Carrier AQUAZONE 50PTH User Manual

25

To wire the SPT sensor to the controller:

1. Partially cut , then bend and pull off the outer jacket of

the Rnet cable(s), being careful not to nick the inner

insulation.

2. Strip about

1

/

4

in. of the inner insulation from each wire.

See Fig. 26.

3. Wire each terminal on the sensor to the same terminal on

the controller. See Fig. 15-24. Table 8 shows the recom-

mended Rnet wiring scheme.

Table 8 — Rnet Wiring

NOTE: The wire should be connected to the terminal shown.

Wiring a Supply Air Temperature (SAT) Sensor — The

SAT sensor is required for reheat applications.

If the cable used to wire the SAT sensor to the controller

will be less than 100 ft, an unshielded 22 AWG (American

Wire Gage) cable should be used. If the cable will be greater

than 100 ft, a shield 22 AWG cable should be used. The cable

should have a maximum length of 500 ft.

To wire the SAT sensor to the controller:

1. Wire the sensor to the controller. See Fig. 15-24.
2. Verify that the Enable SAT jumper is on.
3. Verify that the Enable SAT and Remote jumper is in the

left position.

Wiring an Indoor Air Quality (IAQ) Sensor — An IAQ

sensor monitors CO

2

levels. The WSHP Open controller uses

this information to adjust the outside-air dampers to provide

proper ventilation. An IAQ sensor can be wall-mounted or

mounted in a return air duct. (Duct installation requires an aspi-

rator box assembly.)

The sensor has a range of 0 to 2000 ppm and a linear 4 to

20 mA output. This is converted to 1 to 5 vdc by a 250-ohm,

1

/

4

watt, 2% tolerance resistor connected across the zone con-

troller’s IAQ input terminals.
NOTE: Do not use a relative humidity sensor and CO

2

sensor

on the same zone controller if both sensors are powered off the

board. If sensors are externally powered, both sensors may be

used on the same zone controller.

If the cable used to wire the IAQ sensor to the controller

will be less than 100 ft, an unshielded 22 AWG (American

Wire Gage) cable should be used. If the cable will be greater

than 100 ft, a shield 22 AWG cable should be used. The cable

should have a maximum length of 500 ft.

To wire the IAQ sensor to the controller:

1. Wire the sensor to the controller. See Fig. 15-24.
2. Install a field-supplied 250-ohm,

1

/

4

watt, 2% tolerance

resistor across the controller’s RH/IAQ and Gnd

terminals.

3. Verify the the RH/IAQ jumper is set to 0 to 5 vdc.

Wiring a Relative Humidity (RH) Sensor — The RH sensor

is used for zone humidity control (dehumidification) if the

WSHP unit has a dehumidification device. If not, the sensor

only monitors humidity.
NOTE: Do not use a relative humidity sensor and CO

2

sensor

on the same zone controller if both sensors are powered off the

board. If sensors are externally powered, both sensors may be

used on the same zone controller.

If the cable used to wire the RH sensor to the controller will

be less than 100 ft, an unshielded 22 AWG (American Wire

Gage) cable should be used. If the cable will be greater than

100 ft, a shield 22 AWG cable should be used. The cable

should have a maximum length of 500 ft.

To wire the RH sensor to the controller:

1. Strip the outer jacket from the cable for at least 4 inches.
2. Strip

1

/

4

in. of insulation from each wire.

3. Wire the sensor to the controller.

Step 9 — Wire Field Controls

THERMOSTAT CONNECTIONS — The thermostat

should be wired directly to the ECM control board. See

Fig. 27.
WATER FREEZE PROTECTION — The Aquazone™ con-

trol allows the field selection of source fluid freeze protection

points through jumpers. The factory setting of jumper JW3

(FP1) is set for water at 30 F. In earth loop applications, jumper

JW3 should be clipped to change the setting to 10 F when

using antifreeze in colder earth loop applications. See Fig. 28.
NOTE: The extended range option should be selected

with water temperatures below 60 F to prevent internal

condensation.
AIR COIL FREEZE PROTECTION — The air coil freeze

protection jumper JW2 (FP2) is factory set for 30 F and should

not need adjusting.
ACCESSORY CONNECTIONS — Terminal A on the control

is provided to control accessory devices such as water valves,

electronic air cleaners, humidifiers, etc. This signal operates

with the compressor terminal. See Fig. 29. Refer to the specific

unit wiring schematic for details.
NOTE: The A terminal should only be used with 24-volt

signals — not line voltage signals.
WATER SOLENOID VALVES — An external solenoid

valve(s) should be used on ground water installations to shut

off flow to the unit when the compressor is not operating. A

slow closing valve may be required to help reduce water

hammer. Figure 29 shows typical wiring for a 24-vac external

solenoid valve. Figures 30 and 31 illustrate typical slow closing

water control valve wiring for Taco 500 Series and Taco ESP

Series valves. Slow closing valves take approximately 60 sec.

to open (very little water will flow before 45 sec.). Once fully

open, an end switch allows the compressor to be energized (on-

ly on valves with end switches). Only relay or triac based elec-

tronic thermostats should be used with slow closing valves.

When wired as shown, the slow closing valve will operate

properly with the following notations:

1. The valve will remain open during a unit lockout.
2. The valve will draw approximately 25 to 35 VA through

the “Y” signal of the thermostat.

WIRE

TERMINAL

Red

+12-v

Black

.Rnet

White

Rnet+

Green

Gnd

Fig. 26 — Rnet Cable Wire

OUTER JACKET

INNER INSULATION

.25 IN.

a50-8443

–

IMPORTANT: Connecting a water solenoid valve can

overheat the anticipators of electromechanical thermo-

stats. Only use relay based electronic thermostats.