1592020680 XRi60CH EN r2.0 2021.07.14
XRi60CH
4/9
DISPLAY
CF
Temperature measurement unit:
(°C; °F)
°C
= Celsius;
°F
= Fahrenheit.
rES
Temperature resolution (°C only):
(dE; in)
dE
= decimal;
in
= integer.
Lod
Local probe displayed:
(P1; P2; P3; P4; Set; dtr)
Px
=
probe “x”;
SEt
= set point;
dtr
= percentage selected by par.
dtr
.
dLY
Temperature display delay:
(0.0 to 20min00sec, res. 10 sec) when the temperature
increases, the display is updated of 1°C or 1°F after this time.
dtr
Probe visualization percentage, F(P1; P2):
(0 to 100)
with
dtr=1
the display will
show this value
VALUE=0.01*P1+0.99*P2
DEFROST
EdF
Defrost mode:
in
=fixed intervals;
rtC
=following real time clock
tdF
Defrost type: EL
=electrical heaters;
in
=hot gas
dFP
Probe selection for defrost control:
(nP; P1; P2; P3; P4)
nP
=no probe;
Px
=probe
“x”. Note:
P4
=Probe on Hot Key plug.
dtE
End defrost temperature:
(-100 to 150°C; -148 to 302°F) sets the temperature
measured by the evaporator probe (
dFP
), which causes the end of defrost cycle.
idF
Interval between two consecutives defrost cycles:
(0 to 120 hours) determines
the time interval between the beginning of two defrosting cycles.
MdF
Maximum length of defrost cycle:
(0 to 255 min; 0 means no defrost) when
P2P=n
(no evaporator probe presence) it sets the defrost duration, when
P2P=Y
(defrost end
based on evaporator temperature) it sets the maximum length for the defrost cycle.
dSd
Start defrost delay:
(0 to 255 sec) delay in defrost activation.
StC
Compressor stop before starting any defrost:
(0 to 255 sec) interval with
compressor OFF before activating hot gas cycle
dFd
Displaying during any defrost:
(rt; it; SEt; dEF)
rt
= real temperature;
it
= start defrost temperature;
SEt
= set point;
dEF
= l
abel “
dEF
”
dAd
Temperature display delay after any defrost cycle:
(0 to 255 min) delay before
updating the temperature on the display after the end of any defrost.
Fdt
Draining time:
(0 to 255 min) regulation delay after finishing a defrost phase
Hon
Drain heater enabled after draining time (par. Fdt):
(0.0 to 24h00min, res. 10 min)
the relative output will stay on after draining time.
dPo
Defrost cycle enebled at stat-up:
(n; Y) enables defrost at power on.
dAF
Pre-defrost time
: (0 to 255 min) it is used to sub freeze the goods before activating
any defrost. The regulation setpoint is modified to SET-1°C or SET-2°F during this
interval. If
dAF=0
this function is disabled.
FANS
FAP
Probe selection for evaporator fan:
(nP; P1; P2; P3; P4)
nP
=no probe;
Px
=probe
“x”. Note:
P4
=Probe on Hot Key plug.
FSt
Evaporator fan stop temperature:
(-100 to 150°C; -148 to 302°F) setting of
temperature, detected by evaporator probe. Above this temperature value fans are
always OFF.
NOTE: it works only for the evaporator fan, NOT for the condenser
fan.
HYF
Evaporator fan regulator
differential:
(0.1 to 25.5°C; 1 to 45°F) evaporator fan will
stop when the measured temperature (from FAP) is T<FSt-HYF.
FnC
Evaporator fan operating mode:
(Cn; on; CY; oY)
•
Cn
= runs with the compressor, duty-cycle when compressor is OFF (see
FoF
,
Fon
,
FF1
and
Fo1
parameters) and OFF during defrost
•
on
= continuous mode, OFF during defrost
•
CY
= runs with the compressor, duty-cycle when compressor is OFF (see
FoF
,
Fon
,
FF1
and
Fo1
parameters) and ON during defrost
•
oY
= continuous mode, ON during defrost
Fnd
Evaporator fan delay after defrost cycle:
(0 to 255 min) delay before fan activation
after any defrosts.
FCt
Differential for cyclic activation of evaporator fans:
(0 to 50°C)
Ft
Evaporator fan controlled during any defrost:
(n;Y)
Fon
Evaporator fan ON time in normal mode (with compressor OFF):
(0 to 15 min)
used when energy saving status is not active.
FoF
Evaporator fan OFF time in normal mode (with compressor OFF):
(0 to 15 min)
used when energy saving status is not active.
FAC
Probe selection for condenser fan:
(nP; P1; P2; P3; P4)
nP
=no probe;
Px
=probe
“x”. Note:
P4
=Probe on Hot Key plug.
St2
Set Point 2 regulation (for condenser fan):
(-100 to 150°C; -148 to 302°F) setting
of temperature detected by evaporator probe. Above this value of temperature fans
are always OFF.
HY2
Set Point 2 differential (for condenser fan):
(0.1 to 25.5°C; 1 to 45°F) differential
for evaporator ventilator regulator
FCC
Condenser fan operating mode:
(Cn; on; CY; oY)
•
Cn
= runs with the compressor and OFF during defrost
•
on
= continuous mode, OFF during defrost
•
CY
= runs with the compressor and ON during defrost
•
oY
= continuous mode, ON during defrost
Fd4
Condenser fan activated when compressor off:
(0 to 999 sec) interval with
condenser fan on after stopping compressor and when
FCC=C-n
or
C-Y
AUXILIARY
ACH
Type of control for auxiliary regulator:
(Ht; CL)
Ht
= heating;
CL
= cooling.
SAA
Set Point for auxiliary regulator:
(-100.0 to 150.0°C; -148 to 302°F) it defines the
room temperature set point to switch auxiliary relay.
SHY
Auxiliary regulator differential:
(0.1 to 25.5°C; 1 to 45°F) differential for auxiliary
output set point.
•
ACH=CL
, AUX Cut in is [
SAA+SHY
]; AUX Cut out is
SAA
.
•
ACH=Ht
, AUX Cut in is [
SAA
–
SHY]
; AUX Cut out is
SAA
.
ArP
Probe selection for auxiliary regulator:
(nP; P1; P2; P3; P4)
nP
= no probe, the
auxiliary relay is switched only by the digital input;
Px
=probe “x”. Note:
P4
=Probe on
Hot Key plug.
Sdd
Auxiliary regulator disabled during any defrost cycle:
(n; Y)
n
= the auxiliary
relay operates during defrost.
Y
= the auxiliary relay is switched off during defrost.
ALARMS
ALP
Probe selection for temperature alarms:
(nP; P1; P2; P3; P4)
nP
=no probe;
Px
=probe “x”. Note:
P4
=Probe on Hot Key plug.
ALC
Temperature alarm configuration:
(Ab, rE)
Ab
= absolute;
rE
= relative.
ALU
High temperature alarm:
when this temperature is reached, the alarm is enabled
after the
Ad
delay time.
•
If
ALC=Ab
→
ALL to 150.0°C or ALL to 302°F.
•
If
ALC=rE
→
0.0 to 50.0°C or 0 to 90°F.
ALL
Low temperature alarm:
when this temperature is reached, the alarm is enabled
after the
Ad
delay time.
•
If
ALC=Ab
→
-100.0°C to ALU or -148°F to ALU.
•
If
ALC=rE
→
0.0 to 50.0°C or 0 to 90°F.
AFH
Temperature alarm differential:
(0.1 to 25.0°C; 1 to 45°F) alarm differential.
ALd
Temperature alarm delay:
(0 to 255 min) delay time between the detection of an
alarm condition and the relative alarm signalling.
dAo
Temperature alarm delay at start-up:
(0.0 to 24h00min, res. 10 min) delay time
between the detection of a temperature alarm condition and the relative alarm
signalling, after starting up the instrument.
SECOND TEMPERATURE ALARM
AP2
Probe selection for second temperature alarm:
(nP; P1; P2; P3; P4)
nP
=no probe;
Px
=probe “x”. Note:
P4
=Probe on Hot Key plug.
AL2
Second low temperature alarm:
(-100.0 to 150.0°C; -148 to 302°F)
Au2
Second high temperature alarm:
(-100.0 to 150.0°C; -148 to 302°F)
AH2
Second temperature alarm differential:
(0.1 to 25.0°C; 1 to 45°F)
Ad2
Second temperature alarm delay:
(0 to 255 min; 255 = not used) delay time
between the detection of a condenser alarm condition and the relative alarm
signaling.
dA2
Second temperature alarm delay at start-up:
(0.0 to 24h00min, res. 10 min)
bLL
Compressor OFF due to second low temperature alarm:
(n; Y) n = no, the
compressor continues to work; Y = yes, the compressor is switched off while the
alarm is ON; in any case, the regulation restarts after AC time at minimum.
AC2
Compressor OFF due to second high temperature alarm:
(n; Y) n = no, the
compressor continues to work; Y = yes, the compressor is switched off while the
alarm is ON; in any case, the regulation restarts after AC time at minimum.
SAF
Differential for anti-freezing control:
(-12.0 to 12.0°C; -21.0 to 21.0°F) the
regulation stops if
T<SET+SAF
.
CONFIGURABLE RELAYS
oA1
to
oA3
Relay output oAx configuration:
•
nu
= not used
•
onF
= always on with instrument on
•
dEF
= defrost
•
Fan
= evaporator Fan
•
Alr
= alarm
•
LiG
= light
•
AUS
= auxiliary output
•
db
= neutral zone
•
CP1
= ONOFF compressor
•
CP2
= second ONOFF compressor
•
dF2
= second defrost
•
HES
= energy saving
•
HEt
= heater output control
•
inV
= inverter output
•
Cnd
= condenser fan.
1Ao
Analogue output configuration:
(n;Y)
n
= 5-pin port is used as HOT-KEY only;
Y
=
5-pin port is used as frequency output.
AoP
Alarm relay polarity:
(oP; CL)
oP
= alarm activated by closing the contact;
CL
=
alarm activated by opening the contact.
DIGITAL INPUTS
ibt
Base time for digital inputs:
(SEC; Min)
SEC
= seconds;
Min
= minutes. Delay in
activating the function linked to the digital inputs.
i1P
Digital input 1 polarity:
(oP; CL)
oP
= activated by closing the contact;
CL
=
activated by opening the contact.
i1F
Digital input 1 configuration:
•
EAL
= external warning alarm
•
bAL
= external lock alarm
•
PAL
= external pressure alarm
•
dor
= door switch function
•
dEF
= defrost activation
•
AUS
= auxiliary output
•
Htr
= type of inverting action (cooling or heating)
•
ES
= energy saving mode activation
•
HdF
= holiday defrost
•
onF
= ON/OFF status change
•
Lnt
= change configuration (between Lt and nt)
did
Digital input 1 alarm delay:
(0 to 255) delay between the detection of an external
event and the activation of the relative function.
nPS
Number of external pressure switch alarms before stopping the regulation:
(0 to
15) after reaching nPS events in the digital input alarm delay (par.
dxd
), the
regulation will be stopped and a manual restart (ON/OFF, power OFF and power ON)
will be required
odC
Compressor and fan status after door opening:
(no; FAn; CPr; F-C): no = normal;
FAn = Fans OFF; CPr = Compressor OFF; F-C = Compressor and fans OFF.
rrd
Regulation restart after door alarm:
(n; Y) n = no regulation if the door is open; Y =
when the rrd timer elapses, the regulation restarts even if a door open alarm is ON.
