact Normally Heat 3 COC NC Change over dry contact Normally Cool 4 COS Change over analog sensor 5 SS Supply air sensor monitoring Object Index...

Page 49: ...ommands TB7300 fan mode input is dependent on local Fan Configuration TB7600 fan mode inputs accepted are Auto and On All other modes are rejected Available Fan modes for the TB73xx thermostat is dependent on the local configuration of the Fan Menu parameter Sequence Of Operation Function Auto Mode parameter Enabled Auto Mode parameter Disabled 1 Cooling Only Cool Cool 2 Cooling with Reheat Auto H...

Page 50: ...ty devices and or alarm system to protect against such catastrophic failures All Honeywell Series wireless thermostats and associated components have been rigorously tested to ensure reliable operation in most building applications using the latest 2 4 ZigBee technologies Honeywell cannot guarantee against potential network interference should additional wireless systems be deployed sharing close ...

Page 51: ...WIRELESS INSTALLATION INTEGRATION REFERENCE GUIDE FOR TB7200 TB7300 TB7600 SERIES THERMOSTATS 51 63 4522 02 ...

Page 52: ...tion and Control Solutions Honeywell International Inc 1985 Douglas Drive North Golden Valley MN 55422 Honeywell Limited Honeywell Limitée 35 Dynamic Drive Toronto Ontario M1V 4Z9 customer honeywell com U S Registered Trademark 2011 Honeywell International Inc 63 4522 02 M S Rev 05 11 Printed in U S A ...

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