Johnson Controls TEC3312, TEC3320, TEC3311, TEC3330, TEC3323 Installation Instructions Manual

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TEC3000 Series On/Off or Floating Fan Coil and Individual

(barcode for factory use only)

24-10787-6, Rev. F

*24107876F*

Zone Thermostat Controllers with Dehumidification Capability

Installation Instructions

TEC3310-xx-xxx, TEC3311-xx-xxx, TEC3312-xx-xxx, TEC3313-xx-xxx,TEC3610-xx-xxx, TEC361 1-xx-xxx, TEC3612-xx-xxx, TEC3613-xx-xxx

Refer to the QuickLIT website for the most up-to-date version of this document.

Applications

The TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers are stand-alone and field-selectable BACnet® MS/TP or N2 networked devices that 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. All models include a USB port configuration that reduces installation time by allowing simple backup and restore features from a USB drive, which enables rapid cloning of configuration between like units.

Part No. 24-10787-6, Rev.

Issued July 2018

Some models have occupancy sensing capability built into the device. These thermostat controllers 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. Multiple fan configurations are supported for fan coil equipment types:

• 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 controller 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).

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone

Thermostat Controllers with Dehumidification Capability

Installation Instructions

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IMPORTANT: The TEC3000 Series Thermostat Controller is intended to provide an input to equipment under normal operating conditions. Where failure or malfunction of the thermostat controller could lead to personal injury or property damage to the controlled equipment or other property, additional precaution s 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 controller.

IMPORT ANT : Le TEC3000 Series Thermosta t Controller est destiné à tr ansmettre de s données entrantes à un équipement dans des conditions normales de fonctionnement. Lorsqu'une défaillance ou un dysfonctionnement du thermostat controller risque de provoquer des blessures ou d'endomma ger l'équipement contrôlé ou un autre équipement, la conception du système de con tr ôle 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 controller.

North American Emissions Compliance

United States

This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection ag ainst har mful inter fere nce in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment of f and on, the user is encouraged to try to correct the interference by one or more of the following measures:

• Reorient or relocate the receiving antenna .

• Increase the separation between the equipment and receiver.

• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

• Consult the dealer or an experienced radio/TV technician for help.

Canada

This Class (B) digital apparatus meets all the requirements of the Canadian Interference-Causing Equipment Regulations.

Cet appareil numérique de la Classe (B) respecte toutes les exigences du Règlement sur le matériel brouilleur du Canada.

Installation

Parts Included

• one TEC3000 Series Thermostat Controller with integral mounting base

• one installation instructions sheet

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Location Considerations

Figure 1: Thermostat Controller

Shown without Occupancy Sensor,

Dimensions, in. (mm)

FIG:thermostat features

USB Port

Display

Securit y Sc r ew

1-13/32

(36)

4-23/32

(120)

5-5/8 (143)

Locate the TEC3000 Series Thermostat Controller:

• on a partitioning wall, approximately 5 ft (1.5 m) above the floor in a location of average temperature, allowing 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

For integrated passive infrared (PIR) models, be sure that the thermostat controller is located centrally, where occupant movement is frequent.

Use insulating foam pads for installations where wiring passes through the wall to the thermostat.

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.

Installing the Thermostat Controller

1. 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 controller cover as illustrated in Figure 2.

2. Pull the top edge of the cover and open the thermostat controller as illustrated in Figure 2.

IMPORTANT: The cover is not secured on the bottom. Be careful not to drop the cover.

IMPORTANT: If you are installing more than one thermostat controller, keep track of which cover attaches to

which base.

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

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Figure 2: Removing the Security Screw from the Thermostat Controller Cover

FIG:security s crew

FIG:thermo stat cove r

(Shown without Occupancy Sensor) (Left) and Removing the Thermostat Controller Cover (Right)

3. Align the thermostat controller 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 3.

Notes:

• If you need to install the thermostat controller on an electrical junction box, use

2-1/2 x 4 in. (63 x 101 mm) square boxes with mud ring covers and avoid smaller 1-1/2 x 4 in. (38 x 101 mm) square or 3 x 2 in. (76 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.

4. Pull approximately 6 in. (152 mm) of wire from the wall and insert the wire through the center hole in the thermostat controller mounting base. See Figure 3.

5. Secure the mounting base to the wall surface using two mounting screws (user supplied) as illustrated in Figure 3.

Note: Be careful not to overtighten the mounting screws.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Figure 3: Mounting Hole Locations, Dimensions, in. (mm) (Left) and

4-1/16

(103)

FIG:TEC Backpl ane2

3-1/4

(83)

FIG:TEC Backplane1

Securing the Thermostat Controller Mounting Base to the Wall (Right)

Wiring

When an existing thermostat controller is replaced, remove and lab el the wires to identify the terminal functions.

Risk of Electric Shock.

Disconnect the power supply before making electrical connections to avoid electric shock.

Risque de décharge électrique.

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

Risk of Property Damage.

Do not apply power to the system before checking all wiring connections. Short circuited or improperly conn ected wires may result in permanent damage to the equipment.

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 Controller.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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IMPORTANT: Use proper ESD precautions during installation and servicing to avoid damage to the electronic

EOL Switch

O N

FIG:TEC Backplane2_EOL Switch

O N

FIG:cl ose ther mosta t cover

circuits of the thermostat controller.

To wire the the r mo st at co nt ro ller :

1. Strip the ends of each wire 1/4 in. (6 mm) and connect them to the appropriate screw terminals as indicated in Table 2 and Figure 6 or Figure 7.

Note: For more details on wirin g the MS/TP Communications Bus, refer to the MS/TP Communications Bus Technical Bulletin (LIT-12011034).

2. 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.

3. Reattach the communication wires to the terminal block. Note: If multiple wires are inserted into the terminals, be sure to properly twist the wires together before

inserting them into the terminal connectors.

4. Set the bus end-of-line (EOL) termination switch to the desired location on the TEC3610-00-000, TEC3611-00-000, TEC3612-00-000, and TEC3613-00-000 models only.

The bus EOL termination switch allows you to designate the thermostat controller as the end of the Field Controller (FC) Bus and N2 Bus. The default position is OFF. If the thermostat controller 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 4.

Figure 4: EOL Switch Position (Left) and Installing the Thermostat Controller Cover (Right)

O N

ON Position

OFF Position

FIG:EOL_Swt ch

5. Reattach the thermostat contro ller cove r 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. base that do not belong together (as shown in Figure 5). See Table 1 on page 7 for TEC3000 model names and

Otherwise, an operation error occurs after you reattach a cover and

code numbers.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Figure 5: Error Code Indicating

Mismatched Boards

Table 1: TEC3000 Model Names and Code Numbers

Name

Code Number

CPU Board

Base Board

Name

TEC3310 00 TEC3610 0A TEC3311 01 TEC3611 0B TEC3312 02 TEC3612 0C TEC3313 03 TEC3613 0D TEC3320 04 TEC3620 0E TEC3321 05 TEC3621 0F TEC3322 06 TEC3622 10 TEC3323 07 TEC3623 11 TEC3330 08 TEC3630 12 TEC3331 09 TEC3631 13

1. The two-character code number is listed within the error code to indicate that the CPU board and base board do not belong together. However, if the same code number appears as both the CPU board and base board, there is no error. For example, if 0B is listed as the CPU board and the base board, the model is the TEC3611.

Code Number

6. 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 controller cover. See Figure 2 for security screw placement.

7. 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 polarize r.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Table 2: Terminal Identification (See Figure 6 and Figure 7 for Wiring Diagrams)

Terminal Label Function

TEC3310, TEC3311, TEC3312, TEC3313 Floating FC/VAV and On/Off FC

24 V 24 VAC hot from transformer FAN H Fan high FAN M Fan medium FAN L Fan on (single-speed, variable speed), Fan low (multi-speed) AUX Auxiliary binary output AUX Auxiliary power

COM CLG O Cool open (Floating), Cooling NC (On/Off), Triac CLG C Cool close (Floating), Cooling NO (On/Off), Triac HTG O Heat open (Floating), Heating NC (On/Off), Triac HTG C Heat close (Floating), Heating NO (On/Off), Triac

COM VSF Variable speed fan command (configurable 0 to 10 V range) BI2 Configurable binary input 2 BI1 Configurable binary input 1 COS Changeover sensor R SEN Remote zone temperature sensor NET+ Not connected Field bus+/N2+ NET- Not connected Field bus-/N2- NET COM Not connected Isolated common for field bus

24 VAC common from transformer

Common

TEC3610, TEC361 1, TEC3612, TEC3613 Floating FC/VAV and On/Off FC

1. There is no support for an On and Off VAV.

2. The common terminals, which do not include NET COM, are internally connected and can be used for all inputs and outputs.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Notes:

Zone Temp Thermistor

Supply Temp

Switch

FIG:Model 1 Wiring_on _off_out put

24 V

R SEN

24V

NET COM

COS

VSF

COM

Supply Temp

Thermistor

Vin

Common

24 V

High

Med

FAN H

AUX

TB1

CLG C

Low

Fan

Common Hot

Heating

Common Hot

FAN M

FAN L

AUX

FIG:Model 1 Wiring_on_off_input

N.C.

Common Hot

N.O.

• VAV and 2-pipe systems should connect their valve to the heating output.

• Only one transformer is required for each TEC.

Figure 6: On/Off Wiring Diagram (See Table 2 for Terminal Identification)

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Notes:

FIG:Mode l 1 Wiring_ fl oa ting_out put

Zone Temp Thermistor

SupplyTemp

Switch

24 V

Vin

Common

R SEN

24V

NET COM

COS

VSF

COM

SupplyTemp

Thermistor

EC Motor

24 V

High

Med

FAN H

AUX

TB1

CLG C

Low

Fan

Heating

FAN M

FAN L

AUX

FIG:Model 1 Wiring_floating_ input

Open Hot

• For VAV and 2-pipe systems, connect the valve to the heating output.

• Only one transformer is required for each TEC.

Figure 7: Floating Wiring Diagram (See Table 2 for Terminal Identification)

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Note: VAV and 2-pipe systems should connect their valve to the heating output.

Room Temperature Control Thermostat

(Minimum and Maximum Position

Adjuste d on Actuator)

Floating

Actuator

COS

COM

24V HTG O HTG C

FIG:model_1_cln

g_onl

FIG:model_ 1_htng_c lng_chngvr

Changeover

Sensor

Room Temperature Control Thermostat

(Minimum and Maximum Position

Adjuste d on Actuator)

Floating Actuator

Supply Air

Temperature Sensor

COS

COM

24V

HTG O

HTG C

FIG:model_1_htng_clng_chngvr_rht

Changeover

Sensor

Room Temperature Control Thermostat

(Minimum and Maximum Position

Adjuste d on Actuator)

Heating/Cooling

and On/Off

Duct Heater

Floating Actuator

Supply Air

Temperature Sensor

COS COM 24V HTG O HTG C AUX

AUX

Figure 8: Floating Control (Pressure-Dependent VAV)

Figure 9: Floating Control (Pressure-Dependent VAV with Changeover Sensor/Switch)

Figure 10: Floating Control (Pressure-Dependent VAV with Changeover Sensor/Switch and Reheat)

Note: Power to the AUX contact comes from the reheat coil.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Note: VAV and 2-pipe systems should connect their valve to the heating output.

FIG:mode l_1_htn g_clng_h drnc

Room Temperature Control Thermostat

COS

COM

24V

HTG O

HTG C

FIG:model_1_ htng_cl ng_hdrnc _chngvr

Floating

Heating/Cooling

Valve

Optional Wat er Supply Sensor

Room Temperature Control Thermosta t

Supply Water

Temperature Sensor

COS

COM

24V HTG O HTG C

Two-Pipe Applications

Four-Pipe Applications

FIG:model_1_onoff

COM

24V

COM

24V

Cooling

Valve

Heating

Valve

Triac Switch

Figure 11: Floating Control Two-Pipe Heating and Cooling Hydronic Valve Control Fan Coil Application

Figure 12: Floating Control Two-Pipe Heating and Cooling Hydronic Valve Control with Changeover Fan

Coil Application

Figure 13: Floating Control (On/Off Two-Pipe and Fo ur-Pipe Fan Coil Applications)

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Note: VAV and 2-pipe systems should connect their valve to the heating output.

Two-Pipe Applications Four-Pipe Applications

FIG:model_1_floating

COM

24V

CLG O

Cooling

Valve

Heating

Valve

CLG C

HTG O

HTG C

COM

24V

HTG O

Heating/Cooling

Valve

HTG C

Triac Switc h Triac Switch

Triac Switc hes

AUX Contact

FIG:Aux Contact Wiring

Load

Hot

19 to 30 VAC

FIG:Binary Input Wiring

BI1

Dry Contact

Bi2

Dry Contact

Figure 14: Floating Control (Floating Two-Pipe and Four-Pipe Fan Coil Applications)

Figure 15: AUX Contact Wiring

Figure 16: Binary Input Wiring

Setup and Adjustments

IMPORTANT: Table 10 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

Figure 17 shows the thermostat controller home screen. You can customize it to show or hide various elements from the occupant. See Table 3 for a listing of the touchscreen icons and Table 10 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 4 provides details of these levels.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Figure 17: Thermostat Controller Home Screen

The humidity level appears on the home screen if there is a humidity sensor in the unit, or if the thermostat controller has a network override written to it.

Customizing the Home Screen

Customizing the Home screen settings include:

• Brightness • Units • Time Zone • Date

• Enable Backlight • Time • Time Format • Date Format

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

• Fan Button • Off Button • Alarm Indication • Date/Time

• Space Temperature • Hold Button • Occupancy Status

• Humidity • Setpoint • Unit Status

To customize the Home screen:

1. Press the Menu icon.

2. Press Display Settings.

3. Enable or disable elements of the home screen as appropriate for the building owner and occupants.

4. Set the passcode on the thermostat controller to prevent the o ccupants from changing settings th at they should not have access to change.

Touchscreen Icons

Table 3 describes the home screen touchable icons. Press and release a touchscreen icon to activate the TEC. Additional touchable icons appear based on the menu, and those icons are also descri bed in Table 3.

Table 3: Touchscreen Icons (Part 1 of 3)

Icon Icon Name Description

Displays the configuration screens where various settings may be adjusted.

Indicates that the thermostat controller has triggered an alarm.

Alarm

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Table 3: Touchscreen Icons (Part 2 of 3)

Icon Icon Name Description

Unit Power On

Off

Network Communication

Arrow

Run/Hold

No Hold/Hold

Powers the thermostat controller on or off. Note: This icon disables all equipment control, but does not physically power

down the unit.

Indicates that the thermostat controller detected a supervisory controller and both are online.

Increases or decreases a value depending on the configuration screen.

Displays the current setpoint. Hold mode is enabled by pressing the button.

Displays the current setpoint. Hold mode is not enabled.

Hold/Hold

Right Arrow

Fan Overrides for Single-speed Fans

Auto

Quiet Fan Overrides for

Variable-speed Fans

Auto

Displays the active setpoint. Hold mode is not enabled.

Proceeds to the next screen.

Adjusts the fan override between On, Auto, and Quiet for single-speed fans.

Adjusts the fan override between On, Auto, and Quiet for variable-speed fans.

Quiet

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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Table 3: Touchscreen Icons (Part 3 of 3)

Icon Icon Name Description

Fan Overrides for Multi-speed Fans

Low

Medium

High

Auto

Quiet

Home

Back

Adjusts the fan override between Low, Medium, High, Auto, and Quiet for multi-speed fans.

Returns the display to the main home screen.

Returns to the previous screen.

Save

Delete

Clear

Wrench

Checkmark

Exclamation Point

Saves the current configuration an d pa r ameter settings.

Deletes the scheduled event.

Clears the password entry on the keypad screen.

Indicates that the value is editable.

Indicates that an event or schedule is programmed for a specific day of the week.

Indicates that an error has occurred.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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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 lockout

levels are described in Table 4.

Table 4: User Lockout Levels

Lockout Level Capability

State 0 State 1 State 2

Allows full access to Home Screen Display Adjustments and icons (default). Hides the Menu icon. 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

The USB port allows you to quickly and easily load firmware upgrades, backup settings, and r estore 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 F AT or FAT32. The drive cannot be NTFS or USB 3.0. If you are upgra ding firmware or copying configuration files, you need the TEC3000 passcode, if it has been set up. Do n ot remove the USB drive until the firmware upgrade is complete. The TEC3000 may restart and go offline to the NAE after a firmware upgrade. The upgrade takes approximately three minutes.

Configurations are copied, except for the Communication mode. See Choosing the Communication Mode (TEC3610-00-000, TEC3611-00-000, TEC3612-00-000, and TEC3613-00-000 Models) to configure each device.

Loading the Firmware

1. Ensure that the TEC screen is on.

2. Insert the USB drive into the right side of the TEC. See Figure 1 for the USB port location.

3. Press the Menu icon.

4. Scroll down the menu and press Update.

5. Press Load Firmware.

6. Select the correct firmware version. The correct file name has the .pkg extension.

7. Press Confirm if you have the correct firmware version. The firmware is loaded from the USB drive into the T EC3000 operat ing system. The TEC3000 locates the new

firmware only if the new firmware is on the root drive of the USB drive. See Troubleshooting

if the firmware is

not loaded correctly.

8. Remove the USB drive from the TEC3000 controller 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

1. Ensure that the TEC screen is on.

2. Insert the USB drive into the right side of the TEC. See Figure 1 for the USB port location.

3. Press the Menu icon.

4. Scroll down the menu and press Update.

5. Press Backup. A message appears stating that the file is saved locally and on a USB drive.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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6. Press Confirm to save locally and on USB.

The setting files are named based on the TEC3000 model nam e, date , an d tim e sta m p (for example, TEC3311-00_2015-10-08T1). The files are saved locally and on the USB drive’s root directory. See Troubleshooting

if the settings are not backed up correctly.

7. After the settings are saved onto the USB drive, remove the USB drive from the TEC3000.

Restoring the Settings

1. Ensure that the TEC screen is on.

2. Insert the USB drive into the right side of the TEC. See Figure 1 for the USB port location.

3. Press the Menu icon.

4. Press Update.

5. Press Restore.

6. Select Local Storage or the correct configuration file created from a previous backup operation. The setting files are named based on the TEC3000 model name, date, and time stamp

(for example, TEC3311-00_2015-10-08T1). The files are saved locally and on the USB drive’s root directory.

7. Press Confirm if you have the correct file name. The settings are loaded from the USB drive.

8. After the settings are loaded from the USB drive, remove the USB drive from the TEC3000.

Choosing the Communication Mode

(TEC3610-00-000, TEC3611-00-000, TEC3612-00-000, and

TEC3613-00-000 Models)

1. Ensure the TEC screen is on.

2. Press the Menu icon.

3. Press Network Setup.

4. Press FC Comm Mode.

5. Select BACnet or N2 by pressing .

6. Proceed to Step 7 to perform BACnet communication and Step 15 to perform N2 communication.

7. Press

8. Press BACnet Instance ID.

9. Enter the unique BACnet® instance ID using the keypad. This value should be dif f erent to the other controlle rs on the site.

10. Press Save.

11. Press to return to the previous screen.

12. Press BACnet Address.

13. Enter the BACnet MS/TP address through the keypad.

to return to the previous screen.

14. Press Save.

15. After selecting N2 in Step 5, press Save.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

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16. Press to return to the previous screen.

17. Press N2 Address.

18. Enter the N2 address through the keypad.

19. Press Save.

Configuring the Thermostat Controller

Use the Menu icon on the home screen to access and change the basic operating parameters of the thermostat controller. During normal operation, press the Menu icon once to access the following parameters:

• Faults Status • Display Settings • Equipment Setup • Controller Information

• Setpoints • Control Setup • System Status • Commissioning

• Schedule • Network Setup • Control Status • Update

Installer Configuration Menu

The thermostat controller comes from the factory with default settings for all configuration parameters. The UI menu navigation and default settings are shown in Table 10. Before any outputs turn on, the controller must be configured for the equipment connected. You need to start from the home screen to per form any of the following tasks.

Screen Reset

The current screen returns to the home screen if the current screen is not touched for 3 minutes.

Selecting the Unit Type

There are three unit types. They are:

• 4-pipe—This unit type has both heating and cooling coils pl us a supply fan. This config uration can also be used on configurations that are heating or cooling only.

• 2-pipe—This unit type has a single set of pipes that can serve hot or chilled water plus a supply fan. The Supply Temp Type allows for the conn ection of an analog sensor or an aquastat to a binary input. Based on th e water temperature or aquastat state, the unit controls heating or cooling.

• VAV—This unit type is designed for a pressure-dependent zone damper and the supply fan outputs are disabled. The TEC senses the supply air temperature coming from the unit. The Supply Temp Type setting allows for the connection of an analog sensor or binary duct thermostat. Based on the air temperature or duct thermostat state, the zone damper controls for heating or cooling. Th e TEC does n ot control the unit d elivering the air. The logic needs to be part of another controller.

By default, the thermostat controller is configured for 4-pipe fan coil mode. To change to a 2-pipe or Pressure-Dependent VAV mode:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press General.

4. Press Unit Type and select 2-pipe, 4-pipe, or VAV.

5. Press to save and

to return to the previous screen.

Note: Selecting VAV reboots the controller in order to apply the change.

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Selecting the Heating and Cooling Device Type

By default, the thermostat is configured for On-Off (2-position) control. This can be changed to Floating (Incremental) mode when the Unit Type is not set to VAV. For VAV mode, only floating actuators are supported and this option is unavailable. To change the Heating/Cooling Device Type:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press General.

4. Press Htg/Clg Device Type and select On-Off or Floating. Changing this option reboots the controller in order to apply the change.

5. Press to save and

to return to the previous screen.

When in Floating mode, the Actuator Stroke Time must also be set to match the equipment. To set the actuator stroke time:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press General.

4. Press Actuator Stroke Time and adjust accordingly.

5. Press to save and

to return to the previous screen.

Configuring the Supply Fan - Fan Coil Only

On fan coil units (2-pipe or 4-pipe), three different types of supply fans are supported. These are single-speed fa ns, multi-speed fans (up to three discrete speeds), and VSF using a 0 to 10 V control signal and an optional bin ary on/ off command. Note that fan control is not available when in VAV mode. To select the fan type:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press Supply Fan.

4. Press Supply Fan Type and select Single Speed, Multi-Speed, or Variable Speed.

5. Press to save and

to return to the previous screen.

For multi-speed fan control, you can adjust the point when the medium or high speed turns on. The fan speed is based on the load on the cooling/heating device, and is a percentage between 0 and 100. By default, the Med Speed On Cmd is 33% and the High Speed On Cmd is 66%. When only two fan speeds are used, you must set the High Speed On Cmd to 100% to disable the third speed and set the Med Speed On Cmd to 50%. To adjust these values:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press Supply Fan.

4. Press Medium Speed On Cmd and adjust accordingly.

5. Press High Speed On Cmd and adjust accordingly.

6. Press to save and

to return to the previous screen.

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For VSF control, the output is configurable for any range between 0 V and 10 V. The parameters are Start Voltage, Full Speed Voltage, and Minimum Command. Start Voltage is the volta ge output at which the fan begins running, and Full Speed Voltage is the voltage output at which the fan reaches full speed. Minimum Command is the percentage of the range between the Start Voltage and the Full Speed Voltage. The fan does not go below the minimum command when the fan is turned on. By default, the Start Voltage is 2 V, the Full Speed Voltage is 10 V, and the Minimum Command is 20%.

When the variable speed fan is off, the FAN bina ry output is off an d the voltage a t th e VSF outp ut is 0 V. When the fan turns on, the FAN binary output turns on and the voltage at the VSF output begins controlling the fan. When the VSF is configured for reverse acting mode (Start Voltage is above Full Sp eed Voltage), the VSF output goes to th e lesser of 10 V and 1 V above the Start Voltage when the fan is turned off.

To configure the variable speed parameters:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press Supply Fan.

4. Press Start Voltage and adjust accordingly.

5. Press Full Speed Voltage and adjust accordingly.

6. Press Minimum Command and adjust accordingly.

7. Press to save and

to return to the previous screen.

Setting the Control Mode

The Control Mode informs the controller to run in Cooling only, Heating only, or Automatic mode, based on the temperature in the zone relative to the heating and cooling setpoints. Control Mode does not override equipment lockouts or changeover. To set the Control Mode:

1. Press the Menu icon.

2. Press Control Setup.

3. Press General.

4. Press Control Mode and select Cooling, Heating, or Auto as desired.

5. Press to save and

to return to the previous screen.

Setting the Fan Mode - Fan Coil Only

The Fan Mode informs the controller how to handle the fan. There are two options for fan configuration: a Fan Mode available to the installer through the menu system, and a fan override available as an option to the end user from the Fan icon on the home screen. See Customizing the Home Screen disabling end-user controls. The Fan Mode available to the installer is dependent on the fan type. The following options are provided for single-and variable-speed fans:

• On—Fan is continuously on

• Auto—Fan cycles on demand with the controller entering cooling, heating, or dehumidification modes

for information on enabling and

• Smart—Fan cycles on demand with the controller entering cooling or heating modes during unoccupied periods but is continuously running during occupied and standby periods

The following Fan Mode options are provided for multi-speed fans:

• Low—Fan is continuously on low

• Medium—Fan is continuously on medium

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• High—Fan is continuously on high

• Auto—Fan cycles on demand with the controller entering cooling, heating, or dehumidification modes

• Smart—Fan cycles on demand with the controller entering cooling or heating modes during unoccupied periods but is continuously running during occupied and standby periods

The Fan Override icon on the home screen is dependent on the fan type. The following options are provided for single- and variable-speed fans:

• On—Overrides the fan to be continuously on

• Auto—Follows the behavior set as Fan Mode

• Quiet—Follows the behavior set as Fan Mode, but prevents the fan from ever going above minimum speed. The Quiet option has no effect on equipment with single-speed fans.

The following Fan Override options are provided for multi-speed fans:

• Low—Fan is continuously on low

• Medium—Fan is continuously on medium

• High—Fan is continuously on high

• Auto—Follows the behavior set as Fan Mode

• Quiet—Follows the behavior set as Fan Mode, but prevents the fan from ever going above minimum speed

To set the Fan Mode:

1. Press the Menu icon.

2. Press Control Setup.

3. Press General.

4. Press Fan Mode and select On, Auto, or Smart.

5. Press to save and

to return to the previous screen.

Configuring the Zone Space or Equipment Size - Floating Actuators, Multi-Speed Fans, and Variable-Speed Fans Only

With non-binary outputs, the TEC3000 is configured by default to have a slower temperature response for larger zones with normal-sized equipment. In installations with small zones and oversized equipment, set the Equipment Size parameter to Oversized.

To set the Equipment Size parameter:

1. Press the Menu icon.

2. Press Control Setup.

3. Press Tuning.

4. Use the up and down arrows to navigate to Equipment Size.

5. Press Equipment Setup and select Oversized.

6. Press to save and

to return to the previous screen.

Changeover

Pressure-Dependent VAV systems and 2-pipe fan coils require changeover detection in order to switch seasonal operation between heating and cooling modes. Th e TEC supports the following methods for changeover: automatic changeover using an analog sensor (thermistor), automa tic changeover using a bi nary switch, or remote changeover from a BAS and manual changeover.

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For automatic changeover, a supply temperature sensor or switch must be connected to the Changeover Sensor (COS) input of the TEC. Changeover Mode must be set to Auto, and Supply Temp Type must be set for Analog Sensor, Cooling N.C. (cooling when switch is closed), or Heating N.C. (heating when switch is closed). When an analog sensor is used, the changeover setpoint can be adjusted. The changeover logic applies a 10-degree Fahrenheit differential to the setpoint. The system switches to cooling mode when the temperature drops be low the changeover setpoint and remains in cooling mode until the measur ed tempe rature has r isen 10 de grees above the changeover setpoint.

To configure automatic changeover:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press Changeover.

4. Press Changeover Mode and select Auto.

5. Press Supply Temp Type and select Analog Sensor, Cooling N.C., or Heating N.C.

6. Press to save and

to return to the previous screen.

Additionally, the thermostat controller supports manual changeover. To configure manual changeover:

1. Press the Menu icon.

2. Press Equipment Setup.

3. Press General.

4. Press Changeover.

5. Press Changeover Mode and select Heating or Cooling.

6. Press to save and

to return to the previous screen.

You need to ensure that the Supply Temp type is set to Analog Sensor. The Changeover Mode is also exposed to the BAS through the CGOVR-MODE and can be commanded from the BAS.

On 2-pipe/VAV systems without an automatic changeover, or on 4-pipe systems, you can use COS as a monitor-only point for reading an analog sensor. By setting the controller in 4-pipe mode, or selecting Heating or Cooling for Changeover Mode, the controller defaults to monitor-only mode for the COS and exposes the value to the network as the supply temperature.

Dehumidification Control - Fan Coil Only

The TEC3000 controller support dehumidification control on fan coil devices under three configurations:

• 4-pipe fan coil

• 4-pipe fan coil with reheat

• 2-pipe fan coil (with changeover in cooling mode) with reheat

For optimal dehumidification performance, a 4-pipe unit with floating/incremental or 0 to 10 V control and a multispeed or variable-speed fan is recommended.

Dehumidification operates when the zone humidity increases abo ve the zone humidity setp oint and the controller is in the Idle or Cooling state. Dehumidification does not operate during heating and stops if the zone temperature drops below the heating setpoint. When dehumidification is active, the cooling device controls to the humidity setpoint, and the heating device reheats the zone in order to keep the temperature at the cooling setpoint. While in the dehumidification mode, a multi-speed or variable-speed fan runs at the lowest possible speed to maximize condensation and moisture removal across the cooling coil.

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To enable dehumidification control:

1. Press the Menu icon.

2. Press Control Setup.

3. Press General.

4. Press Dehum Enable and select Yes.

5. Press to save and

to return to the previous screen.

This point is also exposed to the BAS through the point DEHUM-EN. To adjust the de hu m idification setpoint:

1. Press the Menu icon.

2. Press Setpoints.

3. Press Dehumidification and adjust accordingly.

4. Press to save and

to return to the previous screen.

This point is also exposed to the BAS through the point DEHUM-SP.

Temperature Setpoints

The thermostat controller provides a flexible setpoint configuration to give power to the building owner while being easy to use by the occupant. In addition to a simple up/down offset adjustment on the home screen for the occupant, there are six temperature setpoints on the TEC. The six temperature setpoints are Cooling and Heating setpoints for Occupied, Unoccupied, and Standby modes. To set these setpoints:

1. Press the Menu icon.

2. Press Setpoints.

3. Select the setpoint to adjust and change as desired.

4. Press to save and

to return to the previous screen.

Note: The TEC enforces a 2-degree deadband between heating and cooling setpoints. If a setpoint violates this

standard (for example, cooling setpoint is set to 70 with a heating setpoint already set to 70), the o pposing setpoint is modified to comply with this deadband (in the previous example, the heating setpoint would automatically change to 68).

The occupant has access to an up/down adjustment from the home screen. This adjustment applies a fixed offset (+/-) to the currently active setpoint, and this offset holds until the occupancy state of the controller changes. If the user taps the setpoint on the home screen, the icon inverts and displays white text on a black icon. The offset is held throughout all occupancy periods. For example, if the TEC is cooling in Occup ied mode to an oc cupied cooling setpoint of 72 and you raise the setpoint 2 degrees to 74 from the home screen and then select hold, then the +2 degree offset persists through an occupancy chang e. If the occupancy then changes to un occupied, with a setp oint of 80 degrees, the effective setpoint is 82 degree s. This allows the occupant to have a small amount of control over raising or lowering the temperature, but the building owner can still set back setpoints during standby and unoccupied periods. When the setpoint is in Hold mode, pre ssing the icon again releases the hold and immediately sets the setpoint offset back to 0.

When the TEC is in Min/Max mode (Setpoints/Occ Setpoint Select are equal to Min and Max Setpoint), the TEC rejects any attempts to change the present valu e ou ts ide of the valid range. If the present value is outside of the valid range (for example, if the Occ Setpoint Select is switched from Setpoint Offset to Min and Max Setpoint), the present value is reset to be in the center of the valid range.

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The four modes of setpoint operation are described in Figure 5.

Table 5: Setpoint Operation

Mode of Setpoint

Details

Operation

Occ Setpoint Select = Setpoint Offset and Heat Cool Setpoint Mode = Individual Setpoints

Occ Setpoint Select = Min and Max Setpoints and Heat Cool Setpoint Mode = Individual Setpoints

Occ Setpoint Select = Setpoint Offset and Heat Cool Setpoint Mode = Common Setpoint

Occ Setpoint Select = Min and Max Setpoints and Heat Cool Setpoint Mode = Common Setpoint

This is the default mode and the original mode of operation that the TEC was released with (the next three modes are new). In this mode, the TEC has a heating setpoint and a cooling setpoint. There is a common Setpoint Offset (warmer/cooler adjust) that is applied to each setpoint simultaneously. The range of setpoint adjustment is two-fold:

• There are large constant ranges bounding the individual heating and cooling setpoints.

• There is also a smaller configurable range limit set to the Setpoint Offset point (Control Setup > General > Max Setpoint Offset).

In this mode, the TEC has a heating setpoint and a cooling setpoint. Each setpoint has a configurable range (Setpoints > Min Cooling Setpoint, Max Cooling Setpoint, Min Heating Setpoint, and Max Heating Setpoint). The configurable range values are bounded by the larger constant bounds used in Setpoint Offset mode and are constrained in the following manner: Min must be below Max and Heating must be below Cooling, so in order from least to greatest, the values are: Min Heating Setpoint, Max Heating Setpoint, Min Cooling Setpoint, and Max Cooling Setpoint.

In this mode, the TEC has one setpoint, Common Setpoint, for heating and cooling. There is also a common Setpoint Offset (warmer/cooler adjust) that is only applied to Common Setpoint. Otherwise, this setting works the same as when Occ Setpoint Select = Setpoint Offset and Heat Cool Setpoint Mode = Individual Setpoints.

In this mode, the TEC has one setpoint, Common Setpoint, for heating and cooling. There is a configurable range for Common Setpoint, Min Setpoint, and Max Setpoint.

Configuring Occupancy

The TEC3000 controller supports a wide variety of occupancy sources to adapt to nearly any application.

• Local stand-alone weekly scheduler

• Remote schedule from BAS

• Occupancy sensor (internal or remote)

• Occupancy binary input (configurable)

• Manual occupancy override

• Temporary occupancy (by interacting with the screen while in unoccupied mode)

• Temporary occupancy binary input Occupancy is determined using a top-down decision matrix as shown in Table 6.

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Enumerations may not match the TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat

Controllers with Dehumidification Capability Installation Instructions (Part No. 24-10787-6), TEC3000 Series Proportional Fan Coil and Individual Zone Thermostat Controllers with Dehumidification Capability Installation Instructions (Part No. 24-10788-0), TEC3000 Series Single- or Two-Stage Economizer Thermostat Controllers Installation Instructions (Part No. 24-10789-5), and TEC3000 Series Field-Selectable BACnet MS/TP or N2 Networked Thermostat Controllers Technical Bulletin (LIT-12011956) for NAE releases prior to 7.x.

Table 6: Occupancy Determination

Sequence of Operation (Highest to Lowest Priority) Status Indicated Manual

Occupancy Mode (OCCOVRD

-MODE)

Occupancy BI (BI1-S,

BI2-S)

Temporary Occupancy

Occupancy

Schedule (External or Schedule) (OCC-

Motion Sensor

Effective

Occupancy (EFF-OCC)

Occupancy Source (OCCSOURCE-S)

CONFIG, NET-OCC)

Occupied – – – – Occupied-

Unoccupied Unoccupied-

No Override

Closed

Open Not

Configured

True

True False Occupied True Occupied Occupancy Sensor

NOT Occupied

False Standby

Disabled Occupied Occupancy Unoccupied – Unoccupied Standby Standby

Not Set

True Occupied Occupancy Sensor

False Unoccupied

Disabled Occupied Occupancy

Override

Override Occupied Occupancy BI

Unoccupied Temp

Occupancy Temp

Occupancy

Occ Override

Temp Occ

Temp Occ BI

Schedule

1. Not Configured means that neither BI1 Config nor BI2 Config is set to Occupancy BI. Open and Closed refer to the current state of the BI when configured as Occupancy.

2. True is triggered by interacting with the screen during a scheduled unoccupied period. A value of True can only occur when the schedule is not Occupied.

3. When triggered by a BI configured for Temp Occ, the input is ignored when the schedule is Occup ied, the Manual Occupancy Mode is not No Override, or an Occupancy BI is configured.

4. Built-in occupancy sensing (PIR) or EI configured for Motion NO or Motion NC.

5. Not Set occurs when no events are scheduled through the local scheduler, or the schedule source is set to Schedule and the Schedule is writing Not Set as the schedule.

Selecting Schedule Source

Scheduling

The TEC3000 thermostat controller can operate as a stand-alone unit with an internal schedule or scheduled with an external schedule. The OCC-CONFIG object sets the method used for scheduling.

If the OCC-CONFIG is set to External, the NET-OCC object is used to control the unit externally.

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If the OCC-CONFIG is set to Schedule, the internal schedule commands the LOCAL-OCC object, which sets the Occupancy Schedule command.

Note: If you do not have a schedule in the Schedule object and you have the OCC-CONFIG set to Schedule, you

can control the unit with the LOCAL-OCC object externally; however, we do not recommend this method. See Table 7 for scheduling information.

Once the Occupancy Schedule command is set, the effective occupancy is determined by settings shown in the Occupancy Determination table. See Table 6.

Table 7: BAS Objects for Scheduling

BAS Objects for Scheduling OCC-CONFIG LOCAL-OCC

(Commanded by

NET-OCC Occupancy Schedule

Command

Internal Schedule)

External Any State

(Internal Schedule in Control)

Schedule Occupied Not Applicable Occupied

Unoccupied Unoccupied Standby Standby Not Set Not Set

Occupied Occupied Unoccupied Unoccupied Standby Standby Not Set Not Set

1. The effective occupancy can be affected by other factors listed in Table 6.

The occupancy schedule comes from either the weekly scheduler built into the TEC or as an input from the BAS. The Schedule Source must be selected to tell the controller where to read the occupancy source from. To select the schedule source:

1. Press the Menu icon.

2. Press Schedule.

3. Press Schedule Options.

4. Press Schedule Source and select Schedule (Local) or External (BAS).

5. Press to save and

to return to the previous screen.

This option is also exposed to the BAS through the point OCC-CONFIG. If BAS is configured as the occupancy source, map the point NET-OCC in and write to that point to control the schedule remotely. If the supervisor goes offline (as identified by the network icon going away on the home screen of the TEC), the control logic automatically falls back to the local schedule as the occu pancy source. If that schedule is not set, the default occupancy is continuously occupied.

Setting the Local Schedule

A weekly occupancy schedule with up to four occupancy events for each day can be set locally on the TEC and operate independently of a supervisor. To set the schedule:

1. See Selecting Schedule Source

to ensure the schedule source is set to Local.

2. Press the Menu icon.

3. Press Schedule.

4. Press Set Schedule.

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5. Select the days to which the schedule should apply. Note that if events are already set for the selected days, they appear in the corresponding event box. If any events conflict between selected days, an asterisk appears in the event box. See Figure 18.

6. Select the event to be set. See Figure 18.

7. Set the Occupancy to Not Set, Occupied, Unoccupied, or Standby and press Save.

IMPORTANT: Internally, the TEC 3000 uses a BACnet schedule where daily schedules are independent of the previous and next days. The default occupancy of the TEC3000 from the factory is set to Occupied. As a result, a daily event at 12:00 AM must be scheduled if you do not want the controller to transition to Occupied Mode at midnight.

Figure 18: Selecting the Days (Left) and Selecting the Event (Right)

Figure 19: Setting the Room Occupancy (Left) and Setting the Occupancy Mode (Right)

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8. Set the time to the time at which the event should occur and press Save.

Figure 20: Setting the Event Time (Left) and Viewing the Event Time (Right)

9. Press Save to save the event and press the Return icon to return to the main scheduler screen.

Figure 21: Returning to the Main Menu

10. Press to save and

to return to the previous screen.

Overriding the Occupancy Mode

The TEC supports a manual override of all other schedule sources (for example, Schedule, Occupancy BI, and temporary occupancy). To override the Occupancy Mode:

1. Press the Menu icon.

2. Press Schedule.

3. Press Schedule Options.

4. Press Manual Occupancy Mode and select Occupied, Unoccupied, or No Override.

5. Press to save and

This option is also exposed to the BAS through the point OCCOVRD-MODE.

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Enabling Optimal Start

The TEC supports an advanced optimal start algorithm. The algorithm works in conjunction with a local schedule to pre-heat or pre-cool the zone before scheduled occupancy periods begin, in order to bring the zone to the desired occupied setpoint when the scheduled occupan cy p er iod b egins. Occu pan t comfort is en sure d while au to matically minimizing energy usage. This algorithm creates a model of the zone being cont rolled and automatically determines when to start the equipment before the scheduled transition to Occupied. The start time automatically adjusts daily to minimize the time between reaching setpoint and entering Occupied state.

Note: Optimal Start does not work when the schedule source is set to External. To enable this feature:

1. Press the Menu icon.

2. Press Schedule.

3. Press Schedule Options.

4. Press Optimal Start Enable and select Yes.

5. Press to save and

to return to the previous screen.

Enabling the Motion Sensor (TEC3x11-00-000, TEC3x13-00-000 Models)

By default on models with integral motion sensing capability, the motion sensor is enabled with a default timeout of 15 minutes from the last detection of motion in the zone. On models without an integrated sensor, the default timeout is still 15 minutes, but it only is applied when one of the two configurable binary inputs is set to be a motion sensor (see Configurable Binary Inputs

for information on configuring the binary inputs). To disable motion se nsing capabilities, set the Motion Sensor Timeout to 0 minutes. See Table 6 to view the available setpoints. See Table 10 to view the setpoint values. To adjust the motion sensor timeout:

1. Press the Menu icon.

2. Press Schedule.

3. Press Schedule Options.

4. Press Motion Sensor Timeout and adjust accordingly.

5. Press to save and

to return to the previous screen.

PID/PRAC+ Automatic Control Tuning

The TEC3000 features advanced proportional-integral-derivative (PID) control algorithms to maximize control performance while minimizing excessive cycling and wear on the equipment. PID is used in conjunction with a Multi-Stage Controller (MSC) for all occupied and standby control.

Additionally, the PID features Johnson Controls proprietary PRAC+ (Pattern Recognition Adaptive Control) automatic tuning, which continuously tunes the controller parameters to automatically optimize the control performance to match the equipment and zone. By default, PRAC+ is enabled and immediately begins to tune. To reset tuning at any time to the factory defaults:

1. Press the Menu icon.

2. Press Control Setup.

3. Press Tuning.

4. Press Reset PID Tuning and select Yes.

5. Press to save and

to return to the previous screen.

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PRAC+ automatic tuning can also be disabled. When disabled, the controller pa rameters remain at their last values until automatic tuning is re-enabled. To disable automatic tuning:

1. Press the Menu icon.

2. Press Control Setup.

3. Press Tuning.

4. Press Temp Control Setup.

5. Select Manual PID Tuning (or any option listed in Table 8).

6. Press to save and

to return to the previous screen.

As a result of disabling PRAC+ Automatic Tuning, you have access to different types of manual tuning that allows modifications of tuning parameters listed under Control Setup > General in Table 8.

Table 8: TEC3000 Tuning Types

Tuning Type Des cription

Automatic PID Tuning Automatic tuning in an existing TEC3000 Deadband Override Directly specify the deadband used by the PID algorithm Manual PID Tuning Manual tuning of Heating and Cooling PIDs. The manual tuning parameters are listed

On/Off Control Binary control

under Control Setup > Tuning in Table 10.

Note: For more details on PID/PRAC+ Automatic Control Tuning, refer to the Controller Tool Help (LIT-12011147).

Configurable Binary Inputs

The thermostat controller supports up to two configurable binary inputs (BIs) that can be used to add additional features to the system. Configurable Binary Inputs are accessed through Settings > Control Setup > Inputs. Both BIs can be configured to support the following options:

• Disabled—Sets the binary input to an unused state. When disabled, you can use the binary input for

monitoring-only without affecting the thermostat functionality.

• Open Window—Sensor to shut down control if a window is opened. The controller disables control 60 second s

after detecting an opened window.

• Open Door—Works in conjunction with the Motion NO/Motion NC sensor to control occupancy

• Fan Lock—Air Proof switch input to shut down control if no airflow is detected within 10 seconds of turning the

fan on. Fan Lock must be manually reset from the Faults menu.

• Service—Input from the equipment to display a service warning on the thermostat

• Dirty Filter—Input from the equipment to display a dirty filter fault on the thermostat

• Motion NC—External motion sensor with a closed contact output when no motion is detected

• Motion NO—External motion sensor with an open contact output when no motion is detected

• Temp Occ—Trigger to place controller into Temporary Occupancy mode

• Occupancy—Direct override of Occupied and Unoccupied

• Supply Fan Status—Input from the equipment to display a Supply Fan Fault. When Fan Alarm Action is set to

Shutdown and the Supply Fan Fault is active, the TEC3000 disables the fan, heating, and cooling. When the Fan Alarm Action is set to Enable and the Supply Fan Fault is active, the TEC3000 allows the fan, heating, and cooling to operate during the Supply Fan Fault.

Setting both BIs to the same function is supported for all except Occupancy, Fan Lock, Open Door, and Open Window. If both BIs are set the same for those four, BI2 is ignored and only BI1 is used.

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The Open Door option works in conjunction with a motion sensor, either built into the TEC or connected to another BI configured for Motion NO/NC mode.

When the door is open, motion detected by the sensor is ignored. Note that opening the door does not stop an Occupied period started by the motion sens or prio r to op e nin g th e do or.

The polarity of the inputs are provided in Table 9.

Table 9: Input Polarities

BI Configuration Contact Open Contact Closed

Occupancy Unoccupied Occupied Temp Occ No Tr igger Active

Motion NO No Motion Detected, Standby Motion NC Dirty Filter Dirty Filter Alarm Inactive Service Service Alarm Inactive Fan Lock No Airflow Airflow

Open Door Door Open, Unoccupied Door Closed, Occupied Open Window Window Open, Control Shut Down Window Closed, Control Running Supply Fan Status Supply Fan Off Supply Fan On

1. Configurations that support both BIs configured for the same feature of the action that occurs when either of

Motion Detected, Occupied

Temporary Occupancy Trigger Motion Detected, Occupied

No Motion Detected, Standby Dirty Filter Alarm

Service Alarm

the BIs enter that state.

Aux Control

The TEC has an auxiliary output that can be configured to operate in a few different ways. The Aux Mode supports seven different options:

• Not Used—Output is always off

• Occupied NO—Output is normally open, but closes when occupied

• Occupied NC—Output is normally closed, but opens when occupied

• Occupied Fan NO—Output is normally open, but is closed when occupied with the fan running

• Occupied Fan NC—Output is normally closed, but is open when occupied with the fan running

• On—Output is turned on (relay closed), used by a BAS to directly control the AUX output

• Off—Output is turned off (relay open), used by a BAS to directly control the AUX output To set the Aux Mode:

1. Press the Menu icon.

2. Press Control Setup.

3. Press General.

4. Press Aux Mode and set accordingly.

5. Press to save and This option is also exposed to the BAS through the point AUX-MODE.

to return to the previous screen.

When the Reheat installed parameter is set to True, the Aux output is used for Reheat Output. The setting for the Aux Mode is ignored when reheat is enabled.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Commissioning Mode

The thermostat controller has a built-in commissioning mode, which is designed to allow you to quickly test equipment wiring and functionality. Commissioning mode temporarily disables the control logic, and allows you to manually command any individual output. Commissioning is designed to be the last step of the installation process after configuring the controller for the equipment being controlled, and the available options in commissioning mode are dependent on the controller configuration. To enter commissioning mode:

1. Press the Menu icon.

2. Select Commissioning.

3. Confirm that the selection was intentional. (The control is overridden upon selecting Confirm). Individual outputs can be commanded through this interface. For binary outputs, the options are Off or On; for

analog outputs, they can be commanded from 0 to 100%. Whenever a control output is turned on, the fan is engaged for safety purposes. To command an output from the Commissioning menu:

1. Select the output to command. Adjust the value to the desired output and press Save. The ou tp ut immed iately

changes to that value.

2. Restore the value to the original setting and press Save once again to complete testing that output. Pressing the back icon from the main commissioning menu or allowing the menu system to time out and return to

the home screen ends commissioning and puts the control logic back in control of the outputs.

Sensor Priority

The TEC3000 supports various sources of sensor data for use in control or display, including internal sensors, remote sensors (connected using an analog input), or network commanded sensors. The TEC uses the highest priority connected input (network commands followed by remote sensors and then internal se nsors) 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 a new up date is written within 15 minutes, the timer is restarted 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 can be configured to disable heating, cooling, and fan commands. The alarm delay is adjustable through the Fan Alarm delay setting. If the delay is set to 0 or the binary input is not defined, this feature becomes disabled.

• Supply Fan Runtime—The TEC3000 supports setting runtime limits on the supply fan command. When the

limit is exceeded, an alarm turns on. This feature is intended to be used 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 is generated. If the monitoring occurs while cooling, a cooling ineffective alarm is generated. If the monitoring occurs while heating, a heating ineffective alarm is generated. If you set the supply air temperature offset value set to 0, this alarm is disabled.

• Zone Tempera tu re Alarm—When enabled, the user can se t a low and high temperature alarm; and if the zone

temperature rises or falls below those limits, an alarm is generated.

• Trends—Built-in tr ends exist for many of the inputs and outputs for the TEC3000. These tren ds 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.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Page 34

Menus and Submenus

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

Table 10: Menus and Submenus (Part 1 of 9)

Level 1 Level 2

(LCD Screen Name)

Setpoints Occ Cooling Setpoint 72°F (22°C) 55 to 85°F (13 to 30°C)

Occ Heating Setpoint 68°F (20°C) 55 to 85°F (13 to 30°C) Unocc Cooling Setpoint 80ºF (27°C) 55 to 85°F (13 to 30°C) Unocc Heating Setpoint 60°F (15°C) 55 to 85°F (13 to 30°C) Stby Cooling Setpoint 74°F (23°C) 55 to 85°F (13 to 30°C) Stby Heating Setpoint 66°F (19°C) 55 to 85°F (13 to 30°C) Dehumidification* 50% RH 0 to 100% RH

Occ Setpoint Select Setpoint Offset Min and Max Setpoint or Setpoint Offset Heat Cool Setpoint Mode Individual

Max Heating Setpoint* 68°F (20°C) The range (in degrees) from the Min

Min Heating Setpoint* 60°F (15°C) 45°F (7.22°C) to Max Heating Setpoint

Max Cooling Setpoint* 80ºF (27°C) Min Cooling Setpoint to 100°F (37.77°C)

Min Cooling Setpoint* 72°F (22°C) T he range (in degrees) from the Max

Max Setpoint* 80ºF (27°C) Min Setpoint to 100°F (37.77°C)

Min Setpoint* 60°F (15°C) 45°F (7.22°C) to Max Setpoint

Level 3 (Default Values)

Setpoints

Available Values

*Dehumidification Enable = True

Common Setpoint or Individual Setpoint

Heating Setpoint temperature to the Min Cooling Setpoint temperature minus 1°F (0.55°C). (The cooling temperature always needs to be 1°F [0.55°C] above the heating temperature.)

*These values only appear when Heat

Cool Setpoint Mode == Individual Setpoints and Occ Setpoint Select == Min and Max Setpoint.

*These values only appear when Heat

Cool Setpoint Mode == Individual Setpoints and Occ Setpoint Select == Min and Max Setpoint.

*These values only appear when Heat

Cool Setpoint Mode == Individual Setpoints and Occ Setpoint Select == Min and Max Setpoint.

Heating Setpoint temperature plus 1°F (0.55°C) to the Max Cooling Setpoint temperature.

*These values only appear when Heat

Cool Setpoint Mode == Individual Setpoints and Occ Setpoint Select == Min and Max Setpoint.

*These values only appear when Heat

Cool Setpoint Mode == Common Setpoint and Occ Setpoint Select == Min and Max Setpoint.

*These values only appear when Heat

Cool Setpoint Mode == Common Setpoint and Occ Setpoint Select == Min and Max Setpoint.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Page 35

Table 10: Menus and Submenus (Part 2 of 9)

Level 1 Level 2

(LCD Screen Name)

Schedule Schedule Options

Set Schedule Optimal Start Enable No Yes or No Temp Occ Duration 120 minutes 0 to 300 minutes Motion Sensor Timeout 15 minutes 0 to 240 minutes

Manual Occupancy Mode No Override No Override, Occupied, Unoccupied Schedule Source Schedule Schedule or External

Display Settings Passcode Enable No Yes or No

Passcode* NA 0000 to 9999

Brightness Setting 8 0 to 10 (most dim to brightest) Enable Backlight Timeout Yes Yes or No Units IP IP or SI Time N/A Time Zone Central All World Time Zones Set Time Format 24 hour 24 hour or 12 hour Date N/A Set Date Format YYYY-MM-DD YYYY-MM-DD, or Day, Month DD, YYYY,

Language English English, French, Spanish Show Fan Icon Yes Yes or No Show Temp Yes Yes or No Show Humidity Yes Yes or No Show Off Icon Yes Yes or No Show Hold Icon Yes Yes or No Show Setpoint Yes Yes or No Show Alarms Yes Yes or No Show Occ Status Yes Yes or No Show Unit Status Yes Yes or No Show Date/Time Yes Yes or No

Control Setup General

Control Mode Auto Auto, Cooling, or Heating Unit Enable Enable Enable or Shutdown Fan Mode* Smart On, Auto, and Smart for single- and

Max Setpoint Offset 3 0 to 20 degrees (°F or °C based on Units

Fan On Delay* 30 seconds 0 to 120 seconds

Level 3

Available Values

(Default Values)

— See Scheduling

0 = PIR sensor disabled

*Passcode Enable = Yes

or MM-DD-YYYY

variable-speed fans. Low, Medium, High, Auto, and Smart for multi-speed units.

* Fan coil units only

setting under Display Settings menu)

* Fan coil units only

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 3 of 9)

Level 1 Level 2

(LCD Screen Name)

Control Setup (Cont)

Fan Off Delay* 30 seconds 0 to 120 seconds

Frost Protection Yes Yes or No Dehumidification Enable* No Yes or No

Aux Mode Not Used Not Used, Occupied NO, Occupied NC,

Load Shed Rate Limit 0.066°F 0 to 1°F (0 to 0.5°C) Load Shed Adjust 4°F 0 to 8°F (0 to 4°C) Fan Alarm Delay 0 seconds 0 to 300 seconds Fan Alarm Delay 0 seconds 0 to 300 seconds Fan Alarm Action* Enable Enable or Shutdown

Fan Alarm Reset* No Yes or No

Fan Runtime Limit 0 hours 0 to 9,000 hours Fan Runtime Reset* No Yes or No

Supply Air Temperature Alarm Offset 0°F 0 to 10°F (0 to 5.5°C) Supply Air Temperature Alarm Delay* 300 seconds 300 to 3,600 seconds

Unocc Low Speed Fan Disable Enable or Disable

Inputs

BI1 Configuration Disabled Disabled, Open Window, Open Door, Fan

BI2 Configuration Disabled Disabled, Open Window, Open Door, Fan

Supply Temp Type* Analog Sensor Ana log Sensor, Heating NC, Cooling NC

Supply Temp Sensor* Nickel Nickel, Platinum, A99B, 2.25k ohm

Supply Temp Offset* 0 -5 to 5 (°F or °C based on Units setting

Zone Temp Sensor Nickel Nickel, Platinum, A99B, 2.25k ohm NTC,

Zone Temp Offset 0 -5 to 5 (°F or °C based on Units setting

Level 3 (Default Values)

Available Values

* Fan coil units only

* Fan coil units with humidity sensor

Occupied Fan NO, Occupied Fan NC, On, Off

* When Fan Alarm Delay is greater than 0

* When Fan Runtime Limit is greater than 0

* When Supply Air Temp Alarm Offset is greater than 0

*When Fan Type = Multi-Speed Fan (only available in versions 3.0.4 or

greater)

Lock, Service, Dirty Filter, Motion NC, Motion NO, Temp Occ, Occupancy

* Non four-pipe units only

negative temperature coefficient (NTC), 10k ohm NTC, 10k ohm NTC Type 3

* SAT Mode = Analog Sensor, non four-pipe

under Display Settings menu) * Analog Sensor

10k ohm NTC, 10k ohm NTC Type 3

under Display Settings menu)

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 4 of 9)

Level 1 Level 2

(LCD Screen Name)

Control Setup (Cont)

Humidity Offset 0% RH -15% to 15% RH Reset Sensors False True or False Zone Temp Alarm Enabled No Yes or No Zone Temp Low Limit 55°F 32 to 150°F (0 to 65.56°C) Zone Temp High Limit 90°F 32 to 150°F (0 to 65.56°C)

Tuning

Temp Control Setup* Automatic PID

Reset PID Tuning No Yes or No Deadband* 0.7 to 1.5°F 1.0°F (-17.22 °C)

Auto Economizer Tuning Enable Disable or Enable Heat Prop Band* 160°F 5 to 10°F (-15 to -1.11°C)

Heat Integral Time* 729 seconds 300 to 1,600 seconds

Heat Process Range* 40°F 10 to 100°F (-12.22 to 37.77°C)

Heat Saturation Time* 600 seconds 60 to 900 seconds

Heat Time Constant* 720 seconds 360 to 1,440 seconds

Heat Process Dead Time* 72 seconds 20 to 120 seconds

Heat Period* 60 seconds 30 to 120 seconds

Cool Prop Band* 160°F 5 to 10°F (-15 to -1.11°C)

Cool Integral Time* 729 seconds 300 to 1,600 seconds

Level 3 (Default Values)

Tuning

Available Values

Automatic PID Tuning, Manual PID Tuning, Deadband Override, On/Off Control

* Available when Heating/Cooling Device Type = On-Off and Supply Fan Type = Single

*Functionally, this is the PID deadband

when the T emp Control Setup is equal to the Deadband Override or Manual PID Tuning. When the Temp Control Setup equals the On/Off Control, the Deadband is used for the On/Off range of the stage equipment. This parameter is hidden when Temp Control Setup equals Automatic PID Tuning.

*Values only appear when the Temp

control equals Manual PID Tuning.

*Values only appear when the Temp control equals Manual PID Tuning.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 5 of 9)

Level 1 Level 2

(LCD Screen Name)

Control Setup (Cont)

Network Setup FC Comm Mode BACnet/MSTP BACnet/MSTP, N2

Cool Process Range* 40°F 10 to 100°F (-12.22 to 37.77°C)

Cool Saturation Time* 600 seconds 60 to 900 seconds

Cool Time Constant* 720 seconds 360 to 1,440 seconds

Cool Process Dead Time* 72 seconds 20 to 120 seconds

Cool Period* 60 seconds 30 to 120 seconds

Equipment Size Normal Normal or Oversized

BACnet Instance ID* 1 0 to 4,194,302

N2 Device Address* 4 1 to 255

BACnet Device Address* 4 4 to 127

MSTP Baud Rate* Auto Auto, 1200, 9600, 19200, 38400, 76800

BACnet Encoding Type BACnet/MSTP Communication Mode

Level 3 (Default Values)

ISO 10646 (UCS-2)

Available Values

*Values only appear when the Temp control equals Manual PID Tuning.

*Values only appear when the Temp

control equals Manual PID Tuning.

*Values only appear when the Temp

control equals Manual PID Tuning.

*Value only appears when Temp Control Setup is not equal to On Off Control

* BACnet/MSTP communication mode

* N2 communication mode

* BACnet/MSTP communication mode

* BACnet/MSTP communication mode ISO 10646 (UCS-2), ANSI X3.4

(US-ASCII)

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 6 of 9)

Level 1 Level 2

(LCD Screen Name)

Equipment Setup General

Unit Type 4-Pipe 2-Pipe, 4-Pipe, VAV Heating/Cooling Device Type* Floating On/Off, Floating

Actuator Stroke Time* 30 seconds 5 to 300

Cooling Min On Time* 120 seconds 0 to 360 seconds

Cooling Min Off Time* 120 seconds 0 to 360 seconds

Heating Min On Time* 120 seconds 0 to 360 seconds

Heating Min Off Time* 120 seconds 0 to 360 seconds

Unoccupied Off Delay 10 minutes 0 to 10 minutes

Supply Fan

Supply Fan Type* Single-Speed Single-Speed, Multi-Speed,

Start Voltage* 2 VDC 0 to 10 VDC

Full Speed Voltage* 10 VDC 0 to 10 VDC, proportional

Level 3 (Default Values)

Available Values

* Fan coil units only

* Floating Heating/Cooling device type only

* Fan coil on/off units only

Variable-Speed * Fan coil units only

* Fan coil units only, variable-speed fan

*Fan coil units only, variable-speed fan

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 7 of 9)

Level 1 Level 2

(LCD Screen Name)

Equipment Setup (Cont)

Trend EFF-ZNT

Min Command* 20% 0 to 100%

Med Fan Speed On Cmd* 33% 0 to 100%

High Fan Speed On Cmd* 66% 0 to 100%

Reheat

Reheat Installed No Yes (True) or No (False) Reheat Min Damper Position* 20% 0 to 100%

Reheat Fan Required* No Yes or No

Reheat Min On Time* 180 seconds 0 to 360 second

Reheat Min Off Time* 180 seconds 0 to 360 seconds

Changeover

Changeover Mode* Auto Auto, Cooling, or Heating

Supply Temp Type* Analog Sensor Ana log Sensor, Heating NC, Cooling NC

Changeover Setpoint* 55°F 40 to 200°F (4 to 93°C)

Supply Temp Sensor* Nickel Nickel, Platinum, A99B, 2.25k ohm NTC,

Supply Temp Offset* 0°F -5 to 5°F (-3 to 3°C)

EFF-SETPOINT EFF-ZNH B1 Status B2 Status EFF-OAT EFF-SAT FANSPD-S CLG1-C CLG2-C HTG1-C HTG2-C OAD-O HTG-O CLG-O

Level 3

Available Values

(Default Values)

* Fan coil units only, variable-speed fan

* Fan coil units only, multi-speed fan

* VAV units with reheat installed

*Fan coil units with reheat installed

* Reheat installed

* Non 4-Pipe units

* Changeover Mode = Auto

* Supply temp type = analog sensor

10k ohm NTC, 10k ohm NTC Type 3 * Supply temp type = analog sensor

* Supply temp type = analog sensor

— -50 to 250°F (-45.56 to 121.11°C) — 45 to 100°F (7.22 to 37.78°C) — 0 to 100%RH — On or Off — On or Off — -50 to 250°F (-45.56 to 121.11°C) — -50 to 250°F (-45.56 to 121.11°C) — On or Off — On or Off — On or Off — On or Off — On or Off — 0 to 100% — 0 to 100% — 0 to 100%

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 8 of 9)

Level 1 Level 2

(LCD Screen Name)

System Status Occupancy Source Local Schedule Occupancy BI

Unit Status Cooling System Fault

Supply Air Temperature 75°F -50 to 250°F (-45 to 121°C) Changeover State Supply

Zone Temp Source Internal Sensor Unreliable

Control Status Cooling % Command 0% 0 to 100%

Heating % Command 0% 0 to 100% Reheat % Command 0% 0 to 100% Cool Stage 1 Off On or Off Heat Stage 1 Off On or Off Reheat Stage 1 Off On or Off Fan % Command 0% 0 to 100% Fan On On or Off when Supply Fan Type =

Level 3 (Default Values)

Temperature Unreliable

Available Values

Temp Occ BI Temp Occ Occ Override Local Schedule BAS Schedule Occupancy Sensor

Airflow Fault Open Window Control Off Unreliable Temperature Dehumidification Idle Cooling Heating Cooling Unavailable Heating Unavailable Cooling Unavailable due to Changeover Cooling Unavailable due to OA Temp Cooling Unavailable due to Control Mode Heating Unavailable due to Changeover Heating Unavailable due to OA Temp Heating Unavailable due to Control Mode

Changeover Disabled Cooling Mode Heating Mode Supply Temperature Unreliable

Internal Sensor Remote Sensor Network Override Input Not Installed

Single-speed or Variable-speed Off, Low, Medium, or High when Supply Fan Type = Multi-speed

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Table 10: Menus and Submenus (Part 9 of 9)

Level 1 Level 2

(LCD Screen Name)

Controller Info Model Name TEC3x1x-xx —

Software Version x.x.x.xxxx — Unit Name TECxxxxx — Device Name — User-Supplied Device Description TEC3000

Commissioning Supply Air Temperatur e Display Current

Heat Command 0% 0 to 100% Cool Command 0% 0 to 100% Supply Fan No Yes or No Aux No Yes or No

Update View Version x.x.x.xxxx Current Release of Software

Load Firmware Restore*

Backup*

Level 3

Available Values

(Default Values)

— —

Temperature

— File list from USB drive — File list from USB drive or local storage

*Configuration can be backed up to the

USB drive and restored to similar models to expedite the commissioning process.

— File list from USB drive or local storage

*Configuration can be backed up to the

USB drive and restored to similar models to expedite the commissioning process.

1. If the value is outside min/max limits, it is reassigned to the midpoint between min and max.

Troubleshooting

Table 11: Fault List (Part 1 of 3)

Faults Probable Causes Solutions

Remote Zone Temp Fail The External Zone T emperature sensor

has been disconnected or has failed.

Supply Temp Fail The External Supply Temperature

sensor has been disconnected or has failed.

Internal Sensor Fail An internal sensor has failed on the

TEC.

1. Check the wiring of the sensor.

2. If intentionally disconnected, reset sensors through the menu.

3. If the problem persists, order replacement units and return the affected devices to Johnson Controls under the RMA program.

1. Check the wiring of the sensor.

2. If intentionally disconnected, result fault by entering the menu, enter Control Setup, and select Inputs to reset the sensors.

3. If the problem persists, order replacement units and return the affected devices to Johnson Controls under the RMA program.

Order replacement units and return the affected devices to Johnson Controls under the RMA program.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Page 43

Table 11: Fault List (Part 2 of 3)

Faults Probable Causes Solutions

Dehum Unavailable Dehumidification is unavailable

because the zone humidity sensor has failed or the humidity reading is not reliable.

Service Equipment connected to the BI

configured for a Service alarm is triggering the alarm.

Dirty Filter Equipment connected to the BI

configured for a Dirty Filter alarm is triggering the alarm.

Calibration Corrupt Factory calibration data is lost or is not

installed.

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.

Zone Temp Unreliable All sources of zone temper at ure are

unreliable, including the onboard sensor.

Open Window The switch connected to the BI

configured for Open Window is sensing that the window is opened, and control has shut down.

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.

Humidity Unreliable The zone humidity reading was reliable

and has now failed.

Controller Fault The controller has detected an internal

fault that it cannot recover.

An unknown error has prevented the controller from turning on.

1. If the sourc e 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.

2. If the problem persists, order replacement units and return the affected devices to Johnson Controls under the RMA program.

Service the equipment by way of the manufacturer's recommendation.

Replace the filter in the equipment as explained in the manufacturer's instructions.

Order replacement units and return the affected devices to Johnson Controls under the RMA program.

Follow the same steps as Supply Temp Fail alarm.

Order replacement units and return the affected devices to Johnson Controls under the RMA program.

1. Close the window to resume control.

2. Check sensor functionality with an ohmmeter, and verify the wiring to the TEC.

3. Order replacement units and return the affected devices to Johnson Controls under the RMA program.

1. Inspect equipment to ensure fan functions.

2. Check sensor functionality with an ohmmeter, and verify wiring to the TEC.

3. Reset fault by entering the menu, selecting Fault Status, and selecting the Fan Lock.

4. Order replacement units and return the affected devices to Johnson Controls under the RMA program.

1. If the source of zone humidity was the onboard sensor, contact Johnson Controls product sales and support.

2. 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.

Order replacement units and return the affected devices to Johnson Controls under the RMA program.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Page 44

Table 11: Fault List (Part 3 of 3)

Faults Probable Causes Solutions

Touchscreen Unavailable The touchscreen components have

failed to initialize.

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.

Firmware Mismatch The previous upgrade has not

completed.

The previous downgrade has not completed because the previous version is no longer supported.

USB Malfunction A USB drive has malfunctioned and

drawn more than the maximum allowed current.

Supply Fan Runtime Limit Extended

Heating Ineffective The Supply Air Temperature has not

Cooling Ineffective The Supply Air Temperature has not

Supply Fan Fault The Supply Fan Status configured for

Zone Temperature Too Cold The Zone Temperature has decreased

Zone Temperature Too Hot The Zone Temperature has increased

The Supply Fan Runtime has exceeded the configured Supply Fan Runti m e Limit.

increased above the configured Supply Air Temperature Alarm Offset while heating has been active for at least the Supply Air Temperature Alarm Delay.

decreased below the configured Supply Air Temperature Alarm Offset while cooling has been active for at least th e Supply Air Temperature Alarm Delay.

either BI1 or BI2 has not proved within the configured Fan Alarm Delay.

below the configured Zone Temp Lo w Limit.

above the configured Zone Temp High Limit.

1. Reboot the controller.

2. If problems persist, or de r rep l a c em ent units and return the affected devices to Johnson Controls under the RMA program.

Match the baseboard to its corresponding CPU board. See Repair Information ensuring that you have the CPU board and base board paired correctly.

1. Upgrade the TEC3000 to the latest released version.

2. Upgrade the TEC3000 to the current version again.

Reboot the TEC3000 to clear the fault.

1. Attempt to insert and use the USB drive again.

2. Try a new USB drive.

3. If problems persist, or de r rep l a c em ent units and return the affected devices to Johnson Controls under the RMA program.

1. Service the Supply Fan.

2. Reset the Supply Fan runtime.

Verify that the heating elements on the rooftop are functioning properly.

Verify that the cooling elements on the rooftop are functioning properly.

1. Verify that the Supply Fan is operating when turned on.

2. Verify that the Supply Fan Status wiring is connected correctly.

Verify that the TEC and the RTU heating are enabled and functioning.

Verify that the TEC and the RTU cooling are enabled and functioning.

for information on

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Page 45

Table 12: Troubleshooting Details1 (Part 1 of 2)

Symptom Probable Causes Solutions

The controller 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 controller 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 staged equipment shuts off

above the cooling setpoint or below the heating setpoint when the PID is running on the TEC. If the unit is in On/Off Control mode, this does not apply.

The staged equipment cycles too rapidly or too slowly when the PID is running on the TEC.

The controller provides an error when trying to upgrade firmware.

The TEC3000 zone temperature does not change fast enough compared to the measured zone temperature from a verification device (a calibrated sensor).

The 2-pipe fan coil/VAV system does not have a changeover sensor and switch connected, or the sensor/switch has failed.

The changeover temperature is sensing a hot supply, but the controller is requesting cooling.

Changeover temperature is sensing a cold supply, but the controller is requesting heating.

The Control Mode is set to Cooling Mode, but the controller is requesting heating.

The Control Mode is set to Heating Mode, but the controller is requesting cooling.

The PID control algorithm minimizes overshoot and energy usage for the particular equipment and zone, and may cycle the equipment prior to reaching setpoint.

The control band around the setpoint is determined by the minimum on/off times and is set incorrectly for the equipment, zone, or user preference. There is a tradeoff between reduced control band size and increased energy usage and equipment wear from increased cycling.

The firmware on the USB drive is below the minimum required version. Error code 1025.

The TEC3000 is configured by default for larger spaces with normal-sized equipment when a proportional device is active.

1. Check the wiring of the supply temperature sensor/switch.

2. Verify that the changeover is set up correctly for the type of sensor attached (sensor or switch).

1. Verify that the supply is not in heating mode. If it is, nothing can be done from the TEC.

2. Check the wiring of the supply temperature sensor or switch.

3. Check the placement of the supply temperature sensor or switch.

4. Verify that the changeover is set up correctly for the type of sensor attached (sensor or switch).

1. Verify that the supply is not in cooling mode. If it is, nothing can be done from the TEC.

2. Check the wiring of the supply temperature sensor or switch.

3. Check the placement of supply temperature sensor or switch.

4. Verify that the changeover is set up correctly for the type of sensor attached (sensor or switch).

Change the Control Mode to Auto or Heating.

Change the Control Mode to Auto or Cooling.

Expected behavior.

1. V erify that equipment minimum on/off times are set correctly.

2. If the default deadband around the setpoint does not provide the desired temperature control, set Temp Control Setup to Deadband Override and set the Deadband parameter to the desired value.

Please use firmware version 3.0.2.xxxx or higher. A reboot is required to clear the Firmware

Mismatch fault that occurs.

Select Control Setup >Tuning > Equipment Size > Oversized.

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

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Page 46

Table 12: Troubleshooting Details1 (Part 2 of 2)

Symptom Probable Causes Solutions

The zone space temperature increases or decreases too much when the unit is active in unoccupied mode.

The controller provides an error when trying to back up settings.

The controller provides an error when trying to restore settings from a backup.

The controller is unable to access a USB drive.

The controller displays Board Mismatch.

The controller displays Controller Fault.

The Bell icon is displayed on the TEC home page.

Partial Restore Complete is displayed when trying to restore settings from a backup file.

The temperature displayed is lower than the actual room temperature.

The Online icon does not appear for a networked controller.

Some icons are hidden. Lockout levels are used or the

The heating and cooling equipment are too big for the unoccupied space.

The USB drive is defective. Try a different USB drive.

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. The drive is formatted as NTFS

or another unsupported format. The TEC supports FAT and FAT32 formats only.

The USB drive is defective. Try a different USB drive. The I/O board that the display

board is currently attached to does not match the one that initially shipped with the display board.

A hardware failure is causing the two boards to incorrectly identify themselves.

An internal fault was detected and the controller was unable to recover.

The fault has been detected on the TEC.

Not all of the items in the backup file have been restored. This error can be caused by a value being 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.

Cold air drafts are entering the back of the TEC.

Air is being forced through the TEC from a nearby vent.

There is improper field bus wiring.

icons are hidden due to the display settings.

Decrease the Unoccupied Off Delay parameter from 10 minutes to a more appropriate time for the equipment configuration.

Ensure that the backup file being restored was from the same model TEC.

Reformat the USB drive, or try a different USB drive with a supported format.

Attach the display board to the correct I/O board.

Order replacement units and return the affected devices to Johnson Controls under the RMA program.

See Table 11 for TEC fault causes and resolution.

1. Create a Backup file on a USB drive for the TEC that is showing the issue.

2. Edit the backup file created in the previous step on a PC to reflect the desired settings.

3. Verify that the modified values are within minimum and maximum range in the backup file.

4. Restore the settin gs from the newly edited backup file on the TEC.

Seal any holes behind the TEC to reduce drafts.

Move the location of the TEC or change the venting to prevent air from being forced through the TEC.

Refer to the MS/TP Communications Bus

Technical Bulletin (LIT-12011034).

See Table 4 for lockout levels and access details.

1. For common MS/TP troubleshooting information, refer to the MS/TP Communications Bus Technical Bulletin

(LIT-12011034).

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

Page 47

Repair Information

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

Technical Specifications

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification Capability (Part 1 of 2 )

Power Requirements 19 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 to 250 mA current draw supported Relay Contact

Rating Fan Relay Output Rating 19 to 30 VAC, 1.0 A maximum, 15 mA minimu m, 3.0 A in-rush Auxiliary Output Rating/Triac

Output 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

Temperature Sensor Type Local 1k ohm platinum sensor Wire Size 18 AWG (1.0 mm diameter) maximum, 22 AWG (0.6 mm diameter) recommended MS/TP Network Guidelines Up to 100 devices maximum for each Network Automati on Engine (NAE);

Temperature Range

Accuracy Temperature ±0.9F°/±0.5C° at 70.0°F/21.0°C typical calibrated

Minimum Deadband 2F°/1C° between heating and cooling Occupancy Sensor Motion

Detection (Occupancy Sensing Models)

Ambient Conditions

Compliance BACnet

On/Off or Floating Control

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

Humidity ±5% RH from 20 to 80% RH at 50 to 90°F (10 to 32°C)

Operating 32 to 122°F (0 to 50°C); 95% RH maximum, noncondensing Storage -22 to 122°F (-30 to 50°C); 95% RH maximum, noncondensing

International United States UL Listed, File E27734, CCN XAPX, Under UL60730

Canada UL Listed, File E27734, CCN XAPX7, Under E60730

Europe CE Mark – Johnson Controls declares that this product is in compliance

Australia and New Zealand

19 to 30 VAC, 1.0 A maximum, 15 mA minimum, 3.0 A in-rush, Class 2 or SELV

19 to 30 VAC, 1.0 A maximum, 15 mA minimum, 3.0 A in-rush

terminal COM to terminals R SEN or COS

4,000 ft (1,219 m) maximum cable length. Refer to the MS/TP Technical Bulletin for the Metasys, FX, or Verasys system installed.

Minimum of 94 angular degrees up to a distance of 15 ft (4.6 m); based on a clear line of sight

BACnet Testing Labo ratories™ (BTL) 135-2001 Listed BACnet Application Specific Controller (B-ASC)

FCC Compliant to CFR 47, Part 15, Subpart B, Class B

Industry Canada, ICES-003

with the essential requirements and other relevant provisions of the EMC Directive and the RoHS Directive.

RCM Mark, Australia/NZ Emissions Compliant

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Capability Installation Instructions

Page 48

Metasys® and Johnson Controls® are registered trademarks of Johnson Controls.

Building Technologies & Solutions

507 E. Michigan Street, Milwaukee, WI 53202

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification Capability (Part 2 of 2 )

Shipping Weight

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.

Models without Occupancy Sensor

Models with Occupancy Sensor

0.75 lb (0.34 kg)

0.77 lb (0.35 kg)

European Single Point of Contact: NA/SA Single Point of Contact: APAC Single Point of Contact:

JOHNSON CONTROLS WESTENDHOF 3 45143 ESSEN GERMANY

TEC3000 Series On/Off or Floating Fan Coil and Individual Zone Thermostat Controllers with Dehumidification

Published in U.S.A. www.johnsoncontrols.com

JOHNSON CONTROLS 507 E MICHIGAN ST MIL WAUKEE WI 53202 USA

Capability Installation Instructions

JOHNSON CONTROLS C/O CONTROLS PRODUCT MANAGEMENT NO. 22 BLOCK D NEW DISTRICT WUXI JIANGSU PROVINCE 214142 CHINA

Johnson Controls TEC3312, TEC3320, TEC3311, TEC3330, TEC3323 Installation Instructions Manual

Specifications and Main Features

Frequently Asked Questions

User Manual