Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Applications

The networked TEC3000 Series Thermostats are stand-alone and field-selectable BACnet® MS/TP or N2 networked devices. Wireless networked models of the TEC3000 Series Thermostat are also available. Proportional Fan Coil and Individual Zone Thermostats provide control of the following:

Local hydronic reheat valves
Pressure-dependent variable air volume (VAV) equipment with or without local reheat
Two- or four-pipe fan coils
Cabinet unit heaters
Other individual zone equipment using an on/off or floating control input

The networked models feature a field-selectable Building Automation System (BAS) BACnet MS/TP or N2 communication capability that enables remote monitoring and programming for efficient space temperature control. The wireless models (TEC30xx-xx-000) are compatible only with the WNC1800/ZFR182x Pro Series Wireless Field Bus System that enables communication with a building automation system (BAS). The new wireless models (TEC31xx-14-000) are compatible only with WRG1830/ZFR183x Pro Series Wireless Field Bus System. All models include a USB port configuration that reduces installation time to allow simple backup and restore features from a USB drive, which enables rapid cloning of configuration between similar units.

Some models have occupancy sensing capability built into the device. These thermostats maximize up to 30% energy savings in high-energy usage commercial buildings, such as schools and hotels, during occupied times by using additional standby setpoints.

All models feature an intuitive onboard touchscreen UI with backlit display that makes setup and operation quick and easy. For Single-or Two-Stage Economizer Thermostat models, only the single-speed fan configuration is supported. For TEC3x1x and TEC3x2x models, multiple fan configurations are supported for fan coil equipment types, as follows:

Single-speed
Multi-speed (two or three discrete speeds)
Variable-speed/EC motors (0 to 10 VDC control)

Some models support dehumidification on two-pipe fan coil units with reheat, and four-pipe fan coil units with or without reheat. When no heating is required, the thermostat monitors space humidity and activates dehumidification control as necessary. Heat and/or reheat is used as required to maintain the space temperature. For optimal dehumidification performance, use a fan coil unit that has a multi-speed or variable-speed fan (VSF).

Important: The TEC3000 Series Thermostat is intended to provide an input to equipment under normal operating conditions. Where failure or malfunction of the thermostat could lead to personal injury or property damage to the controlled equipment or other property, additional precautions must be designed into the control system. Incorporate and maintain other devices, such as supervisory or alarm systems or safety or limit controls, intended to warn of or protect against failure or malfunction of the thermostat.

Important : Le TEC3000 Series Thermostat est destiné à transmettre des données entrantes à un équipement dans des conditions normales de fonctionnement. Lorsqu'une défaillance ou un dysfonctionnement du thermostat risque de provoquer des blessures ou d'endommager l'équipement contrôlé ou un autre équipement, la conception du système de contrôle doit intégrer des dispositifs de protection supplémentaires.Veiller dans ce cas à intégrer de façon permanente d'autres dispositifs, tels que des systèmes de supervision ou d'alarme, ou des dispositifs de sécurité ou de limitation, ayant une fonction d'avertissement ou de protection en cas de défaillance ou de dysfonctionnement du thermostat.

North American emissions compliance

Installation

Parts included

One TEC3000 Series thermostat with integral mounting base
One installation instructions sheet

Location considerations

For networked models, locate the TEC3000 Series thermostat:

On a partitioning wall, approximately 5 ft (1.5 m) above the floor in a location of average temperature, to allow for vertical air circulation to the TEC
Away from direct sunlight, radiant heat, outside walls, outside doors, air discharge grills, stairwells, and from behind doors
Away from steam or water pipes, warm air stacks, unconditioned areas (not heated or cooled), or sources of electrical interference
In a clear path between the integrated passive infrared (PIR) occupancy sensor, if equipped, and the space it monitors

For wireless models, also locate the thermostat:

Outside of a recessed area, metal enclosure, or shelving unit
On the same building level as the other wireless devices on the same personal area network (PAN)
At least 2 in. (51 mm) away from any metal obstruction
In the direct line of sight to other wireless devices on the same PAN. Signal transmission is best if the path between the TEC3000 and other wireless devices is direct as possible. Line of sight is desirable but not required. See Table 1 and Table 2 for the recommended and maximum distances.
Away from metal and large solid obstructions, that includes equipment rooms and elevator shafts and concrete or brick walls, between the TEC3000 and the ZFR182x or ZFR183x Router/Repeater or ZFR Pro Coordinator Radio
Within range of two or more wireless devices on the same PAN. Redundancy in the layout provides the best reliability in wireless installations
At least 20 ft (6 m) from a microwave oven

For integrated passive infrared (PIR) models, make sure that the thermostat is located centrally, where occupant movement is frequent. Ensure that the unit is not blocked by a plastic tamper resistant enclosure (such as the GRD10A-608). The plastic enclosure blocks the occupancy sensing capability.

The use of insulating foam pads is necessary for installations where wiring passes through the wall to the thermostat.

For wireless models, the effective transmission range and distance for indoor applications vary because of wireless signal absorption and reflection due to metal obstructions, walls or floors, and furniture that is found in building interiors.

Note: Allow for sufficient clearance to insert a USB drive into the USB port

Important: Only connect memory devices to the USB port. Do not use it for charging external devices.

Table 1. Indoor line-of-sight transmission ranges ZFR182x

Range type	Transmission distance
	WNC Coordinator Router, ZFR Pro Router/Repeater	TEC3000 Wireless Thermostat
Recommended	50 ft (15.2 m)	50 ft (15.2 m)
Line of Sight, Maximum	250 ft (76.2 m)	100 ft (30 m)

Note: For more details about using ZFR Pro Series communication devices, refer to the WNC1800/ZFR182x Pro Series Wireless Field Bus System Technical Bulletin (LIT-12012356).

Table 2. Indoor line-of-sight transmission ranges ZFR183x

Range type	Transmission distance
	WRG Coordinator Router, ZFR Pro Router/Repeater	TEC3000 Wireless Thermostat
Recommended	250 ft (76.2 m)	250 ft (76.2 m)
Line of Sight, Maximum	1000 ft (308.4 m)	1000 ft (308.4 m)

Note:

Actual range depends on the site and installation conditions. See Technical Documentation for more information.
For more details about using ZFR Pro Series communication devices, refer to the WRG1800/ZFR183x Pro Series Wireless Field Bus System Technical Bulletin (LIT-12013553).

Important: ZFR182x Pro Series Wireless System compatible TEC30xx-1x-000 models and ZFR183x Pro Series Wireless System compatible TEC31xx-1x-000 models are not compatible with each other and cannot be used under the same PAN ID (network address).

Figure 1. thermostat shown with occupancy sensor, dimensions, in. (mm) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Table 3. thermostat features

Callout	Description
1	Security screw
2	Display
3	USB port

Installing the thermostat

Procedure

Use a 1/16 in. (1.5 mm) Allen wrench or Johnson Controls® T-4000-119 Allen-Head Adjustment Tool (order separately) to remove the security screw if it is installed on the top of the thermostat cover as illustrated in Figure 1.
Pull the top edge of the cover and open the thermostat as illustrated in Figure 1.
Important: The cover is not secured on the bottom. Do not drop the cover.

Important: If you are installing more than one thermostat, keep track of which cover attaches to which base. The thermostat version and the base version must match to ensure correct operation.

Important: Use correct Electrostatic Discharge (ESD) precautions during installation and servicing to avoid damage to the electronic circuits of the thermostat.

Figure 1. Removing the security screw and the thermostat cover
Align the thermostat mounting base on the wall with the security screw on the top and use the base as a template to mark the two mounting hole locations. See Figure 2.Note:
- If you need to install the thermostat on an electrical junction box, use 2-1/2 in. x 4 in. (63 mm x 101 mm) square boxes with mud ring covers and avoid smaller 1-1/2 in. x 4 in.(38 mm x 101 mm) square or 3 in. x 2 in. (76 mm x 51 mm) boxes. This procedure ensures that you have enough space for cabling, if needed.
- For surface-mounted applications, use durable mounting hardware, such as wall anchors, that cannot be easily pulled out of the mounting surface.
Pull approximately 6 in. (152 mm) of wire from the wall and insert the wire through the center hole in the thermostat mounting base. See Figure 2.
Secure the mounting base to the wall surface using two mounting screws (user supplied) as illustrated in Figure 2.
Note: Do not overtighten the mounting screws.

Figure 2. Mounting hole locations, dimensions, in. (mm) and securing the thermostat mounting base to the wall

Note: When you mount the unit on the wall, you can hang the front cover on the end of the back cover as illustrated in Figure 3.

Figure 3. Hanging the thermostat front cover

Wiring

About this task

When you replace an existing thermostat, remove and label the wires to identify the terminal functions.

WARNING

Risk of Electric Shock
Disconnect the power supply before making electrical connections to avoid electric shock.

Avertissement

Risque de décharge électrique
Débrancher l'alimentation avant de réaliser tout raccordement électrique afin d'éviter tout risque de décharge électrique.

CAUTION

Risk of Property Damage
Do not apply power to the system before checking all wiring connections. Short circuited or improperly connected wires may result in permanent damage to the equipment.

ATTENTION

Risque de dégâts matériels
Ne pas mettre le système sous tension avant d'avoir vérifié tous les raccords de câblage. Des fils formant un court-circuit ou connectés de façon incorrecte risquent d'endommager irrémédiablement l'équipement.

Important: Make all wiring connections in accordance with local, national, and regional regulations. Do not exceed the electrical ratings of the TEC3000 Series thermostat.

Important: Use correct ESD precautions during installation and servicing to avoid damage to the electronic circuits of the thermostat.

To wire the thermostat, complete the following steps:

Procedure

Strip the ends of each wire 1/4 in. (6 mm) and connect them to the appropriate screw terminals as indicated in Table 1.
Note: For more details on wiring the MS/TP Communications Bus, refer to the MS/TP Communications Bus Technical Bulletin (LIT-12011034).
Attach the communication wires to the terminal block.
Note: If multiple wires are inserted into the terminals, make sure to twist the wires together before you insert them into the terminal connectors.
Carefully push any excess wire back into the wall.
Note: Seal the hole in the wall with fireproof material to prevent drafts from affecting the ambient temperature readings.
For networked models, set the bus end-of-line (EOL) termination switch to the desired location.
You can designate the thermostat as the end of the Field Controller (FC) Bus and N2 Bus through the bus EOL termination switch. The default position is OFF. If the thermostat is at the end of a daisy chain of devices on the FC Bus and N2 Bus, set the EOL switch to the ON position. See Figure 1.

Figure 1. EOL switch position (left) and installing the thermostat cover (right)

Reattach the thermostat cover to the mounting base, bottom side first.

Important: Make sure you reattach the cover that corresponds to its correct base. The CPU board number needs to match the base board number. Otherwise, an operation error occurs after you reattach a cover and base that do not belong together. The example in Figure 2 indicates that a TEC3612-16 CPU board is mounted on the base of a TEC3312-16. See the following table for TEC3000 model names and code numbers.

Figure 2. Error code indicating mismatched boards Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Table 1. TEC3000 model names and code numbers
Name	Code number	Name	Code number
TEC3012-13	30	TEC3313-14	05
TEC3012-14	31	TEC3322-13	08
TEC3012-16	33	TEC3322-14	09
TEC3013-14	35	TEC3322-16	0B
TEC3022-13	38	TEC3323-14	0D
TEC3022-14	39	TEC3330-13	10
TEC3022-16	3B	TEC3330-14	11
TEC3023-14	3D	TEC3330-16	13
TEC3030-13	40	TEC3331-14	15
TEC3030-14	41	TEC3612-13	18
TEC3030-16	43	TEC3612-14	19
TEC3031-14	45	TEC3612-16	1B
TEC3112-14	49	TEC3613-14	1D
TEC3113-14	4D	TEC3622-13	20
TEC3122-14	51	TEC3622-14	21
TEC3123-14	55	TEC3622-16	23
TEC3130-14	59	TEC3623-14	25
TEC3131-14	5D	TEC3630-13	28
TEC3312-13	00	TEC3630-14	29
TEC3312-14	01	TEC3630-16	2B
TEC3312-16	03	TEC3631-14	2D

Note: The two-character code number is listed within the error code to indicate that the CPU board and base board do not belong together.

Use a 1/16 in. (1.5 mm) Allen wrench or Johnson Controls T-4000-119 Allen-Head Adjustment Tool (order separately) to reinstall the security screw on the top of the thermostat cover. See Figure 1 for security screw placement.
Remove the protective plastic cover sheet from the display.
Important: If the display is dirty, gently wipe it clean with isopropyl alcohol or ethyl alcohol. Do not scrub hard as to avoid damaging the surface. Do not use other cleaners such as water, ketones, and aromatic solvents, since they may damage the polarizer.
Note:
- For VAV and two-pipe systems, connect the valve to the heating output.
- Only one transformer is required for each TEC.
- Power to the AUX contact comes from the reheat coil.
See Wiring diagrams for wiring diagrams. See Table 1 for terminal identification.

Terminal identification

Table 1. Terminal identification
Terminal label	Function
Terminal label	TEC3022, TEC3023, TEC312x Proportional FC/VAV	TEC3322, TEC3323, Proportional FC/VAV	TEC3622, TEC3623 Proportional FC/VAV
24 V	24 VAC hot from transformer
FAN H	Fan high
FAN M	Fan medium
FAN L	Fan low and fan on
AUX	Auxiliary binary output
AUX	Auxiliary power input
COM¹	24 VAC common from transformer
CLG	Cooling command, configurable 0 VDC to 10 VDC range
NC	No connection
NC	No connection
HTG	Heating command, configurable 0 VDC to 10 VDC range
RSEN	Configurable analog input 1
COS	Configurable analog input 2/Changeover binary switch
COM	Common
VSF	Variable speed fan command, configurable 0 VDC to 10 VDC range
BI-2	Configurable binary input 2
BI-1	Configurable binary input 1
NET+	n/a	Not connected	Field bus+/N2+
NET-	n/a	Not connected	Field bus-/N2-
NET COM	n/a	Not connected	Isolated common for field bus

¹ For the networked models, the common terminals, which do not include NET COM, are internally connected and can be used for all inputs and outputs. For the wireless models, the common terminals are connected and can be used for all inputs, outputs, and 24 VAC power.

Wiring diagrams

See Table 1 for terminal identification.

Figure 1. Proportional wiring diagram Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation

Figure 2. Proportional 0 to 10 VDC control (pressure-dependent VAV) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 3. Proportional 0 to 10 VDC control (pressure-dependent VAV with changeover sensor/switch) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 4. Proportional 0 to 10 VDC control (pressure-dependent VAV with changeover sensor/switch and reheat) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 5. Floating control two-pipe heating and cooling hydronic valve control fan coil application Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 6. Floating control two-pipe heating and cooling hydronic valve control with changeover fan coil application Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 7. Proportional 0 to 10 VDC control (two-pipe and four-pipe fan coil applications) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 8. AUX contact wiring Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Figure 9. Binary input wiring Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Setup and adjustments

Important: Table 1 provides a full list of TEC3000 menu settings. In the upcoming sections, step-by-step instructions are included on how to access and adjust the more commonly used menus.

Overview

About this task

Figure 1 shows the thermostat home screen in both the light and dark themes. You can customize it to show or hide various elements from the occupant. See Table 1 for a listing of the touchscreen icons and Table 1 to identify the home screen settings under the Display Settings. When screen customization is used in conjunction with a passcode, the building owner can control which options the occupant can access and adjust.

Important: If lockout levels are used, some icons are hidden. Table 1 provides details of these levels.

Figure 1. thermostat home screen (shown with light and dark themes) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

To switch between the modern, classic, light, and dark themes, complete the following steps:

Procedure

Press the Menu icon.
Press Settings.
Press Display Settings.
Press Change Color Theme.
Select one of the four options available.

Results

Multiple pages are available on the display. The page that you currently view is emphasized with a filled dot. The other available page displays as an empty dot.

In the modern theme, the cooling, or blue, and heating, or orange, circles show whether the cooling or heating mode is active.

Figure 2. thermostat home screen in cooling mode (left) and heating mode (right) Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

Customizing the home screen

About this task

Customizing the Home screen settings include:

Brightness
Enable Backlight
Units
Time
Time Zone
Time Format
Date
Date Format

You can also show or hide these items on the Home screen:

Fan Button
Temperature
Humidity
Off Button
Hold Button
Setpoint
Alarms
Occupancy Status
Unit Status
Date/Time

To customize the Home screen, complete the following steps:

Procedure

Press the Menu icon.
Press Display Settings.
Enable or disable elements of the home screen as appropriate for the building owner and occupants.
Set the passcode on the thermostat to prevent the occupants from changing settings that they should not have access to change.

Touchscreen icons

The following table describes the touchscreen icons on the home screen. Press and release a touchscreen icon to activate the TEC. Additional touchscreen icons appear based on the menu, and those icons are also described in the table.

Table 1. Touchscreen icons
Icon	Icon name	Description
	Menu	Displays the configuration screens where various settings may be adjusted.
	Alarm	Indicates that the thermostat has triggered an alarm.
On Standby	Unit Power	Powers the thermostat on or off.Note: This icon disables all equipment control but does not physically power down the unit. On the modern home screen, if the Unit Power icon is in standby mode, the temperature and humidity also display in standby mode to indicate that control off or standby mode is active.
On Standby	Humidity	Indicates the humidity reading.
On Standby	Degree	Indicates that the unit is set to degrees.
	Network Communication (for Networked Models) No Signal	Indicates that the thermostat detected a supervisory controller and both are online. Indicates that the thermostat did not detect a supervisory controller.
No Signal Low Signal Medium Signal High Signal	Radio Signal (for Wireless Models)	Indicates the strength of the radio signal.
	Arrow Up Arrow Down	Increases or decreases the cooling value on the home screen.
	Arrow Up Arrow Down	Increases or decreases the heating value on the home screen.
	Cooling Hold	Indicates that cooling hold mode is enabled. To disable Hold mode, press the button.
	Heating Hold	Indicates that heating hold mode is enabled. To disable Hold mode, press the button.
	Cooling Setpoint	Displays the current cooling setpoint. Indicates that Hold mode is disabled. To enable Hold mode, press the button.
	Heating Setpoint	Displays the current heating setpoint. Indicates that Hold mode is disabled. To enable Hold mode, press the button.
	Setpoint Temperature	Displays the current setpoint temperature. Indicates that the Show Hold button is set to No.
	Heating Mode	Indicates that heating mode is selected.
	Cooling Mode	Indicates that cooling mode is selected.
	Auto Mode	Indicates that Auto mode is selected.
On Auto Quiet	Fan Overrides for Single-speed Fans	Adjusts the fan override between On, Auto, and Quiet for single-speed fans.
On Auto Quiet	Fan Overrides for Variable-speed Fans	Adjusts the fan override between On, Auto, and Quiet for variable-speed fans.
Low Medium High Auto Quiet	Fan Overrides for Multi-speed Fans	Adjusts the fan override between Low, Medium, High, Auto, and Quiet for multi-speed fans.
Unoccupied Occupied Temporarily Occupied Standby Override - Occupied Override - Unnoccupied	Occupancy Status	Adjusts the occupancy between Unoccupied, Occupied, Temporarily Occupied, Standby, Occupancy Override, Unoccupancy Override.
	Back	Moves the display to the previous screen.
	Forward	Moves the display to the next screen.
	Home	Returns the display to the main home screen.
	Save	Saves the current configuration and parameter settings.
	Delete	Deletes the scheduled event.
	Clear	Clears the password entry on the keypad screen.
	Exclamation point	Indicates that an error has occurred.

User lockout

You can select from three different levels of access at the local display to manage functionality through the supervisory controller. This lockout is independent of any display or passcode settings. The existing temporary occupancy capability is unaffected by this feature. User lockout hides the icons that are not operable. The following table describes the lockout levels.

Table 1. User lockout levels
Lockout level	Capability
State 0	Provides full access to Home Screen Display Adjustments and icons (default).
State 1	Hides the Menu icon.
State 2	Only allows the screen to trigger temporary occupancy. Menu, Unit Power, the Up and Down arrows, and Run/Hold are hidden.

Using the USB port

Use the USB port to quickly and easily load firmware upgrades, back up the current settings, and restore settings to the TEC3000 by using a USB drive. The TEC3000 can recognize eight configuration files or firmware package files. The USB drive format must be FAT or FAT32. The drive cannot be NTFS format or USB 3.0. If you are upgrading firmware or copying configuration files, you need the passcode if one has been set up. Do not remove the USB drive until the firmware upgrade is complete. The TEC3000 may restart and go offline to the network engine after a firmware upgrade. The upgrade takes approximately three minutes.

Configurations are copied, except for the Communication mode. See Choosing the Communication mode (TEC3622 and TEC3623 Models) to configure the networked devices.

Note: TEC3000 Series Thermostats are not compatible with Sandisk USB drives.

Loading the firmware

Procedure

Ensure that the TEC screen is on.
Insert the USB drive into the right side of the TEC.
See Figure 1 for the USB port location.
Press the Menu icon.
Scroll down the menu and press Update.
Press Load Firmware.
Select the correct firmware version. The correct file name has the .pkg extension.
Press Confirm if you have the correct firmware version.
The firmware is loaded from the USB drive into the TEC3000 operating system. The TEC3000 locates the new firmware only if the new firmware is on the root drive of the USB drive. See Table 1 if the firmware is not loaded correctly.
Remove the USB drive from the TEC3000 thermostat when the update is complete.
The TEC3000 firmware update is complete when the TEC3000 restarts and returns to the home screen.

Backing up the settings

About this task

Note: When you back up the settings, the network settings are not backed up or restored.

Procedure

Ensure that the TEC screen is on.
Insert the USB drive into the right side of the TEC.
See Figure 1 for the USB port location.
Press the Menu icon.
Scroll down the menu and press Update.
Press Backup.
A message appears stating that the file is saved locally and on a USB drive.
Press Confirm to save locally and on USB.
The setting files are named based on the TEC3000 model name, date, and time stamp. For example, TEC3xx1-00_2018-07-01T1. The files are saved locally and on the USB drive’s root directory. See Table 1 if the settings are not backed up correctly.
After the settings are saved onto the USB drive, remove the USB drive from the TEC3000.

Scheduled circulation

About this task

You can schedule to run your fan for a minimum duration per hour in order to maintain circulation in a space. If the minimum hourly fan runtime is not exceeded as part of normal HVAC operation, the fan turns on at the end of the hour for the length of time required to fulfill the minimum hourly run time. The fan runtime calculation includes runtime initiated when the Fan Mode is set to On and other overrides. The fan does not turn on if the fan runtime is already longer than the minimum hourly fan runtime. When you enabled the Scheduled Circulation Only When Occupied setting, the fan does not turn on at the end of the hour to fulfill the minimum runtime unless the occupancy state is set to Occupied.

To set the Scheduled circulation, complete the following steps:

Procedure

Press the Menu icon.
Press Setup.
Press General Setup.
Press Scheduled Circulation and select Enable
Press Minimum Hourly Fan Runtime and set the time in a range of 5 to 30 minutes.
Press Scheduled Circulation Only When Occupied and select Disable or Enable as required.
Press Save and the back arrow to return to the previous screen.

If the fan type is variable speed or multi speed, you can select the speed at which the fan runs to satisfy the minimum hourly runtime.

In case of variable speed fan, select Variable Speed Fan Circulation Setpoint and set the fan speed for circulation in the range of 0% to 100%.
In case of multi speed fan, select Multi-Speed Fan Circulation Setpoint and set the fan speed for circulation as Low, Med, or High.

This option is also exposed to the BAS through the points SCH-CIR-EN, SCH-CIR-ONLYOCC, and MIN-HR-FAN. If Scheduled Circulation is disabled, the other two objects show unreliable.

Configurable analog inputs (AIs)

The thermostat supports up to three configurable AIs that can be used to add different features to the system. The configuration menu can be accessed through Setup > Input Setup. All AIs can be configured to support the following options:

Relative Humidity—Sets up the AI to accept a 0 VDC-10 VDC input when connected to a humidity sensor.
Remote Zone Temperature—Sets up the AI to accept a resistive input when connected to one of the six supported types of temperature sensors.
Carbon Dioxide—Sets up the AI to accept a 0 VDC-10 VDC input when connected to a CO₂ sensor.
Damper Feedback—Sets up the AI to accept a 0 VDC-10 VDC input when connected.
Outdoor Air Temperature—Sets up the AI to accept a resistive input when connected to one of the six supported types of temperature sensors.
Supply Air Temperature—Sets up the AI to accept a resistive input when connected to one of the six supported types of temperature sensors.

Configuring the AIs

Procedure

Connect the required sensors to the analog inputs.
Press the Menu icon.
Press Setup.
Press Input Setup.
Press AI1 Input Selection and select the sensor that is connected to RSEN. If the selected sensor is a Remote Zone Temperature, Outdoor Air Temperature, or Supply Air Temperature sensor, the thermostat restarts.
Do one of the following after the restart based on the type of sensor you are configuring:
- If the selected sensor is a temperature sensor, do the following:
  - a. Press Menu > Setup > Input Setup > AI1 Input Setup and select the temperature sensor that is connected to RSEN.
  - b. Press Menu > Setup > Input Setup > AI1 Offset and select the temperature offset as needed for the sensor connected to RSEN. The options are -5°F to 5°F or -2.8°C to 2.8°C.
- If the selected sensor is a Relative Humidity, Carbon Dioxide, or Damper feedback sensor, the Input Setup is automatically set to 0 VDC-10 VDC. Press Menu > Setup > Input Setup > AI1 Offset and select the offset needed for the sensor connected to RSEN. The options are -15% to 15% for Relative Humidity, -200 ppm to 200 ppm for Carbon Dioxide, and -15% to 15% for Damper Feedback.
Configure the analog inputs RSEN and COS by following the same steps to set up AI1 Input Selection, AI1 Input Setup, AI1 Offset, AI2 Input Selection, AI2 Setup, and AI2 Offset.
Complete steps 1 -7 to re-configure the respective AI if you have to change the sensor connected to any of the AIs. When the setup of AI1 Input Selection and AI2 Input Selection changes from resistive type (Remote Zone Temperature and Outdoor Air Temperature) to 0 VDC-10 VDC type (Relative Humidity and Carbon Dioxide) or the other way around, the thermostat restarts.

Networked sensors

The TEC3000 supports sensor values supplied over a network connection. For the TEC3000 to consider the value as reliable, the value must be written to the NET- Override network point at least every 15 minutes. The following table provides a list of point descriptions and the suggested write interval ranges.

Table 1. Point descriptions and suggested write interval ranges
Name	Description	Suggested write interval range
NET-OAT	Network Override Outdoor Air Temperature	15 minutes at maximum
NET-OAH	Network Override Outdoor Air Humidity	15 minutes at maximum
NET-SAT	Network Override Supply Air Temperature	30 seconds to 2 minutes
NET-ZNH	Network Override Zone Humidity	5 minutes to 15 minutes at maximum
NET-ZNT	Network Override Zone Temperature	15 seconds to 2 minutes
NET-OCC	Network Override Zone Occupancy	15 minutes at maximum

Availability of AIs

For TEC3x2x-1x-xxxx models, only the RSEN and COS inputs are available for connection.

Priority for configurable AIs

You cannot set any two AIs to the same function or sensor type for any of the inputs. If two or more AIs are configured as the same, the first configured input is used and the others are ignored. For example, if RSEN and COS are both configured as Relative Humidity, only RSEN is used and COS is ignored.

Priority for overall sensors data sources

The TEC3000 supports various sources of sensor data for use in control or display, including internal sensors, remote sensors that connect using an analog input, or network commanded sensors. The TEC uses the highest priority connected input, which consists of network commands followed by remote sensors and then internal sensors, for control and display. Not all sources are available for all sensors.

Network commands operate on a timeout basis. When a network point is written to by a supervisor, the point becomes the highest priority for 15 minutes. If the supervisor writes a new update within 15 minutes, the timer restarts for another 15 minutes.

Available fault diagnostics

Supply Fan Faults—The TEC3000 supports a configurable Supply Fan Status feedback input that turns on when the Supply Fan Status does not match the Supply Fan Command, and that you can configure to disable heating, cooling, and fan commands. You can adjust the alarm delay with the Fan Alarm delay setting. If the delay is set to 0 or if you do not define the binary input, this feature becomes disabled.
Supply Fan Runtime—The TEC3000 supports setting runtime limits on the supply fan command. When the supply fan exeeds the runtime limit, an alarm turns on. This feature acts as a maintenance reminder. Setting the runtime limit to 0 disables this feature.
Supply Air Temperature Diagnostics—The TEC3000 supports diagnostics when you have a Supply Air Temperature installed. The TEC3000 monitors the supply air. If you call for cooling or heating and the temperature does not fall or rise by at least the supply air temperature alarm offset value within the supply air temperature alarm delay, an alarm generates. If the monitoring occurs while cooling, a cooling ineffective alarm generates. If the monitoring occurs while heating, a heating ineffective alarm generates. If you set the supply air temperature offset value set to 0, this alarm disables.
Zone Temperature Alarm—When enabled, the user can set a low and high temperature alarm; and if the zone temperature rises or falls below those limits, an alarm generates.
Trends—Built-in trends exist for many of the inputs and outputs for the TEC3000. These trends are viewable at the TEC. The analog graph displays data in 15-minute increments over the previous 24 hours or a table with the last 25 data points. Binary trends display 25 samples taken at every change of state.

Menus and submenus

In the following table, the * indicates that the menus depend on your configuration.

Table 1. Menus and submenus
Level 1	Level 2	Level 3
Setpoints	Dehumidification	Dehumidification
		Cooling Valve Minimum Position*
		Cooling Valve Starting Position*
		Heating Valve Starting Position*
		Coil Tempering Time*
		Dehumidification Overcool Limit*
		Chilled Water Supply Temperature Setpoint*
	Temperature	Occupied Cooling
		Occupied Heating
		Unoccupied Cooling
		Unoccupied Heating
		Standby Cooling
		Standby Heating
		Occ Setpoint Select
		Heat Cool Setpoint Mode
		Max Heating Setpoint*
		Min Heating Setpoint*
		Max Cooling Setpoint*
		Min Cooling Setpoint*
		Max Setpoint*
		Min Setpoint*
Scheduling	Schedule Options	Set Schedule
		Optimal Start Enable
		Temp Occ Duration
		Motion Sensor Timeout
		Manual Occupancy Mode
		Schedule Source
Display Settings	Passcode Enabled
	Passcode*
	Brightness Setting
	Enable Backlight Timeout
	Units
	Time
	Time Zone
	Set Time Format
	Date
	Set Date Format
	Language
	Show Fan Button on Home
	Show Temp on Home
	Show Humidity on Home
	Show Off Button on Home
	Show Hold Button
	Show Setpoint on Home
	Show Alarms on Home
	Show Occ Status
	Show Unit Status
	Show Date/Time
Setup	General Setup	Control Mode
		Unit Enable
		Fan Mode*
		Max Setpoint Offset
		Fan On Delay*
		Fan Off Delay*
		Frost Protection
		Dehum Enable*
		Unocc Dehum Enable
		Dehumidification Sequence Mode*
		Aux Mode
		Load Shed Rate Limit
		Load Shed Adjust
		Fan Alarm Delay
		Fan Alarm Action*
		Fan Alarm Reset*
		Fan Runtime Limit
		Fan Runtime Reset*
		Supply Air Temperature Alarm Offset
		Supply Air Temperature Alarm Delay*
		Unocc Low Speed Fan
		Scheduled Circulation Enable
		Scheduled Circulation Only when Occupied
		Mininum Hourly Fan Runtime
		Variable Speed Fan Circulation Setpoint*
		Multi-speed Fan Circulation Setpoint*
	Input Setup	BI1 Config
		BI2 Config
		Supply Temp Sensor*
		Supply Temp Offset*
		Zone Temp Sensor
		Zone Temp Offset
		Humidity Offset
		Reset Sensors
		For networked models: Zone Temp Alarm Enabled
		For networked models: Zone Temp Low Limit
		For networked models: Zone Temp High Limit
Setup (continued)	Tuning Setup	Temp Control Setup
		Reset PID Tuning
		Deadband*
		Auto Economizer Tuning
		Heat Prop Band*
		Heat Integral Time*
		Heat Process Range*
		Heat Saturation Time*
		Heat Time Constant*
		Heat Process Dead Time*
		Heat Period*
		Cool Prop Band*
		Cool Integral Time*
		Cool Process Range*
		Cool Saturation Time*
		Cool Time Constant*
		Cool Process Dead Time*
		Cool Period*
		Equipment Size
	Network Setup	FC Comm Mode
		BACnet Instance ID*
		For networked models: N2 Address*
		BACnet Address*
		For networked models: MSTP Baud Rate*
		BACnet Encoding Type
		BACnet/MSTP Communication Mode
		For wireless models: Pan ID
Equipment Setup	General	Unit Type
		Valve Open Voltage
		Valve Closed Voltage
		Unoccupied Off Delay
	Supply Fan	Supply Fan Type*
		Start Voltage*
		Full Speed Voltage*
		Minimum Command*
		Medium Speed On Cmd*
		High Speed On Cmd*
	Reheat	Reheat Installed
		Reheat Min Damper Pos*
		Reheat Fan Required*
	Changeover	Changeover Mode*
		Supply Temp Type*
		Changeover Setpoint*
		Supply Temp Sensor*
		Supply Temp Offset*
Trend	EFF-ZNT
	EFF-SETPOINT
	EFF-ZNH
	B1 Status
	B2 Status
	EFF-OAT
	EFF-SAT
	FANSPD-S
	HTG-O
	CLG-O
System Status	Occupancy Source
	Unit Status
	Supply Air Temperature
	Changeover State
	Zone Temp Source
Control Status	Cooling % Command
	Heating % Command
	Reheat % Command
	Cool Stage 1
	Heat Stage 1
	Reheat Stage 1
	Fan % Command
	Fan
Controller Info (Thermostat Info)	Model Name
	Software Version
	Unit Name
	Device Name
	Device Description
Commissioning	Supply Air Temperature
	Heat Command
	Cool Command
	Supply Fan
	Aux
Update	View Version
	Load Firmware
	Restore*
	Backup*
For wireless models: Network Status	Radio Code Version
	Radio PAN ID
	Active Channel
	Signal Strength
	Connection Status
	Network State
	IEEE Address
	Short Address

Table 2. TE-6300 Series Temperature Sensors (order separately)
Sensor type	Mounting style	Probe length	Product code number
Nickel (1k ohm)	Adjustable¹	8 in. (203 mm)	TE-6311A-1
	Averaging	8 ft (2.4 m)	TE-6315M-1
		8 ft (2.4 m)	TE-6315V-2¹
		17 ft (5.2 m)	TE-6316M-1
		17 ft (5.2 m)	TE-6316V-2¹
	Duct	4 in. (102 mm)	TE-631GM-1
		8 in. (203 mm)	TE-6311M-1
		8 in. (203 mm)	TE-6311P-1
		18 in. (457 mm)	TE-631JM-1
	Flange	4 in. (102 mm)	TE-631GV-2
	Flange	8 in. (203 mm)	TE-6311V-2
	Flush	n/a	TE-6310F-0
	Flush	n/a	TE-6310F-1
	Outside air	3 in. (76 mm)	TE-6313P-1
	Strap-mount	3 in. (76 mm)	TE-631S-1
	Wall²	n/a	TE-6314P-1
	Well	6 in. (152 mm)	TE-631AM-2
	Well	8 in. (203 mm)	TE-6312M-1
Platinum (1k ohm)	Adjustable	8 in. (203 mm)	TE-6351-A
	Duct	4 in. (102 mm)	TE-635GM-1
		8 in. (203 mm)	TE-6351M-1
		8 in. (203 mm)	TE-6351P-1
		18 in. (457 mm)	TE-635JM-1
	Flange	4 in. (102 mm)	TE-635GV-2
	Flange	8 in. (203 mm)	TE-6351V-2
	Flush	n/a	TE-6350F-0
	Flush	n/a	TE-6350F-1
	Strap-mount	3 in. (76 mm)	TE-635S-1
	Outside air	3 in. (76 mm)	TE-6353P-1
	Wall²	n/a	TE-6324P-1
	Well	6 in. (152 mm)	TE-635AM-2
	Well	8 in. (203 mm)	TE-6352M-1
Platinum equivalent	1k ohm averaging¹	10 ft (3 m)	TE-6327P-1
	1k ohm averaging¹	20 ft (6.1 m)	TE-6328P-1
	100 ohm averaging¹	10 ft (3 m)	TE-6337P-1
	100 ohm averaging¹	20 ft (6.1 m)	TE-6338P-1
Thermistor (2.2k ohm)	Adjustable	8 in. (203 mm)	TE-6341A-1
	Duct	8 in. (203 mm)	TE-6341P-1
	Flange	4 in. (102 mm)	TE-634GV-2
	Flange	8 in. (203 mm)	TE-6341V-2
	Outside air	3 in. (76 mm)	TE-6343P-1
	Wall²	n/a	TE-6344P-1
	Well	8 in. (203 mm)	TE-6342M-1
	Well	6 in. (152 mm)	TE-634AM-2
Thermistor (10k ohm) Type II	Adjustable	8 in. (203 mm)	TE-6361A-1
	Duct	4 in. (102 mm)	TE-636GM-1
		8 in. (203 mm)	TE-6361M-1
		8 in. (203 mm)	TE-6361P-1
		18 in. (457 mm)	TE-636JM-1
	Flange	4 in. (102 mm)	TE-636GV-2
	Flange	8 in. (203 mm)	TE-6361V-2
	Flush	n/a	TE-6360F-0
	Flush	n/a	TE-6360F-1
	Outside air	3 in. (76 mm)	TE-6363P-1
	Strap-mount	3 in. (76 mm)	TE-636S-1
	Well	6 in. (152 mm)	TE-636AM-2
	Well	8 in. (203 mm)	TE-6362M-1

¹ Two TE-6001-8 Element Holders come with the platinum-equivalent averaging sensors. Order separately to use with a nickel averaging sensor.

² Order the TE-1800-9600 Mounting Hardware separately to mount the wall unit to a wallbox.

Troubleshooting

Table 1. Fault list
Faults	Probable causes	Solutions
Remote Zone Temp Fail	The External Zone Temperature sensor has been disconnected or has failed.	Check the wiring of the sensor. If intentionally disconnected, reset sensors through the menu. If the problem persists, order replacement units and return the affected devices to Johnson Controls under the RMA program.
Supply Temp Fail	The External Supply Temperature sensor has been disconnected or has failed.	Check the wiring of the sensor. If intentionally disconnected, result fault by entering the menu, enter Control Setup, and select Inputs to reset the sensors. If the problem persists, order replacement units and return the affected devices to Johnson Controls under the RMA program.
Internal Sensor Fail	An internal sensor has failed on the TEC.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Dehum Unavailable	Dehumidification is unavailable because the zone humidity sensor has failed or the humidity reading is not reliable.	If the source of zone humidity was a BAS, check the BAS to ensure that it is still online and is providing the TEC with the humidity reading. If removal of the BAS mapping was intentional, reset the sensors through the menu. (For all models) If the problem persists, order replacement units and return the affected devices to Johnson Controls under the RMA program.
Service	Equipment connected to the BI configured for a Service alarm triggers the alarm.	Service the equipment by way of the manufacturer's recommendation.
Dirty Filter	Equipment connected to the BI configured for a Dirty Filter alarm triggers the alarm.	Replace the filter in the equipment as explained in the manufacturer's instructions.
Calibration Corrupt	Factory calibration data is lost or is not installed.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Changeover Fail	The Supply Temperature Sensor is not installed, has failed, or has been disconnected and the TEC can no longer detect changeover mode to cool or heat.	Follow the same steps as Supply Temp Fail alarm.
Zone Temp Unreliable	All sources of zone temperature are unreliable, including the onboard sensor.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Open Window	The switch connected to the BI configured for Open Window senses that the window is opened, and control has shut down.	Close the window to resume control. Check sensor functionality with an ohmmeter, and verify the wiring to the TEC. Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Fan Lock	The switch connected to the BI configured for Fan Lock did not sense airflow within 10 seconds of starting the fan, and control has been shut down.	Inspect equipment to ensure fan functions. Check sensor functionality with an ohmmeter, and verify wiring to the TEC. Reset fault by entering the menu, selecting Fault Status, and selecting the Fan Lock. Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Humidity Unreliable	The zone humidity reading was reliable and has now failed.	If the source of zone humidity was the onboard sensor, contact Johnson Controls product sales and support. If the source of zone humidity was a BAS, check the BAS to ensure that it is still online and providing the TEC with the humidity reading. If removal of the BAS mapping was intentional, reset sensors through the menu.
Controller Fault (Thermostat Fault)	The thermostat has detected an internal fault that it cannot recover.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Controller Fault (Thermostat Fault)	An unknown error has prevented the thermostat from turning on.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
Touchscreen Unavailable	The touchscreen components have failed to initialize.	Reboot the thermostat. If problems persist, order replacement units and return the affected devices to Johnson Controls under the RMA program.
Board Mismatch	The baseboard and CPU board are paired incorrectly. An error message appears on the TEC indicating the model number of the baseboard and CPU board.	Match the baseboard to its corresponding CPU board. See Figure 2 and Table 1 for information on ensuring that you have the CPU board and base board paired correctly.
Firmware Mismatch	The previous upgrade did not complete.	Upgrade the TEC3000 to the latest released version. Upgrade the TEC3000 to the current version again.
Firmware Mismatch	The previous downgrade has not completed because the previous version is no longer supported.	Reboot the TEC3000 to clear the fault.
USB Malfunction	A USB drive has malfunctioned and drawn more than the maximum allowed current.	Attempt to insert and use the USB drive again. Try a new USB drive. If problems persist, order replacement units and return the affected devices to Johnson Controls under the RMA program.
Supply Fan Runtime Limit Extended	The Supply Fan Runtime exceeds the configured Supply Fan Runtime Limit.	Service the Supply Fan. Reset the Supply Fan runtime.
Heating Ineffective	The Supply Air Temperature has not increased above the configured Supply Air Temperature Alarm Offset while heating has been active for at least the Supply Air Temperature Alarm Delay.	Verify that the heating elements on the rooftop are functioning correctly.
Cooling Ineffective	The Supply Air Temperature has not decreased below the configured Supply Air Temperature Alarm Offset while cooling has been active for at least the Supply Air Temperature Alarm Delay.	Verify that the cooling elements on the rooftop are functioning correctly.
Supply Fan Fault	The Supply Fan Status configured for either BI1 or BI2 has not proved within the configured Fan Alarm Delay.	Verify that the Supply Fan is operating when turned on. Verify that the Supply Fan Status wiring is connected correctly.
Zone Temperature Too Cold	The Zone Temperature decreased below the configured Zone Temp Low Limit.	Verify that the TEC and the RTU heating are enabled and functioning.
Zone Temperature Too Hot	The Zone Temperature increased above the configured Zone Temp High Limit.	Verify that the TEC and the RTU cooling are enabled and functioning.

Table 2. Troubleshooting details
Symptom	Probable causes	Solutions
The thermostat displays `Idle` with a Unit Status of `Cooling Unavailable due to Changeover` despite being above cooling setpoint, or with a status of `Heating Unavailable due to Changeover` despite being below the setpoint.	The two-pipe fan coil/VAV system does not have a changeover sensor and switch connected, or the sensor/switch has failed.	Check the wiring of the supply temperature sensor/switch. Verify that the changeover is set up correctly for the type of sensor attached (sensor or switch).
	The changeover temperature senses a hot supply, but the thermostat requests cooling.	Verify that the supply is not in heating mode. If it is, nothing can be done from the TEC. Check the wiring of the supply temperature sensor or switch. Check the placement of the supply temperature sensor or switch. Verify that the changeover is set up correctly for the type of sensor attached (sensor or switch).
	Changeover temperature senses a cold supply, but the thermostat requests heating.	Verify that the supply is not in cooling mode. If it is, nothing can be done from the TEC. Check the wiring of the supply temperature sensor or switch. Check the placement of supply temperature sensor or switch. Verify that the changeover is set up correctly for the type of sensor attached (sensor or switch).
The thermostat displays `Idle` with a Unit Status of `Cooling Unavailable due to Control Mode` despite being above cooling setpoint, or with a status of `Heating Unavailable due to Control Mode` despite being below the setpoint.	The Control Mode is set to Cooling Mode, but the thermostat requests heating.	Change the Control Mode to Auto or Heating.
	The Control Mode is set to Heating Mode, but the thermostat requests cooling.	Change the Control Mode to Auto or Cooling.
The thermostat provides an error when trying to upgrade firmware.	The firmware on the USB drive is below the minimum required version. Error code 1025.	Please use firmware version 3.0.2.xxxx (for networked models) or 2.0.2.xxxx (for wireless models) or higher. A reboot is required to clear the Firmware Mismatch fault that occurs.
The TEC3000 zone temperature does not change fast enough compared to the measured zone temperature from a verification device, such as a calibrated sensor.	The TEC3000 is configured by default for larger spaces with normal-sized equipment when a proportional device is active.	Select Control Setup > Tuning > Equipment Size > Oversized.
The zone space temperature increases or decreases too much when the unit is active in unoccupied mode.	The heating and cooling equipment are too big for the unoccupied space.	Decrease the Unoccupied Off Delay parameter from 10 minutes to a more appropriate time for the equipment configuration.
The thermostat provides an error when trying to back up settings.	The USB drive is defective.	Try a different USB drive.
The thermostat provides an error when trying to restore settings from a backup.	The USB drive is defective.	Try a different USB drive.
	The Restore file is corrupt.	Try restoring a different backup file.
	The Restore file is from an incompatible model TEC.	Ensure that the backup file being restored was from the same model TEC.
The thermostat is unable to access a USB drive.	The drive is formatted as NTFS or another unsupported format. The TEC supports file allocation table (FAT) (for networked models), FAT16 (for wireless models), and FAT32 (for all models) formats only.	Reformat the USB drive, or try a different USB drive with a supported format.
The thermostat is unable to access a USB drive.	The USB drive is defective.	Try a different USB drive.
The thermostat displays `Board Mismatch`.	The I/O board that the display board is currently attached to does not match the one that initially shipped with the display board.	Attach the display board to the correct I/O board.
The thermostat displays `Board Mismatch`.	A hardware failure causes the two boards to incorrectly identify themselves.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
The thermostat displays `Controller Fault` (Thermostat Fault).	An internal fault was detected and the thermostat was unable to recover.	Order replacement units and return the affected devices to Johnson Controls under the RMA program.
The Bell icon displays on the TEC home page.	The fault has been detected on the TEC.	See Table 1 for TEC fault causes and resolution.
`Partial Restore Complete` is displayed when trying to restore settings from a backup file.	Not all of the items in the backup file have been restored. This error can occur when a value is out of the minimum or maximum range in the backup file. It may also occur if there are inconsistencies in the reliability of a setting in the backup file and on the TEC device.	Create a Backup file on a USB drive for the TEC that is showing the issue. Edit the backup file created in the previous step on a PC to reflect the preferred settings. Verify that the modified values are within minimum and maximum range in the backup file. Restore the settings from the newly edited backup file on the TEC.
The temperature displayed is lower than the actual room temperature.	Cold air drafts enter the back of the TEC.	Seal any holes behind the TEC to reduce drafts.
	Air is being forced through the TEC from a nearby vent.	Move the location of the TEC or change the venting to prevent air from being forced through the TEC.
For networked models, the Online icon does not appear for a networked thermostat.	There is incorrect field bus wiring.	Refer to the MS/TP Communications Bus Technical Bulletin (LIT-12011034).
For wireless models, Supervisory Status = Offline	The supervisory controller is not communicating with the TEC. The TEC is not mapped to a JCI Supervisory System. The WNC or WRG Gateway is not communicating with the TEC.	Map the TEC into a JCI Supervisory system. Verify that the PAN’s WNC or WRG Gateway is online. Add ZFR182x or ZFR183x Routers/Repeaters into the wireless system.
Some icons are hidden.	Lockout levels are used or the icons are hidden due to the display settings.	See Table 1 for lockout levels and access details.
The touchscreen is unresponsive.	You tap the display or touch the thermostat within 5 mm of the display when power is applied to the controller.	Reboot the thermostat. Do not interact with the thermostat until the home screen displays.
You do not tap the touchscreen, but the display acts as if it is tapped, which causes the display to blink or toggle between screens.
You need to tap the display at an offset from a touch point to activate the display.

Note: For common MS/TP troubleshooting information, refer to the MS/TP Communications Bus Technical Bulletin (LIT-12011034).

TEC3000 Series Proportional Fan Coil Thermostats technical specifications

Table 1. TEC3000 Series Networked and Wireless Proportional Fan Coil and Individual Zone Thermostats with Dehumidification Capability technical specifications
Specification		Description
Power requirements		19 VAC to 30 VAC, 50/60 Hz, 4 VA at 24 VAC nominal, Class 2 or safety extra-low voltage (SELV)
USB port power rating		120 mA to 250 mA current draw supported
Analog output rating		0 VDC to 10 VDC into 2k ohm resistance (minimum)
Fan relay output rating		19 VAC to 30 VAC, 1.0 A maximum, 15 mA minimum, 3.0 A in-rush
Auxiliary output rating/triac output		19 VAC to 30 VAC, 1.0 A maximum, 15 mA minimum, 3.0 A in-rush
Binary inputs		Dry contact across terminal COM to terminals BI1, BI2, or COS
Analog inputs		Nickel, platinum, A99B, 2.25k ohm NTC, 10k ohm NTC, 10k ohm NTC Type 3 across terminal COM to terminals R SEN or COS
Temperature sensor type		Local digital sensor
Wire size		18 AWG (1.0 mm diameter) maximum, 22 AWG (0.6 mm diameter) recommended
MS/TP network guidelines		For wired models: Up to 100 devices maximum for each Metasys Supervisory Engine; 4,000 ft (1,219 m) maximum cable length. Refer to the MS/TP Technical Bulletin for the Metasys, FX, or Verasys® system installed.
MS/TP network guidelines		For wireless models: Up to 100 devices maximum for each Metasys Supervisory Engine
Wireless band (for wireless models)		Direct-sequence spread-spectrum 2.4 GHz ISM bands
Transmission power (for wireless models)	TEC30xx-1x-000 compatible with ZFR182x Pro Series	10 mW maximum
Transmission power (for wireless models)	TEC31xx-1x-000 compatible with ZFR183x Pro Series	100 mW maximum
Transmission range (for wireless models)	TEC30xx-1x-000 compatible with ZFR182x Pro Series	50 ft (15.2 m) recommended indoor 250 ft (76.2 m) line of sight, maximum
Transmission range (for wireless models)	TEC31xx-1x-000 compatible with ZFR183x Pro Series	250 ft (76.2 m) recommended indoor 1000 ft (304.8 m) line of sight, maximum
Temperature range	Backlit display	-40.0°F/-40.0°C to 122.0°F/50.0°C in 0.5° increments
	Heating control	40.0°F/4.5°C to 90.0°F/32.0°C
	Cooling control	54.0°F/12.0°C to 100.0°F/38.0°C
Accuracy	Temperature	±0.9F°/±0.5C° at 70.0°F/21.0°C typical calibrated
Accuracy	Humidity	±5% RH from 20 to 80% RH at 50 to 90°F (10 to 32°C)
Minimum Deadband		2F°/1C° between heating and cooling
Occupancy sensor motion detection (occupancy sensing models)		Minimum of 94 angular degrees up to a distance of 15 ft (4.6 m); based on a clear line of sight
Ambient conditions	Operating	32°F to 122°F (0°C to 50°C); 95% RH maximum, noncondensing
Ambient conditions	Storage	-22°F to 122°F (-30°C to 50°C); 95% RH maximum, noncondensing
Compliance	BACnet International	BACnet Testing Laboratories™ (BTL) 135-2001 Listed BACnet Advanced Application Controller (B-AAC)
	United States	UL Listed, File E27734, CCN XAPX, Under UL60730
		Networked models: FCC Compliant to CFR 47, Part 15, Subpart B, Class B
		Wireless models: Transmission complies with FCC Part 15.247 regulations for low power unlicensed transmitters; transmitter identification FCC ID: OEJ-WRZRADIO (ZFR182x), OEJ-ZFRRADIO (ZFR183x)
	Canada	UL Listed, File E27734, CCN XAPX7, Under E60730
		Networked models: Industry Canada, ICES-003
		Wireless models: Industry Canada (IC) RSS-210; Transmitter identification ZFR1810-1: IC ID: 279A-WRZRADIO (ZFR182x), 279A-ZFRRADIO (ZFR183x)
	Europe (for networked models only)	CE Mark – Johnson Controls declares that this product is in compliance with the essential requirements and other relevant provisions of the EMC Directive and the RoHS Directive.
	Australia and New Zealand	RCM Mark, Australia/NZ Emissions Compliant
Shipping Weight	Models without occupancy sensor	0.75 lb (0.34 kg)
Shipping Weight	Models with occupancy sensor	0.77 lb (0.35 kg)

The performance specifications are nominal and conform to acceptable industry standards. For application at conditions beyond these specifications, consult the local Johnson Controls office. Johnson Controls shall not be liable for damages resulting from misapplication or misuse of its products.

Repair information

If the TEC3000 Series thermostat fails to operate within its specifications, replace the unit. For a replacement thermostat, contact the nearest Johnson Controls® representative.

Product warranty

This product is covered by a limited warranty, details of which can be found at www.johnsoncontrols.com/buildingswarranty.

Software terms

Use of the software that is in (or constitutes) this product, or access to the cloud, or hosted services applicable to this product, if any, is subject to applicable end-user license, open-source software information, and other terms set forth at www.johnsoncontrols.com/techterms. Your use of this product constitutes an agreement to such terms.

Patents

Patents: https://jcipat.com

Single point of contact

APAC	EU	UK	NA/SA
JOHNSON CONTROLS C/O CONTROLS PRODUCT MANAGEMENT NO. 32 CHANGJIANG RD NEW DISTRICT WUXI JIANGSU PROVINCE 214028 CHINA	JOHNSON CONTROLS VOLTAWEG 20 6101 XK ECHT THE NETHERLANDS	JOHNSON CONTROLS TYCO PARK GRIMSHAW LANE MANCHESTER M40 2WL UNITED KINGDOM	JOHNSON CONTROLS 5757 N GREEN BAY AVE. GLENDALE, WI 53209 USA

APAC

NA/SA

JOHNSON CONTROLS

C/O CONTROLS PRODUCT MANAGEMENT

NO. 32 CHANGJIANG RD NEW DISTRICT

WUXI JIANGSU PROVINCE 214028

CHINA

JOHNSON CONTROLS

VOLTAWEG 20

6101 XK ECHT

THE NETHERLANDS

JOHNSON CONTROLS

TYCO PARK

GRIMSHAW LANE

MANCHESTER

M40 2WL

UNITED KINGDOM

JOHNSON CONTROLS

5757 N GREEN BAY AVE.

GLENDALE, WI 53209

USA

Readmore and Download Johnson Controls TEC3000 Series Proportional Fan Coil Thermostats Installation Guide

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Language	: English
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