Honeywell-TB6575-Digital-Fan-Coil-Thermostats-featured

Honeywell TB6575 Digital Fan Coil Thermostats INSTALLATION INSTRUCTIONS

Honeywell

Honeywell TB6575 Digital Fan Coil Thermostats

Honeywell-TB6575-Digital-Fan-Coil-Thermostats

PRODUCT DESCRIPTION

The TB6575 and TB8575 are a family of Digital Fan Coil thermostats for residential and commercial applications such as hotels, condominiums, school classrooms, etc.

Four models are available for your application:

  • TB6575A1016 – 2-pipe or 4-pipe with seasonal/manual/automatic heat/cool changeover; 120/240 Vac.
  • TB6575B1000 – 2-pipe only with seasonal or manual heat/cool changeover; 120/240 Vac.
  • TB6575C1016 – 2-pipe or 4-pipe with seasonal/manual/automatic heat/cool changeover; 120/240/ 277 Vac.
  • TB8575A1016 – 2-pipe or 4-pipe with seasonal heat/cool changeover; 24Vac.

All four models are suitable for multiple applications. Changes in output wiring and external links between wiring terminals allow you to configure the thermostat for the appropriate application.

The applications that are available are:

  • Heating or Cooling only
  • Two pipes: Heat or Cool with Manual Changeover
  • Two pipes: Heat or Cool with Seasonal Changeover (requires optional pipe sensor)
  • Two pipes: Heat or Cool with Auxiliary Heat and Manual or Seasonal Changeover (requires optional pipe sensor)
  • Four pipes: Mixed Manual and Auto Changeover
  • Four pipes: Manual Changeover
  • Four pipes: Auto Changeover

The fan is controlled from the thermostat. The Low, Medium, High, or Auto fan settings are easily made with a press of a key.
Valves and auxiliary electric heaters can be controlled using a relay or contactor controlled by the system switch.

FEATURES

  • Simple, intuitive user interface.
  • Pre-installed lead wires for fast installation (TB6575A, TB6575B and TB6575C models only)
  • Backlight display permits easy viewing in any light.
  • Four buttons allow manual control of system operation, fan speed, and temperature setpoint adjustment.
  • Digital display of ambient temperature, setpoint, heating or cooling mode, fan status, and remote setback
  • Proportional plus Integral (P+I) control algorithm for precision temperature regulation.
  • Single Setpoint and Heat/Cool setpoint methods for 4-pipe auto changeover.
  • Adjustable maximum heating and minimum cooling setpoint limits using range stops.
  • EEPROM permanently retains user settings, including setpoints, during power loss (no batteries required).
  • Selectable °C or °F display via Setup button on thermostat.
  • Displayable pipe sensor temperature readout to aid in troubleshooting.
  • Selectable to allow the fan motor to always begin on high speed to ensure sufficient torque at startup.
  • Option to wire a remote indoor temperature sensor.
  • Freeze protect algorithm turns on heat when needed.
  • Economy Setback options via dry contact or Activity Sensing
  • Advanced fan control with VersaSpeed™ fan ramp algorithm and Auto Fan Reset

SPECIFICATIONS

Supply Voltages:

TB6575A1016 and TB6575B1000:

  • 120 Vac ±10% at 50/60Hz
  • 240 Vac -15% to +10% at 50/60Hz

TB6575C1016:

  • 120 Vac ±10% at 50/60Hz
  • 240 Vac -15% to +10% at 50/60Hz
  • 277 Vac ±10% at 50/60Hz

TB8575A1016: 

  • 20 to 30 Vac at 50/60Hz (using 24 Vac, Class 2, NEMA rated transformer)

Safety Fuse: 15 A, 350V. If the safety fuse blows, the thermostat must be replaced. The fuse is not field replaceable.

Electrical Ratings: (see Table 1).

Table 1. Electrical Ratings.

 

Component

Amps (inductive) for:
24 Vac 120 Vac 240 Vac 277 Vac
Fan Relay 1.0 A 6.0 A 3.0 A 2.4 A
Heat/Cool Relay 1.0 A 1.0 A 1.0 A 1.0 A

Environmental Ratings:

  • Temperature:
    • Operating Range: 18°C to 49°C (0°F to 120°F).
    • Shipping and Storage Range: -29°C to 49°C (-20°F to 120°F).
  • Humidity: 5% to 90% RH, non-condensing.

Onboard Temperature Sensor: 

  • Type: 10K NTC
  • Working Range: 18°C to 49°C (0°F to 120°F)
  • Display Range: 0°C to 37°C (32°F to 99°F)
  • Accuracy ±2.0°F at 70°F

Remote Temperature Sensor (optional):

  • Type: 20K NTC
  • Working Range: 18°C to 49°C (0°F to 120°F)
  • Display Range: 0°C to 37°C (32°F to 99°F)
  • Accuracy ±2.0°F at 70°F

Remote Pipe Sensor (optional):

  • Type: 20K NTC
  • Working Range: 0°C to 93°C (32°F to 199°F)
  • Display Range: 0°C to 93°C (32°F to 199°F)
  • Accuracy ±5.0°F over the temperature sensing range

Remote Setback Input: Dry contact, maximum resistance of 100 ohms. TB6575 – 9Vdc, < 4 mA; TB8575 – 16 Vdc, < 5 mA.
Note Electrical WARNING on page 3.

Remote Setback Range:

  • Heating: 10°C to 21°C (50°F to 70°F).
  • Cooling: 22°C to 32°C (72°F to 90°F).

Enclosure:
Plastic (cover, sub-base, and optional adaptor plate)

Junction Box Mounting:
Direct mounting on a horizontal single gang NEMA 2 x 4 in. surface mount electrical box, or on 4 x 4 in. box or vertical 2 x 4 in. surface mount electrical box with the optional 50033847-001 adapter plate.

Dimensions:
See Fig. 1 on page 3.

Wiring

11 screw-in terminals located on the sub-base capable of accepting up to 2 x 18 AWG (0.8 sq. mm), 1 x 16 AWG (1.3 sq. mm), or 1 x 14 AWG (2.1 sq. mm) wires. Accepts stranded or unstranded 14-28 gauge wire.

NOTES:

  1. The TB6575A1016 and TB6575C1016 models are pre-fitted with color-coded fly leads (16 AWG) attached to seven terminals.
  2. The TB6575B1000 model is pre-fitted with color-coded fly leads (16 AWG) attached to six terminals.
  3. The TB8575A1016 model does not have fly leads attached to any terminals.
  4. See Table 3 on page 5 for fly lead usage.

Minimum Operational Life (at maximum load):
Thermostat contacts: 100,000 cycles

Approvals: 
CSA Certified C/US for Canada and the U.S.A. Meets the same requirements as UL-873 and UL 1/4 HP. FCC Part 15 Class B

Accessories:

  • 50033847-001 – Adapter plate for mounting on a vertical 2 x 4 in. single-gang or double-gang NEMA standard vertical switch box (6 1/4 in. (158 mm) x 5 1/ 16 in. (128 mm) x 13/22 in. (10 mm)).
  • TR21 – 20K Ohm NTC Non-Linear Remote temperature sensor.

Other acceptable remote temperature sensors are —

  • 20K Ohm: C7041B2005, C7041B2013, C7041C2003, C7041P2004, C7770A1006, C7772A1004, and C7772A1012
  • 10K Ohm (for averaging only): TR21-A
  • PS20 (535-34AB08-203) – Remote pipe sensor (20K Ohm)
  • W6380B1005 – Fan Coil Unit Relay Control Center
  • WSK-24 – Wireless Occupancy Solution (Receiver, occupancy sensor and door sensor)

Models, applications, and features:
Table 2 identifies the applications and features of each model.

Table 2. Applications and Features

 

 

Models

Applications Features
Heat/Cool/ Auto Pipes Voltage Number of Relaysa Energy Savings Input Fan: On, Auto, or 3 speed Manual/ Auto Changeover Remote Sensor Back Light Pipe Sensorb
TB6575A1016 All 2 or 4 120 or

240 Vac

5  

Yes

 

Yes

 

Yes

 

Yes

 

Yes

 

Yes

TB6575B1000 Heat or Cool 2 120 or

240 Vac

4
TB6575C1016 All 2 or 4 120, 240

or 277 Vac

5
TB8575A1016 All 2 or 4 24 Vac 5
  • The five relays are wired via terminals W, Y, Gh, Gm, and Gl. Relay 1 controls Heat open (W) or Cool open (Y). Relay 2 controls Cool open or Electrical heater output (Y/A). Relays 3, 4, and 5 control the High, Medium, and Low fan speeds respectively (Gh, Gm, and Gl).
    NOTE: In 2-pipe configurations without Auxiliary Heat, only 4 relays are used; relay 2 (Y/A) is not used.
  • Pipe sensor is required for 2 pipe auto changeover and 2 pipe auxiliary heat applications.

IMPORTANT
The thermostats are line voltage powered devices. All wiring must comply with national and local electrical codes, ordinances and regulations. Provide disconnect means and overload protection, as required.
The TB8575A1016 thermostat must be powered by an Approved 24 Vac, Class 2, NEMA rated transformer (such as a W6380 Relay Control Center).

Location

The thermostats are the temperature control element in a fan coil or air-conditioning system. They must be located about 1.5m (5 ft.) above the floor, in a position with good air circulation, to sense room temperature.

Honeywell-TB6575-Digital-Fan-Coil-Thermostats-1

IMPORTANT Do not mount the device where it can be affected by:

  1. Drafts or dead spots behind doors or in corners.
  2. Hot or cold air from ducts.
  3. Radiant heat from the sun or appliances.
  4. Unheated (uncooled) areas such as an outside wall behind the thermostat.
  5. Concealed pipes or chimneys.

Mounting and Wiring

CAUTION Equipment damage hazard.
Operation at low temperatures can cause fan coil damage. This thermostat is not a safety device. Do not use it where the space temperature is outside of the device operating range.
A display of two dashes, – –, for the Room Temp display indicates a sensor failure or a temperature outside of the thermostat operating range of 18°C to 49°C (0°F to 120°F). With – – displayed, the thermostat ceases to operate. When the temperature returns to within its operating limits, the thermostat returns to operation. The optional freeze protect feature should be used if low temperatures can occur.
The thermostat must be mounted flush to the wall. The thermostat can be mounted directly to a 2 x 4 in. horizontal junction box (see Fig. 2 on page 4). An optional adaptor plate (50033847-001) can be used with a 4 x 4 in. or a vertical junction box for which mounting screws are supplied (see Fig. 3 on page 5).

  1. Prepare the supply wires:
    1. Mounting on a 4 x 4 in. or vertical 2 x 4 in. junction box:
      Feed the supply wires through the junction box and the opening in the adaptor plate.
      Affix the adaptor plate to the junction box using the screws provided.
    2. Mounting on a horizontal 2 x 4 in. junction box: Feed the supply wires through the opening of the junction box.
  2. Attach the supply wires:
    1. For the TB6575A1016,TB6575B1000 and TB6575C1016 models:
      Push the fly lead wires through the wiring access hole in the sub-base.
      Attach the fly lead wires to the supply wires using wire nuts (not provided).See Table 3 on page 5 for terminal and lead identifica-tion.
      Push the fly lead and supply wires back into the junction box.
    2. For the TB8575A1016 model (which does not have pre-wired fly leads):
      Attach the supply wires directly to the termi-nals on the sub-base. See Table 3 on page 5 for terminal identification.
      Push the supply wires back into the junction box.
  3. Mount the sub-base:
    1. Mounting on a 4 x 4 in. or vertical 2 x 4 in. junction box:
      Align the two holes at the top edges of the sub-base with the two pins on the adaptor plate. Attach the sub-base to the adaptor plate using the screws provided.
    2. Mounting on a horizontal 2 x 4 in. junction box: Attach the sub-base to the junction box using the screws provided.
  4. Thoroughly check the wiring to the sub-base before finally mounting the thermostat on the wall.
  5. Center the thermostat body over the sub-base, and press down firmly to engage the four tabs on the sub-base and snap the thermostat body into place.
  6. Use the provided safety screw to secure the thermostat main body to the sub-base.
  7. If using the adaptor plate, press the adaptor plate screw cover into place.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-2Honeywell-TB6575-Digital-Fan-Coil-Thermostats-3

Terminal Wiring

Table 3 provides the terminal wiring for each model and application.
NOTE: The TB6575A1016, TB6575B1000 and TB6575C1016 models have color-coded fly leads attached to the terminals. Refer to Table 3 for the color codes.
The Terminal Identifiers in Table 3 have the following meaning:

  • C: Common 24 Vac
  • Gh: High-speed fan relay
  • Gl: Low-speed fan relay
  • Gm: Medium-speed fan relay
  • L: Line voltage power (120/240/277 Vac)
  • N: Line voltage ground (120/240/277 Vac)
  • Ps: Pipe sensor (optional)
  • R: 24 Vac power
  • Rs: Remote sensor (optional)
  • SB: Remote setback (optional)
  • Sc: Ground (required if remote sensor, pipe sensor, and/or remote setback are connected)
  • W/Y: W = Heating; Y = Cooling (2 pipe only)
  • Y/A: Y = Cooling; A = Electrical heater output

Table 3. Terminal Wiring.

 

Model

 

Application

Terminals
1 2 3 4 5 6 7 8 9 10 11
TB6575A1016 — 120/240 Vac; TB6575C1016 — 120/240/277 Vac
Terminal Identifier L W/Y Y/A Gl Gm Gh N Rsa Scb SBc Psd
Fly lead wire color Black Orange Yellow Red Blue Brown White Nonee
2 pipes; Heat only af W a a a a Og Rh O
2 pipes; Cool only a Y a a a a O R O
2 pipes; Heat or Cool with Manual Changeover a W/Y a a a a O R O
2 pipes; Heat or Cool with Seasonal Changeover a W/Y a a a a O R O a
4 pipes; Heat and Cool with Manual Changeover a W Y a a a a O R O
4 pipes; Heat and Cool with Auto Changeover a W Y a a a a O R O
2 pipes; Heat or Cool with Auxiliary Heat a W/Y A a a a a O R O a
4 pipes; Heat and Cool with Manual Changeover or Auto Changeover a W Y a a a a O R O
TB6575B1000 120/240 Vac
 

Model

 

Application

Terminals
1 2 3 4 5 6 7 8 9 10 11
Terminal Identifier L W/Y n/ai Gl Gm Gh N Rsa Scb SBc Psd
Fly lead wire color Black Orange Red Blue Brown White Nonee
2 pipes; Heat only a W a a a a O R O
2 pipes; Cool only a Y a a a a O R O
2 pipes; Heat or Cool with Manual Changeover a W/Y a a a a O R O
2 pipes; Heat or Cool with Seasonal Changeover a W/Y a a a a O R O a
TB8575A1016 24 Vac
Terminal Identifierj R W/Y Y/A Gl Gm Gh C Rsa Scb SBc Psd
2 pipes; Heat only a W a a a a O R O
2 pipes; Cool only a Y a a a a O R O
2 pipes; Heat or Cool with Manual Changeover a W/Y a a a a O R O
2 pipes; Heat or Cool with Seasonal Changeover a W/Y a a a a O R O a
4 pipes; Heat and Cool with Manual Changeover a W Y a a a a O R O
4 pipes; Heat and Cool with Auto Changeover a W Y a a a a O R O
2 pipes; Heat or Cool with Auxiliary Heat a W/Y A a a a a O R O a
4 pipes; Heat and Cool with Manual Changeover or Auto Changeover a W Y a a a a O R O
  • Rs; Remote sensor is optional.
  • Required when Rs, SB, or Ps is wired.
  • SB; Remote setback is optional.
  • Pipe sensor: Discrete, Analog, or Aquastat®.
  • These terminals (8, 9, 10, and 11) do not have lead wires attached to them.
  • A check mark (ü) indicates the terminal is used in that application. Rs and SB terminal connections are optional. If a terminal is left blank, it is not used in that application.
  • O = Optional
  • R = Required if Rs, SB, or Ps is wired.
  • Terminal 3 is not used on the TB6575B1000 model.
  • The TB8575A1016 model does not have fly lead wires attached to any terminals.

Accessory Wiring

Remote Pipe Sensor Wiring
The remote pipe sensor is used for 2 pipes auto and 2 pipes heat and cool with auxiliary heat changeover. The pipe sensor will sense the temperature in the pipes to tell the thermostat when the system is set for Heat or Cool.

  1. Check Installer Setup Number (IS) 5 to ensure it is set to the desired value. (See Table 4 on page 11).
  2. Wire pipe sensor to Sc and Ps terminals.
  3. Attach pipe sensor to the pipe.
  4. Insulate pipe sensor, as necessary.
  5. Change pipe sensor thresholds for cooling or heat-ing by setting Installer Setup Numbers (IS) 6 and 7 to desired values.

Remote Temperature Sensor Wiring
The TR21 is an optional remote temperature sensor that can be used as an alternative to the internal sensor. In addition to the TR21, other sensors that use a 20k Ohm curve may be used as the remote sensor.

WARNING Risk of electrical shock.
Can cause severe injury, property damage or death.
Disconnect power supply before servicing.

CAUTION
Erratic system operation hazard.
Failure to follow proper wiring practices can introduce disruptive electrical interference (noise).
Keep wiring at least one foot away from large inductive loads such as motors line starters, lighting ballasts, and large power distribution panels. Shielded cable is required in installations where these guidelines cannot be met. Ground shield only to grounded controller case.

IMPORTANT All wiring must comply with local electrical codes and ordinances or as specified on installation wiring diagrams.

  • Wall module wiring can be sized from 16 to 22 AWG (1.31 to 0.33 sq. mm) depending on the application.
  • The maximum length of wire from the thermostat to a wall module is 1000 ft. (305 m).
  • Twisted pair wire is recommended for wire runs longer than 100 ft. (30.5 m).
  1. Check Installer Setup Number (IS) 4 to ensure it is set to use the remote sensor. (See Table 4 on page 11).
  2. Wire sensor to Rs and Sc thermostat terminals.
  3. Push excess wire back into the hole. Plug the hole using non-hardening caulk, putty or insulation to prevent drafts from affecting performance.
  4. Remove sensor cover.
  5. Mount sensor to the wall or junction box using the screws and anchors provided.
  6. Level the sensor for appearance only. Device functions correctly even when not level.
  7. Replace sensor cover.

NOTE: For complete wiring instructions, please follow the installation instructions provided with the remote sensor.

Sensor Wiring for Temperature Averaging

Fig. 4–Fig. 6 illustrate sensor wiring for temperature averaging applications.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-4Honeywell-TB6575-Digital-Fan-Coil-Thermostats-5

Thermostat Wiring Diagrams

The figures in this section illustrate typical wiring for:

  • TB6575A1016,TB6575B1000 and TB6575C1016 fan coil thermostats, which are 120/240/277 Vac powered. Refer to Fig. 7–Fig. 13, beginning on page 8.
  • TB8575A1016 model, which is 24 Vac powered. Refer to Fig. 14–Fig. 20, beginning on page 9.

120/240/277 Vac Wiring Diagrams (TB6575A/B/C)Honeywell-TB6575-Digital-Fan-Coil-Thermostats-6Honeywell-TB6575-Digital-Fan-Coil-Thermostats-7Honeywell-TB6575-Digital-Fan-Coil-Thermostats-8

  1. REMOVE PRE-WIRED WIRE FROM TERMINAL 5 (MID FAN SPEED).
  2. JUMPER TERMINALS 5 AND 6 (MID AND HIGH FAN SPEEDS). FAN MEDIUM SETTING WILL OPERATE ON HIGH SPEED.
  3. CONNECT TERMINAL 7 TO THE MID FAN SPEED WIRE FROM THE PREVIOUS SYSTEM.
  4. REWIRE THE PREVIOUS MID SPEED FAN WIRE TO THE NEUTRAL CIRCUIT IN THE SYSTEM.
  5. CHANGE INSTALLER SETUP IS CODE 9 TO 2 FOR 2 SPEED FAN CONTROL.

Fig. 13. Wiring diagram when missing a wire for electromechanical retrofit (120/240/277 Vac shown).

24 Vac Wiring Diagrams (TB8575)
For the TB8575A1016 model, a 24 Vac Class 2 NEMA rated transformer must be used.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-9Honeywell-TB6575-Digital-Fan-Coil-Thermostats-10Honeywell-TB6575-Digital-Fan-Coil-Thermostats-11

  1. REMOVE THE PRE-WIRED WIRE FROM TERMINAL 5 (MID-FAN SPEED).
  2. JUMPER TERMINALS 5 AND 6 (MID AND HIGH FAN SPEEDS). THE FAN MEDIUM SETTING WILL OPERATE ON HIGH SPEED.
  3. CONNECT TERMINAL 7 TO THE MID-FAN SPEED WIRE FROM THE PREVIOUS SYSTEM.
  4. REWIRE THE PREVIOUS MID-FAN SPEED WIRE TO THE NEUTRAL CIRCUIT IN THE SYSTEM.
  5. POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.
  6. CHANGE INSTALLER SETUP IS CODE 9 TO 2 FOR 2-SPEED FAN CONTROL.

Fig. 20. Wiring diagram when missing a wire for electromechanical retrofit (24 Vac shown).

Removing the Thermostat

WARNING Risk of electrical shock.
Can cause severe injury, property damage or death.
Disconnect power supply before servicing.

CAUTION 
Equipment damage hazard.
Improper removal can damage the thermostat. Carefully follow the thermostat removal directions.

If it is necessary to remove the thermostat from the sub-base, refer to Fig. 21 and perform the following steps:

  1. Turn off the thermostat by pressing the system button until OFF displays.
  2. Remove the power source from the thermostat.
  3. Remove the small safety screw at the bottom of the thermostat.
  4. Use both hands to pull the thermostat straight away from the sub-base.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-12

SETUP

The thermostat provides an LCD display, two buttons below the display for System and Fan control and two adjustment buttons (Up and Down) to the right of the display. See Fig. 23.
Settings, including setpoints, are permanently retained in EEPROM in case of a power outage.
Fig. 22 illustrates all the possible LCD display elements. Only those elements pertinent to the current settings and status (including the text for the two buttons, System and Fan), actually display.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-13Honeywell-TB6575-Digital-Fan-Coil-Thermostats-14

Power-up

At power-up, the thermostat’s LCD shows all display segments for two seconds, enters a self-test mode for a few seconds, and then displays the current room temperature (default screen), as shown in Fig. 23.
NOTE: If there is a temperature sensor failure or the temperature is outside of the operating range, the room temperature display shows
two dashes, — —.
When the sensor returns to its operating range, the temperature display resumes.

CAUTION Equipment damage hazard.
Power overload will damage the thermostat. The thermostat has a safety fuse rated at 15 A/ 250 Vac. If the fuse blows, the thermostat must be replaced. The fuse is not field replaceable.
This fuse is provided as a safety feature to prevent fire if the thermostat is overloaded.

Installer Setup (IS) Mode

To enter Installer Setup Mode:

  • Press and hold both the System button (labeled Heat/Cool) and the Up Arrow button for three (3) seconds.
    This displays the setup screen on the LCD. See Fig. 24.
    NOTE: Exiting Installer Setup Mode is the same as the method for entering setup mode.

Table 4 provides the setup codes (IS codes) and values. To enter the setup parameters:

  1. Press the System (Heat/Cool) button to cycle through the IS codes, which display in the upper right following the word Setup.
  2. Press the Up or Down Arrow buttons to cycle through the option values for the currently displayed IS code. The values display in the center of the screen.
  3. After the desired value displays, press the System button to store your value selection and display the next IS code.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-15

Table 4. Installer Setup (IS) Codes and Options.

IS

Code

 

Code Description

Option Value Options Description (Default value shown in Bold)  

Notes

1 Line Voltage Selection 0 120 Vac power supply (Default)
1 240 Vac power supply
2 277 Vac power supply
IS

Code

 

Code Description

Option Value Option Description (Default value shown in Bold)  

Notes

2 System Type 0 Heat only
1 Cool only
2 Two pipes: Heat or Cool; Manual Changeover
3 Two pipes: Heat or Cool; Seasonal Changeover (requires optional pipe sensor)
4 Four pipes: Manual Changeover TB6575A,TB6575B and

TB6575C only

5 Four pipes: Auto Changeover TB6575A,TB6575B and

TB6575C only

6 Two pipes: Heat or Cool; with Auxiliary Heat (requires optional pipe sensor). Allows auxiliary heat to turn on when pipes have cold water

(TB6575A,TB6575B and

TB6575C only).

7 Four pipes: Manual and Auto Changeover (Default) TB6575A,TB6575B and

TB6575C only

2.5 Fan On/Off Selection for Aux Heat On 0 Fan ON when Auxiliary Heat is on (Default) Enables or disables the auto fan operation when Auxiliary Heat is On (TB6575A,TB6575B and

TB6575C only).

1 Fan OFF when Auxiliary Heat is on
3 Valve Output Type 0 Valve energized on call for heat or cool (Default)
1 Valve de-energized on call for heat or cool
4 Space Sensor Type 0 Onboard Sensor (Default)
1 Remote Sensor (TR21 or other 20K Ohm sensor)
5 Pipe Sensor

 

Only displays when value 3 or 6 for the System Type in IS code #2 is selected.

0 Contact Open = Cool mode; Contact Closed = Heat mode •    Pipe sensor will flash on display screen if analog input (#4) is lost.

•    Pipe sensor status and water temperature can be checked in test mode (see “Installer Test (IT) Mode” on page 14 for details)

1 Contact Open = Heat mode; Contact Closed = Cool mode
2 Contact Open = Heat mode; Contact Closed = Cool mode (same as 1)
3 Contact Open = Cool mode; Contact Closed = Heat mode (same as 0)
4 Analog input (Default). NTC20K, whose curve is the same as TR21.

Only displays when system type 3 or 6 is selected.

6 Pipe Sensor Threshold for Cooling 50 to

72

Range is 50°F to 72°F. Default is 60°F. Changes to Cool when pipe temperature is below the threshold.
7 Pipe Sensor Threshold for Heating 75 to

90

Range is 75°F to 90°F. Default is 80°F. Changes to Heat when pipe sensor temperature is above threshold.
8 Temperature Scale 0 Degrees Fahrenheit (°F); Default.
1 Degrees Celsius (°C).
8.5 Fan Speed at motor start up 0 Provide full power when fan motor starts – always starts in high fan speed (Default) High speed start up ensures that there is enough torque to start the motor and eliminates and motor locking.
1 Disable – fan will start at speed that is needed as defined by VersaSpeed
9 Number of Fan Speeds 1 Single Speed Fan Low speed only
2 2 Speed Fan Hi and Low speed fans only
3 3 Speed Fan (Default) Hi, Med, and Low-speed fan
9.5 Fan Control Type 0 Constant and Auto (Default) When fan is in Auto, the fan ramping algorithm, VersaSpeed, is used
1 Auto only
IS

Code

 

Code Description

Option Value Option Description (Default value shown in Bold)  

Notes

10 Control Method for 4-Pipe Auto Changeover 1 Single Setpoint (Default) Uses switching differential to change between heating and cooling and controls to a single setpoint (Only displayed for system types 5 or 7)
2 Heat and Cool Setpoints (2 setpoint method) Uses a deadband of no control and controls to a heat or cool setpoint. (Only displayed for system types 5 or 7)
10.5 Deadband for Heat/ Cool Setpoints 2 to 9 Range is 2 to 9. Default is 3. Deadband = minimum distance between heating and cooling setpoints. Available when Heat and Cool Setpoints are chosen for the control method for 4- pipe Auto (IS 10)
Switching Differential for Single Setpoint 2 to 6 Range is 2 to 6. Default is 3. Heat switching point = setpoint – switching differential. Cool switching point

= setpoint + switching differential.

Available when Single Setpoint is chosen for the control method for 4-pipe Auto (IS 10)
11 CPH Value for Heat 1 to 12 Range is 1 to 12. Default is 4. The number selected indicates the maximum times Heating is cycled on per hour (CPH). IS 2 selection is 5.
12 CPH Value for Cool 1 to 6 Range is 1 to 6. Default is 3. The number selected indicates the maximum times Cooling is cycled on per hour (CPH).
13 CPH for Auxiliary Electrical Heater 1 to 12 The range is 1 to 12. The default is 6. The number selected indicates the maximum times Auxiliary Heating is cycled on per hour (CPH).
14 Display Temperature Adjustment -4 to 4 The range is -4°F to +4°F; Default is 0°F.
15 Temperature Display Mode 0 Display Room Temperature
1 Display Setpoint
2 Display Temperature and Setpoint; Default.
16 Setpoint Range Stop for Heating 50 to

90

Range is 50°F to 90°F. Default is 90°F.
17 Setpoint Range Stop for Cooling 50 to

90

Range is 50°F to 90°F. Default is 50°F.
18 Keypad Lockout 0 All keys are available (Default)
1 The System button (Heat/Cool) is locked out
2 Both the System and Fan buttons are locked out.
3 All buttons are locked out (System, Fan, Up Arrow, and Down Arrow). The LCD displays LOCKED.

Installer Test (IT) Mode

To enter Installer Test Mode: Press and hold both the Up arrow button and the Down Arrow button for three (3) seconds.
This displays all segments of the LCD screen on the LCD. See Fig. 22 on page 10.

Table 5 provides the Test codes (IT codes) and values. To enter the IT codes:

  1. Press the System (Heat/Cool) button to cycle through the IT codes, which display in the upper right above the word Test.
  2. Press the Up or Down Arrow buttons to cycle through the values for the currently displayed IT code. The values display in the center of the screen.
  3. After the desired value displays, press the System button to store your value selection and display the next IT code.
    NOTE: Exiting Installer Test Mode is the same as the method for entering test mode, Honeywell-TB6575-Digital-Fan-Coil-Thermostats-16

Table 5. Installer Test (IT) Codes and Options.

IT

Code

Code Description Option Value  

Option Description

10 Heat Control 0 Close
1 Open
20 Auxiliary Heat Control 0 Close
1 Open
30 Cool Control 0 Close
1 Open
40 Fan Control 0 Close
1 Low Speed
2 Medium Speed
3 High Speed
50 Pipe Sensor 32-199 Displays the pipe sensor temperature. Only used for System Type 3 or 6 (IS code

#2, value 3 or 6). Only the Analog pipe sensor is tested.

71 Software Main version 01-99 A 2-digit number, 01-99
72 Software Vice version 01-99 A 2-digit number, 01-99
73 Configuration Data Main version 01-99 A 2-digit number, 01-99
74 Configuration Data Vice version 01-99 A 2-digit number, 01-99
75 Week Produced 01-52 A 2-digit number, 01-52
76 Year Produced 08-99 A 2-digit number, 08-99

OPERATION

PROPORTIONAL + INTEGRAL (P+I) CONTROL
Like a mechanical thermostat, the fan coil thermostats have On/Off control output. However, this output is regulated by a P+I algorithm, enabling the thermostat to control closer to setpoint than conventional thermostats. This results in performance where the space temperature is maintained within 0.75°C (1.5°F) of the setpoint regardless of fan speed.
NOTE: Integral action corrects the temperature control errors of proportional-only control, but it is slower to react to large temperature or set-point changes.

Economy Setback Modes

ACTIVITY SENSING (IS CODE #22)
If Activity Sensing is enabled, any time the thermostat is not touched (no single key is pressed) for the duration selected, the thermostat automatically falls back into the Economy Setback. The LCD displays ECONOMY SETBACK just to the right of the main temperature display to indicate Activity Sensing mode is active. When any key is pressed, the thermostat controls to Occupied mode.

BUTTON PRESS SETBACK (IS CODE #19-5)
The default remote setback option is for economy setback via a button press on the thermostat. In this mode, the thermostat can quickly be setback by pressing and holding down the System Mode button for more than 3 seconds. The LCD displays ECONOMY SETBACK just to the right of the main temperature display to indicate the Setback is active. When any key is pressed, the thermostat controls to Occupied mode.

REMOTE SETBACK (IS CODE #19)
Remote Setback is activated by a dry contact closure on the remote setback input from an occupancy sensor, time switch, or hotel card key. The thermostat controls to the user/installer defined setback setpoints for increased energy savings. The LCD displays Economy Setback just to the right of the main temperature display to indicate the Remote Setback mode is active.
When Remote Setback is active, all buttons on the thermostat are disabled. However, the button combinations to access Installer Setup (IS) and Installer Test (IT) remain enabled.

ECONOMY SETBACK OPERATION
For Heat Mode, when Economy Setback is enabled, the set point changes to the remote setback heating setpoint (IS CODE #20).
For Cool Mode, when Economy Setback is enabled, the set point changes to the remote setback cooling setpoint (IS CODE #21).
For 4 pipe applications with Auto Changeover and Heat/Cool Setpoints, when Economy Setback is enabled, the cool setpoint changes to the remote setback cooling setpoint and the heat setpoint changes to the remote setback heating setpoint. The new effective deadband is the difference between the remote setback heating setpoint and the remote setback cooling setpoint.
Fig. 26 illustrates the relationship between setpoints, Remote Setback, and deadband for auto changeover with heat and cool setpoints.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-17

For 4 pipe applications with Auto Changeover and a single setpoint, when Economy Setback is enabled, the setpoint will revert to a dual heat/cool setpoint approach. The remote setback heating and remote setback cooling setpoints will be used to create an effective unoccupied deadband.
Fig. 27 illustrates the unoccupied deadband when Economy Setback is enabled for 4-pipe single setpoint auto changeover.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-18

Fan Modes

VERSASPEED™ FAN RAMPING
When the fan switch is in auto, the thermostat will cycle the fan using the fan ramping algorithm. The appropriate fan speed is selected according to Fig. 28.
The fan ramping algorithm is illustrated in Fig. 28Honeywell-TB6575-Digital-Fan-Coil-Thermostats-19

AUTO FAN RESET (IS CODE #24)
If Auto Fan Reset is enabled, and a constant fan speed is selected, the thermostat resets the fan to Auto.

  • Value = 1: The fan resets back to Auto after 2 hours.
  • Value = 2: The fan resets back to Auto after 4 hours. The start time is calculated after the initial call for Heat/Cool is satisfied. Then, the two or four-hour timing begins. The fan is set back to Auto when the 2-hour or 4-hour delay expires.

Application Modes
2 PIPE SEASONAL CHANGEOVER APPLICATIONS These applications require the pipe sensor as a N.O, N.C., or Analog Input to detect seasonal changeover:

  • 2 pipes with auto changeover
  • 2 pipes with auxiliary heat
    Changeover occurs when the system has been changed over from the boiler to the chiller. This occurs on a seasonal basis from winter to summer months. When using a pipe sensor as an analog input, the thermostat can use the logic below to determine what mode to operate in. A changeover will occur when the pipe temperature goes above the threshold for heating or below the threshold for cooling. If a purge has not occurred or a call has not been satisfied in awhile, the pipe temperature may start to get close to the ambient temperature. In this case, the thermostat will only changeover once the temperature falls into the opposite threshold.

2 Pipes with Auto Changeover
For this application the system switch only provides “Off” and “Auto.” When in “Auto” mode the water temperature will indicate if the thermostat should operate in heating or cooling.

Operation:
After exiting the installer setup, the thermostat will perform a 5 minute purge. During this initial 5 minute purge, the valve (W/Y) will energize and the fan will be de-energized. After the 5 minute purge, the thermostat will go into the appropriate mode as described in Table 6.

Table 6. Logic for 2 Pipes with Auto Changeover

Pipe Temperature after purge System Mode
>Threshold for Heating (IS code 7) Heat
Between Thresholds After Purge Occurs Fan Only*
< Threshold for Cooling (IS code 6) Cool

If pipe temperature is between the two threshold values after the 5-minute purge occurs, the thermostat will activate a second 5-minute purge to double-check the water temperature. If after the second 5 minute purge, the water temperature is still between the two thresholds, the valve output will be disabled and only a manual fan will be available. It will stay in this operation until the next purge cycle occurs.

2 Pipes with Auxiliary Heat
For this application, when there is hot water in the pipes, the system switch provides “Off” and “Heat.” When there is cold water in the pipes, the system switch provides
“Off,” “Heat,” and “Cool.”

Operation:
After exiting the installer setup, the thermostat will perform a 5 minute purge. During this time, the valve (W/Y) will energize and the fan and auxiliary heat (Y/A) will be de-energized. After the 5 minute purge, the thermostat will go into the appropriate mode as described by Table 7.

Table 7. Logic for 2 Pipes with Auxiliary Heat

Pipe Temperature After Purge  

Heat Mode

 

Cool Mode

> Threshold for Heating (IS code 7) Valve (W/Y) energized on calls for heat Changeover. Mode changes to Heat.
Between Thresholds After Purge Occurs Aux Heat (Y/A) energized on calls for heat Changeover. Mode changes to Heat because Cool is not available.
< Threshold for Cooling (IS code 6) Mode stays in Heat but Aux Heat (Y/A) energized on calls for heat Valve (W/Y) energized on calls for cool

If pipe temperature is between the two threshold values after the 5 minute purge occurs, the thermostat will activate a second 5 minute purge to double check the water temperature. If after the second 5 minute purge, the water temperature is still between the two thresholds, the valve output will be disabled and only auxiliary heat will be available for heating.
Auxiliary heat (Y/A) always de-energizes during purges.

Purge Cycles for 2 Pipe Seasonal Changeover Applications
For 2 Pipe with Auto Changeover and 2 Pipe with Auxiliary Heat applications, the thermostat will run purge cycles to determine if there is hot or cold water in the pipes.
A 5 minute purge will occur every 2 or 24 hours (IS 25) to ensure that the pipe sensor is sensing the correct mode during seasonal changeover months.
A 5 minute purge will also occur anytime the installer setup or installer test menus are exited, whenever the thermostat is switched from its “Off” position, and if the power is reset.
NOTE: For the 2 Pipe with Auxiliary Heat application, the thermostat must be in the “Off” position for more than 30 minutes before a 5 minute purge will occur when it is switched back into “Heat” or “Cool.”

4 PIPES AUTO CHANGEOVER

Single Set Point Method
In 4 pipe auto changeover with a single setpoint, the temperature is always controlled to the setpoint. Switching points are used to determine when to switch between heating and cooling modes. If the current mode is heat and the temperature drifts above the cool switch point
(Setpoint + Switching Differential), the thermostat will switch to heat operation and will heat the space until setpoint is reached.
For this application, the setpoint setting and switching points are illustrated in Fig. 29. The switching differential is defined via IS code 10.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-20

Heat/Cool Setpoint Method
In 4 pipe auto changeover with heat and cool setpoints, the system key is used to switch between the heating setpoint and cooling setpoints. Use the Up and Down arrow buttons to change the setpoint.
For this application, the setpoint settings and deadband are illustrated in Fig. 30. The deadband is changed via IS code 10.Honeywell-TB6575-Digital-Fan-Coil-Thermostats-21

TROUBLESHOOTING

Table 8 provides troubleshooting information.

Symptom Possible Cause Action
The display does not come on. The thermostat is not being powered. For TB6575A/B/C, check for 120/240/277 Vac between L and N. For TB8575A, check for 24 Vac between R and C.
Temperature settings do not change. The upper or lower temperature limits were reached. Check the temperature setpoints for heating and cooling (Installer Setup codes 16 and 17 respectively). Modify as needed.
The keypad is fully locked. Change keypad locked options (Installer Setup code #18).
The heating or cooling does not come on. The system Type selection is not set to Heat or Cool or the selection is incorrect. Set the Installer Setup code #2 (System Type) to the correct value to match the installed heating and/or cooling equipment. Verify operation of wiring and equipment in Installer Test mode.
The thermostat is calling for Heat (Heat on) or Cool (Cool on) but no heating or cooling is running. The heating or cooling equipment is not operating. Check to the wire. Check that the Installer Setup code #2 (System Type) value matches the installed heating and/or cooling equipment. Verify the operation of equipment in Installer Test mode.
Heat does not turn on (Heat On is solid in the display). Heating equipment failure. For TB6575A/B/C:

1.    Check for 120/240/277 Vac at the equipment between power and common, (terminals L and N).

2.    Check for 120/240/277 Vac between the heat (W) and common (N) terminals. If 120/240/277 Vac is present, the thermostat is functional.

For TB8575A:

1.    Check for 24 Vac at the equipment on the secondary side of the transformer between power and common (terminals R and C).

2.    Check for 24 Vac between the heat terminal (W) and transformer common. If 24 Vac is present, the thermostat is functional.

If voltage is present, check the heating equipment to find the cause of the problem.
Loose connection or broken wire between thermostat and heating equipment. For TB6575A/B/C:

Check for 120/240/277 Vac between the heat (W) and common

(N) terminals.

For TB8575A:

Check for 24 Vac between the heat terminal (W) and transformer common.

If voltage is not present, check wire connection (loose or broken) between the thermostat and the heating equipment.
Both the heating and cooling equipment are running at the same time. Incorrect System Type selected. Check that the Installer Setup code #2 (System Type) value matches the installed heating and/or cooling equipment.
Heating and cooling wires are shorted together. Separate the shorted heating and cooling wires.
Symptom Possible Cause Action
Cooling does not turn on (Cool On is solid in the display). Cooling equipment failure. For TB6575A/B/C:

1.    Check for 120/240/277 Vac at the equipment between power and common, (terminals L and N).

2.    Check for 120/240/277 Vac between the cool (Y) and common (N) terminals. If 120/240/277 Vac is present, the thermostat is functional.

For TB875A:

1.    Check for 24 Vac at the equipment on the secondary side of the transformer between power and common (terminals R and C).

2.    Check for 24 Vac between the cool terminal (Y) and transformer common. If 24 Vac is present, the thermostat is functional.

If voltage is present, check the cooling equipment to find the cause of the problem.
Loose connection or broken wire between the thermostat and cooling equipment. For TB6575A/B/C:

Check for 120/240/277 Vac between the cool (Y) and common

(N) terminals. For TB875A:

Check for 24 Vac between the cool terminal (Y) and transformer common.

If voltage is not present, check the wire connection (loose or broken) between the thermostat and the cooling equipment.
Fan does not turn on in a call for Heat. Wiring or connection failure Check to wire and make sure the connection is correct.
Cannot select fan speed. Fan Control Type selection is incorrect. Check that the Installer Setup code #9 (Fan Control) value is set to zero (0).
Heating equipment is running in the Cool mode. Incorrect System Type configured. Check that the Installer Setup code #2 (System Type) value matches the installed heating and/or cooling equipment.
Heating equipment Incorrect System Type Check that the Installer Setup code #2 (System Type) value
does not turn off and configured. matches the installed heating and/or cooling equipment.
heat temperature
setting is set below
room temperature
(Heat On is not in the
display).
Cannot set the system setting to Heat. System Type (Installer Setup code #2) is set to Cool Only (value = 1). Set the Installer Setup code #2 value to match the installed heating and/or cooling equipment.
Cannot set the system setting to Cool. System Type (Installer Setup code #2) is set to Heat Only (value = 0). Set the Installer Setup code #2 value to match the installed heating and/or cooling equipment.
Heat On is not in the display. System Type setting is not set to Heat and/or the temperature setting is not set above the room temperature. Set the Installer Setup code #2 to Heat and set the temperature setting above the room temperature.
Cool On is not in the display. System Type setting is not set to Cool and/or the temperature setting is not set below the room temperature. Set the Installer Setup code #2 to Cool and set the temperature setting below the room temperature.
Remote sensor does not display temperatures Incorrect IS code. Set the Installer Setup code #4 to Remote (value = 1).
Sensor is not compatible. The remote sensor must be TR21 or compatible 20K NTC.
Remote Setback does not activate Incorrect IS code. Make sure the NO/NC and timer selection is correct. Check the value selected for IS code 19.
Remote setpoint error. Make sure the remote setback setpoint is correct for energy-saving usage.
Symptom Possible Cause Action
Activity Sensing does not exit when button pressed All buttons are locked. Make sure keypad lockout is disabled. Set IS code 18, value = 0.
Freeze Protection does not activate System Type is set to Cool. Freeze protection is not activated when system type is Cool (IS code 2; value = 1). Change System Type.
System mode is not Off. Set the System mode button to Off.
Auto Fan Reset does not activate Incorrect IS code. Set the Installer Setup code #24 to Enabled (value = 1 or 2).
Calling for Heat/Cool setpoint couldn’t be satisfied. Only after the setpoint is satisfied, will the auto fan reset timer activate.

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Honeywell TB6575 Digital Fan Coil Thermostats INSTALLATION INSTRUCTIONS

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Honeywell TB6575 Digital Fan Coil Thermostats INSTALLATION INSTRUCTIONS

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