Specifications

ManualsBrandsCarrier ManualsAir Compressor19XRV

CURRENT on the MAINSTAT screen) is less than the

lead chiller percent capacity.

NOTE: The use of AVERAGE LINE CURRENT or PER-

CENT MOTOR KILOWATTS in the Lag chiller shutdown

decision is based on the DEMAND LIMIT SOURCE configu-

ration in the RAMP_DEM screen. If DEMAND LIMIT

SOURCE = 0 then AVERAGE LINE CURRENT will be

used. If DEMAND LIMIT SOURCE = 1 then PERCENT

MOTOR KILOWATTS will be used.

FAULTED CHILLER OPERATION — If the lead chiller

shuts down because of an alarm (*) condition, it stops commu-

nicating to the lag and standby chillers. After 30 seconds, the

lag chiller becomes the acting lead chiller and starts and stops

the standby chiller, if necessary.

If the lag chiller goes into alarm when the lead chiller is also

in alarm, the standby chiller reverts to a stand-alone CCN

mode of operation.

If the lead chiller is in an alarm (*) condition (as shown on

the ICVC panel), press the softkey to clear the alarm.

The chiller is placed in CCN mode. The lead chiller communi-

cates and monitors the RUN STATUS of the lag and standby

chillers. If both the lag and standby chillers are running, the

lead chiller does not attempt to start and does not assume the

role of lead chiller until either the lag or standby chiller shuts

down. If only one chiller is running, the lead chiller waits for a

start request from the operating chiller. When the configured

lead chiller starts, it assumes its role as lead chiller.

If the lag chiller is the only chiller running when the lead

chiller assumes its role as a lead chiller then the lag chiller will

perform a RECOVERY START REQUEST (LL_MAINT

screen). The lead chiller will start up when the following condi-

tions are met.

1. Lag chiller ramp loading must be complete.

2. Lag CHILLED WATER TEMP (MAINSTAT screen) is

greater than CONTROL POINT plus

the CHILLED

WATER DEADBAND temperature.

3. Lag chiller ACTIVE DEMAND LIMIT value must be

greater than 95% of full load amps.

4. Lag chiller temperature pulldown rate (TEMP PULL-

DOWN DEG/MIN) of the chilled water temperature is

less than 0.5 F (0.27 C) per minute.

5. The standby chiller is not running as a lag chiller.

6. The configured LAG START TIMER configured in the lag

(acting lead) chiller has elapsed. The LAG START TIMER

is started when the lag (acting lead) chiller’s ramp loading

is completed.

LOAD BALANCING — When the LOAD BALANCE OP-

TION (see LEADLAG screen) is enabled, the lead chiller sets

the ACTIVE DEMAND LIMIT in the lag chiller to the lead

chiller’s compressor motor load value MOTOR PERCENT

KILOWATTS or AVERAGE LINE CURRENT on the MAIN-

STAT screen). This value has limits of 40% to 100%. In addi-

tion, the CONTROL POINT for the lag chiller will be modified

to a value of 3 F (1.67 C) less than the lead chiller’s CON-

TROL POINT value. If the LOAD BALANCE OPTION is

disabled, the ACTIVE DEMAND LIMIT and the CONTROL

POINT are both forced to the same value as the lead chiller.

AUTO. RESTART AFTER POWER FAILURE — When

an auto. restart condition occurs, each chiller may have a delay

added to the start-up sequence, depending on its lead/lag con-

figuration. The lead chiller does not have a delay. The lag chill-

er has a 45-second delay. The standby chiller has a 90-second

delay. The delay time is added after the chiller water flow is

verified. The PIC II ensures the guide vanes are closed. After

the guide vane position is confirmed, the delay for lag and

standby chillers occurs prior to energizing the oil pump. The

normal start-up sequence then continues. The auto. restart

delay sequence occurs whether the chiller is in CCN or LO-

CAL mode and is intended to stagger the compressor motor

starts. Preventing the motors from starting simultaneously

helps reduce the inrush demands on the building power system.

Ice Build Control — The selectable ice build mode per-

mits use of the chiller to refreeze or control the temperature of

an ice reservoir which may, for example, be used for thermal

storage. This mode differs from water or brine chilling in that

termination (indication that the need for cooling has been satis-

fied) is based on input(s) other than the temperature which is

being controlled during operation.

NOTE: For ice build control to operate properly, the PIC II

must be in CCN mode.

The PIC II can be configured for ice build operation.

• From the SERVICE menu, access the EQUIPMENT

SERVICE table. From there, select the OPTIONS screen

to enable or disable the ICE BUILD OPTION. See

Table 3, Example 19A or 19B.

• The ICE BUILD SETPOINT can be configured from the

SETPOINT display, which is accessed from the PIC II

main menu. See Table 3, Example 10.

• The ice build schedule can be viewed or modified from

the SCHEDULE table. From this table, select the ice

build schedule (OCCPC02S) screen. See Fig. 20 and the

section on Time Schedule Operation, page 23, for more

information on modifying chiller schedules.

The ice build time schedule defines the period(s) during

which ice build is active if the ice build option is enabled. If the

ice build time schedule overlaps other schedules, the ice build

time schedule takes priority. During the ice build period, the

CONTROL POINT is set to the ICE BUILD SETPOINT for

temperature control. The ICE BUILD RECYCLE and ICE

BUILD TERMINATION parameters, accessed from the OP-

TIONS screen, allow the chiller operator to recycle or termi-

nate the ice build cycle. The ice build cycle can be configured

to terminate when:

•the ENTERING CHILLED WATER temperature is less

than the ICE BUILD SETPOINT. In this case, the opera-

tor sets the ICE BUILD TERMINATION parameter to 0

on the OPTIONS screen.

• the REMOTE CONTACT inputs from an ice level indi-

cator are opened. In this case, the operator sets the ICE

BUILD TERMINATION parameter to 1 on the OPTIONS

screen.

• the chilled water temperature is less than the ice build set

point and the remote contact inputs from an ice level

indicator are open. In this case, the operator sets the ICE

BUILD TERMINATION parameter to 2 on the OPTIONS

screen.

• the end of the ice build time schedule (OCCP02S) has

been reached.

ICE BUILD INITIATION — The ice build time schedule

(OCCPC02S) is the means for activating the ice build option.

The ice build option is enabled if:

• a day of the week and a time period on the ice build time

schedule are enabled. The SCHEDULE screen shows an

X in the day field and ON/OFF times are designated for

the day(s),

• and the ICE BUILD OPTION is enabled.

The following events take place (unless overridden by a

higher authority CCN device).

• CHILLER START/STOP is forced to START.

• The CONTROL POINT is forced to the ICE BUILD SET-

POINT.

• Any force (Auto) is removed from the ACTIVE

DEMAND LIMIT

NOTE: A parameter’s value can be forced, that is, the value

can be manually changed at the ICVC by an operator, changed

RESET