Honeywell Refrigerator PCR 300 User Manual

PCR-300  
PCR-300 RC  
Installation and Operating  
Instructions  
Electronic refrigeration control  
 
1 Unpacking the unit and conditions of use  
Before and when unpacking the unit, make a visual inspection to  
identify any possible damage which may have occurred during  
transportation. Please look for loose parts, dents, scratches, etc.  
Report any damage immediately to the freight company. (Please see  
“Conditions if damage has occurred”.) In other cases, the latest edition  
of the “General conditions for the supply of goods and services” issued  
by the ZVEI (German Central Association for the Electrotechnical  
Industry) shall apply.  
Before disposing of the packaging, please check it for loose functional  
parts and information leaflets.  
So that we can process warranty claims, please give an exact  
description of the defect (with a photograph, if appropriate) and state  
the model designation of the unit.  
Please keep these operating instructions at the place where the  
equipment is used.  
2 General instructions  
Work on the electrical devices and switching equipment may only be  
carried out by appropriately qualified personnel. The relevant safety  
and environmental regulations must be followed.  
FLICA equipment is free from PCBs, PCTs, asbestos, formaldehyde,  
cadmium and water-repelling substances.  
The design of the equipment has taken into account the Standards EN  
50081-1,2 (emitted interference), EN 50082-1 (immunity to  
interference), EN 60335-1 (electrical safety),  
IEC 695-2-1 to -2-3 (fire resistance, glow-wire test).  
Safety tests have been performed in the factory on all equipment in  
accordance with EN 60335-1  
(DIN VDE 0700 T500).  
3 Use and Function  
3.1 Use for the purpose intended  
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This controller is designed to control ambient and media  
temperatures in cold stores and refrigeration systems and to  
control existing defrost equipment for one refrigeration circuit in  
each case.  
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The controller must not be used as a safety cut-out device or excess  
temperature limiter.  
If the controller is used for purposes other than those stated  
here, it shall not be considered to be use for the purpose  
intended.  
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Only connect sensors supplied with the unit. If a replacement sen-  
sor is required, only use sensors of the same type (part no. H61007).  
The controller is not intended for use in vehicles because the  
possible operating voltage ranges, interference level and  
environmental operating conditions exceed the limits for which the  
controller can be used.  
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Please take the application limits into account  
(see Technical Data, chapter 12).  
3.2 Function  
The PCR-300 is a microprocessor-controlled cold store control for  
refrigeration and deepfreeze systems with a modular housing for  
installation on 35 mm standard rails.  
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Compressor control (dependent upon cold store  
temperature) with delayed start-up.  
Evaporator fan control  
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Fan either in combination with compressor or  
operating continuously or  
switched via the evaporator thermostat.  
Defrost control limited thermostatically,  
either for electrical heating or hot-gas defrosting  
Alarm output.  
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Defrosting is initiated via programmable intervals of time, max. 24/day.  
The PCR-300 RC is provided with a real-time clock with a  
back-up battery for defrost control. A maximum of six times per day  
can be programmed.  
4 Safety  
4.1 Sources of danger  
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Caution - Mains voltage.  
Never expose the unit to water or moisture. Risk of malfunction  
and short circuit. Only use the unit when it is adjusted to normal  
ambient temperature (+15 to +30 °C). Extreme changes in  
temperature in combination with high atmospheric humidity may  
lead to the formation of condensed water.  
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Even if the control-circuit voltage is switched off, high voltage may  
still be applied to the unit. For this reason, isolate all electric  
circuits before starting any service work.  
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Never expose the unit to excessive heat, dust and vibrations. Avoid  
knocks and pressure loads. If the housing is damaged, there is a risk  
of an electric shock causing death or injury.  
If the unit cannot be operated without the risk of danger, it must  
be taken out of service and precautions taken so that it cannot be  
switched on again unintentionally.  
This applies, in particular, if:  
The housing has damage which is visible,  
the unit is no longer operational or  
it has been stored for a long time in unfavourable conditions.  
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The unit must not be opened. If it is thought that the unit may be  
defective, send it back to the dealer or manufacturer with a precise  
description of the fault.  
4.2 Safety precautions  
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All electromagnetic loads (solenoid valves, contactors, alarm horns,  
motors) should be interference suppressed directly at the coil with  
RC elements.  
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Please note the maximum contact rating of the relays and  
terminals.  
If this is not observed, there is a risk that the contacts may pit or  
stick, with the result that the refrigeration system will not operate  
correctly and the refrigerated items may be damaged.  
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Sensor leads are to be routed separately from mains voltage wires.  
The clearance should be at least 5 cm.  
Sensor leads must not be routed in multiple cables with other leads  
carrying mains voltage, otherwise the system may malfunction.  
Tighten the terminals carefully; excessive strain will result in  
damage to the controller.  
PCR-300RC: Set DIP switch 2 to “off” if the controller is going to  
be out of service for more than 3 months and when the controller  
is shipped. This is to prevent damage occurring to the back-up  
battery.  
5 Installation and commissioning  
5.1 Mechanical installation  
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4 Din standard modular housings to be mounted on a  
standard rail:  
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a) housing with 2 mounting tabs:  
open out the lateral mounting tabs; clip the unit on the 35 mm rail  
and press tabs in again.  
b) housings with 1 mounting tab:  
put housing on the upper 35 mm rail. Clip the unit on the 35 mm  
rail, lower tab clips on the rail automatically. To remove the unit  
from the rail press in lower mounting tab with a screw driver, lift  
unit.  
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Mounting of sensor:  
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Use a cable clamp to secure sensor T1 in a suitable position.  
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Secure evaporator sensor T2 in the evaporator fin core at the point  
where it is suspected icing is the greatest. It is advisable to use a  
point in the lower third of the finned evaporator.  
5.2 Electrical installation  
CAUTION: The mains voltage and system frequency must be the same  
as the nominal values on the device’s rating plate.  
Work on electrical systems must be performed by qualified personnel.  
Relevant local safety regulations must be observed.  
Wiring diagram:  
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Terminal: Description:  
1 - 2  
3 - 4  
T1  
T2  
= Cold store sensor  
= Evaporator sensor  
10 - 12  
13 - 15  
17 - 18  
20 - 21  
Mains = Power supply  
V
Ev  
= Compressor contactor (cooling)  
= Evaporator fan (contactor)  
Alarm = Remote alarm indicator; indicator lamp or  
contactor (with RC-element)  
23 - 24  
Def = Defrost heating  
(contactor) or hot gas valve  
The unit is equipped with an opto-decoupled electronic  
alarm output.  
Take note of the alarm output limit values.  
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Supply voltage: Max. 250 V AC.  
Minimum load: 40 mA  
Maximum load: 80 mA  
If an inductive load (contactor or horn) is connected, connect  
an RC element directly at its coil.  
Instructions:  
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Pay attention to the contact loading of the relay  
(8A / 5A resistive load, 2A / 1A inductive load). As a general rule,  
contactors are recommended.  
The maximum tested sensor cable length is 50 m, with a minimum  
2
cross section of 2 x 0.75 mm . Solder the extension cable to the  
sensor cable to prevent contact resistances.  
It is advisable to use shielded sensor extension cables.  
All shields must be routed at the side of the controller to one  
earth/protective potential. The extension cable shield must not be  
connected on the sensor side, otherwise bonding currents may  
occur via the shielding.  
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The controllers are designed respecting the highest degree of  
immunity to interference. If the local interference level exceeds the  
immunity data might get lost (AL1 in display) and the controller  
switches to the preprogrammed setting values. This is not a  
mulfunction of the controller. In such cases the means to suppress  
interference have to be improved (RC-elements, shielded lines).  
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5.3 Setting the DIP switch for the emergency setpoint and the  
clock back-up battery  
Carefully lift the housing cover off the side, using your fingers.  
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Selection of the emergency setpoint for the cold store  
temperature:  
This will be activated if the data in the memory is lost and alarm  
AL1 is activated. This sets all program parameters to the preset  
value. The cold store temperature setpoint can be preset to +4 °C  
or –18 °C, as desired. This ensures that chilling systems with  
temperatures above zero do not freeze and deepfreeze  
installations do not thaw.  
DIP switch 1 (left), Pos.: off (bottom): Setpoint value at +4 °C for  
emergency operation.  
Advisable for chilled storage  
(= Preset value).  
Pos.: on (top):  
Setpoint value at –18 °C for  
emergency operation.  
Advisable for deepfreezers.  
For PCR-300 RC only:  
The back-up battery must be switched on when the controller is started  
up so that the real-time clock keeps operating if there is a power failure.  
Activation of the back-up battery:  
DIP switch 2 (right), Pos.: off (bottom): Battery switched off when  
controller is stored or in transit. (The battery is  
switched off when the controller is delivered;  
exhaustive discharge monitoring).  
Pos.: on (top): Battery activated.  
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Note: It takes approximately 24 hours for the battery to achieve its  
full back-up capacity.  
The battery will provide cover for a power failure of approximately  
1 month.  
6 Operation of the controller  
Front view of controller:  
6.1 Switching on the operating voltage  
The controller is started by means of a control switch provided by the  
customer.  
The first time the controller is started, pre-programmed setting values  
are used which at later point can be adapted for individual  
requirements.  
If alarm “AL 2” (temperature in refrigerated chamber too high  
or too low) is displayed when the controller is switched on, this  
can be cleared by pressing the  
key.  
6.2 Display  
During normal operation the current cold store temperature is  
displayed. It is measured with cold store sensor T1.  
In the event of an alarm, the most recent alarm message (e.g. AL1)  
and the cold store temperature are displayed alternately.  
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Three spot indicators show the switching status of the relays during  
operation:  
Pos. 1: On :  
Off:  
Compressor relay on.  
Compressor relay off.  
Flashes: Compressor start-up  
delay E05 active.  
Pos. 2: On :  
Evaporator fan relay on.  
Evaporator fan relay off.  
Defrost relay on.  
Off:  
Pos. 3: On :  
Off:  
Defrost relay off.  
Flashes: Drain time E09 is running.  
6.3 Key functions  
Never operate the keys with sharp objects  
(screwdriver or similar).  
Display of setpoint  
temperature  
Press and hold down  
key.  
Clear alarm  
messages  
Press key.  
(If the sensor is faulty, switch  
mains voltage ON/OFF.)  
Evaporator  
temperature  
display  
Press  
and  
keys in sequence  
and hold both down.  
Manual defrost  
initiation  
Display of time  
until the next  
defrost  
Press  
Press  
key for 5 secs.  
and keys in  
sequence and hold both down.  
(Display in hours and minutes.)  
Display limit  
Press  
key.  
value for excess  
temperature alarm  
(cold store sensor T1)  
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Change input values by using the  
the key pressed down.  
Input parameters, e.g. the switching difference, are indicated by  
“E” and a 2-digit number, e.g. “E01”.  
The input parameters are grouped together in two programming  
levels.  
and  
keys with  
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Access the first programming level by pressing  
the and keys at the same time for 5 seconds.  
and keys to access the parameters  
Then use the  
to be changed.  
Access the second programming level by pressing  
the and and keys simultaneously  
for 5 seconds.  
To exit from the programming levels and save the data, press  
the key after the last input parameter. If no key is pressed in  
either of the programming levels for 10 minutes, this mode will be  
exited without the data being saved.  
Do not display altered parameter data before saving the data, as it  
would be reversed to its original value in the process.  
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6.4 Setting the cold store temperature  
Press and hold down the  
the value in question using the  
key. Adjust the setpoint for  
or  
key.  
Adjustment is possible within the limits of the input parameters E12  
and E13.  
The factory setting is +4 °C.  
6.5 Changing the cold store temperature difference,  
defrost cycle and alarm tempera-ture  
Access to the first programming level:  
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Press and hold down the  
approx. 5 seconds (E01 appears in the display for  
PCR-300 and E00 for PCR-300RC)  
and  
keys at the same time for  
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Setting: Press and hold down the  
to the desired figure using the  
key. Adjust the setpoint value  
or  
key.  
Input parameters and input ranges:  
Display  
Setting range  
Preset  
E00 Time, for PCR-300RC only  
0.00 to 23.5,  
see section 6.6  
12’0  
E01 Cold store temp. difference  
E02 Time between 2 defrost cycles  
E03 Alarm temperature difference  
1 to 20 K  
1 to 24 h  
–50 K to +50 K  
2 K  
8 hours  
20 K  
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If the set temperature difference E03 is negative, an alarm is given  
if it is too cold in the refrigerated area,  
e.g. E03 = –10 K, cold store setpoint = –18 °C  
alarm at –28 °C in refrigerated area.  
If the set temperature difference E03 is positive, the alarm is given  
if it is too warm in the refrigerated area,  
e.g. E03 = +10 K, cold store setpoint value = –18 °C  
alarm at –8 °C in the refrigerated area.  
Attention: any change of the cold store setpoint valve changes also  
the alarm temperature.  
If E03 is set to 0, no alarm will be given.  
PCR-300RC only:  
E2’1 1st defrost time  
E2’2 2st defrost time  
E2’3 3st defrost time  
E2’4 4st defrost time  
E2’5 5st defrost time  
E2’6 6st defrost time  
––– (none), 00.1 to 23.5 hours ––– (none)  
––– (none), 00.1 to 23.5 hours 01’0 hours  
––– (none), 00.1 to 23.5 hours 07’0 hours  
––– (none), 00.1 to 23.5 hours 13’0 hours  
––– (none), 00.1 to 23.5 hours 19’0 hours  
––– (none), 00.1 to 23.5 hours ––– (none)  
The time is entered in increments  
of 10 minutes in each case.  
Caution: The times must be entered  
in ascending order.  
Exiting programming mode: Press the  
key after the last level has  
been entered.  
6.6 Setting the time (PCR-300RC only)  
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Press and hold down the  
approx. 5 seconds to access the first programming level  
and  
keys at the same time for  
(Display: E00).  
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Setting: Press and hold down the  
the time to the current time using the  
(increments of 10 minutes).  
key and change  
or key  
Display  
Setting range  
Preset  
E00 Time  
00.0 to 23.5 hours  
12’0 hours  
Exiting programming mode:  
Press the  
key several times.  
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6.7 Manual defrosting  
Press and hold down the  
key for 5 seconds.  
The manual defrosting process will be initiated.  
7 Programming  
Access to the second programming level:  
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Press and hold down the  
approx. 5 seconds  
,
and  
keys at the same time for  
(Display: E01 for PCR-300, E00 for PCR-300RC).  
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Use or key to select parameters.  
Setting: Press and hold down the  
to the desired figure using the  
key. Adjust the setpoint value  
key.  
or  
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Do not display altered parameter data before saving the data, as it  
would be reversed to its original value in the process.  
7.1 Input parameters and input ranges  
Parameter in Display  
or  
Setting range  
and or  
Preset  
(
)
(
)
E00 Time, only for PCR-300RC  
E01 Cold store temp. difference  
E02 Time between 2 defrost cycles  
00.0 to 23.5 hours  
1 to 20 K  
12’0 hours  
2 K  
1 to 24 hours  
8 h  
Once the controller has been switched on, defrosting occurs  
for the first time at the end of the first time interval.  
After defrosting has been initiated manually, the next time  
defrosting takes place is after a complete time interval has  
elapsed.  
If the time interval between two defrost cycles is changed  
when the system is in operation, the new time interval will  
not be applied until after the next time defrosting has  
occurred.  
For PCR-300RC only:  
E2’1 1st defrost time  
E2’2 2st defrost time  
E2’3 3st defrost time  
E2’4 4st defrost time  
E2’5 5st defrost time  
E2’6 6st defrost time  
––– (none), 00.1 to 23.5 hours  
––– (none), 00.1 to 23.5 hours  
––– (none), 00.1 to 23.5 hours  
––– (none), 00.1 to 23.5 hours  
––– (none), 00.1 to 23.5 hours  
––– (none), 00.1 to 23.5 hours  
––– (none)  
01’0 hours  
07’0 hours  
13’0 hours  
19’0 hours  
––– (none)  
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The time is entered in increments  
of 10 minutes in each case .  
Important: The times must be entered  
in ascending order.  
E03 Alarm temperature difference  
E04 Delay time – Alarm  
E05 Compressor start-up delay  
–50 K to + 50 K 20 K  
0 to 99 mins. 10 mins.  
0 to 15 mins. 5 mins.  
E06 Defrost type  
1 or 2  
1
1 = Electrical (compressor off)  
2 = Hot gas (compressor on)  
E07 Defrost limit temperature  
E08 Defrost time limit  
E09 Drainage time, evaporator  
E10 Time delay, fan  
0 to 50 °C  
8 °C  
1 to 99 mins. 25 mins.  
0 to 99 mins. 3 mins.  
0 to 500 secs. 30 secs.  
E11 Evaporator fan control  
1,2 or 3  
1
1 = Fan with compressor.  
2 = Continuous fan operation, except during defrosting.  
3 = Fan run-on. If there is an undershoot in the cold  
store temperature, the fan is switched on by  
evaporator sensor T2. The fan is switched off again  
once the desired cold store temperature is  
attained or exceeded.  
E12 Minimum permissible  
cold store temp.  
E13 Maximum permissible  
cold store temp.  
E14 Display during defrosting  
–55 °C to E13  
E12 to +50 °C  
1,2 or 3  
–55 °C  
+50 °C  
1
1 = “dEF” in display.  
2 = Current cold store temperature in display.  
3 = Retaining temperature in display when defrosting  
is initiated until the current cold store temperature  
reaches the retained value again. This is for a maxi-  
mum of 15 minutes after the end of defrosting.  
( Evaporator drainage time E09 and time delay fan E10 are not  
respected at hot gas defrost mode E06 = 2.  
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E15 Sensor calibration T1  
(cold store)  
E16 Sensor calibration T2  
–5 to +5 K  
–5 to +5 K  
0 K  
0 K  
2
(evaporator)  
E17 Operation of  
compressor relay  
if cold store sensor T1  
is defective  
0 = Relay de-energizes  
1 = Relay is perma-  
nently engergized  
2 = Alternately ener-  
gized/de-ener-  
gized according to  
time set in E18  
and E19.  
E18 “On” time at E17  
E19 “Off” time at E17  
1 to 99 mins.  
1 to 99 mins.  
15 mins.  
15 mins.  
To exit from the programming mode:  
Press the key after inputting the last level.  
7.2 Sensor calibration (parameters E15 and E16)  
The cold store and evaporator sensors can be calibrated.  
Note:  
An additional resistance of 7 in each case,  
caused by the extension of the sensor cable,  
results in a change in the temperature display by  
+1K.  
How to proceed: Measure the temperature at the sensor concerned  
with a calibrated thermometer or submerge the  
sensor in well mixed iced water (0 °C).  
Compare the measured temperature with the  
temperature displayed on the unit display.  
If the measured temperature is lower than the  
one displayed, set the negative difference as the  
programming value  
(e.g. - 2 K).  
If the measured temperature is higher than the  
one displayed, set the positive difference as the  
programming value  
(e.g. 2 K).  
The temperature display is then corrected by the  
set value.  
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8 Maintenance  
The controller does not require any maintenance. It does not have any  
fuses so, if brief voltage spikes occur, the refrigeration system will not  
stop operating for a prolonged period. Once the disturbance has  
passed, the controller will automatically start up again.  
Cleaning the housing: Only a dry anti-static cloth may be used to wipe  
clean all plastic parts. Do not use water or cleaning agents containing  
solvents!  
9 Alarm messages  
If an alarm occurs, the alarm output will be activated and on the  
display a code will alternate with the cold store temperature.  
Display  
AL1  
Meaning  
Program memory data loss.  
The preset values will be used as an emergency program.  
The setpoint value will be set to +4 or –18 °C,  
depending on the selection of DIP switch 1.  
AL2  
AL3  
AL4  
AL5  
Limit value (=setpoint value +E03) at sensor T1  
exceeded and delay time E04 elapsed.  
The sonsor temperature at sensor T1 is above  
50 °C or below –55 °C.  
The specified setpoint value is outside  
the limits E12 and E13  
Cold store temperature sensor T1 – short  
circuit or break in wiring. Compressor switches  
as a function of parameter E17.  
AL6  
Evaporator temperature sensor T2 – short  
circuit or break in wiring.  
Safety times are used, for the fan run-on function  
the fan is controlled with the compressor by the  
evaporator fan control E11 automatically  
switching from 3 to 1.  
After sensor T2 has been repaired,  
E11 must be reset manually from 1 to 3.  
AL7  
For PCR-300RC only: Real-time clock faulty,  
switching over to interval defrosting (interval = 4 hours)!  
16  
 
Clearing alarm:  
Press the key.  
All alarm messages, with the exception of AL2, are also reset by  
switching off the operating voltage. AL2 can only be reset using  
the  
key.  
10 Problem solving  
Fault  
Cause  
Remedy  
Evaporator fan does not  
switch on during  
cooling when the  
programmed setting  
of parameter E11  
is set to position 3  
(fan run-on).  
Evaporator  
sensor T2 has  
fallen out of  
the fins.  
Refit  
sensor.  
For PCR-300RC only:  
The real-time clock  
stops or indicates the  
wrong time in the event  
of a power failure.  
Back-up battery  
is switched off.  
Switch on  
back-up  
battery  
see  
Section 5.3.  
11 Warranty conditions  
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Warranty is provided for a period of 12 months, starting at the  
date the item was delivered. Proof of this should be furnished in  
the form of a delivery note or invoice.  
All functional faults caused by poor workmanship or faulty  
materials will be repaired free of charge during the warranty  
period.  
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More extensive claims, in particular for consequential damage, are  
excluded  
Damage or malfunctioning caused by the equipment  
being handled incorrectly or by non-compliance with the operating  
instructions shall not be covered by the warranty.  
The warranty shall be invalidated if any work is carried out  
on the appliance.  
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12 Technical data  
Mains voltage/frequency 230 V AC 10% / 50/60 Hz  
Rated wattage  
Display  
Resolution  
Measuring range  
Outputs  
2.5 watts  
3-digit, 7-segment, red LED, 14.2 mm  
1 K  
–55 to +50 °C  
1 relay with changeover contact, 8 A,  
230 V AC, resistive load, (cooling).  
1 relay with N.O. contact, 8 A  
(5A PCR-300RC), 230 V AC,  
resistive load, (defrost heating).  
1 relay with N.O. contact, 8 A (5A -PCR-300RC),  
230 V AC, resistive load (fan control).  
Two-step  
Control response  
Alarm output  
Opto bidirectional triode thyristor, 250 V AC,  
max. load 80mA  
Display accuracy  
0.5K internal, 1 digit, at 25 °C  
0 °C to 50 °C, 30 to 85 % R.H., excluding dew  
–20 °C to +80 °C  
Non-volatile memory (EEPROM)  
Clock: Back-up battery, approx. 1 month  
power reserve (PCR-300 RC only)  
DIP switch under display cover  
(off = +4 °C / on = –18 °C)  
PTC  
Operating conditions  
Storage temperature  
Data back-up  
Emergency setpoint  
selection  
Sensor type  
– Number  
2 sensors  
T1 = Control signal to compressor relay  
T2 = Control signal to defrost limitation and  
fan control  
– Cable length  
– Range where cable  
can be used:  
– Accuracy  
2.5 m  
–30 °C to +80 °C not fixed  
–40 °C to +80 °C fixed  
2 %  
Housing  
L x W x H = 85 x 70 x 61 mm,  
ABS plastic, self-extinguishing (UL 94 V0)  
Housing: IP 20, front panel: IP 52  
Class of protection 2  
250V / 10 A screw-type terminal strips,  
with wire protection,  
Protective rating  
Terminals  
tightening torque 0.6 Nm  
Max. core cross section 1.5 mm  
2
Weight  
Approx. 420 g (inc. 2 sensors).  
Only operate the unit in dry places.  
Errors in the technical data are excepted. We reserve the right to make changes without prior notice.  
18  
 
EC Declaration of Conformity  
as defined in the  
EMC Directives 89/336/EEC  
and the  
EC Low Voltage Directives 73/23/EEC  
Product:  
Model designation:  
FLICA, electronic coldstore control  
PRC-300, PCR-300RC  
has been developed, designed and manufactured in accordance with the  
EC Standards listed above.  
The following harmonized Standards have been applied:  
EN 50081-1 (1991)  
Part 1 for the trades sector, emitted interference  
EN 50081-2 (1993)  
Part 1 for the industrial sector, emitted interference  
EN 50082-1 (1991)  
Part 1 for the trades sector, immunity to interference  
EN 60335-1 (1993-03-09)  
IEC 335-1 (1976) ed 2  
Electrical safety, part 1: general requirements  
EN 60730-1 (1992-12-09)  
IEC 730-1 (1986) ed 1  
Automatic electronic controls  
Full technical documentation is available.  
Operating instructions for the device are provided.  
nd  
Mosbach, March 22 , 1999  
Honeywell Flica  
Honeywell AG  
Hardhofweg  
D-74821 Mosbach  
i.V. Dr. Osthues  
R + D / Production Manager  
19  
 
Automation and Control Solutions  
Honeywell GmbH  
Hardhofweg • 74821 Mosbach / Germany  
Phone: +49 (0) 62 61 / 81-475  
Manufactured for and on behalf of the  
Environment and Combustion Controls  
Division of Honeywell Technologies Sàrl,  
Ecublens, Route du Bois 37, Switzerland  
by its autorised representative Honeywell GmbH  
Fax:  
+49 (0) 62 61 / 81-461  
 

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