LENNOX KP06 interface, EAC 0091, EAC 0812, EAC 1003, EAC 1303, EAR 0091, EAR 0431, EAR 0472, EAR 1303 heat pump User Manual
Below you will find brief information for interface KP06, heat pump EAC 0091, heat pump EAC 0812, heat pump EAR 0091, heat pump EAR 0431. The interface KP06 allows you to connect up to 8 Ecolean units to a BMS system and control various settings, including cooling/heating modes, setpoint temperatures, alarm status, and temperature readings. You can use the interface KP06 to connect with different controllers like Climatic 200 or Climatic 400, but it is important to note that each KP06 can only connect controllers of the same type.
Advertisement
Advertisement
USER MANUAL
ECOLEAN
J-BUS/BMS
INTERFACE
English/09-2004
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
1.- ¿How is the net configured? (How many units can be connected, which are the combination, what is needed by the interface?)
The purpose of this net is connecting one or more units Ecolean to a BMS system. To get this we use the interface KP06. Up to 8 units can be connected (depending sizes and characteristics), to an interface KP06. We can connect up to 15 KP06 to the net.
KP06 nº1 KP06 nº2 KP06 nº3 ( . . . . ) KP06 nº15
Ctrol 1
Ctrol 2
Ctrol 1
Ctrol 2
Ctrol 1
Ctrol 2
Ctrol 1
Ctrol 2
Ctrol 3
( . . . )
Ctrol 3
( . . . )
Ctrol 3
( . . . )
Ctrol 3
( . . . )
Ctrol 8 Ctrol 8 Ctrol 8 Ctrol 8
In each Ecolean unit, is necessary to install a BUS adapter to convert the control (TTL) system in a signal RS-485.
We can connect in the net different controllers (as Climatic, Ecolean), but in a KP06 we can connect only controllers of the same type.
2. - ¿What can be controlled by this net?
With this system, we can manage the following options in each of Ecolean units:
- Select between OFF/STAND-BY/COOL/HEAT.
- Modify the cooling / heating setpoint
- Read the limitations in the unit, as the functioning of the heat pump, the maximum setpoint, and minimum setpoint. .
- Read all the alarm status.
- Read inlet water temperature , outlet water temperature, condensing temperature and outdoor temperature ( this last one only if the unit is fitted with the dynamic setpoint option)
- Read inlet signals status (pressostats, water flow switch, thermal relays motor protections).
- Read the outlet signal status (compressor, fan, water pump ...).
3. - Fitting instructions.
It is necessary to include in every installation:
One Bus Adapter by each of the units
One KP06 at least by every 8 units
Bus Adapter will be delivered installed inside the Ecolean unit (electrical board), with the power supply taken from the general power supply of the unit, and the control connection made. KP06 is delivered loose, for later installation in the most adequate place.
1/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
4. - Connections
This sample could be the Standard connection of a KP06 net with a BMS system with a RS485 connection. It is also possible to connect with a BMS net or a computer provided with a RS232 connection, but in this case there can be only one KP06 and the connection cannot be longer than 15 meters (see KP06 details for further details)
Connections between KP06
KP06 nº1 KP06 nº2 ( . . . . . ) KP06 nº15
RS 485
KP06 configuration - Connection between the BMS system and the KP06 must be done according the figure besides, taking into account the following indications :
- The wiring has to be done according local normatives.
- Every KP06 have to be supplied with 230 Vac/50 Hz + PE
(15%). Use a cable with a 1.5 mm2 section.
- Maximum length of the RS485 net (from the BMS system to the last) is 1.000 m.
- BMS connection is RS 485. It has to be connected to the port
RS 485 of BMS with every KP06 in parallel.
- It is advisable to use screened cable with a 0.5 mm
2
for this type of connection.
- Jumpers J8 y J9 of the connected KP06 to the Ecolean units should be connected in 1-2 position.
- Switch SW2-1 of every KP06 should be in ON-OFF position, except the last one that has to be in ON position.
- Switches SW1-7 y 8 is used to configurate the transmission speed according the following table.
Bauds 1200 2400 4800 9600
SW1-7 ON ON OFF OFF
SW1-8 ON OFF ON OFF
Configurate the other switches SW1 as the figure resides.
2/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
c) Connections between KP06 and Ecolean units.
Ecolean nº8
( . . . . . ) Ecolean nº2
Ecolean nº1
- In every Ecolean unit there is a Bus Adapter. In this Bus Adapter a power supply connection has been done, as well as the control connection in the Ecolean unit.
- Connection between KP06 and the Ecolean unit , has to be done as shows the figure taking into account the following indications:
- Maximum length for the RS485 net (from the KP06 to the last ECOLEAN unit) is 2000 m.
-
Wiring has to be done according the local normatives.
-
Screened cable of 0.5 mm2 is advisable.
(for example cable model Belden 8762 with PVC isolation , cable plus metallic screen , 20 AWG, nominal capacity between cables of 89
pF, nominal capacity between a cable and the metallic screen of 161 pF)..
- Use the cables to connect + and - and the screen to connect GND.
- In each Bus Adapter of the last Ecolean, connect a 120 ohms resistance 1/4w between + and - .
- Each Ecolean unit connected to a KP06 has a different address between 1 and 8 .This address is introduced in the controller.
Climatic 200
Units EAC 0091 to EAC 0812 and EAR 0091 to 0431
Parameter H26 protocol 1
Parameter H44 family address 0
Parameter H45 device address 1.8
Climatic 400
Units EAC 1003 to EAC 1303 and EAR 0472 to EAR 1303
Parameter H48 protocol 1
Parameter H65 family address 0
Parameter H66 device address 1.8.
- It is necessary configurate the KP06 to the RS485 net ( jumpers J14 and J16 in 1-2 position)
3/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
5.-Parameters
5. a Climatic 200
This controller is installed in EAC 0091 to EAC 0812 and EAR 0091 to 0431. This controller has the following map of standard parameters.
/CHART 1/
/Logical parameters/
/Analogical parameters/
00H 2049 M/Pa_G01
01H 2050 M/Pa_G02
02H 16468 M/MachineStatus
80H
81H
82H
83H
2052
2053
2054
2055
Pa_H01
Pa_H02
Pa_H03
Pa_H04
84H 2079
85H 16415
86H 16416
87H
88H
89H
8AH
16417
16418
16419
16420
Pa_H28
ST1_MSB
ST1_LSB
ST2_MSB
ST2_LSB
ST3_MSB
ST3_LSB
8BH
8CH
16421
16422
8DH 16483
8EH 16404
ST4_MSB
ST4_LSB
Ana_Output
Digit_Input
8FH 16469 Digit_Output
90H 16492 Alarm_Auto_1
91H 16493 Alarm_Auto_2
92H 16494 Alarm_Auto_3
93H 16495 Alarm_Manu_1
94H 16496 Alarm_Manu_2
95H 16497 Alarm_Manu_3
96H 18433 Version
Machine_Status
H01-Max setpoint in heating
H02-Min setpoint in heating
H03-Max setpoint in cooling
H04-Min setpoint in cooling
Inlet Temp : MSB
Inlet Temp : LSB
Oulet Temp : MSB
Outlet Temp : LSB
Piping : MSB
Piping : LSB
Outdoor temp : MSB
Outdoor temp : LSB
Digit_Input
Alarm_Auto_1
Alarm_Auto_2
Alarm_Auto_3
Alarm_Manu_1
Alarm_Manu_2
Alarm_Manu_3
VERSION
5.b Detailed information about CLIMATIC 200 parameters
00H, 01H parameters (readable and writable)
This parameter defines the setpoint which the unit will function with , in cooling mode ( parameter 00 H ) or heating mode (
01H) .
¡Important : The value of the desired temperature has to be multiplied by 10!
Introduced values for this parameter have to be within the range between minimum setpoint ( Parameter 82 H cooling / 80 H heating ) and the maximum setpoint ( Parameter 83 H cooling / 81 H heating ) .
¡Important: if the unit Works out of this range of temperatures , unit can work suffering critical damages !
If the unit is cooling only , there is no sense in using 01H parameter . This possibility can be restrained with the parameter 84 H
, which shows with the value 1 if the unit is heat pump version .
Example : H00=110 and H01=430 shows the cooling setpoint 11.0ºC and the heating setpoint 43.0ºC
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L/E
L/E
L/E
L
L
L
L
L
L
L
4/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
02H parameter (readable and writable)
This parameter defines the functioning of the unit according the following :
Parameter 02H=00H
∧ Stopped unit
Parameter 02H=04H ∧ Stand- By mode
Parameter 02H=05H
∧ Cooling only mode
Parameter 02H=06H
∧ Heating pump mode
¡Important. If values different from 0 are used, they may appear wrong values!
To know if the unit can work as a heat pump , parameter 84 H has to be read.
¡Important : if in a cooling only unit , heat pump mode is demanded , unit can work suffering critical damages!
80H, 81H, 82H, 83H parameters (only readable)
Limits of cooling setpoint and heating setpoint:
80H
∧ Maximum heating setpoint
81H
∧ Minimum heating setpoint
82H
∧ Maximum cooling setpoint
83H
∧ Minimum cooling setpoint
Use these values to establish the limits values for the parameters 00H y 01H.
84H (only readable)
Shows a 0 value if the unit is cooling only , and a 1 value if the unit is heat pump .
Use these value to establish if it is posible to modif. The heating setpoint ( H01 parameter ) and it is more important to know if it can be switched in heat pump mode ( H02 parameter)
85H, 86H, 87H, 88H, 89H, 8AH, 8BH, 8CH parameters (only readable)
In this parameters we can read the values measured by different temperature sensors of the unit.
85H
∧ Water inlet temperature (MSB)
86H
∧ Water inlet temperature (LSB)
87H
∧ Water outlet temperature (MSB)
88H ∧ Water outlet temperature (LSB)
89H
∧ Refrigerant piping temperature (MSB)
8AH
∧ Refrigerant piping temperature (LSB)
8BH
∧ Outdoor temperature (MSB)
8CH
∧ Outdoor temperature (LSB)
Nota: The outdoor temperature will only show the correct values if the outdoor temperature sensor is included. (dynamic setpoint kit )
To calculate the value , we have to take into account the following value:
ºC·10= MSB·256 + LSB
Example : in 85H we can read value 1 and in 86H value 172. This means 1 * 256 + 172=428. The water indoor temperature sensor is showing a value of 42.8ºC.
5/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
8DH, 8EH, 8FH Parameters (only readable)
In these parameters we can read the status of the different devices of the unit.
8DH
∧ Analogical outputs (% fan speed)
8EH ∧ Digital inputs ( pressostats, protections, remote on/off , remote cooling /heating )
8FH
∧ Digital outputs (compressor , water pump, 4 way valve , antifreeze heater , alarm relay)
The correspondance with the different devices is as following :
In 8DH parameter fan speed ( in %) is shown .
0: fan stopped
100: maximum fan speed,
Intermediate values: fan in regulation
In FP2 version , this parameter only take values 0 and 10
Parameter 8EH shows the different digital inputs according the models as shown in the table below. ( 1 means closed contact and 0 means open contact) .
EAC 0091 to 0431
Bit 7
Low pressure switch
Bit 6
High pressure switch
Bit 5
Remote
ON/OFF
Bit 4
Compressor protection
Bit 3
Flor switch
Bit 2
Not used
Bit 1
Not used
Bit 0
Not used
EAR 0091 to 0431
Bit 7
Low pressure switch
Bit 6
High pressure switch
Bit 5
Remote
ON/OFF
Bit 4
Compressor protection
Bit 3
Flow switch
Bit 2
Not used
Bit 1
Not used
Bit 0
Remote cooling
/heating
EAC 0472 a 0812
Bit 7
Low pressure switch
Bit 6
High pressure switch
Bit 5
Remote
ON/OFF
Bit 4
Compressor
1 protection
Bit 3
Flow switch
Bit 2
Not used
Bit 1
Not used
Bit 0
Compressor protection 2
Example : in one unit EAC 0431 the value of 208 ( 1101 0000 in binary system) shows that the compressor protection , the high pressure switch , and the low pressure switch are closed and that the remote ON/OFF plus the flow switch are opened.
With 8FH parameter we can see the functioning of the different components according models as shown in the following table. ( 1 means functioning , 0 means stop, except the alarm relay that shows 1 when stopped or absence of alarm and shows 1 when the unit is functioning or there is an alarm)
EAC 0091 to 0431
Bit 7 Bit 6 Bit 5
Not used Not used Not used
Bit 4
Alarm relay
Bit 3
Antifreeze heater
Bit 2
Not used
Bit 1 Bit 0
Water pump Compressor
EAR 0091 to 0431
Bit 7
Not used
Bit 6
Not used
Bit 5
Not used
Bit 4
Alarm relay
Bit 3
Antifreeze heater
Bit 2
4 way valve
Bit 1
Water pump
Bit 0
Compressor
EAC 0472 to 0812
Bit 7
Not used
Bit 6
Not used
Bit 5
Not used
Bit 4
Alarm relay
Bit 3
Antifreeze heater
Bit 2
Compressor
2
Bit 1 Bit 0
Water pump Compressor
1
Example : in a EAC 0431 unit , the value of 19 ( 0001 00 11 in binary system) shows that the compressor and the pump are
working , there is not alarm and the antifreeze heater is in off position.
6/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
90H, 91H, 92H, 93H, 94H, 95H parameters (only readable)
In these parameters the presence of an alarm is shown, and if it necessary , it can be restarted. 90H, 91H and 92H parameters, show the alarm status ,and 93H, 94H and 95H show the necessity of restarting .
Alarm 90H restart 93H
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
E11 E43 E05 E04 E41 E02 E01 E00
Alarm 91H restart 94H
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
E46 E42 E07 E06 E40 E45 E44 E12
Alarm 92H restart 95H
Bit 7
Not used
Bit 6
Not used
Bit 5
Not used
Bit 4
Not used
The meaning of these different alarm codes is the following :
Bit 3
Not used
Bit 2
Not used
Bit 1
E13
Bit 0
E03
• E00 ∧ remote ON/OFF
• E01 ∧ High pressure
• E02 ∧ Low pressure
• E03 ∧ Compressor overload relay
• E04 ∧ Fan overload relay
• E05 ∧ Antifreeze
• E06 ∧ Error in outlet water sensor
• E07 ∧ Error in refrigerant piping sensor
• E11 ∧ Piping high temperature
• E12 ∧ Piping low temperature
• E40 ∧ Error in inlet water sensor
• E41 ∧ Error in flow switch sensor
• E42 ∧ Error in outdoor temperature sensor
• E43 ∧ External antifreeze
• E44 ∧ Unit without charge
• E45 ∧ Configuration error
• E46 ∧ High inlet water temperature
Some of these alarms may be not activated in your unit, or have slightly different meanings. In the unit manual you will see the meaning of every of these alarms.
Example : if a high pressure alarm appears , 90H and 93H values will take then value 2 ( 0000 0000 in binary system) , when the cause of the alarm is eliminated , ( restarting of the pressostat) , in 90H we will have then value 0 ( 0000 0000 in binary system ) , but in 93H the value won´t change until we restart the alarm in the controller ( pressing reset button) .
96H parameter (readable only )
This parameter shows the current version of the control software.
7/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
5.c Standard Climatic 400 Chart
/CHART 1/
/Logical parameters/
80H
81H
82H
83H
84H
85H
86H
87H
88H
89H
8AH
8BH
8193
8194
8195
8196
8197
8198
8199
8200
8201
8202
8203
8204
I/ID1
I/ID2
I/ID3
I/ID4
I/ID5
I/ID6
I/ID7
I/ID8
I/ID9
I/ID10
I/ID11
I/ID12
8CH
8DH
8EH
8FH
90H
91H
92H
8205
8206
8207
8208
10241
10242
10243
I/ID13
I/ID14
I/ID15
I/IDST4
RL1
RL2
RL3
93H
94H
10244
10245
RL4
RL5
95H 10246 RL6
96H 10247 RL7
97H 10248 RL8
98H 10249 RL9
99H 10250 RL10
Digital input I/ID1:
Digital input I/ID2:
Digital input I/ID3:
Digital input I/ID4:
Digital input I/ID5:
Digital input I/ID6:
Digital input I/ID7:
Digital input I/ID8:
Digital input I/ID9:
Digital input I/ID10:
Digital input I/ID11:
Digital input I/ID12:
Digital input I/ID13:
Digital input I/ID14:
Digital input I/ID15:
Digital input ST4:
Relay1 -
Relay2 -
Relay3 -
Relay4 -
Relay5 -
Relay6 -
Relay9 -
Relay10 -
/Analogic parameters/
00H 2049
01H 2050
M/Pa_G01
M/Pa_G02
02H 16495 M/MachineStatus
80H 2051 Pa_H01
81H
82H
2052
2053
83H 2054
84H 2060
Pa_H02
Pa_H03
Pa_H04
Pa_H10
G01-Cooling setpoint
G02-Heating setpoint
Machine_Status
H01-Max setpoint in heating
H02-Min setpoint in heating
H03-Max setpoint in cooling
H04-Min setpoint in cooling
85H
86H
87H
88H 4100
89H
8AH
8BH
8CH
8DH
8EH
8FH
90H
91H
92H
4097
4098
4099
4102
16497
16498
16499
16500
16501
16502
16503
16504
16505
I/ST1
I/ST2
I/ST3
I/ST4
I/ST6
Hour_funct,[1]MSB
Hour_funct,[1]LSB
Hour_funct,[2]MSB
Hour_funct,[2]LSB
Hour_funct,[3]MSB
Hour_funct,[3]LSB
Hour_funct,[4]MSB
Hour_funct,[4]LSB
Hour_funct,[PUMP]MSB
Inlet temp
Outlet Temp
Piping circuit 1
Piping circuit 2
Hours funct. Compresseur 1 x 256 h
Hours funct. Compresseur 1 x 1h
Hours funct. Compresseur 2 x 256 h
Hours funct. Compresseur 2 x 1h
Hours funct. Compresseur 3 x 256 h
Hours funct. Compresseur 3 x 1h
Hours funct. Compresseur 4 x 256 h
Hours funct. Compresseur 4 x 1h
Hours funct. Pump x 256 h
93H 16506 Hour_funct,[PUMP]LSB
94H 14337 Ana_Output_1
Hours funct. Pump x 1h
Analog Output 1
95H 14338 Ana_Output_2 Analog Output 2
96H 16473 Digit_Input_MSB Digit_Input
97H 16474 Digit_Input_LSB Digit_Input
98H 16731 Digit_Output_MSB Digital Output
L/E
L/E
L/E
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
8/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
99H 16732 Digit_Output_LSB
9AH 16879 Alarm_Auto_1
9BH 16880 Alarm_Auto_2
9CH 16881 Alarm_Auto_3
9DH 16882 Alarm_Auto_4
9EH 16883 Alarm_Manu_1
9FH 16884 Alarm_Manu_2
A0H 16885 Alarm_Manu_3
A1H 16886 Alarm_Manu_4
A2H 18433 I/Ver
Digital Output
Alarm_Auto_1
Alarm_Auto_2
Alarm_Auto_3
Alarm_Auto_4
Alarm_Manu_1
Alarm_Manu_2
Alarm_Manu_3
Alarm_Manu_4
VERSION
5.d Detailed explanation of the CLIMATIC 400 parameters
5.d.1 /Logical parameters
In the zone of logical parameters , we can read the different status of the controller digital outlets and inlets . Correspondence between these inlets , depending the model of unit are the following :
EAR 0472 to 0812
80H 81H 82H 83H 84H 85H 86H 87H
High pressure switch 1
Low pressure switch 1
Fan + compressor protection 1
Defrosting switch 1
Flow switch
High pressure switch 2
Low pressure switch 2
Fan+ compressor protection 2
88H 89H 8AH 8BH 8CH 8DH 8EH 8FH
Defrosting switch 2
Remote on/off
Remote cooling / heating
Not used Not used Not used Not used Not used
90H 91H 92AH 92H 94H 95H 96H 97H
Compressor
1
4 way valve 1
Compressor
2
4 way valve 2 Water pump
Electrical heater
Electrical heater
Alarm
L
L
L
L
L
L
L
L
L
L
EAC 1003 to 1303
80H 81H 82H 83H 84H 85H 86H 87H
High pressure switch
Low pressure switch 1
Fan protection 1
Defrosting pressostat 1
Flow switch
High pressure switch 2
Low pressure switch 2
Fan protection 2
88H 89H 8AH 8BH 8CH 8DH 8EH 8FH
Defrosting pressostat 2
Remote
ON/OFF
Remote cooling
/heating
Compressor protection 1
Compressor protection 2
Compressor protection 3
Compressor protection 4
Not used
0H 91H 92AH 92H 94H 95H 96H 97H
Compressor
1
Fan 1
Compressor
2
Fan 2 Water pump
Electrical heater
Electrical heater
Alarm
98H
Compressor Compressor
3 4
EAR 1003 to 1303
80H 81H 82H 83H 84H 85H 86H 87H
High pressure switch 1
Low pressure switch 1
Fan+ compressor protection 1
Defrosting pressostat 1
Flow switch
High pressure switch
Low pressure switch 2
Fan
+compressor protection
88H 89H 8AH 8BH 8CH 8DH 8EH 8FH
Defrosting switch 2
Remote
ON/OFF
Remote cooling/ heating
Compressor protection 1
Compressor protection 2
Compressor protection 3
Compressor protection 4
Not used
90H 91H 92AH 92H 94H 95H 96H 97H
Compressor
1
4 way valve 1
Compressor
2
4 way valve 2 Water pump
Electrical heater
Electrical heater
Alarm
Compressor
3
Compressor
4
9/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
5.d.2 /Analogical parameters/
00H, 01H (readable and writable)
This parameter defines the setpoint which the unit will function with in cooling ( 00H parameter) or in heating ( 01H parameter)
¡Important: Value of the required temperature has to be multiplied by 10!
Values included in this parameter must be within the range from the minimum setpoint ( 82H parameter for cooling / 80H for heating) and the maximum setpoint ( Parameter 83H for cooling / 81 H for heating) .
¡Important: if the unit Works out of this range of temperatures, the unit may work with critical damages!
If the unit is a cooling only unit , there is not sense in using 01H parameter. We can limit this possibility with the 84 H parameter which with the value 1 shows that the unit is heating pump version .
Example: H00=110 and H01=430 shows cooling setpoint 11.0ºC and heating setpoint 43.0ºC
02H parameter (readable and writable)
This parameter defines the function of the unit as following :
Parameter 02H=00H
∧ Stopped unit
Parameter 02H=80H
∧ Stand-By mode
Parameter 02H=81H
∧ Cooling only mode
Parameter 02H=82H
∧ Heat pump mode
¡Important: If different values are used , the result obtained maybe wrong!
To know if the unit can work in heat pump mode , read the value of the 84 H parameter.
¡Important: If in a cooling only unit , heat pump mode is demanded , the unit may work with critical damages!
80H, 81H, 82H, 83H parameters(only readable)
Cooling and heating setpoint limits, in detail :
80H
∧ Maximum heating setpoint
81H
∧ Minimum heating setpoint
82H
∧ Maximum cooling setpoint
83H
∧ Minimum cooling setpoint
Use these values to establish the limit values of the parameters 00 H and 01 H.
84H (only readable)
Shows with a value 0 if the unit is cooling only or with a value 1 if the unit is heat pump mode.
Using this value can establish if it is possible to modify the heating setpoint (H01 parameter) and more important also if we can change to heat pump mode (H02 parameter)
10/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
85H, 86H, 87H, 88H, 89H parameters ( only readable)
In these parameters we can read the values measured by the temperature sensors in the unit. The values shown are ºC x 10.
85H
∧ Outlet water temperature
86H ∧ Outlet water temperature
87H
∧ Refrigerant piping temperature 1
88H
∧ Outdoor temperature
89H ∧ Outdoor temperature circuit 2
Note: Outdoor temperature will only show correct values if the unit is fitted with the outdoor temperature sensor (dynamic setpoint kit)
Example: in 85H we will read the value 428, so the inlet water sensor is showing the value 42.8ºC.
8AH, 8BH, 8CH, 8DH, 8EH, 8FH, 90H, 91H, 92H, 93H parameters (only readable)
In these parameters we can read the hours of functioning of different components, in detail:
8AH
∧ Hours of functioning of compressor 1 (MSB)
8BH
∧ Hours of functioning of compressor 1 (LSB)
8CH
∧ Hours of functioning of compressor 2 (MSB)
8DH
∧ Hours of functioning of compressor 2 (LSB)
8EH ∧ Hours of functioning of compressor 3 (MSB)
8FH
∧ Hours of functioning of compressor 3 (LSB)
90H
∧ Hours of functioning of compressor 4 (MSB)
91H
∧ Hours of functioning of compressor 4 (LSB)
92H
∧ Hours of functioning of water pump (MSB)
93H
∧ Hours of functioning of water pump (LSB)
To calculate the value, the following formula has to be taken into account:
HR= MSB·256 + LSB
Example: in 8AH we can read the value 2 and in 8 BH a value of 48. This means 2 * 256 + 48=560. This shows that compressor 1 has worked 560 hours.
94H, 95H, 95H, 96H, 97H, 98H, 99H parameters (only readable)
In these parameters we can read the status of the different devices of the unit:
94H, 95H
∧ Analogical outputs (% fan speed)
96H, 97H
∧ Digital inputs (pressostats, protections, remote on/ off, remote cooling/ heating)
98H, 99H
∧ Digital outputs (compressor, water pump, 4 way valve, antifreeze heater, alarm relay)
Correspondence with the different devices is the following:
94H and 95H parameters show the speed (in %) of fans 1 and 2 :
0: fan stopped
100: maximum fan speed
Intermediate values: fan in regulation
This value is valid for:
- EAR 0472 to 0812 standard and FP1.
- EAR 1003 to 1303 but only taking 0 and 100 values.
11/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
96H y 97H parameters show the different digital inlets, according the models as following (1 means closed contact and 0 open contact)
EAR 0472 to 0812
Bit 7 Bit 6 Bit 5
High
Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
Remote
96H
Not used Not used pressure switch 1
Low pressure switch 1
Fan + comp protection 1
Not used Not used cooling / heating
97H
Defrosting switch 2
Fan + compressor 2 protection
Remote
ON/OFF
Not used
Low pressure switch 2
Flow switch
Defrosting switch
High pressure switch 2
EAC 1003 to 1303
96H
Bit 7
Compressor protection 4
Bit 6
Compressor protection 3
Bit 5
High pressure switch 1
Bit 4
Low pressure switch 1
Bit 3
Fan protection 1
Bit 2
Not used
Bit 1
Compressor protection 2
Bit 0
Not used
97H
Not used
Fan protection 2
Remote on/off
Compressor protection 1
Low pressure switch 2
Flow switch Not used
High pressure switch 2
EAR 1003 to 1303
96H
Bit 7
Compressor protection 4
EAR 0472 to 0812
Bit 7
98H
99H
Electrical heater
Fan 1 ( only
FP2 version)
Bit 6
Compressor protection 3
Bit 6
Electrical heater
Fan 2 ( only
FP2 version)
Bit 5
High pressure switch 1
Bit 5
Not used
Bit 4
Low pressure switch 1
Bit 4
Water pump 4 way valve 2
Not used
Bit 3
Fan protection 1
Bit 1
97H
Defrosting pressostat 2
Fan protection 2
Remote
ON/OFF
Compressor protection 2
Low pressure switch 2
Flow switch
Defrost swicth
1
High pressure switch 2
Example : in a unit EAC 1103 the value of 96H is 208 (1111 1010 in binary) shows that the protections of the compressors 4,3 and 2 , the protection of the fan 1 , the high pressure switch 1 and the low pressure switch 1 are closed.
98H y 99H will show the functioning of the following devices, according the models (1 means functioning, 0 means stop)
Bit 3
Compressor
2
Not used
Bit 2
Not used
Bit 2
4 way valve 1
Not used
Compressor protection 1
Bit 1
Compressor
1
Not used
Bit 0
Not used
Bit 0
Alarm
Not used
EAC 1003 to 1303
Bit 7
98H
Electrical heater
99H
Compressor
3
EAR 1003 to 1303
Bit 7
98H
Electrical heater
Bit 6
Electrical heater
Compressor
4
Bit 6
Electrical heater
Bit 5
Water pump
Not used
Bit 5
Bit 4
Fan 2
Not used
Bit 4
Water pump 4 way valve 2
Bit 3
Compresso 2
Not used
Bit 3
Compressor
2
Bit 2
Fan 1
Not used
Bit 2
4 way valve 1
Bit 1
Compressor
1
Not used
Bit 1
Compressor
1
Bit 0
Alarm
Not used
Bit 0
Alarm
Example : in one unit EAC 0472 the value of 34 (0010 0010 in binary) show that there are only functioning compressor 1 and water pump .
12/13
TECHNICAL DATA
USING OF THE INTERFACE KP06 FOR ECOLEAN UNITS
9AH, 9BH, 9CH, 9DH, 9EH, 9FH, A0H, A1H parameters (only readable)
In these parameters it is shown the presence of an alarm , and if it is neccessary the restarting. 90H, 91H and 92H parameters shown the status of the alarm and 93H, 94H and 95H the necessity of restarting .
Alarm 9AH restart 9EH
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
E07 E06 E05 E04 E03 E02 E01 E00
Alarm 9BH restart 9FH
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
E23 E22 E21 E19 E13 E12 E11 E09
Alarm 9CH restart A0H
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
E33 E32 E31 E29 E27 E26 E25 E24
Alarm 9DH restart A1H
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
E46 E45 E44 E43 E42 E41 E40 E39
The meaning of the alarms is the following:
• E00 ∧ remote ON/ OFF
• E01 ∧ High pressure circuit 1
• E02 ∧ Low pressure circuit 1
• E03 ∧ Compresso overload relay 1
• E04 ∧ Fan overload relay 1
• E05 ∧ Antifreeze circuit 1
• E06 ∧ Error water outlet sensor
• E07 ∧ Error refrigerant piping sensor circuit 1
• E09 ∧ High pressure compressor 1
• E11 ∧ High pressure piping circuit 1
• E12 ∧ Low pressure piping circuit 1
• E13 ∧ Overload protection compressor 2
• E19 ∧ High pressure compressor 2
• E21 ∧ High pressure circuit 2
• E22 ∧ Low pressure circuit 2
• E23 ∧ Overload protection compressor3 detailed meaning of each alarm
• E24 ∧ Fan overload protection 2
• E25 ∧ Antifreeze protection 2
• E26 ∧ Error sensor ST5
• E27 ∧ Error refrigerant piping sensor 2
• E29 ∧ High pressure compressor 3
• E31 ∧ High piping temperature circuit 2
• E32 ∧ Low piping temperature circuit 2
• E33 ∧ Overload protection compressor 4
• E39 ∧ High pressure compressor 4
• E40 ∧ Error water inlet sensor
• E41 ∧ Error flow switch sensor
• E42 ∧ Error outdoor temperature sensor
• E43 ∧ External antifreeze
• E44 ∧ Unit without charge
• E45 ∧ Error in configuration
• E46 ∧ High inlet water temperature
Some of these units may be not available in the unit, or have slightly different meanings. See the manual of the unit to know the
Example : if appear one alarm by high pressure , the parameters 9AH and 9EH will take value 2 2 (0000 0010 in binary), when the cause of the alarm is settled ( pressostat restarted) , parameter 9AH will show the value 0 (0000 0000 in binary) but in the parameter 9EH nothing will change until we do not reset the alarm in the controller ( pressing the reset button) .
A2H parameter (only readable)
This parameter shows the current version of the software control.
13/13
BELGIUM,
LUXEMBOURG :
CZECH REPUBLIC :
FRANCE :
GERMANY :
NETHERLANDS :
POLAND :
PORTUGAL :
RUSSIA :
SLOVAKIA :
SPAIN :
UKRAINE :
UNITED KINGDOM,
IRELAND :
OTHER EUROPEAN COUNTRIES,
AFRICA,
MIDDLE-EAST :
LENNOX BENELUX N.V./S.A.
Tel : + 32 3 633 30 45
Fax : + 32 3 633 00 89 e-mail : [email protected]
LENNOX JANKA a.s.
Tel : + 420 2 510 88 111
Fax : + 420 2 579 10 393 e-mail : [email protected]
LENNOX FRANCE
Tel : + 33 1 64 76 23 23
Fax : + 33 1 64 76 35 75 e-mail : [email protected]
LENNOX DEUTSCHLAND GmbH
Tel : + 49 69 42 09 79 0
Fax : + 49 69 42 09 79 40 e-mail : [email protected]
LENNOX BENELUX B.V.
Tel : + 31 33 2471 800
Fax : + 31 33 2459 220 e-mail : [email protected]
LENNOX POLSKA Sp. z o. o.
Tel : + 48 22 832 26 61 fax : + 48 22 832 26 62 e-mail : [email protected]
LENNOX PORTUGAL Lda.
Tel : + 351 22 998 33 70
Fax : + 351 22 998 33 79 e-mail : [email protected]
LENNOX DISTRIBUTION MOSCOW
Tel : + 7 095 933 29 55
Fax : + 7 095 926 56 50 e-mail : [email protected]
LENNOX SLOVENSKO s.r.o.
Tel : + 421 7 44 87 19 27
Fax : + 421 7 44 88 64 72 e-mail : [email protected]
LENNOX REFAC S.A.
Tel : + 34 915 40 18 10
Fax : + 34 915 42 84 04 e-mail : [email protected]
LENNOX DISTRIBUTION KIEV
Tel : + 380 44 461 87 75
Fax : + 380 44 461 87 75 e-mail : [email protected]
LENNOX INDUSTRIES Ltd
Tel : + 44 1604 669100
Fax : + 44 1604 669150 e-mail : [email protected]
LENNOX DISTRIBUTION
Tel : + 33 4 72 23 20 14
Fax : + 33 4 72 23 20 28 e-mail : [email protected]
www.lennoxeurope.com
ECOLEAN-KP06
MUL33E-0904/
09-2004
Due to Lennox's ongoing commitment to quality, Specifications, Ratings and Dimensions subject to change without notice and without incurring liability.
Improper installation, adjustment, alteration, service or maintenance can cause property damage or personal injury.
Installation and service must be performed by a qualified installer and servicing agency.
Advertisement
Key features
- Connects up to 8 Ecolean units to a BMS system
- Controls cooling/heating modes, setpoint temperatures
- Reads alarm status and temperature readings
- Connects with different controllers (Climatic 200/400)
- Provides detailed system information and control
- Supports up to 15 KP06 interfaces per network
- Allows for remote monitoring and management
- Offers flexibility in system configuration
- Simplifies integration with building management systems