Dimensions
The Fixed Function Thermostat consists of a mounting plate and a circuit board with a plastic cover.
Honeywell’s BACnet® Fixed Function Thermostat, BACnet FF, is a configurable device with 19 pre-loaded applications. The thermostat is a communicating, intelligent sensor-controller combination with built-in temperature and humidity sensors used to control systems such as rooftop units, fan-coil units, and heat pumps. The thermostat communicates over an MS/TP LAN so it operates as a fully-functioning BACnet controller and easily integrates with the building automation system. The two available models are TB3026B and TB3026B-W, which includes a wireless sensor option.
When Installing this Product…
MERCURY NOTICE
If this control is replacing a control that contains mercury in a sealed tube, do not place your old control in the trash. Dispose of it properly.
Contact your local waste management authority for instructions regarding recycling and the proper disposal of an old control. If you have questions, contact Honeywell Customer Care Center.
CAUTION Electrical Shock or Equipment Damage Hazard.
Do not install the thermostat where it can be affected by:— drafts or dead spots behind doors and in corners.
IMPORTANT: To avoid electrical interference, which can cause erratic performances, keep wiring runs as short as possible and do not run thermostat wires adjacent to the line voltage electrical distribution systems. Use shielded cable. The cable shield must be grounded only at the controlled equipment case.
WHEN USED TO SENSE ROOM TEMPERATURE
Install the thermostat about 4 ft. (1.2m) above the floor in an area with good air circulation at average temperature. (See Fig. 2.) Confirm mounting height meets Americans with Disabilities Act requirements.
WHEN NOT USED TO SENSE ROOM TEMPERATURE
When using the remote-mounted temperature (and humidity) sensor(s) to sense ambient conditions, install the thermostat in an area that is accessible for setting and adjusting the temperature and settings.
The thermostat can be mounted horizontally on the wall or on a 4 in. x 2 in. (101.6 mm x 50.8 mm) wiring box.
IMPORTANT All wiring must comply with local electrical codes and ordinances.
NOTE: Maximum (and recommended) wire size is 18-gauge. Do not use wire smaller than 22-gauge.
Follow equipment manufacturer wiring instructions when available. A letter code is located near each terminal for identification.
CAUTION
Power must not be connected while wiring. Wiring a unit that is powered may result in electrical shock and/or equipment damage.
WARNING Do not apply line voltage to source pins.
A jumper is pre-installed between pins 1 and 2. The jumper supplies 24 VAC to BO-1, BO-3, and BO-4 relays. It can be removed if those BOs are powered from an external source. (Note: BO-0, BO-2, and BO-5 relays are powered from terminal 1.)
See BACnet Fixed Function Thermostat System Engineering Guide (31-00098) for typical wiring examples.
Table 1. Terminal Identification.
Terminal | Label | Connection |
1 | 24VAC | 24 VAC Power |
2 | RELAY 24VAC | 24 VAC Power |
3 | BO0 | Relay Output |
4 | BO1 | Relay Output |
5 | GND | Ground |
6 | AI0 | Universal Input |
7 | COM | Common |
8 | AI1 | Universal Input |
9 | COM | Common |
10 | AI2 | Universal Input |
11 | MS/TP – | BACnet ® Communications |
12 | MS/TP + | BACnet ® Communications |
13 | AO1 | Analog Output |
14 | COM | Common |
15 | AO0 | Analog Output |
16 | GND | Ground |
17 | BO2 | Relay Output |
18 | BO3 | Relay Output |
19 | BO4 | Relay Output |
20 | BO5 | Relay Output |
MS/TP LAN Wiring
The BACnet FF communicates on the site-wide BACnet system over a twisted-pair MS/TP LAN, which uses the EIA–485 signaling standard. The BACnet FFs are master devices on the MS/TP LAN.
Each BACnet FF employs a high-quality EIA–485 transceiver and exerts 1/4 unit load on the MS/TP LAN.
Table 2. MS/TP LAN Facts.
Transmission speed | 9.6, 19.2, 38.4, 76.8Kbps (configured at global controller). |
Layout | Bus (daisy chain). |
Cabling | BACnet specifies the following. Shielded, twisted-pair cabling with characteristic impedance between 100 and 130W. Distributed capacitance between conductors must be less than 30 pF/foot (100 pF/m). Distributed capacitance between conductor and shield must be less than 60 pF/foot (200 pF/m). Foil or braided shield acceptable. |
Segment length | 4000 ft. (1071 m.) per segment using recommended wire. |
Maximum devices overall | Depends on classification of devices as master or slave. Maximum number of master devices is 128. Maximum number of slave devices or devices overall (mixed master and slave) is 255. This includes BACnet FFs, BACnet global controllers (all are considered masters) and any other devices, regardless of their relative unit loads. |
Maximum devices per segment | Depends on relative unit load of devices (see “Terminating MS/TP LAN Cabling” on page 3). |
Repeaters | Required when making runs longer than 4000 ft. Three repeaters maximum between any two devices. |
Terminating resistors | Matched resistors required at each end of segment bus wired across (+) and (–). Use matched precision resistors rated |1/4 W ±1% / 80 – 130 Ohms. |
Shield grounding | Ground shield drain wire at single point earth (panel) ground, not BACnet FF ground. Tape off shield drain wire at other end. Tie shield drain wire through at each BACnet FF. |
Terminating MS/TP LAN Cabling
MS/TP terminations are located on the lower left of the BACnet FF wallplate.
Maintain polarity of the MS/TP wire run throughout the MS/TP LAN.
Grounding the MS/TP LAN Shield
Proper shield grounding of the MS/TP cabling can help minimize the risk of communications problems and damage to equipment because of transient voltage spikes (for example, lightning strikes).
Follow these guidelines for grounding MS/TP cable shields:
Terminating Resistors
Matched terminating resistors wired across MS/TP+ and MS/TP– are required at the last device on each end of the MS/TP segment for signal integrity (Fig. 5).
Optimum segment performance typically requires “tuning,” a process by which the value of the terminating resistors is selected based on the waveform of signals on the segment. View waveforms using an industrial scope meter. The goal is to have as square a waveform as possible with an amplitude greater than 200 mV. Resistors affect the waveform as follows:
Typically, precision resistors in the range 80-130 Ohms (+1%) yield acceptable results. Ideally, the value of the terminating resistors should match the rated characteristic impedance of the installed cable. For example, if the installed MS/TP cable has a listed characteristic impedance of 100 Ohm, install 100 Ohm matched precision resistors.
CAUTION Do not mismatch terminating resistors. Ensure that both resistors on a segment have the same value.
NOTE: Typically, White is Data – and Black is Data +.
NOTE: To remove the thermostat from the wall, first pull out at the bottom of the thermostat; then remove the top.
Once the BACnet FF is mounted and wired, it can be configured using the local touchscreen and a configuration wizard using Niagara Framework® software. When using the software, BACnet data is transmitted to and from the device and building management system using analog values (AVs) and binary values (BVs). Listings of these AVs and BVs can be found in their entirety in the BACnet Fixed Function Thermostat System Engineering Guide (31-00098) and a limited listing can be found on page 6.
Adjusting the Date and Time
When the controller is first powered up, the date and time might need to be set. These are set at the factory, but the onboard power supply may have run down. If this happens, adjust the date and time.
TO ADJUST THE TIME
Device Instance
The MS/TP MAC address for each device must be set to a unique value in the range of 0-127 on an MS/TP network segment. The MAC address is set using the installer setup menu through the device’s display. The factory default MAC address is 0. The Device Instance Number must be unique across the entire BACnet system network because it is used to uniquely identify the BACnet devices. It may be used to conveniently identify the BACnet device from other devices during installation. The Device Instance Number is set using the installer setup menu through the device’s display or over the BACnet network. The Device Instance Number can be changed by the user, which may be necessary when integrating with a third party or when attempting to replace an existing device and it is desired to maintain the existing Device Instance Number. The factory default Device Instance Number is 0009999 and can range from 0-4194302.
NOTE: The device instance can also be set over the BACnet network.
TO SET THE MAC ADDRESS AND DEVICE INSTANCE AT THE DISPLAY
Installer setup mode provides access to functions specific to the installation of a BACnet FF. Some BACnet FF configuration parameters can be altered from the ISU screens. The ISU parameters can also be accessed via BACnet.
A password (PIN) can be required to access ISU mode by setting AV-133 to a non-zero, four-digit number.
For a complete application configuration guide, refer to the BACnet Fixed Function Thermostat System Engineering Guide (31-00098) and WEBs-AX Configuration Guide (31-00097)
TO ACCESS THE ISU SCREENS
Table 3. ISU Parameters.
ISU Parameter Code | Description | Allowed Values |
120 | Year, first 2 digits | 19-21 |
130 | Year, second 2 digits | 00-99 (00-54 if ISU 200=21) |
140 | Month | 1-12 |
150 | Day | 1-31 |
160 | Schedule format BV-133 | 0 – not programmable (BV-133=0) 4 – 7 day programmable (BV-133=1) |
280 | Backlight control BV-79 | 0 – on for 20 seconds after keypress1 – low always on, bright after keypress |
320 | Swap English/Metric BV-69 | 1 – show opposite units to specified in DDC header |
330 | Daylight saving AV-127 | 0 – off; no automatic adjustments 1 – pre 2007 scheme2 – 2007 and later scheme |
500 | Filter change reminder AV-124 | 0 – reminder not used 1 – 10 days2 – 30 days 3 – 60 days 4 – 90 days 5 – 120 days 6 – 365 days |
510 | Hum pad change reminder AV-125 | 0 – reminder not used 1 – 90 days2 – 180 days 3 – 365 days |
520 | UV lamp change reminder AV-126 | 0 – reminder not used 1 – 365 days |
540 | Program periods AV-129 | 2 – Wake/Sleep4 – Wake/Leave/Return/Sleep |
640 | Clock format BV-83 | 12 – 12 hour (BV-83=0)24 – 24 hour (BV-83=1) |
670 | Keypad lock AV-128 | 0 – no lock1 – access temperature settings only 2 – fully locked |
700 | Sensed room temperature offset (AV-138) | -4 to +4 degrees F |
701 | Sensed room humidity offset (AV-139) | -5% TO +5%Humidity cannot be adjusted above 100% or below 0%. |
702 | Sensed outside air temperature offset (AV-140) | -4 to +4 degrees F |
703 | Sensed outside humidity offset (AV-141) | -5% TO +5%Humidity cannot be adjusted above 100% or below 0%. |
800 | MS/TP MAC | 0-127 |
ISU Parameter Code | Description | Allowed Values |
801 | BACnet Device Instance – first digit | 0-4 |
802 | BACnet Device Instance second and third digits | 00-99 |
803 | BACnet Device Instance forth and fifth digits | 00-99 |
804 | BACnet Device Instance sixth and seventh digits | 00-99 |
BACnet FF (TB3026B-W Only)
BACnet FFs and sensors ship unpaired, verified by two dashes in the Sensor Status field on the BACnet FF’s Wireless Sensor Setup screen. To pair them, issue a pairing command from the BACnet FF and then activate the sensor.
Accessed from Field Service Mode (See “Field Service Mode” on page 7), the BACnet FF’s Wireless Sensor Setup Mode includes diagnostic screens for configuration and checkout of associated sensors. With:UC displayed in Field Service Mode, press the blank key (blank area) just to the left of the blank center key, and then press the down arrow key next to the: UC parameter.
Door/window sensors may be paired to any available sensor number in the range 1-8. When cycling through sensor numbers on the Wireless Sensor Setup screen, unpaired sensor numbers show a status of –.
PIR sensors may be paired to any available sensor number in the range 1-3.
TO PAIR A SENSOR TO A BACnet
TO ERASE SENSOR-TO-BACNET FF PAIRINGS
Fixed Field Service Codes
Field service mode enables technicians to query and command key operating variables in the BACnet FF while at the BACnet FF touchscreen. A technician presses a particular key sequence at the BACnet FF to enter field service mode. Infield service mode a technician uses the left arrows to scroll through data codes and the right arrows to change the value associated with a code.
The lower left of the LCD shows the two-digit data code and the main area displays the data value. A pre-defined list of data codes is available within the description of each application. See BACnet
Fixed Function Thermostat System Engineering Guide (31-00098) for the complete list of setup codes.
Users can be denied access to field service mode by setting BV-68 to ON. A password can also be required to enter field service mode by setting AV-132 to the desired PIN.
Field service mode ends automatically if there is no key activity for five minutes.
Setting Field Service Codes
To set field service codes
Power
24VAC power from a UL Listed Class-2 24VAC transformer (not provided). The BACnet FF uses a half-wave rectifier to convert the AC power supply to onboard power. This enables multiple devices with half-wave power supplies to be powered from a single, grounded transformer.
WARNING Half-wave devices and full-wave devices must not use the same AC transformer. You must maintain wiring polarity. Failure to do so can result in equipment damage.
If the HVAC equipment has an internal circuit board that is powered by the same transformer that will power the BACnet FF, verify that it is NOT full wave.
If the BO power jumper is not removed, then all BOs are powered from the controller’s transformer. The minimum load includes a controller and analog outputs at full load (20mA into 500 Ohms).
All BOs are N.O. (Normally Open) contacts with a maximum switch rating of 24VAC @ 0.5A (12VA). Maximum load assumes all 6 relay output loads are powered from the controller transformer and connected loads are the maximum allowed (24VAC @ 0.5A). Actual power requirements depend on connected loads.
Wireless Receiver (TB3026B-W only)
433.92 Mhz; the range is 50 feet.
Inputs
3 universal inputs with 12-bit accuracy, providing controlled voltage, current and resistive modes. Requires a 10k type 2 thermistor when using remote sensors.
Internal Sensors
1 internal temperature sensor, 0–120 deg. F (-17.8–48.9 deg. C); 1 internal humidity, 5–95% RH, non-condensing.
Relay Outputs
6 relay outputs; normally open contacts with a maximum switch rating of 24VAC @ 0.5A (12VA). BO-0, BO-2 and BO-5 are powered by the controller transformer. BO-1, BO-3, and BO-4 are powered from control trans-former through removable jumper, allowing these BOs to be powered from a separate power source.
Universal Analog Outputs
2 outputs with 12-bit resolution. Each auto-detects for 0–10VDC or 4–20mA. 4–20mA outputs are sourced by the BACnet FF. Connected loads must return to the BACnet FF ground. The BACnet FF automatically switches from 0–10V mode to 4–20mA current mode when it detects a load value of fewer than 500 Ohms.
Processor & Memory
Powerful 32-bit processor with extensive flash memory and RAM resources. Flash memory provides nonvolatile program and data storage and allows for encrypted updates to the program for future product enhancements.
Environmental
Residential, commercial, and light-industrial environments. 0–120 deg. F (-17–49 deg. C). 0–95% RH, non-condensing.
Communications
BACnet MS/TP LAN up to 76.8Kbps.
NOTE: MS/TP is Master-Slave/Token Passing.
Ratings
Listed Underwriters Laboratory for Open Energy Manage-ment Equipment (PAZX) under the UL Standard for Safety 916; listing includes both U.S. and Canadian certification. EMC Directive (European CE Mark) EN 60950 (TB30326B-W model only).
FCC Part 15, Class B.
50037735-001 Wireless door/window sensor 50037736-001 Wireless passive infrared (PIR) motion sensor.
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® U.S. Registered Trademark
© 2016 Honeywell International Inc. 31-00093—03 M.S. Rev. 07-16
Printed in the United States
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