Troubleshooting complete unit stoppage and restart – Sterling AquaSnap 30RA010-055 User Manual

46

Table 27 — Configuring Demand Limit

*Seven items skipped in this example.

TROUBLESHOOTING

Complete Unit Stoppage and Restart —

Possi-

ble causes for unit stoppage and reset methods are shown be-
low. (See Table 28 also.) Refer to Fig. 22-26 for Component
Arrangement and Control Wiring Diagrams.
GENERAL POWER FAILURE — After power is restored,
restart is automatic through normal MBB start-up.
UNIT ENABLE-OFF-REMOTE CONTACT SWITCH IS
OFF — When the switch is OFF, the unit will stop immediate-
ly. Place the switch in the ENABLE position for local switch
control or in the REMOTE CONTACT position for control
through remote contact closure.
CHILLED FLUID PROOF-OF-FLOW SWITCH OPEN —
After the problem causing the loss of flow has been corrected,
reset is manual by resetting the alarm with the Scrolling Mar-
quee as shown in Table 24.
OPEN HIGH-PRESSURE SWITCH(ES) — Determine and
correct the cause of the failure. The switch automatically resets,
but the unit must be reset manually by resetting the alarm with
the Scrolling Marquee as shown in Table 24.
OPEN COMPRESSOR INTERNAL THERMAL PRO-
TECTION — This switch provides compressor over tempera-
ture protection. Determine and correct the cause of the prob-
lem. The switch resets automatically, but the unit must be reset
manually resetting the alarm with the Scrolling Marquee as
shown in Table 24.

OPEN 24-V CONTROL CIRCUIT BREAKER(S) — De-
termine the cause of the failure and correct. Reset circuit break-
er(s). Restart is automatic after MBB start-up cycle is com-
plete.
COOLING LOAD SATISFIED — Unit shuts down when
cooling load has been satisfied. Unit restarts when required to
satisfy leaving fluid temperature set point.
THERMISTOR FAILURE — If a thermistor fails in either an
open or shorted condition, the unit will be shut down. Replace
T1, T2, or T9 as required. Unit restarts automatically, but must
be reset manually by resetting the alarm with the Scrolling
Marquee as shown in Table 24.

LOW SATURATED SUCTION — Several conditions can
lead to low saturated suction alarms and the chiller controls
have several override modes built in which will attempt to keep
the chiller from shutting down. Low fluid flow, low refrigerant
charge and plugged filter driers are the main causes for this
condition. To avoid permanent damage and potential freezing
of the system, do NOT repeatedly reset these alert and/or alarm
conditions without identifying and correcting the cause(s).

MODE

KEYPAD

ENTRY

SUB-MODE

KEYPAD

ENTRY

ITEM

DISPLAY

ITEM EXPANSION

COMMENT

CONFIGURATION

DISP

TEST

ON/OFF

Test Display LEDs

UNIT

TYPE

X

Unit Type

OPT1

FLUD

X

Cooler Fluid

OPT2

CTRL

X

Control Method

RSET

CRST

X

Cooling Reset Type

DMDC*

X

Demand Limit Select

Default: 0
0 = None
1 = Switch
2 = 4 to 20 mA Input
3 =

SCN Loadshed

DM20

XXX %

Demand Limit at 20 mA

Default: 100%
Range: 0 to 100

SHNM

XXX

Loadshed Group

Number

Default: 0
Range: 0 to 99

SHDL

XXX%

Loadshed Demand

Delta

Default: 0%
Range: 0 to 60%

SHTM

XXX MIN

Maximum Loadshed

Time

Default: 60 min.
Range: 0 to 120 min.

DLS1

XXX %

Demand Limit

Switch 1

Default: 80%
Range: 0 to 100%

DLS2

XXX %

Demand Limit

Switch 2

Default: 50%
Range: 0 to 100%

ENTER

ENTER

ENTER

ENTER

ENTER

ENTER

If unit stoppage occurs more than once as a result of any of
the safety devices listed, determine and correct cause
before attempting another restart.