Controls (cont) – Carrier 30GB060 User Manual

Controls (cont)

compressor runs to pump out any refrigerant that has

migrated to the cooler. The oil pressure switch is bypassed

for one minute during start-up and for 45 seconds during

normal operation.

Thermistors — Eight thermistors are used for tempera­

ture sensing inputs to microprocessor. (A ninth [TIO]

may be used as a remote temperature sensor for optional

LCWT reset.)

T1 Cooler leaving chilled water temperature

T2 Cooler entering water (return temperature)

T3 Saturated condensing temperature — Circuit #1

T4 Saturated condensing temperature — Circuit #2

T5 Cooler saturation temperature — Circuit #1

T6 Cooler saturation temperature — Circuit #2

T7 Return gas temperature entering compressor

cylinder — Circuit #1

T8 Return gas temperature entering compressor

cylinder — Circuit #2

TIO Remote temperature sensor (accessory)

The microprocessor uses these temperatures to control

capacity, fan cycling and electronic expansion valve

(EXV) operation.

Electronic expansion valve (EXV) — To control flow

of refrigerant for different operating conditions, EXV

piston moves up and down over slot orifices through which

refrigerant flows to modulate size of opening. Piston is

moved by a stepper motor through 760 discrete steps. The

piston is repositioned by microprocessor every 3 seconds.

The EXV is used to control superheat in compressor.

Two thermistors in each circuit (T5 and T7/T6 and T8) are

used to determine superheat. One thermistor (T5/T6) is

located in cooler and other (T7/T8) in compressor after

motor in the gas passage entering the cylinders. The EXV

is controlled to maintain superheat entering pistons at

approximately 15 F (8.3 C) to20F (11.1 C), which results

in slightly superheated refrigerant leaving cooler.

Both on shutdown and start-up, unless compressor has

run in last 15 minutes, compressor runs for 10 seconds,

while EXV is closed and removes refrigerant from cooler.

These pumpout cycles minimize amount of excess

refrigerant that can go to compressor on start-up and cause

oil dilution which would result in eventual bearing wear.

The microprocessor software is programmed so that

EXV functions as an MOP. (maximum operating pressure)

valve, limiting the suction temperatures to 55 F (12.8 C).

This makes it possible to start unit at high water tempera­

tures, up to 95 F (35 C), without overloading compressor.

Another feature that is factory set (which may be eliminated

in the field by repositioning a dip switch on the micro­

processor) limits rate of pulldown to 1°F (0.6°C) per minute

thereby reducing the kW demand on start-up.

Accessory controls — Demand can be further limited

by keeping a selected number of compressors from

turning on by utilizing demand limit control accessory.

This interfaces with microprocessor to control unit so

that chiller’s kW demand does not exceed its setting.

It is activated from an external switch.

Microprocessor is programmed to accept various

accessory temperature reset options, based on return

water temperature, outdoor temperature, or space

temperature, that reset the LCWT. An accessory

thermistor (TIO, above) is required if outdoor tempera­

ture or space temperature reset is elected.

Compressor protection and control system (CPCS)

(30GB060) — Compressor protection boards are used

to control and protect compressors. One board is used

for each compressor to control compressor contactor(s)

and crankcase heater(s) in response to a command from

microprocessor. The board also provides compressor

ground current protection, shutting off compressor if a

2 to 3 ampere ground current is sensed by a toroid around

the compressor power leads. A high-pressure protector

and a discharge gas temperature protector are connected

in series with CPCS board, so that if they open, compressor

stops. Microprocessor senses this through feedback

switch input.

The CPCS control system is available as an accessory

on 30GB060. The 30GB060 unit is factory equipped with

a control relay that operates same as CPCS except that

ground current refrigerant circuit protection is not

provided.

Complete electronic control system contains several

additional components.

Relay board — Relay board, connected to microprocessor

by a ribbon cable, drives all of 24-v, 115-v, or 230-v loads.

Relays control compressors, fans, and unloaders, if used.

Display board — Display board, also connected to

microprocessor by a ribbon cable, is used to communicate

with operator. In addition to leaving water set point

potentiometer, board contains 2-digit LED display. The

LED display is normally off after initialization period,

to extend its life. Pressing display button will result in

LED displaying the appropriate overload or status code.

If this is done, display will show from one to 3 codes

alternating every 2 seconds, as follows:

CODE

STATUS

1. 0-12

Capacity stage

Number of stages in operation

2. 20-24

Operating Mode

20

Initialization

21

Temperature Reset

22

Demand Limit

24

Pulldown Control

3. 51-87

Overload Codes

Alarm light/circuit energized.

NOTE: These codes take priority.

51-58

Compressor fault

59,60

Loss of charge (circuit 1, circuit 2)

61

Low water flow

63,64

Low oil pressure (circuit 1, circuit 2)

65

Low water temperature

70

Illegal configuration

71-80

Thermistor failure

81-87

Reset/Set Point/Limit Failure

These codes are summarized on a chart in each unit’s

control box, and are described in detail in the Controls

and Troubleshooting book.

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