Danfoss AK-RC 305W Temperature Controller for Walk In Coolers and Freezers Installation Guide
- June 5, 2024
- Danfoss
Table of Contents
ENGINEERING
TOMORROW
Installation Guide
Temperature controller for walk-in coolers and freezers, Type AK-RC 305W
Warnings
-
If the equipment is used without adhering to the manufacturer’s instructions, the device safety requirements could be compromised. Only probes supplied by Danfoss must be used for the unit to operate correctly.
-
From -40 – +20 °C, if the NTC probe is extended to 1000 m with at least 0.5 mm² cables, the maximum deviation will be 0.25 °C
-
It should be installed in a place protected from vibrations, water, and corrosive gases, where the ambient temperature does not exceed the value indicated in the technical data.
-
For the reading to be correct, the probe should be used in a place without heat influences apart from the temperature you want to measure or control.
-
The IP65 protection degree is only valid with the protection cover closed.
-
The IP65 protection degree is only valid if the cables enter the device using a tube for electric conductions + gland with IP65 or above.
The size of the glands should be suitable for the diameter of the tube used. -
Do not spray the unit directly with high-pressure hoses, as this could cause damage.
IMPORTANT:
- Before starting the installation, you must take the advice of local regulations in force.
- The AUXILIARY relays are programmable, and their operation depends on the configuration.
- The function of the digital inputs depends on the configuration.
- The recommended currents and powers are the maximum working currents and powers.
Wiring
Always disconnect the power supply to do the wiring.
The probes and their cables should NEVER be installed in a conduit together
with power, control, or power supply cables.
For disconnection, the power supply circuit must be equipped with at least a 2
A, 230 V switch, located near the device. The power
supply cable shall be of the H05VV-F or NYM 1×16/3 type. The cross-section to
be used will depend on the local regulations in force, but must never be less
than 1.5 mm².
Cables for relay or contactor outputs must have a cross-section of 2.5 mm² and
allow working temperatures equal to or over 70 °C and must be installed with
as little bending as possible.
The 120/230 V~ wiring area must be kept clear of any other external element.
The wiring to be undertaken depends on the option selected in the initial
configuration wizard. Use the appropriate diagram based on the option
selected. Check the available options on the diagrams included in the
controller’s packaging. Wizard refers to a built-in tool to guide the user
through the setup process.
Maintenance
- Clean the surface of the unit with a soft cloth, water, and soap.
- Do not use abrasive detergents, petrol, alcohol, or solvents, as this might damage the unit.
Keypad
| Pressing it for 3 seconds activates/deactivates Stand-By mode. In this
mode, regulation is paused and the icon is displayed.
In the programming menu, this exits the parameter without saving changes,
returns to the previous level, or exits programming.
---|---
| Pressing once without holding displays the temperature of probe S2 for 2
seconds (if it is enabled).
Pressing it for 3 seconds starts/stops the defrost.
In the programming menu, this allows scrolling around the different levels,
or, during the setting of a parameter, changing its value.
| A brief press shows the ADAPTIVE mode operating alerts.
Pressing it for 3 seconds activates/deactivates continuous cycle mode.
In the programming menu, this allows scrolling around the different levels,
or, during the setting of a parameter, changing its value.
| Pressing once without holding activates/deactivates the cold room light.
Pressing it for 3 seconds accesses the condensed programming menu.
Pressing it for 6 seconds accesses the expanded programming menu.
In the programming menu, this accesses the level shown on the display or,
during the setting of a parameter, accepts the new value.
| Pressing once without holding displays the current effective value of the
Set Point, taking into consideration temporary modifications by other
parameters (C10 or C12).
When an alarm is in progress, pressing once without holding mutes the acoustic
alarm. Pressing for 3 seconds accesses the Set Point setting.
Indicators
| Fixed: Stand-by Mode activated. Regulation is paused.
Flashing: Controlled shutdown process for the regulation in progress.
---|---
| Fixed: Cold room door open.
Flashing: The door has been open for a greater time than has been defined
in parameter A12.
| There is an active alarm, but not an active HACCP alarm.
| Fixed: HACCP alarm active.
Flashing: HACCP alarm registered and unconfirmed.
Press the key to confirm a HACCP alarm.
| Fixed: The ADAPTIVE mode is active.
Flashing: An error has been detected in the ADAPTIVE mode.
| Fixed: Evaporator fans are active.
Flashing: The evaporator fans should be active but a delay is preventing
this.
| Fixed: The cold solenoid is active.
Flashing: The solenoid should be active but a delay or protection is
preventing this.
| Fixed: Compressor active.
Flashing: The compressor should be active but a delay or protection is
preventing this.
| Defrost relay active.
| The continuous cycle mode is active.
| Cold room light active.
| The alarm in progress is muted.
| Temperature displayed in ° Fahrenheit / ° Centigrade.
| Programming mode active.
STAND-BY
If the temperature regulation cannot be instantly stopped due to its
configuration, a controlled stop process starts, and the icon flashes. To stop
the controlled stop process and force the step to Stand-by, press the Stand-by
key again for 3 seconds.
Installation of the probes
To achieve maximum performance from the advanced controller, the correct installation of the probes is key, as they are responsible for calculating the evaporator’s thermal transfer coefficient, evaluating the start and end of the defrosts, and diagnosing problems in the evaporator.
Material included
- 4 mm hermetic evaporator probe, 1.5 m of cable.
- Ambient probe
- 1 mounting clip for 10 – 13 mm coil
- 1 mounting clip for 14 – 18 mm coil
- 1 mounting clip for 19 – 21 mm coil
- 1 mounting clip for 22 – 25 mm coil
Location of the ambient probe
The probe should be located in a place that does not directly receive the flow
of cold air from the evaporator.
Preferably in its air aspiration area.
Location of the evaporator probe
The probe must be located as near as possible to the inlet of refrigerant from
the evaporator (close to the expansion valve) in the finned area. In certain
evaporators, for example, cubic ones, this inlet may be located on the front
part of the battery, just behind the fan.
If defrost is done by electric heat, the probe must be located far away from
them and, if possible, in the area of the evaporator where defrosting is
slower, in other words, in the last area to defrost.
If the two conditions are not possible, the best possible compromise must be
looked for.
Select the appropriate clip depending on the size of its evaporator pipe.|
Attach the probe to the pipe using the clip, making sure that its end is in
direct contact with the tube.| Bend the fins of both ends of the probe to
increase the fixing and contact surface.
---|---|---
Initial configuration (wizard)
The first time the unit receives the power supply, it will enter into
ASSISTANT mode. The display will show the message flashing with 0.
Step 1:
Select the most suitable InI option based on the type of installation to be
carried out and press SET. The available options will be shown in the
following table:
Inl| Type of installation| Parameters| Diagram to be
used
---|---|---|---
Cold regulation| Pump
Down| Defrost| Evap.
fans| Pd| o00| I00| I10| I11| I20|
I21| dl| d7| F3
0| Demo Mode: it displays the temperature but does not| regulate the
temperature or activate relays
1| Solenoid| No| Electric| Yes| 0| 0| 2| 0| 0| 0| 0| 20| 0| 0| A
2| Solenoid + compressor| Yes| Electric| Yes| 1| 1| 2| 7| 1| 0| 0| 20| 0| 0| B
3| Solenoid + compressor| No| Electric| Yes| 0| 1| 2| 0| 0| 0| 0| 20| 0| 0| B
4| Solenoid| No| Air| Yes| 0| 0| 1| 0| 0| 0| 0| 20| 1| 1| A
5| Solenoid + compressor| Yes| Air| Yes| 1| 1| 1| 7| 1| 0| 0| 20| 1| 1| B
6| Solenoid + compressor| No| Air| Yes| 0| 1| 1| 0| 0| 0| 0| 20| 1| 1| B
7| Solenoid + compressor| Yes| Hot gas| Yes| 1| 1| 2| 7| 1| 9| 1| 5| 2| 0| C
8| Solenoid + compressor| No| Hot gas| Yes| 0| 1| 2| 0| 0| 9| 1| 5| 2| 0| C
Note: If options 2, 5, or 7 are chosen, check the configuration of parameter I11 according to the pressure switch type used. (See diagram included with the device).
Step 2:
Use keys and to enter the desired Temperature Set Point value and press SET.
The configuration wizard has finished. The unit will begin to regulate the
temperature.
If this is not the first time you use the wizard, after completing the last
step the display will show the message dFp (default parameters). You may
choose between two options:
0: Only changing the parameters which affect the wizard. The other parameters
will remain the same.
1: All parameters return to their factory setting except those which have been
modified by the wizard. Important: The wizard will not reactivate. To
enter the wizard mode, initiate Stand-by mode by pressing the key for 3
seconds and wait until the unit completely halts the temperature regulation
(the indicator will light up permanently) and press the following keys in
sequence one after the other, , , SET.
Stand-by: If the regulation cannot be instantly stopped due to its
configuration, a controlled stop process starts, and the icon flashes.
To stop the controlled stop process and force the step to Stand-by, press the
Stand-by key again for 3 seconds.
Operation
Display messages
| Pump down malfunction error (stop), the time configured in parameter C20
has been exceeded.
Only displayed on the screen.
---|---
| Pump down malfunction error (start-up), the time configured in parameter C19
has been exceeded.
Only displayed on the screen.
| Probe 1/2/3 failure (open circuit, crossed circuit or temperature outside
the limits of the probe)
(Equivalent limits in °F).
Only E2 and E3: Damp evaporator probe.
Activates the alarm relay and the audible alarm.
Flashing with temperature: Probe error 1/2/3 in ADAPTIVE mode.
Flashing with CAL: Probe error 1/2/3 during the calibration.
| Open door alarm. Only if the door remains open for a longer time than
defined in parameter A12.
Activates the alarm relay and the audible alarm.
| Maximum temperature in control probe alarm. The temperature value programmed
in A1 has been reached.
Activates the alarm relay and the audible alarm.
| The minimum temperature in the control probe alarm. The temperature value
programmed in A2 has been reached.
Activates the alarm relay and the audible alarm.
| External alarm activated (by digital input).
Activates the alarm relay and the audible alarm.
| Severe external alarm activated (by digital input).
Activates the alarm relay and the audible alarm.
| Alarm for defrosting completed due to time-out. The time set in d1 has been
exceeded.
Activates the alarm relay and the audible alarm.
| HACCP alarm. The temperature has reached the value of parameter h1 during a
longer period than established in h2.
Activates the alarm relay and the audible alarm.
| HACCP alarm due to a power supply failure. The temperature established in h1
has been reached, following a power supply failure. Activates the alarm relay
and the audible alarm.
| Indicates that a defrost is being performed.
Only displayed on the screen.
| Password request. See parameters b10 and PAS.
Only displayed on the screen.
| Shown sequentially with the temperature: The controller is in demo mode, and
the configuration has not been made.
| Calibration is ongoing, therefore, avoid, as far as possible, opening the
cold room during the process.
| Flashing with temperature: Configuration has been changed from 1 to 2
evaporators or vice versa.
ADAPTIVE MODE ALERT MESSAGES (Only shown pressing the key)
| Defrost end error in 1/2 evaporator during the calibration, defrost has not
ended due to temperature.
---|---
| Error during calibration in 1/2 evaporator. There is not enough difference
in temperature between the cold room probe and the evaporator probe.
| It has not been possible to carry out the calibration due to a lack of
stability in the system (Excessive door opening, excessive oscillations in the
lower pressure, etc.).
| Error during normal operation (ADAPTIVE Mode active) in 1/2 evaporator.
There is not enough difference in temperature between the cold room probe and
the evaporator probe.
| A lack of stability has been detected in the system (Excessive door opening,
excessive oscillations in the low pressure,
etc.) during normal operation (ADAPTIVE Mode active).
| The persistent lack of stability has led to the deactivation of the ADAPTIVE
mode.
| Excessive door openings have been detected during calibration and it has not
been possible to calibrate.
| Excessive door openings have been detected and the device cannot regulate in
ADAPTIVE mode.
ADAPTIVE mode
If the ADAPTIVE mode is activated (default configuration), the device
periodically evaluates the evaporator’s heat transfer, managing the available
resources to maximize it.
The defrosts are minimized, adapting to the changing conditions of the cold
room, reducing heat input into the refrigerated space, thermal stress in the
evaporator, and energy consumption.
The operation of the evaporate fans is optimized by taking into account the
compressor status, evaporate temperature, frost level, the opening of the
door, etc.
The control function of the drainage resistor minimizes its activation
(moments before starting a defrost), thereby reducing energy consumption.
To achieve the correct operation of the ADAPTIVE mode, it is very important
for the probes to be correctly installed, as described on page 3.
Calibration
During the first hours of operation, the device performs two calibrations
automatically, during which the display shows the CAL message.
Calibration may take several hours and include several refrigerations and
defrost cycles.
During the calibration processes, the following should be avoided:
- Opening the cold room door
- Turning the controller off or putting it on stand-by
- Changing controller parameters, including the set point
IMPORTANT:
While the calibration process is active:
- Manual defrost cannot be activated ( key)
- The continuous cycle cannot be activated
- The set point change function cannot be activated
If calibration cannot be performed, or if an important part of the
installation is replaced (compressor, evaporator, etc.) it is advisable to
perform a manual calibration.
It is also recommended (not essential) to perform a manual calibration, once
the installation has completed its commissioning, with a load inside it and
when its operating temperature has been stabilized, after several days of
operation, in this way calibration is optimal.
In the event of changing the set point or hysteresis, the device performs a
calibration again automatically, except if the set point change is made using
the “set point change mode” function.
To perform a manual calibration, access the parameter menu and follow the sequence indicated below:
- Access parameter b30
- A security code is requested, enter code 63
- Using keys, select option 1 and press SET
Configuration
Condensed programming menu
This allows for the most-used parameters to be quickly configured.
Press the SET key for 3 seconds to access it.
Parameters
Lv 2 | Description | Val. | Min. | Def. | Max. |
---|---|---|---|---|---|
SP | Temperature setting (Set Point) | °C/°F | -50 | 0.0 | 99 |
CE | ADAPTIVE Mode 0=Deactivated, 1= Activated | 0 | 1 | 1 | |
Cl | Probe 1 differential (Hysteresis) | °C/°F | 0.1 | 2.0 | 20.0 |
dO | Defrost frequency (Time between 2 starts) | H. | 0 | 6 | 96 |
dl | Maximum defrost duration (0=defrost deactivated) | Min. | 0 | 255 | |
d4 | Final defrost temperature (by the probe) (If P4 #1) | °C/°F | 50 | 8.0 | 50 |
F3 | Status of the fans during the defrost: 0=Shut down, 1=Running | 0 | 0 | 1 | |
At | Alarm for the maximum in probe 1 (It should be higher than the SP) | °C/°F | |||
A2 | 99 | 99 | |||
A2 | Alarm for minimum in probe 1 (It should be lower than the SP) | °C/°F | 50 | ||
50 | At | ||||
d30 | Defrost strategy in ADAPTIVE mode | 0 | 5 | 10 |
Extended programming menu
Use the extended programming menu to configure all of the unit’s parameters in
order to adapt it to your installation requirements.
Press the SET key for 6 seconds to access it.
Important:
- If the password function has been configured as a keypad lock (b10=2), or as access to parameters block (b10=1), you will be requested to enter the password programmed in PAS when attempting to access either of the two functions. If the entered password is not correct, the unit will go back to showing the temperature.
- Certain parameters or menus may not be visible depending on the configuration of the rest of the parameters.
Regulation and control
Level 1| Level 2| Description| Values| Min.|
Def.| Max.
---|---|---|---|---|---|---
rE| SP| Temperature setting (Set Point)| °C/°F| -50| 0| 99
CE| ADAPTIVE Mode: 0=Deactivated, 1= Activated| | 0| 1| 1
C0| Probe 1 & 2 calibration (Offset)| °C/°F| -4| 0| 4
C1| Probe 1 differential (Hysteresis)| °C/°F| 0.1| 2| 20
C2| Set Point top locking (it cannot be set above this value)| °C/°F| C3| 99|
99
C3| Set Point bottom locking (it cannot be set below this value)| °C/°F| -50|
-50| C2
C4| Type of delay for the protection of the compressor:
0=Minimum time of compressor in OFF
1=Minimum time of compressor in OFF and in ON in each cycle| | 0| 0| 1
C5| Protection delay time (value of the option selected in parameter C4)|
Min.| 0| 0| 120
C6| COOL relay status with a fault in probe 1:
0=OFF; 1=ON; 2=Average according to last 24 h prior to probe error
3=ON-OFF according to prog. C7 and C8| | 0| 2| 3
C7| Relay time in ON in the event of probe 1 failure (If C7=0 and C8≠0, the
relay will always be disconnected in OFF)| Min.| 0| 10| 120
C8| Relay time in OFF in the event of probe 1 failure (If C8=0 and C7≠0, the
relay will always be connected in ON)| Min.| 0| 5| 120
C9| Maximum duration of the continuous cycle mode (0=deactivated)| H.| 0| 0|
48
C10| Variation of the Set Point (SP) in continuous cycle mode. When it reaches
this point (SP+C10), it reverts to the normal mode. (SP+C10 ≥ C3).
The value of this parameter is always negative unless it is 0. (0=OFF)| °C/°F|
0| -50| C3-SP
C12| Variation of the Set Point (SP) when the change Set Point function is
active.
(SP+C12 ≤ C2) (0= deactivated)| °C/°F| C3-SP| 0| C2-SP
C19| Maximum start time from Pump Down
(Values between 1 and 9 seconds will not be accepted) (0=deactivated)| Sec.|
0| 0| 120
C20| The maximum time for pump down (0= deactivated)| Min.| 0| 0| 15
C21| Probe to be displayed: 0=All probes (sequential), 1=Probe 1 (Cold Room),
2=Probe 2 (Evaporator), 3=Probe 3 (According to I20), 4=Weighted the
temperature of the cold room| | 0| 1| 3
C22| Stop fans and compressor on opening door 0=No, 1=Yes| | 0| 0| 1
C23| Start-up delay for fans and compressor with the door open| Min.| 0| 0|
999
C24| Delay time of cold stop with the door open.| Seg.| 0| 0| C23
C25| Influence of probe S3 when regulating with two temperature probes
(I20=10)| %| 0| 0| 95
C27| Probe 3 calibration (Offset)| °C/°F| -4| 0| 4
EP| Exit to level 1| | | |
Defrost
Level 1| Level 2| Description| Values| Min.|
Def.| Max.
---|---|---|---|---|---|---
dEF| dO| Defrost frequency (Time between 2 starts)| H.| 0| 6| 96
dl| Maximum defrost duration (0=defrost deactivated)| Min.| 0| .| 255
d2| Type of message during the defrost:
0=Displays the real temperature; 1=Displays the temperature at the start of
the defrost; 2=Displays the dEF message| | 0| 2| 2
d3| The maximum duration of the message (Time added at the end of the defrost
process)| Min.| 0| 5| 255
d4| Final defrost temperature (by probe) (1f100 . 1)| °CPF| -50| 8.0| 50
d 5| Defrost on connecting the unit:
0=NO First defrost according to d0; 1=YES, First defrost according to d6| | 0|
0| 1
d6| Delay of the defrost start on connecting the unit| Min.| 0| 0| 255
d7,| Type of defrosting:
0=Resistors; 1=Air/fans, 2=Hot gas; 3=Reversal of cycle| | 0| | 3
d 8| Count of time between defrost periods:
0=Total real-time, 1 =Sum of compressor connected time| | 0| 0| 1
d9| Drip time when completing defrost (Shutdown of compressor and fans)| Min.|
0| 1| 255
d30| Defrost strategy in ADAPTIVE mode| | | 5| 10
d31| Maximum time without defrosting (0=Deactivated)| H.| 0| 96| 999
d32| Maximum time of cold room outside the temperature regulation range
(0=Deactivated)| H.| 0| 2|
EP| Exit to level 1| | | |
- According to the wizard.
- It can only be modified using the configuration wizard (InI).
Evaporator fans
Level 1| Level 2| Description| Values| Min.|
Def.| Max.
---|---|---|---|---|---|---
FAn| FO| Shutdown temperature of fans| °CPF| -50| 45| 50
F1| Probe 2 differential if fans are shut down| °CPF| 0.1| 2.0| 20
F2| Shut down fans when the compressor shuts down: 0=No, 1=Yes| | 0| |
F3| Status of the fans during the defrost: 0=Shut down, 1=Running| | 0| 0| 1
F4| l’t ewt oc’nf Isytaartct-uuaPt:fitfeirt iisehfrigc)shterifth119| Min.| 0|
2| 99
EP| Exit to level 1| | | |
Alarms
Level 1 | Level 2 | Description | Values | Min. | Def. | Max. |
---|---|---|---|---|---|---|
AL | AO | Configuration of the temperature alarms: 0=Fielative to SP, Absolute | ||||
Al | Alarm for maximum A probe 1 (It should be higher than the SP) | °CrF | A2 | |||
99 | 99 | |||||
A2 | Alarm for minimum A probe 1 (It should be lower than the SP) | °CrF | -50 | |||
-50 | Al | |||||
A3 | Delay of temperature alarms in the start-up | M.. | 0 | 0 | 120 | |
A4 | Delay of temperature alarms from the end of a defrost | MA. | 0 | 0 | 99 | |
AS | Delay of temperature alarms from when the Al or A2 value is reached | 0 | ||||
30 | 99 |
A
””| Delay of the external alarm/Severe external alarm on receiving a signal A
digital input (110 or 120 = 2 or 3)| Min.| 0| 0| 120
A,
”’| Delay of external alarm deactivation/Severe external alarm deactivation
when the signal in digital input disappears (110 or 120 = 2 or 3)| Min.| 0| 0|
120
A8| Show warning if the defrost ends for maximum time: 0=No, 1=Yes| | 0| 0| 1
A9| Relay alarm polarity
0= Relay ON in alarm (OFF without alarm); 1= Relay OFF in alarm (ON without
alarm)| | 0| 0| 1
Al 0| The differential temperature alarms (A1 and A2)| °C/°F| 0.1| 1.0| 20.0
Al2| Delay of open door alarm (If 110 or 120=1)| Min.| 0| 10| 120
EP| Exit to level 1| | | |
Basic configuration
Level 1| Level 2| Description| Values| Min.|
Def.| Max.
---|---|---|---|---|---|---
BCN| b00| Delay of all functions on receiving power supply| Min.| 0| 0| 255
b01| Cold room light timing| Min.| 0| 0| 999
| RIncatic°t°f1psword Inive, lock access to parameters, 2=Block keypad| | 0|
0| 2
PAS| Access code (Password)| | 0| 0| 99
b20| MODBUS address| | 1| 1| 247
b21| Communication speed:
0=9600 bps, 1 =19200 bps, 2=38400 bps, 3=57600 bps
bps| | 0| 0| 3
b22| Acoustic alarm enabled: 0= No, 1=Yes| | 0| 1| 1
b30| Activation of manual calibration: 0=Deactivated, 1=Activated Requires
security code, see page 6.| | 0| 0| 1
Unt| Work units: 0.°C, 1=1| | 0| 1| 1
EP| Exit to level 1| | | |
Inputs and outputs
Level 1 | Level 2 | Description | Values | Min. | Def | Max. |
---|---|---|---|---|---|---|
In0 | I00 | Connected probes | ||||
1=Probe 1 (Cold room), 2=Probe 1 (Cold room) + Probe 2 (Evaporator) | 1 | 2 | 2 |
I10
1)| Configuration of digital input 1
0= Deactivated, 1=Door contact, 2=External alarm,
3=Severe external alarm, 4=Change of SP, 5=Remote defrost,
6=Defrost block, 7= Low-pressure switch, 8=Remote Stand-by| | 0| | 8
I11| The polarity of the digital input 1
0=Activates on closing contact; 1=Activates on opening contact| | 0| | 1
I20| Configuration of digital input 2
0= Deactivated, 1=Door contact, 2=External alarm,
3=Severe external alarm, 4=Change of SP, 5=Remote defrost,
6=Defrost block, 7=Register probe, 8=Probe 2° evaporator 2),
9=High pressure switch for Hot Gas, 10=2nd cold room temperature probe,
11=Product temperature, 12=Remote Stand-by| | 0| 0| 12
I21| The polarity of the digital input 2
0=Activates on closing contact; 1=Activates on opening contact| | 0| 0| 1
o00
1)| Configuration of relay AUX1
0=Deactivated, 1=Compressor/Resistor sump, 2=Light, 3=Virtual control| | 0| *|
3
o10| Configuration of relay AUX2
0=Deactivated, 1=Alarm, 2=Light, 3=Virtual control,
4=Door frame resistance, 5=Defrost 2° evaporator,
6=Same as solenoid status, 7=Same as unit status, 8=Drainage resistor| | 0| 2|
8
EP| Exit to level 1| | | |
- According to the wizard.
- It can only be modified using the configuration wizard (InI).
- Option not available in AK-RC 305W
HACCP alarm
Level 1| Level 2| Description| Values| Min.|
Def.| Max.
---|---|---|---|---|---|---
HCP| h1| Maximum temperature of HACCP alarm| °C/°F| -50| 99| 99
h2| Maximum permitted time for activation of the HACCP alarm (0=Disabled)| H.|
0| 0| 255
EP| Exit to level 1| | | |
Information (reading only)
Level 1| Level 2| Description| Values| Min.|
Def.| Max.
---|---|---|---|---|---|---
tid| InI| Option chosen in the configuration wizard| | | |
Pd1)| Pump down active? 0=No, 1=Yes| | | |
PU| Program version| | | |
Pr| Program revision| | | |
bU| Bootloader version| | | |
br| Bootloader revision| | | |
PAr| Parameter map revision| | | |
EP| Exit to level 1| | | |
- It can only be modified using the configuration wizard (InI).
Troubleshooting
Errors during calibration
The error message is displayed alternately with the CAL message. The icon
flashes.
Error | Description | Solution |
---|---|---|
El/E2/E3 | Probe error 1 / 2 / 3 | Check condition and wiring of the affected |
probe.
E10| Evaporator defrost error| Check defrost operation, it must end by
temperature (d4).
E20| Idem for El 0 but relating to the second evaporator
E11| The similar temperature in probes S1 and S2| Check the position of both
probes following recommendations on page 3.
E20| Idem for El 1 but relating to probe S3
El2| It has not been possible to carry out the calibration due to a lack of
stability in the system| Avoid opening the cold room doors during calibration.
Check the main components of the refrigeration circuit, in particular the
aspiration part.
E22| Idem for E12 but relating to the second evaporator
E17| Excessive door openings have been detected during calibration and it has
not been possible to calibrate.| Avoid opening the cold room doors during
calibration.
Errors during operation
The error message is displayed alternately with the temperature. The icon
flashes.
Error | Description | Solution |
---|---|---|
E1/E2/E3 | Probe error 1 / 2 / 3 | Check the condition and wiring of the |
affected probe.
E13| The similar temperature in probes S1 and S2| Check the position of both
probes following recommendations on page 3.
E23| Idem for E11 but relating to probe S3
E14| A lack of stability has been detected in the system| Check the main
components of the refrigeration circuit, in particular the aspiration part.
E24| Idem for E14 but relating to the second evaporator
E15| Persistent lack of system stability has led to the deactivation of the
ADAPTIVE mode| Check the main components of the refrigeration circuit, in
particular, the aspiration part and the position of probe 2 or 3.
To return to the ADAPTIVE mode restart the device.
E25| Idem for E15 but relating to the second evaporator
E16| The configuration has been changed from 1 to 2 evaporators or vice
versa.| If the configuration change is correct, start a manual calibration.
E18| Excessive door openings have been detected and the device cannot regulate
in ADAPTIVE mode.| Check that the door has not been left open or that it does
not open more than necessary.
Technical specifications
Features | Specifications |
---|---|
Power supply | 100 — 240 V— 50/60 Hz |
Maximum input power in the operation | 6.3 VA |
Maximum nominal current | 15 A |
Relay SSV /DEFROST – SPDT – 20 A | NO |
NC | EN60730-1: 15 (13)A 250 V— |
Relay FAN – SPST -16 A | EN60730-1: 12 (9) A 250 V— |
Relay COOL – SPST -16 A | EN60730-1: 12 (9) A 250 V— |
Relay AUX 1 – SPDT – 20 A | NO |
NC | EN60730-1: 15 (13)A 250 V— |
– –
Relay AUX 2 SPDT 16 A| NO| EN60730-1: 12 (9) A 250 V-
NC| EN60730-1: 10 (8) A 250 V—
No. of relay operations| EN60730-1:100.000 operations
Probe temperature range| -50.0 —+99.9 °C
The resolution, setting, and differential| 0.1 °C
Thermometric precision| ±1 °C
Loading tolerance of the NTC probe at 25 °C| ±0.4 °C
Working ambient temperature| -10 — +50 °C
Storage ambient temperature| -30 —+60 °C
Protection degree| IP 65
Installation category| II s/ EN 60730-1
Pollution degree| II s/ EN 60730-1
Control device classification| Built-in assembly, with Type 1. B automatic
operation action feature, for use in clean situations, logical support
(Software) class A and continuous operation. Degree of contamination 2 acc. to
UNE-EN 60730-1.
Double isolation between the power supply, secondary circuit, and relay
output.
The temperature during a ball-pressure test| Accessible parts: 75 °C
Parts which position active elements: 125 °C
The current radio jamming suppression tests| 270 mA
Voltage and current as per EMC tests| 207V, 17 mA
Type of Assembly| Fixed internal
MODBUS address| Shown on label
Dimensions| 290 mm (W) x 141 mm (H) x 84.4 mm (D)
Internal buzzer| Yes
Ordering
Controller
Model | Description | Comments | Code no. |
---|---|---|---|
AK-RC 305W | AK-RC 305W Gen. 2,5 O/P, Single phase | Include: 2 x 1.5 m, NTC 10K | |
sensor | 080Z5003 |
Accessory (for spares and replacement purposes):
Name | Features | Qty | Code no. |
---|---|---|---|
NTC sensors | 10K, High Prec. 1.5 m | 1 | 080Z3216 |
For more details, see the full User Manual and other information, and scan the QR code.
http://scn.by/krzp87a5z2akq1 © Danfoss | Climate Solutions | 2022.07
AN41504517847601-000101 | 55
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>