Carrier HS070-160 User Manual

When the second or lag refrigeration circuit is started,

the circuit will go through a lo-second

unless

the circuit has been operating in the 15 minutes prior to
this start.

Upon load reduction, the control system will unload

the unit in the reverse order of loading until the capacity
nearly matches the load. Each time the lead compressor is
cycled off, the liquid line solenoid valve and electronic
expansion valve will be closed for 10 seconds prior to
compressor shutdown to clear the cooler of liquid
refrigerant.

Unit Shutdown

To stop unit, move the

STANDBY switch to the STANDBY position. Any
refrigeration circuit that is operating at this time will

continue for 10 seconds to complete the

cycle.

(Lag compressors stop immediately, lead compressors

run for 10 seconds.)

Complete

Stoppage can be caused by any of

the following conditions:

a.
b.

C.

d.

e .
f.

h.

general power failure
blown fuse in control power feed disconnect
open control circuit fuse

RUN/STANDBY switch moved to STANDBY

freeze protection trip
low flow protection trip

open contacts in chilled water flow switch (optional)
open contacts in any auxiliary interlock. (Terminals
TBI-13 and TBJ-14,

from factory, are in

series with the control switch. Opening the circuit
between these terminals places the unit in STANDBY
mode, just as moving the control switch to STANDBY
would. Code26 will appear as the operating mode
in the status function display. The unit cannot start
if these contacts are open, and if they open while unit
is running, it will pump down and stop.

Single Circuit Stoppage can be caused by the

following:

a. open contacts in

lead compressor discharge gas

thermostat

b. open contacts in loss of charge switch
c. open contacts in oil safety switch
d. open contacts in lead compressor high-pressure switch

Stoppage of one circuit by a safety device action does

not affect the other circuit. Besides stopping com-
pressor(s), all devices listed will also close liquid line
solenoid valve for that circuit.

Lag Compressor Stoppage can be caused by the

following:
a. open contacts in discharge gas thermostat
b. open contacts in high-pressure switch

If stoppage occurs more than once as a result of any

of the above safety devices, determine and correct the
cause before attempting another restart.

Restart Procedure, after cause for stoppage is

corrected.
GENERAL POWER FAILURE

Unit will restart

automatically when power is restored.

BLOWN FUSE IN POWER FEED DISCONNECT
Replace fuse. Restart is automatic.

LOW WATER TEMPERATURE CUTOUT Move

RUN/ STANDBY switch to STANDBY, then back to

RUN. Restart is automatic.
AUXILIARY INTERLOCK

Automatic restart after

condition is corrected.
OPEN CONTROL CIRCUIT FUSE

Replace fuse.

Unit will restart automatically.

FREEZE PROTECTION

Unit will automatically

restart when leaving water temperature is 6 degrees F

above the leaving water set point.

HIGH-PRESSURE SWITCH, LOSS OF CHARGE
S W I T C H , C O M P R E S S O R D I S C H A R G E T E M -
PERATURE SWITCH AND OIL SAFETY SWITCH

-- Move the

switch to STANDBY,

then back to RUN. Unit will restart automatically.

CONTROLS OPERATION

Accessing Functions and Subfunctions

Table 5. Refer also to Table 2, which shows the 5 func-
tions (identified by name) and the subfunctions(identified
by number). Table 6 shows the sequence of all the ele-
ments in a subfunction.

Display Functions

SUMMARY DISPLAY

Whenever the keyboard has

not been used for 10 minutes, the display will auto-
matically switch to an alternating summary display. This

display has 4 parts, shown below, which alternate in
continuous rotating sequence.

Display

Expansion

TUE

TODAY IS TUE, TIME IS

MODE 26

UNIT STANDBY

1 STAGES

NUMBER OF STAGES IS 1

2 ALARMS

2 ALARMS DETECTED

STATUS FUNCTION

The status function shows the

current status of alarm (diagnostic) codes. capacity

stages, operating modes, chilled water set point. all
measured system temperatures, superheat values, pres-

sure switch positions and expansion valve positions.
These subfunctions are defined below. Refer to Table 6
for additional information.

(Alarms) Alarms are messages that one or

more faults have been detected. Each fault is assigned a

code number which is reported with the alarm. (See
Table 7 for code definitions.) The codes indicate failures
that cause the unit to shut down, terminate an option
(such as reset) or result in the use of a default value
as set point.

Up to 3 alarm codes can be stored at once. To view

them in sequence, press

to enter the alarm

displays and then press

key to move to the individ-

ual alarm displays. Press

after a code has been

played and the meaning of code will scroll across the
screen.

When a diagnostic (alarm) code is stored in the display

and the machine automatically resets, the code will be
deleted. Codes for safeties which do not automatically
reset will not be deleted until the problem is corrected
and the machine is switched to STANDBY, then back
to RUN.

on page IO

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