Danfoss AK-CC55 Case Room Controller EEV Single Coil Installation Guide
- June 1, 2024
- Danfoss
Table of Contents
Installation Guide
Case/room controller (EEV)
Type AK-CC55 Single Coil
Identification
Dimensions
Principle
Data communication| Important| It is important that the installation of the
data communication cable is performed correctly with sufficient distance to high
voltage cables.
---|---|---
AKV info| | 230 V or 115 V AC coil
Max. 0.5 A
AKS 32R info| | The signal from one pressure transmitter can be received by up
to 10 controllers.
There must not be a significant pressure drop from the pressure transmitter’s
position in the suction line to the individual evaporators.
Coordinated defrost via cable connections| | Max. 10
The following controllers can be connected in this way:
EKC 204A, AK-CC 210, AK-CC 250, AK-CC 450, AK-CC 550 and AK-CC55.
Refrigeration is resumed at the same time when all controllers have terminated
defrost.
External display AK-UI55| | Display
084B4075 / 084B4076 / 084B4077
Cable 3 m: 084B4078
Cable 6 m: 084B4079
(L: Max. 100 m)
Technical data
Electrical specifications
Electrical data | Value |
---|---|
Supply voltage AC [V] | 115 V / 230 V, 50/60 Hz |
Power consumption [VA] | 5 VA |
Power ON indicator | Green LED |
Electrical cable dimensioning [mm²] | Max. 1.5 mm² multi-core cable |
Sensor and measuring data
Sensor and measuring data | Value |
---|---|
Sensor S2, S6 | Pt 1000 AKS11 |
Sensor S3, S4, S5 | Pt 1000 AKS11 |
PTC 1000 EKS111 NTC5K EKS211
NTC10K EKS221 sensor (All 3 must be of the same type)
Temperature measuring accuracy| Pt1000: -60 – 120 °C. ±0.5 K
PTC1000: -60 – 80 °C. ±0.5 K
NTC5K: -40 – 80 °C. ±1.0 K
NTC10K: -40 – 120 °C. ±1.0 K
Pt1000 sensor specification| ±0.3 K at 0 °C
±0.005 K per degree
Pe measuring| AKS 32R Ratiometric pressure transmitter: 10 – 90%
RH measuring| 0 – 10 V
Ri > 10K ohm Accuracy +/- 0,3% FS
Input and output relay specifications
Input and output relay specifications| Input/ output|
Description
---|---|---
Digital input| DI1 DI2| Signal from dry contact functions Requirements to
contacts: Gold plating Cable length must be max. 15 m
Use auxiliary relays when the cable is longer Open loop: 12 V (SELV) Contact
3.5 mA
Digital input| DI3| 115 V / 230 V AC
Solid state output| DO1 (for AKV coil)| 115V / 230 V AC Max. 0.5 A Max. 1 x 20
W AKV for 115 V AC 2 x 20 W AKV for 230 V AC
Note: 2 EC coils are not supported.
Relays| DO2 DO3 DO4 DO5 DO6| 115 V / 230 V AC
Load max.: CE. 8 (6)A UL. 8A res. 3FLA 18LRA
Load min.: 1VA
Inrush: DO5 DO6 TV-5 80A
Analogue output/ PWM| AO1| 0 / 10 V Pulse Width Modulated (PWM) max. 15 mA.
0 – 10 V variable, max. 2 mA
NOTE:
- DO2 to DO6 are 16 A relays.
- Max. load must be observed.
- DO5 / DO6 is recommended for load with high inrush current e.g. EC Fan and LED light.
- All relays are sealed for use with flammable refrigerant like Propane R290.
- Compliance with EN 60 335-2-89: 2010 Annex BB.
Function data
Function data | Value |
---|---|
Display | LED 3 digit |
External display, AK-CC55 Single Coil UI | 1 external display |
External display, AK-CC55 Single Coil | 2 external displays |
External display connection | RJ12 |
Max. display cable length [m] | 100 m |
Data communication built-in | MODBUS |
Data communication option | AK-OB55 Lon RS485 module (Not AK-CC55 Compact) |
Clock battery backup power reserve | 4 days |
Mounting | DIN rail |
Environmental conditions
Environmental conditions | Value |
---|---|
Ambient temperature range, operating [°C] | 0 – 55 °C |
Ambient temperature range, transport [°C] | -40 – 70 °C |
Enclosure rating IP | IP20 |
Relative humidity range [%] | 20 – 80%, non-condensing |
Shocks/Vibrations | No shocks and vibrations allowed |
Electric noise
Cables for sensors, low voltage DI inputs and data communication must be kept
separate from other electric cables:
– Use separate cable trays
– Keep a distance between cables of at least 10 cm
– Long cables at the low voltage DI input should be avoided
Installation considerations
Accidental damage, poor installation, or site conditions, can give rise to
malfunctions of the control system, and ultimately lead to a plant breakdown.
Every possible safeguard is incorporated into our products to prevent this.
However, a wrong installation could still present problems. Electronic
controls are no substitute for normal, good engineering practice.
Danfoss will not be responsible for any goods, or plant components, damaged as
a result of the above defects. It is the installer’s responsibility to check
the installation thoroughly, and to fit the necessary safety devices.
Special reference is made to the necessity of signals to the controller when
the compressor is stopped and to the need of liquid receivers before the
compressors.
Your local Danfoss agent will be pleased to assist with further advice, etc.
Replacing AK-CC 550A with AK-CC55
Be aware when exchanging an AK-CC 550A controller with a new AK-CC55
controller – new wiring principles!
| AK-CC 550A| AK-CC55
---|---|---
• Pressure sensor has new connection – signal and ground are switched|
• SPDT relays have a new wiring scheme – NO and NC terminals
are switched (e.g. defrost heater on when it should be off)|
• Modbus has new connection scheme (A,B and screen)|
• New AK-UI55 displays and cables with 6 wires vs. 4 wires for
EKA 16x|
AK-CC55 does not support two EEC coils connected to one AKV output.
Pressure transmitter can be shared between AK-CC 550 and AK-CC55.
DI2 defrost coordination can be wired between AK-CC 550 and AK-CC55.
Operation with setting display
Display AK-UI55 Set
The values will be shown with three digits, and with a setting you can
determine whether the temperature is to be shown in °C or in °F.
The display can give the following messages:
-d | Defrost is in progress |
---|---|
– Err | The temperature cannot be displayed due to a sensor error |
Err1 | The display cannot load data from the controller. Disconnect and then |
reconnect the display
Err2| Lost display communication
ALA| The alarm button is activated. The first alarm code is then shown
– – –| At top position of the menu or when max. value has been reached, the
three dashes are shown in the top of the display
– – –| At bottom position of menu or when min. value has been reached, the
three dashes are shown in the bottom of the display
Loc| The configuration is locked. Unlock by pressing (for 3 seconds) on the ‘up
arrow’ and ‘down arrow’ simultaneously
UnL| The configuration is unlocked
– – –| The parameter has reached min. or max. limit
PS| A password is required for access to the menu
Fan| Appliance cleaning has been initiated. The fans are running
OFF| Appliance cleaning is activated and the appliance can now be cleaned
OFF| The main switch is set to Off
SEr| The main switch is set to service / manual operation
CO2| Flashes: Will display in event of a refrigerant leakage alarm, but only
if the refrigerant is set up for CO2
Factory setting
If you need to return to the factory-set values, do the following:
– Cut off the supply voltage to the controller
– Keep up “∧” and down “∨” arrow buttons depressed at the same time as you
reconnect the supply voltage
– When FAc is shown in the display, select “yes”.
Parameter grouping at display operation
Get a good start
With the following procedure you can start regulation very quickly:
- Open parameter r12 and stop the regulation (in a new and not previously set unit, r12 will already be set to 0 which means stopped regulation)
- Select application based on the wiring diagrams on pages 2-4
- Open parameter o61 and set the application number
- For network. Set the address in o03
- Then select a set of presets from the “Food type” help table
- Open parameter r89 and set the number for the array of presettings. The few selected settings will now be transferred to the menu
- Set the desired cut-out temperature r00
- Set the weighted thermostat air temperature between S4 and S3 sensor r15
- Set the weighted thermostat air temperature between S4 and S3 during night operation r61
- Set the weighted alarm air temperature between S4 and S3 A36
- Set the weighted display readout between S4 and S3 o17
- Select refrigerant via parameter o30
- Set the pressure transmitter min. and max. range via parameter o20 and o21
- Set the desired defrost method in d01
- Set the interval time between defrost starts in d03
- Set the desired defrost sensor in d10
- Set the maximum defrost time in d04
- Set the defrost stop temperature in d02
- Open parameter r12 and start the regulation
- Go through the parameter list and change the factory values where needed.
- Get the controller up and running on network:
• MODBUS: Activate scan function in system unit
• If another data communication card is used in the controller:
– Lon RS485: Activate the function o04
– Ethernet: Use the MAC address
Food type
Setting of presettings (r89). After setting 1-5, setting is returned to 0.
Food type =| 1 Vege- tables| 2 Milk| 3
Meat/ fish| 4 Frozen food| 5 Ice cream
---|---|---|---|---|---
Temperature (r00)| 8 °C| 0 °C| -2 °C| -20 °C| -24 °C
Max. temp. setting (r02)| 10 °C| 4 °C| 2 °C| -16 °C| -20 °C
Min. temp. setting (r03)| 4 °C| -4 °C| -6 °C| -24 °C| -28 °C
Upper alarm limit (A13)| 14 °C| 8 °C| 8 °C| -15 °C| -15 °C
Lower alarm limit (A14)| 0 °C| -5 °C| -5 °C| -30 °C| -30 °C
Upper alarm limit for S6 (A22)| 14 °C| 8 °C| 8 °C| -15 °C| -15 °C
Lower alarm limit for S6 (A23)| 0 °C| -5 °C| -5 °C| -30 °C| -30 °C
Fault message
In an error situation the alarm LED on the front will be on and the alarm
relay will be activated (depending on priority).
If you push the alarm button for 3 seconds you can see the alarm report in the
display. (Alarm priorities can be changed. See the User Guide.) Here are the
messages that may appear:
Code| Alarm text| Description
E01| Hardware failure| The controller has a hardware failure
E06| Clock lost time| Clock has lost valid time
E20| Pe Evap. pressure A – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E24| S2 Gas outlet A – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E25| S3 Air ON evap. A – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E26| S4 Air OFF evap. A – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E27| S5 Evaporator A – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E28| S6 product temp. A – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E34| S3 Air ON evap. B – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E37| S5 Evaporator B – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
E59| Humidity sensor – Sensor error| Sensor signal is out of range. Please
check the sensor for correct operation
A01| High temperature alarm A| The alarm temperature has been above the max
alarm limit for a longer time period than the set alarm delay.
A02| Low temperature alarm A| The alarm temperature has been below the min
alarm limit for a longer time period than the set alarm delay.
A04| Door open alarm| The door has been open for a too long time
A05| Max defrost hold time exceeded| The controller has been waiting longer
time than permitted after a co-ordinated defrost.
A11| Refrigerant not selected| The refrigerant has not been selected hence
control can not be initiated
A13| S6 high product temperature A| The S6 Product temperature has been above
the max alarm limit for a longer time period than the set alarm delay.
A14| S6 low product temperature A| The S6 Product temperature has been below
the min alarm limit for a longer time period than the set alarm delay.
A15| DI alarm 1| Alarm signal from digital input signal
A16| DI alarm 2| Alarm signal from digital input signal
A45| Main switch set OFF| The controller manin switch has been set to either
Stop or Manaual control. Alternatively a digital input set up for “main
switch” function, has stopped control
A59| Case in cleaning mode| A case cleaning operation has been started on a
case
A70| High temperature alarm B| The alarm temperature has been above the max
alarm limit for a longer time period than the set alarm delay.
A71| Low temperature alarm B| The alarm temperature has been below the min
alarm limit for a longer time period than the set alarm delay.
AA2| CO2 leak detected| CO2 is leaking from the refrigerantion system
AA3| Refrigerant leak detected| Refrigerant is leaking from the refrigeration
system
a02| High humidity alarm| The humidity level is too high
a03| Low humidity alarm| The humidity level is too low
a04| Wrong IO configuration| Inputs and outputs have not been configured
correctly
X02| Evaporator is icing up| The adaptive defrost function has detected heavy
ice formation on evaporator.
X03| Flash gas detected| The adaptive defrost function has detected heavy
flash gas in front of injection valve
Z01| Max defrost time exceeded A| The last defrost cycle has stopped on time
instead of set temperature
A34| Fan alarm| Alarm from digital input monitoring function
A43| Valve driver alarm| Alarm from digital input monitoring function
Data communication: The importance of individual alarms can be
defined with a setting. The setting must be carried out in the group “Alarm
destinations”
Additional information not relevant for safe installation and use can be found on Danfoss Store:
For more detailed information, please see the respective User Guide.
Danfoss A/S
Climate Solutions + danfoss.com + +45 7488 2222
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