Carrier TB-PHP Installation, Thermostat Location, Install Thermostat, Electrical Operation Hazard

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TB-- PAC / TB-- PHP

thermostat is operated from batteries. The thermostat will continue to operate if J2 is not in the correct position or not connected. However, the backlight will not operate.

INSTALLATION

IMPORTANT: Install batteries last to ensure proper thermostat mounting and latch engagement.

Step 1 — Thermostat Location

Thermostat should be mounted:

SApproximately 5 ft (1.5m) from floor.

SClose to or in a frequently used room, preferably on an inside

partitioning wall.

SOn a section of wall without pipes or duct work.

Thermostat should NOT be mounted:

SClose to a window, on an outside wall, or next to a door leading

to the outside.

SExposed to direct light and heat from the sun, a lamp, fireplace,

or other heat-radiating object which may cause a false reading.

SClose to or in direct airflow from supply registers and return-air

grilles.

SIn areas with poor air circulation, such as behind a door or in an alcove.

Step 2 — Install Thermostat

IMPORTANT: Install batteries last to ensure proper thermostat mounting and latch engagement.

!WARNING

ELECTRICAL OPERATION HAZARD

Failure to follow this warning could result in personal injury or death.

Before installing thermostat, turn off all power to unit. There may be more than 1 disconnect. Lock out and tag switch with a suitable warning label.

1.Turn OFF all power to HVAC unit.

2.If an existing thermostat is being replaced:

a.Remove existing thermostat from wall.

b.Disconnect wires from existing thermostat, one at a time. Be careful not to allow wires to fall back into wall.

c.As each wire is disconnected, record wire color and terminal marking.

d.Discard or recycle old thermostat.

!CAUTION

ENVIRONMENTAL HAZARD

Failure to follow this caution may result in environmental damage.

Mercury is a hazardous waste and may be found in the old thermostat. Federal regulations require that Mercury be disposed of properly.

3.Separate front and back plastic assembly of thermostat.

4.Route thermostat wires through hole in mounting base. Level mounting base against wall (for aesthetic value only, thermostat need not be level for proper operation) and mark wall through 2 mounting holes.

5.Drill two 3/16-in. (5mm) mounting holes in wall where marked.

6.Secure back plate to wall with 2 anchors and screws provided making sure all wires extend through hole in plastic.

NOTE: Anchoring the back plate will maximize proper mounting plate flatness and allow latch to fully engage.

7.Connect wires to proper terminal location on backplate.

8.Push any excess wire back into wall. Seal hole in wall to prevent air leaks. Leaks can affect thermostat operation. Any excess wire left inside thermostat casing may also af- fect thermostat operation by interfering with airflow across the temperature sensor.

9.Set the thermostat front housing into the (2) latches (notches) on the bottom of the back plate.

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10.Rotate the front housing forward and press on the faceplate with thumbs near the Up/Down arrows on the right and the “H/C” and fan symbols on the left side of the display. Do this with a moderate amount of pressure.

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11.If necessary, continue to rotate the front housing forward and press to engage the top corner latches.

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12.Snap thermostat together making sure assembly is secure.

13.Install the batteries.

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Contents Safety Considerations Installation InstructionsTable of Contents Installation ConsiderationsThermostat Location InstallationInstall Thermostat Electrical Operation HazardConfiguration Options Selection Set Thermostat ConfigurationConfiguration Options Summary Understand Thermostat OperationWiring Diagrams Check Thermostat OperationManual Operation Setting Time and DAYHomeowner’s Guide Programmed OperationTroubleshooting Changing BatteriesFor Warranty Service or Repair Carrier CorporationWarranty Conditions Catalog No TB---PAC---7SI

TB-PAC, TB-PHP specifications

Carrier TB-PHP and TB-PAC are effective solutions designed to meet the demands of modern heating and cooling applications. These units offer impressive performance, energy efficiency, and innovative technologies, making them a favorite choice for residential and commercial spaces.

The TB-PHP is a heat pump system that provides both heating and cooling capabilities, offering an economical solution for maintaining comfort throughout the year. One of its key features is the inverter technology, which allows the system to adjust its output based on current load requirements. This results in energy savings and enhanced comfort levels, as the temperature is maintained consistently without the fluctuations commonly associated with conventional systems.

Another notable characteristic of the TB-PHP is its exceptional seasonal efficiency rating. With its advanced design, this heat pump offers high SEER (Seasonal Energy Efficiency Ratio) and HSPF (Heating Seasonal Performance Factor) ratings, ensuring that users benefit from lower energy bills while also reducing their environmental footprint. The unit's low noise levels enhance its appeal, making it suitable for residential spaces where quiet operation is valued.

Complementing the TB-PHP is the TB-PAC series, which is a packaged air conditioning system designed for easy installation and operation. The TB-PAC features a compact design that allows for space-saving installation, making it ideal for urban settings or properties with limited outdoor space. The robust construction of the unit promotes durability, ensuring that it can withstand a range of environmental conditions.

In terms of technology, both the TB-PHP and TB-PAC are equipped with intelligent controls that facilitate easy monitoring and management of system performance. Users can access diagnostics, settings, and maintenance alerts, contributing to effective system operation and longevity. Additionally, the units support various refrigerants, adhering to environmental standards while maximizing efficiency.

Overall, the Carrier TB-PHP and TB-PAC are distinguished by their advanced technologies, energy efficiency, and user-friendly features. The combination of innovative engineering and commitment to sustainability positions these systems as top contenders in the heating and cooling market, providing comfort and reliability for users across different environments.