DIXELL S.r.l. 01XRCHC Manuale Utente
XRB60CHC EN r1.1 2018.11.01.docx
XRB60CHC
5/7
d2d
Digital inputs 2 alarm delay: (0 to 255) it is the delay between the detection of an external
event and the activation of the relative function.
event and the activation of the relative function.
nPS
Number of external pressure 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
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.
FAn = Fans OFF; CPr = Compressor OFF; F-C = Compressor and fans OFF.
rrd
Regulation restart after door open alarm: (n; Y) n = no regulation if door is opened; Y = when
did is elapsed, regulation restarts even if a door open alarm is present.
did is elapsed, regulation restarts even if a door open alarm is present.
LCi
Light output controlled by digital input: (0 to 255)
ENERGY SAVING
ErA
Energy reduction algorithm used: (nu; bAS; Aut) nu=no energy saving algorithm used;
bAS=basic energy saving algorithm; Aut=automatic energy saving algorithm.
bAS=basic energy saving algorithm; Aut=automatic energy saving algorithm.
nbo
Threshold for mode change (normal mode to energy saving mode): (0 to 10)
HES
Differential for energy saving mode: (-30.0 to 30.0°C; -54 to 54°F) it sets the increasing
value of the set point during the Energy Saving cycle.
value of the set point during the Energy Saving cycle.
LdE
Energy saving mode controls the lights (lights off when energy saving goes active): (n;
Y) the light status depends on the energy saving mode and is managed from ErA.
Y) the light status depends on the energy saving mode and is managed from ErA.
Aid
Period of analysis for ErA (valid if ErA=Aut): (1 to 20 days) set the interval of time for temperature
variation analysis.
variation analysis.
nCA
Number of contiguous cells to activate Energy Saving (valid if ErA=Aut): (1 to 20) minimum
pattern (1 cell = 30 min) without activity for energy saving activation
pattern (1 cell = 30 min) without activity for energy saving activation
nCC
Number of contiguous cells with energy saving for Set-Point variation (valid if ErA=Aut): (1 to
12) minimum interval of time for SET-POINT variation by steps (1°C or 1°F every 30 minutes)
Pdt
Automatic Pull Down after energy saving: (0 to nCC) energy saving mode is deactivated in advance
(0=0min, 1=30 min)
(0=0min, 1=30 min)
tun
System tuning: L=low sensibility; H=high sensibility
PPv
Temperature probe used for temperature variation analysis: (P1, P2, P3, P4) which probe is used
from Energy Reduction Algorithm
FEn
Force status change from energy saving mode to normal mode (valid if ErA=Aut): number of
intervals with activity for mode changing
intervals with activity for mode changing
FnE
Force status change from normal mode to energy saving mode (valid if ErA=Aut): number of
intervals without activity for mode changing
StE
Period of time to switch from normal mode to energy saving mode (valid if ErA=bAS):
(0.0 to 24h00min, res. 10 min) if door stay closed for StE time, the energy saving mode will be
activated. NOTE: this will require a door switch to work.
(0.0 to 24h00min, res. 10 min) if door stay closed for StE time, the energy saving mode will be
activated. NOTE: this will require a door switch to work.
EtS
Period of time to switch from energy saving mode to normal mode (valid if ErA=bAS):
(0.0 to 24h00min, res. 10 min) maximum time for energy saving mode. NOTE: this will require a
door switch to work.
(0.0 to 24h00min, res. 10 min) maximum time for energy saving mode. NOTE: this will require a
door switch to work.
dS
Door open time to switch from EtS to StE (valid if ErA=bAS): (0 to 999 sec) the energy
saving mode will be immediately deactivated as soon as the door stay open more than the dS
time. NOTE: this will require a door switch to work.
saving mode will be immediately deactivated as soon as the door stay open more than the dS
time. NOTE: this will require a door switch to work.
TOTAL COUNTERS
n1H
Number of relay output 1 activations (thousands of) (read only)
n1L
Number of relay output 1 activations (hundreds of) (read only)
n2H
Number of relay output 2 activations (thousands of) (read only)
n2L
Number of relay output 2 activations (hundreds of) (read only)
n3H
Number of relay output 3 activations (hundreds of) (read only)
n3L
Number of relay output 3 activations (hundreds of) (read only)
n4H
Number of relay output 4 activations (thousands of) (read only)
n4L
Number of relay output 4 activations (hundreds of) (read only)
n5H
Number of digital input 1 activations (thousands of) (read only)
n5L
Number of digital input 1 activations (hundreds of) (read only)
n6H
Number of digital input 2 activations (thousands of) (read only)
n6L
Number of digital input 2 activations (hundreds of) (read only)
n7H
Number of digital input 3 activations (thousands of) (read only)
n7L
Number of digital input 3 activations (hundreds of) (read only)
n8H
Number of digital input 4 activations (thousands of) (read only)
n8L
Number of digital input 4 activations (hundreds of) (read only)
F1H
Number of working hours for relay output oA1 (thousands of) (read only)
F1L
Number of working hours for relay output oA1 (hundreads of) (read only)
F2H
Number of working hours for relay output oA2 (thousands of) (read only)
F2L
Number of working hours for relay output oA2 (hundreads of) (read only)
F3H
Number of working hours for relay output oA3 (thousands of) (read only)
F3L
Number of working hours for relay output oA3 (hundreads of) (read only)
F4H
Number of working hours for relay output oA4 (thousands of) (read only)
F4L
Number of working hours for relay output oA4 (hundreads of) (read only)
BLUETOOTH
rPS
Reset owner password: (n;Y) select and confirm YES for reset Owner Password and come
back to default factory configuration. NOTE: remember to cancel the device also from the Cloud
database (click on “Delete” link present on the right of the appliance card present on the
“Permissions” webpage.
back to default factory configuration. NOTE: remember to cancel the device also from the Cloud
database (click on “Delete” link present on the right of the appliance card present on the
“Permissions” webpage.
OTHER
Adr
Serial address for Modbus communication: 1 to 247
bAU
Baudrate: (9.6; 19.2; 38.4; 57.6) select the correct baudrate for serial communication (wired)
LGC
Light button configuration: nu=not used; ES=change working mode from normal to energy
saving mode and vice-versa; LiG=light output control; AUS=auxiliary output control;
dEF=defrost control; Pb2=probe 2 value visualization
saving mode and vice-versa; LiG=light output control; AUS=auxiliary output control;
dEF=defrost control; Pb2=probe 2 value visualization
LG2
Light button configuration (timed, 3 sec): nu=not used; ES=change working mode from
normal to energy saving mode and vice-versa; LiG=light output control; AUS=auxiliary output
control; dEF=defrost control; Pb2=probe 2 value visualization; ErA=reset of Energy Reduction
Algorithm pattern
normal to energy saving mode and vice-versa; LiG=light output control; AUS=auxiliary output
control; dEF=defrost control; Pb2=probe 2 value visualization; ErA=reset of Energy Reduction
Algorithm pattern
dnC
Down button configuration: nu=not used; ES=change working mode from normal to energy
saving mode and vice-versa; oFF=device ON/OFF control; Cnt=counter menu
saving mode and vice-versa; oFF=device ON/OFF control; Cnt=counter menu
dn2
Down button configuration (timed 3 sec): nu=not used; ES=change working mode from
normal to energy saving mode and vice-versa; oFF=device ON/OFF control; Cnt=counter
menù
normal to energy saving mode and vice-versa; oFF=device ON/OFF control; Cnt=counter
menù
uPC
UP button configuration: nu=not used; AUS=auxiliary output control; dEF=defrost control;
Cnt=counter menu
Cnt=counter menu
uP2
UP button configuration (timed 3 sec): nu=not used; ES=change working mode from normal
to energy saving mode and vice-versa; CC=do not select it
to energy saving mode and vice-versa; CC=do not select it
d1
Probe P1 value visualization (read only)
d2
Probe P2 value visualization (read only)
d3
Probe P3 value visualization (read only)
d4
Probe P4 value visualization (read only)
rSE
Real Set point (SET + ES + oHx)
FdY
Firmware release: day (read only)
FMt
Firmware release: month (read only)
FYr
Firmware release: year (read only)
rEL
Firmware Release (read only)
Ptb
Parameter code table (read only)
11 DIGITAL INPUT
The free voltage digital input is programmable in different configurations by the i1F and i2F.
DOOR SWITCH (ixF=dor)
It signals the door status and the corresponding relay output status through the odC parameter:
no = normal (any change); FAn = Fan OFF; CPr = Compressor OFF; F-C = Compressor and fan OFF.
Since the door is opened, after the delay time set through parameter did, the door alarm is enabled,
Since the door is opened, after the delay time set through parameter did, the door alarm is enabled,
the display shows the message “dA” and the regulation restarts if rrd = Y. The alarm stops as soon
as the external digital input is disabled again. With the door open, the high and low temperature alarms
as the external digital input is disabled again. With the door open, the high and low temperature alarms
are disabled.
START DEFROST (ixF=dEF)
It starts a defrost if there are the right conditions. After finishing any defrost, the normal regulation will
restart only if the digital input is disabled, otherwise the instrument will wait until the MdF safety time is
expired.
expired.
ENERGY SAVING (ixF=ES)
The energy saving mode will be enabled / disabled with the digital input.
MOTION SENSOR (ixF=MS)
The external motion sensor activation is counted.
AUXILIARY OUTPUT (ixF=AUS)
The AUX output (if present and configured) will be enabled / disabled with the digital input.
EXTERNAL WARNING ALARM (ixF=EAL)
It is used to detect an external alarm. This signal does not lock the regulation.
EXTERNAL LOCK ALARM (ixF=bAL)
It is used to detect any critical external alarm. This signal locks immediately the regulation.
EXTERNAL PRESSURE ALARM (ixF=PAL)
It is used to detect any pressure external alarm. This signal locks the regulation after nPS events in
dxd interval od time.
REMOTE HOLYDAY MODE (ixF=HdF)
It is used to force the holyday mode.
REMOTE ONOFF (ixF=onF)
It is used to switch ON and OFF the device remotely.
12 INSTALLATION AND MOUNTING
Instrument XRB60CHC shall be mounted on vertical panel, in a
29x71 mm hole, and fixed using the special bracket supplied.
29x71 mm hole, and fixed using the special bracket supplied.
The temperature range allowed for correct operation is -20 to
60°C. Avoid places subject to strong vibrations, corrosive gases,
60°C. Avoid places subject to strong vibrations, corrosive gases,
excessive dirt or humidity. The same recommendations apply to
probes. Let air circulate by the cooling holes.
probes. Let air circulate by the cooling holes.
13 OPTIONAL FEATURES
The MDP/CX rear cover can be used to increase the protection
from water and dust.
The HOT-KEY is used for a quick and easy upload (from device
to HOT-KEY) or download (from HOT-KEY to device) of the
to HOT-KEY) or download (from HOT-KEY to device) of the
parameter map.
The BLU serial interface converts the TTL output into an RS485
signal that can be used to connect the unit to the controlling and
supervising system. Please note that standard version of this
supervising system. Please note that standard version of this
converter does not work with XR-CHC devices.
14 ELECTRICAL CONNECTIONS
The instrument is provided with screw terminal block to connect cables with a cross section up to
2.5mm
2.5mm
2
. Before connecting cables make sure the power supply complies with the instrument’s
requirements. Separate the probe cables from the power supply cables, from the outputs and the
power connections. Do not exceed the maximum current allowed on each relay, in case of heavier
power connections. Do not exceed the maximum current allowed on each relay, in case of heavier
loads use a suitable external relay.
14.1
PROBES
The probes shall be mounted with the bulb upwards to prevent damages due to casual liquid
infiltration. It is recommended to place the thermostat probe away from air streams to correctly
infiltration. It is recommended to place the thermostat probe away from air streams to correctly
measure the average room temperature. Place the defrost termination probe among the evaporator
fins in the coldest place, where most ice is formed, far from heaters or from the warmest place during
fins in the coldest place, where most ice is formed, far from heaters or from the warmest place during
defrost, to prevent premature defrost termination.