Carrier WEATHERMASTER 48/50Z030-105 User Manual

99

T136 (Compressor A1 Low Differential Pressure)

T137 (Compressor A2 Low Differential Pressure)

T138 (Compressor B1 Low Differential Pressure)

T139 (Compressor B2 Low Differential Pressure) — If the

pressure differential between the discharge and suction pres-

sure transducers is less than 50 psig for more than 15 minutes

when the circuit is running, an alert will be issued and the cir-

cuit shut down. Any compressor that is currently on at the time

of the alert will have its own individual alarm sent. Reset is

manual.
T140 (Circ A Max Diff Operating Press Exceeded)

T141 (Circ B Max Diff Operating Press Exceeded) — De-

pending on the compressor loading, after 5 minutes of opera-

tion if the discharge versus suction pressure ratios exceed

the curves in Fig. 14, then all compressors in that circuit are

stopped and the alert tripped. Reset is manual.
A150 (Unit is in Emergency Stop) — If the CCN point name

“EMSTOP” in the System table is set to emergency stop, the

unit will shut down immediately and broadcast an alarm back

to the CCN indicating that the unit is down. This alarm will

clear when the variable is set back to “enable”.
A152 (Unit Down Due to Failure) — This alarm occurs

whenever both cooling circuits are unavailable to cool. Me-

chanical cooling is impossible due to a failure in the system ex-

plained through other current alarms.

Possible problems are:

• plenum pressure switch trips on a return fan tracking unit

• the supply fan status alarms have been instructed to shut

down the unit

• both circuits incapable of cooling due to multiple alerts of

compressors and/or pressure alerts

• a hardware failure of the main board's analog to digital con-

verter or EEPROM chip

• a critical storage failure in EEPROM has rendered the unit

inoperable

• the unit is configured for inlet guide vanes and the actuator

controlling the vanes is in fault.
Reset is automatic.

T153 (Real Time Clock Hardware Failure) — The RTC

clock chip on the MBB is not responding. Recovery is auto-

matic but typically board replacement may be necessary.
A154 (Serial EEPROM Hardware Failure) — The unit will

be completely shut down. The serial EEPROM chip on the

MBB which stores the unit's configurations is not responding.

Recovery is automatic but typically board replacement is

necessary.
T155 (Serial EEPROM Storage Failure Error) — Configura-

tion data in the serial EEPROM chip can not be verified which

may mean MBB replacement. It is possible a re-initialization

of the database or particular storage area(s) may clean up this

problem. Reset is automatic.
A156 (Critical Serial EEPROM Storage Fail Error) — The

unit is completely shut down. Critical configuration data in the

serial EEPROM chip can not be verified which may mean

MBB replacement. Recovery is automatic but typically board

replacement is necessary.
NOTE: The machine will shut down. This may happen after

downloading via the CCN if the device code was corrupted.

Try downloading again or use the LEN connection to

download.
A157 (A/D Hardware Failure) — The unit will be completely

shut down. The analog to digital conversion chip on the MBB

has failed. Recovery is automatic but typically board replace-

ment is necessary.
A171 (Staged Gas Control Board Comm Failure) — Staged

Gas Heating is disabled until communication with the staged

gas control board is re-established. Recovery is automatic.

Reason for failure may be due to incorrect wiring, power loss

to the staged gas control board, or damage to the RS-485 driv-

ers on the LEN bus.
T172 (Control Expansion Module Comm Failure) — Any

function associated with a sensor configured for use that re-

sides on the controls expansion module will be disabled until

communication is re-established. Recovery is automatic. Rea-

son for failure may be due to incorrect wiring, power loss to the

control expansion module, or damage to the RS-485 drivers on

the LEN bus.
A173 (RCB Board Communication Failure) — As the RCB

board is integral to all Z series units, the error will cause a sys-

tem shutdown until communication is re-established. Recovery

is automatic. Reason for failure may be due to incorrect wiring,

power loss to the RCB board, or damage to the RS-485 drivers

on the LEN bus.
A174 (ECB Board Communication Failure) — The ECB

board is responsible for building pressure control. Building

Pressure control configurations that require this board will

cause a complete system shut down when communication fail-

ure occurs. Recovery is automatic. Reason for failure may be

due to incorrect wiring, power loss to the ECB board, or dam-

age to the RS-485 drivers on the LEN bus.
T177 (4-20 mA Demand Limit Failure) — If this transducer

fails, and the unit is configured to perform demand limiting

with this transducer, no capacity limiting will be performed and

an alert will be generated. Recovery is automatic. Reason for

error is either a faulty sensor, wiring error, or damaged input on

the CEM control board.
T178 (4-20 mA Static Pressure Reset Fail) — If this trans-

ducer fails, and the unit is configured to perform static pressure

reset with this transducer, no static pressure reset will be per-

formed and an alert will be generated. Recovery is automatic.

Reason for error is either a faulty sensor, wiring error, or dam-

aged input on the CEM control board.
A200 (Linkage Timeout Error — Comm Failure) — If link-

age is established via the CCN with ComfortID™ terminals, a

5-minute timeout on loss of communication will be monitored.

If 5 minutes expires since the last communication from a VAV

Linkage Master, the unit will remove the link and flag the alert.

When the rooftop loses its link, the temperature and set points

are derived locally. Recovery is automatic on re-establishment

of communications. Reason for failure may be wiring error, too

much bus activity, or damaged RS-485 drivers.
T210 (Building Pressure Transducer Failure) — If the build-

ing pressure transducer (Pressures

→

AIR.P

→

BP) fails, build-

ing pressure control fails also. Recovery is automatic. Reason

for error is either a faulty sensor, wiring error, or damaged in-

put on the RCB control board.
T211 (Static Pressure Transducer Failure) — If the static

pressure transducer (Pressures

→

AIR.P

→

SP) fails, static pres-

sure control fails also. Recovery is automatic. Reason for error

is either a faulty sensor, wiring error, or damaged input on the

RCB control board.
T220 (Indoor Air Quality Sensor Failure) — If the indoor air

quality sensor (Inputs

→

AIR.Q

→

IAQ) fails, demand control

ventilation is not possible. The control defaults to the max vent

position. Recovery is automatic. Reason for error is either a

faulty sensor, wiring error, or damaged input on the MBB con-

trol board.
T221 (Outdoor Air Quality Sensor Failure) — If the out-

door air quality sensor (Inputs

→

AIR.Q

→

OAQ) fails, OAQ

defaults to 400 ppm and demand control ventilation will

continue. Recovery is automatic. Reason for error is either a

faulty sensor, wiring error, or damaged input on the CEM

control board.
T229 (Economizer Min Pos Override Input Failure) — If

the economizer minimum position override input fails, the

economizer will operate as if it were not configured for