Carrier 19XL Tower Fan Relay , Auto. Restart After Power Failure , Water/Brine Reset , Demand Limit Control, Option (Requires Optional 8-Input Module) , Surge PreventionAlgorithm

Tower Fan Relay — Low condenser water tempera-

ture can cause the chiller to shut down on low refrigerant

temperature. The tower fan relay, located in the starter, is

controlledby the PIC to energize and deenergize as the pres-

suredifferential between cooler and condenser vessels changes

in order to prevent low condenser water temperature and to

maximize chiller efficiency.The tower fan relay can only

accomplish this if the relay has been added to the cooling

tower temperature controller. The TOWER FANRELAY is

turned on whenever the CONDENSER WATER PUMP is

running, ﬂow is veriﬁed, and the differencebetween cooler

and condenser pressure is more than 45 psid (310 kPad)

[30 psid (207 kPad)] or entering condenser water temper-

ature is greater than 85 F (29 C). The TOWER FANRELAY

is deenergizedwhen the condenser pump is off, ﬂow is lost,

the evaporator refrigerant temperature is less than the over-

ride temperature, or the differential pressure is less than

40 psid (279 kPad) [28 psid (193 kPad)] and entering con-

densing water is less than 80 F (27 C).

IMPORTANT:Aﬁeld-supplied water temperature con-

trol system for condenser water should be installed.

Thesystem should maintain the leaving condenser wa-

ter temperature at a temperature that is 20° F (11° C)

above the leaving chilled water temperature.

Thetower-fan relay control is not a substitute for a con-

denser water temperature control. When used with a

Water Temperature Control system, the tower fan relay

control can be used to help prevent low condenser wa-

ter temperatures.

Auto. Restart After Power Failure — This option

maybe enabled or disabled, and may be viewed/modiﬁed in

theConﬁg table of Equipment Conﬁguration. If enabled, the

chiller will start up automatically after a single cycle drop-

out,low, high, or loss of voltage has occurred, and the power

iswithin ±10% of normal. The 15- and 3-minute inhibit tim-

ers are ignored during this type of start-up.

When power is restored after the power failure, and if the

compressor had been running, the oil pump will be ener-

gized for one minute prior to the evaporator pump ener-

gizing. Auto restart will then continue like a normal

start-up.

If power to the PSIO module has been offfor more than

3 hours, the oil heat algorithm, discussed in the Oil Sump

TemperatureControl section on page 32, will take effect be-

forethe compressor can start. Refrigerant normally migrates

into the oil when the oil heater is left off for extended pe-

riods of time.The PIC operates the oil pump for 1 to 2 min-

utes to ensure that the oil is free of excess refrigerant. Once

thisalgorithm is completed, the RESTART of the chiller will

continue.

Water/Brine Reset — Three types of chilled water or

brine reset are available and can be viewed or modiﬁed on

the Equipment Conﬁguration table Conﬁg selection.

The LID default screen status message indicates when

the chilled water reset is active.The Control Point tempera-

tureon the Status01 table indicates the chiller ’scurrent reset

temperature.

To activate a reset type, input all conﬁguration informa-

tion for that reset type in the Conﬁg table. Then input the

reset type number in the SELECT/ENABLE RESET TYPE

input line.

RESETTYPE 1—Reset Type 1 requires an optional 8-input

module. It is an automatic chilled water temperature reset

based ona4to20mAinputsignal. This type permits up to

± 30° F (± 16° C) of automatic reset to the chilled water or

brine temperature set point, based on the input froma4to

20 mAsignal. This signal is hardwired into the number one

8-input module.

Ifthe 4-20 mA signal is externally powered from the 8-input

module,the signal is wired to terminals J1-5(+) and J1-6(–).

If the signal is to be internally powered by the 8-input mod-

ule(for example, when using variable resistance), the signal

is wired to J1-7(+) and J1-6(–). The PIC must now be con-

ﬁgured on the Service2 table to ensure that the appropriate

power source is identiﬁed.

RESET TYPE 2—Reset Typerequires an optional 8-input

module. It is an automatic chilled water temperature reset

based on a remote temperature sensor input. This reset type

permits ± 30° F (± 16° C) of automatic reset to the set point

basedon a temperature sensor wired to the number one 8-input

module(see wiring diagrams or certiﬁed drawings). The tem-

perature sensor must be wired to terminal J1-19 and J1-20.

To conﬁgure Reset Type 2, enter the temperature of the

remote sensor at the point where no temperature reset will

occur.Next, enter the temperature at which the full amount

of reset will occur.Then, enter the maximum amount of re-

set required to operate the chiller.Reset Type 2 can now be

activated.

RESET TYPE 3—Reset Type 3 is an automatic chilled

water temperature reset based on cooler temperature differ-

ence.This type of reset will add ± 30° F (± 16° C) based on

thetemperature difference between entering and leaving chilled

water temperature. This is the only type of reset available

withoutthe need of the number one 8-input module. No wir-

ing is required for this type as it already uses the cooler

water sensors. Toconﬁgure Reset Type 3, enter the chilled

water temperature difference(the difference between enter-

ingand leaving chilled water) at which no temperature reset

occurs. This chilled water temperature differenceis usually

thefull design load temperature difference. The difference in

chilled water temperature at which the full amount of

reset will occur is now entered on the next input line. Next,

the amount of reset is entered. Reset Type 3 can now be

activated.

Demand Limit Control, Option — (Requires

Optional 8-Input Module) — The demand limit may

be externally controlled witha4to20mAsignal from an

energy management system (EMS).The option is set up on

the Conﬁg table. When enabled, the control is set for 100%

demandwith 4 mA and an operator conﬁgured minimum de-

mand set point at 20 mA.

The Demand Reset input from an energy management

system is hardwired into the number one, 8-input module.

The signal may be internally powered by the module or

externally powered. If the signal is externally powered, the

signal is wired to terminals J1-1 (+) and J1-2 (–). If the sig-

nal is internally powered, the signal is wired to terminals

J1-3 (+) and J1-2 (–). When enabled, the control is set for

100% demand with 4 mAand an operator conﬁgured mini-

mum demand set point at 20 mA.

Surge PreventionAlgorithm — This is an operator

conﬁgurable feature which can determine if lift conditions

are too high for the compressor and then take corrective

action. Lift is deﬁned as the differencebetween the pressure

at the impeller eye and the impeller discharge. The maxi-

mum lift that a particular impeller can perform varies with

the gas ﬂow across the impeller and the size of the impeller.