dixell COOL MATE XLR470, Руководство по эксплуатации

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dIXEL
dIXEL dIXEL
dIXEL
Operating manual cod. 1592 cod. 1592 cod. 1592 cod. 1592017 017 017 017050 050 050 050
1592017050 XLR470 GB r1.0 24.05.07.doc XLR470 9/18
FnC2 Fan operating mode, section 2 : C-n = running with the compressor 2, OFF during the defrost; C-y = running with the compressor 2, ON
during the defrost; O-n = continuous mode, OFF during the defrost; O-y = continuous mode, ON during the defrost;
Fnd2 Fan delay after defrost, section 2: (0÷255 min) The time interval between the defrost end and evaporator fans start.
FSt2 Fan stop temperature, section 2: (-50÷110°C; -58÷230°F) setting of temperature, detected by evaporator probe 2, above which the fan is
always OFF.
FAP2 Probe selection for fans management, section 2: nP = no probe: fan follows the setting of FnC1 parameter; P1 = thermostat 1 probe; P2
= evaporator 1probe; P3 = thermostat 2 probe; P4 = evaporator 2probe;
ALARMS
ALc1 Temperature alarms configuration, section 1:
it determines if alarms are relative to set point 1 or referred to absolute values: rE relative
to set point; Ab absolute temperature
ALU1 Maximum alarm, section 1:
with ALc1=rE: alarm relative to set point1, (0÷50°C) Maximum alarm is enabled when the probe values exceeds the “SET1+ALU” value.
with ALc1=Ab: absolute alarm, (Set1÷Full Sc.) Maximum alarm is enabled when the probe values exceeds the “ALU” value.
ALL1 Minimum alarm, section 1:
with ALc1=rE: relative to set point1, (0÷50°C) this value is subtracted from the set point1. The alarm signal is enabled when the probe
values goes below the “SET1-ALL” value.
with ALc1=Ab absolute value, minimum alarm is enabled when the probe values goes below the “ALL1” value.
ALd1 Temperature alarm delay, section 1: (0÷255 min) time interval between the detection of an alarm condition and the corresponding alarm
signalling.
dAo1 Delay of temperature alarm at start-up, section 1: (0min÷23h 50min) time interval between the detection of the temperature alarm
condition in section after the instrument power on and the alarm signalling.
ALc2 Temperature alarms configuration, section 2: it determines if alarms are relative to set point 2 or referred to absolute values: rE relative
to set point; Ab absolute temperature
ALU2 Maximum alarm, section 2 :
with ALc2=rE: alarm relative to set point1, (0÷50°C) Maximum alarm is enabled when the probe values exceeds the “SET2+ALU” value.
with ALc2=Ab: absolute alarm, (Set2÷Full Sc.) Maximum alarm is enabled when the probe values exceeds the “ALU” value.
ALL2 Minimum alarm, section 2:
with ALc2=rE: relative to set point1, (0÷50°C) this value is subtracted from the set point2. The alarm signal is enabled when the probe
values goes below the “SET2-ALL” value.
with ALc2=Ab absolute value, minimum alarm is enabled when the probe values goes below the “ALL2” value.
ALd2 Temperature alarm delay, section 2: (0÷255 min) time interval between the detection of an alarm condition and the corresponding alarm
signalling.
dAo2 Delay of temperature alarm at start-up, section 2: (0min÷23h 50min) time interval between the detection of the temperature alarm
condition in section after the instrument power on and the alarm signalling.
AFH Temperature alarm and fan differential: (0,1÷25,5°C; 1÷45°F) Intervention differential for temperature alarm set point and fan regulation
set point, always positive.
EdA Alarm delay at the end of defrost: (0
÷
255 min) Time interval between the detection of the temperature alarm condition at the end of defrost
and the alarm signalling.
dot Delay of temperature alarm after closing the door : (0
÷
255 min) Time delay to signal the temperature alarm condition after closing the
door.
doA Open door alarm delay: (0÷255 min) delay between the detection of the open door condition and its alarm signalling: the flashing message
“ dA ” is displayed.
PROBE INPUTS
Pbc
Kind of probe : Ptc = PTC; ntc = NTC
oFS1 Thermostat 1 probe calibration (10-11) : (-12.0
÷
12.0°C/ -21
÷
21°F) allows to adjust possible offset of the thermostat 1 probe.
oFS2 Evaporator 1 probe calibration (8-9) : (-12.0
÷
12.0°C/ -21
÷
21°F) allows to adjust possible offset of the evaporator 1 probe.
oFS3 Thermostat 2 probe calibration (6-7) : (-12.0
÷
12.0°C/ -21
÷
21°F) allows to adjust possible offsets of the thermostat 2 probe.
oFS4 Evaporator 2 probe calibration (4-5) : (-12.0
÷
12.0°C/ -21
÷
21°F) allows to adjust possible offset of the evaporator 2 probe.
P2P Evaporator 1 probe presence : no = not present: the defrost 1 stops only by time; yES= present: the defrost 1 stops by temperature.
P3P Thermostat 2 probe presence: no = not present; yES = present.
P4P Evaporator 2 probe presence : no = not present: the defrost 2 stops only by time; yES= present: the defrost 2 stops by temperature.
DIGITAL INPUTS
i1P
Digital input 1 polarity (1-2):
CL : the digital input is activated by closing the contact;
OP : the digital input is activated by opening the contact.
i1F Digital input 1 operating mode(1-2): configure the digital input function :
MP1 = door switch 1; MP2 = door switch 2, MP : door switch (it’s used by both the sections); EA1 = generic alarm section 1; EA2 = generic
alarm section 2; EAL = generic alarm (it’s used by both the sections); bA1 = serious alarm mode section 1; bA2 = serious alarm mode
section 2; , bAL = serious alarm mode section (it’s used by both the sections); dF1 = Start defrost, section 1; dF2 = Start defrost, section 2;
dEF = Start defrost (it’s used by both the sections); oF1 = remote on/ off, section1; oF2 = remote on/ off, section 2; oFF = = remote on/ off
(it’s used by both the sections); ES = Energy Saving
i2P Digital input 2 polarity(2-3) :
CL : the digital input is activated by closing the contact;