Kaysun K8-KNX Aidoo KNX Midea Owner’s Manual
- July 2, 2024
- Kaysun
Table of Contents
Kaysun K8-KNX Aidoo KNX Midea Owner’s Manual
Thank you very much for purchasing our product.
Before using your unit, please read this manual carefully and keep it for
future reference.
- This manual gives detailed description of the precautions that should be brought to your attention during operation.
- In order to ensure correct service of K8-KNX, please read this manual carefully before using the unit.
- For convenience of future reference, keep this manual after reading it.
Safety precautions
The following contents are stated on the product and the operation manual, including usage, precautions against personal harm and property loss, and the methods of using the product correctly and safely. After fully understanding the following contents (identifiers and icons), read the text body and observe the following rules.
Identifier description
Identifier | Meaning |
---|
Warning| Means improper handling may lead to severe injury.
Caution| Means improper handling may lead to personal injury or property
loss.
[Note]: 1. “Harm” means injury, burn and electric shock which need long-term
treatment but need no hospitalization2. “Property loss” means loss of
properties and materials.
Icon description
Icon | Meaning |
---|---|
It indicates forbidding. The forbidden subject-matter is indicated in the |
icon or by images or characters aside.
| It indicates compulsory implementation. The compulsory subject- matter is
indicated in the icon or by images or characters aside.
WARNING
Please entrust the distributor or professionals to install the unit.
Installation by other persons may lead to imperfect installation, electric
shock or fire.
Strictly follow this manual.
Imporper installation may lead to electric shock or fire.
Reinstallation must be performed by professionals.
improper installation may lead to electric shock or fire.
Do not disassemble your air conditioner at will.
A random disassembly may cause abnormal operation or heating, which may result
in fire.
CAUTION
Do not install the unit in a place vulnerable to leakage of flammable
gases.
Once flammable gases are leaked and left around the wire controller, fire may
occure.
The wiring should adapt to the wire controller current.
Otherwise, electric leakage or heating may occur and result in fire.
The specified cables shall be applied in the wiring. No external force may
be applied to the terminal.
Otherwise, wire cut and heating may occur and result in fire.
**Do not place the wired remote controller near the lamps, to avoid the remote signal of the controller to be disturbed. (refer to the right figure)
**
Other precautions
-
Installation Location
Do not install the unit in a place with much oil, steam, sulfide gas. Otherwise, the
product may be deformed and failed. -
Preparation before installation
- Check whether the following assemblies are complete.
No. | Name | Qty. | Remarks |
---|---|---|---|
1 | K8-KNX | 1 | **** |
2 | Cross round head wood mounting screw | 3 | GB950-86 M4X20 (For Mounting on |
the Wall)
3| Cross round head mounting screw| 2| M4X25 GB823-88(For Mounting on the
Electrical Switch Box)
4| Installation Manual| 1| ****
5| Plastic expansion pipe| 3| For Mounting on the Wall
6| 2-core shielded cable| 1| For connecting the indoor unit and K8-KNX
Note to installation of K8-KNX:
- One KNX module can only connect with one indoor unit; The KNX module should connect to indoor D1D2E ports.
- Circuit of K8-KNX is low voltage circuit. Never connect it with a standard 220V/380V circuit or put it into a same Wiring Tube with the circuit.
- Do not attempt to extend the shield cable by cutting, if it is necessary, use Terminal Connection Block to connect.
- After finishing connection, do not use Megger to have the insulation check to the signal wire.
- The default physical address of the K8-KNX is 15.15.255, If there are two or more KNX modules, then the physical addresses can not repeat. The physical address can be changed by ETS software.
- Before installation, need prepare KNX power module.
Installation procedure
-
The product parameters
No.| Name| Remarks
---|---|---
1| Dimensions| 855116mm
2| Power supply| 29VDC 10mA, Supplied through KNX bus
3| LED indicator| KNX programming
4| Push button| KNX programming button
5| Configuration| Configuration with ETS software. -
The product parameters
-
Bus interface: Power supply DC 29V, 10mA and connect to KNX bus;
-
KNX programming button: press once to enter the programming mode, press it again will exit.
-
KNX programming statues lamp: when it is light up means programming status and can write data to the module by KNX bus
-
RS485 communication ports: Communication port between KNX module and indoor unit. (Support S8 indoor unit)
* K8-KNX is completely in conformity with EIB/KNX standard. ETS software must
be used by integrator to carry out configuration and project design. For
detailed
information of ETS software, please contact knx association: www.knx.org.
* ETS database (*.vd*) of K8-KNX can be consult our company.
- Wiring installation instruction
The Wiring diagram follows, the K8-KNX connect to the indoor Unit and KNX Power.
The Introduction K8-KNX
-
K8-KNX allows monitoring and control, fully bi-directionally, of all the functioning parameters of Air Conditioners from KNX installations.
-
Simple installation.
Can be installed inside the own indoor unit, it connects directly in one side to the electronic circuit of the indoor unit (cable supplied) and in the other side to the KNX TP-1 (EIB) bus. -
Great flexibility of integration into your KNX projects.
Configuration is made directly from ETS, the database of the device comes with a complete set of communication objects allowing, from a simple and quick integration using the basic objects, to the most advanced integration with monitoring and control all the indoor unit’s parameters. Also available specific device’s communication objects, as for example save and execute scenes. -
Allows the use of a KNX temperature sensor for the air conditioning control.
ETS database group objects introduction
Index | Internal Name | Function Text | Object Size | Flags | Datapoint Type |
---|---|---|---|---|---|
1 | Control_Mode | 0-OF; 1-Fan; 2-Co; 3-He; 4-Au; 5-Dr | 1 Byte | RWC— | [20.102] |
DPT_HVACMode
2| Control_Setpoint Temperature of Non-Auto Mode| °C| 2 Bytes| RWC—| [9.1]
DPT_Value_Temp
3| Control_Setpoint Temperature of Auto Mode(Heat)| °C| 2 Bytes| RWC—| [9.1]
DPT_Value_Temp
4| Control_Setpoint Temperature of Auto Mode(Cool)| °C| 2 Bytes| RWC—| [9.1]
DPT_Value_Temp
5| Control_Fan Speed| 1-Speed1, …7-Speed7; 8-Auto| 1 Byte| RWC—| [5.4]
DPT_Percent_U8
6| Control_Mode Switch Cool/Heat| 0-Cool; 1-Heat| 1 Bit| RWC—| [1.100]
DPT_Heat_Cool
7| Control_Swing_Up_Down| 1/2/3/4/5-Angle, 0-OFF, 6-Auto| 1 Byte| RWC—| [5.4]
DPT_Percent_U8
8| Control_Swing_Left_Right| 1/2/3/4/5-Angle, 0-OFF, 6-Auto| 1 Byte| RWC—|
[5.4] DPT_Percent_U8
9| Status_Mode| 0-OF; 1-Fan; 2-Co; 3-He; 4-Au; 5-Dr| 1 Byte| R-CT–| [20.102]
DPT_HVACMode
10| Status_Ambient Temperature| °C| 2 Bytes| R-CT–| [9.1] DPT_Value_Temp
11| Status_Setpoint Temperature of Non-Auto Mode| °C| 2 Bytes| R-CT–| [9.1]
DPT_Value_Temp
12| Status_Setpoint Temperature of Auto Mode(Heat)| °C| 2 Bytes| R-CT–| [9.1]
DPT_Value_Temp
13| Status_Setpoint Temperature of Auto Mode(Cool)| °C| 2 Bytes| R-CT–| [9.1]
DPT_Value_Temp
14| Status_Fan Speed| 1-Speed1, …7-Speed7; 8-Auto| 1 Byte| R-CT–| [5.4]
DPT_Percent_U8
15| Status_Swing_Up_Down| 1/2/3/4/5-Angle, 0-OFF, 6-Auto| 1 Byte| R-CT–| [5.4]
DPT_Percent_U8
16| Status_Swing_Left_Right| 1/2/3/4/5-Angle, 0-OFF, 6-Auto| 1 Byte| R-CT–|
[5.4] DPT_Percent_U8
17| Status_Auxiliary Heater| 0-OFF; 1-ON| 1 Bit| R-CT–| [1.1] DPT_Switch
18| Status_Alarm| 0-No Alarm; 1-Alarm| 1 Bit| R-CT–| [1.5] DPT_Alarm
19| Status_On/Off| 0-Off; 1-On| 1 Bit| R-CT–| [1.1] DPT_Switch
20| Control_On/Off| 0-Off; 1-On| 1 Bit| RWC—| [1.1] DPT_Switch
21| Control_Mode Auto| 1-Set Auto Mode| 1 Bit| RWC—| [1.1] DPT_Switch
22| Control_Mode Cool| 1-Set Cool Mode| 1 Bit| RWC—| [1.1] DPT_Switch
23| Control_Mode Heat| 1-Set Heat Mode| 1 Bit| RWC—| [1.1] DPT_Switch
24| Control_Mode Dry| 1-Set Dry Mode| 1 Bit| RWC—| [1.1] DPT_Switch
25| Control_Mode Fan| 1-Set Fan Mode| 1 Bit| RWC—| [1.1] DPT_Switch
26| Control_Mode +/-| 1-Down; 0-Up| 1 Bit| RWC—| [1.8] DPT_UpDown
27| Control_Set Temp +/- of Non-Auto Mode| 1-Down; 0-Up| 1 Bit| RWC—| [1.8]
DPT_UpDown
28| Control_Fan Speed +/-| 1-Down; 0-Up| 1 Bit| RWC—| [1.8] DPT_UpDown
29| Control_Set Temp +/- of Auto Mode(Cool)| 1-Down; 0-Up| 1 Bit| RWC—| [1.8]
DPT_UpDown
30| Control_Set Temp +/- of Auto Mode(Heat)| 1-Down; 0-Up| 1 Bit| RWC—| [1.8]
DPT_UpDown
The instruction as follow:
-
Set Mode ; database type: DPT_20.102 HVAC Mode;
Set value: 0-OFF; 1-Fan only; 2-Cool; 3-Heat; 4-Auto; 5-Dry -
Set Temperature of Non Auto Mode ; database type: DPT_9.001 temperature(°C).
The indoor unit temperature value corresponding to ETS temperature value:NO.| Temp.value(°C)| ETS value| NO.| Temp.value(°C)| ETS value
---|---|---|---|---|---
1| 16| 06 40| 9| 24| 0C B0
2| 17| 0B 52| 10| 25| 0C E2
3| 18| 0B 84| 11| 26| 0D 14
4| 19| 0B B6| 12| 27| 0D 46
5| 20| 0B E8| 13| 28| 0D 78
6| 21| 0C 1A| 14| 29| 0D AA
7| 22| 0C 4C| 15| 30| 0D DC
8| 23| 0C 7E| | | -
Set Heat temperature of Auto Mode ; database type: DPT_9.001 temperature(°C).
-
Set Cool temperature of Auto Mode; database type: DPT_9.001 temperature(°C).
-
Set Fan speed; data type: [5.4] DPT_Percent_U8;
Set value: 1-speed1; 2-speed2; 3-speed3; 4-speed4; 5-speed5; 6-speed6; -
speed7; 8-Auto
-
Set Heat/Cool mode switch; data type: [5.4] DPT_Percent_U8.
Set value: 0-Cool mode; 1-Heat mode. -
Set Right-Left swing; database type: [5.4] DPT_Percent_U8. set value: 0- OFF; 1-
Angle1; 2 – Angle2; 3- Angle3; 4- Angle4; 5- Angle5; 6- Auto -
Mode status read; data type: DPT_20.102 HVAC mode.
Read value: 0-OFF.1-Fan; 2-Cool; 3-Heat; 4-Auto; 5-Dry. -
Indoor unit ambient temperature read; data type: DPT_9.001 temperature(°C).
-
Set temperature Non Auto Mode read; data type: DPT_9.001 temperature(°C).
-
Set Heat temperature of Auto Mode read; data type: DPT_9.001 temperature(°C).
-
Set Cool temperature of Auto Mode read; data type: DPT_9.001 temperature(°C).
-
Fan speed read; data type: [5.4] DPT_Percent_U8
Read value: 1-speed1; 2-speed2; 3-speed3; 4-speed4; 5-speed5; 6-speed6; -
speed7; 8-Auto
-
Fan Right-Left swing status read; database type: [5.4] DPT_Percent_U8.
Read value: 0- OFF; 1- Angle1; 2- Angle2; 3- Angle3; 4- Angle4; 5- Angle5; 6- Auto -
Fan Right-Left swing status read; database type: [5.4] DPT_Percent_U8.
Read value: 0- OFF; 1- Angle1; 2- Angle2; 3- Angle3; 4- Angle4; 5- Angle5; 6- Auto -
Auxiliary Heater status read; data type: DPT_1.001 Switch.
Read value: 0-Auxiliary Heater OFF, 1-Auxiliary Heater ON -
Alarm state read; data type: DPT_1.005 alarm
Read value: 0-no alarm; 1-alarm -
ON/OFF status; data type: DPT_1.001 switch
Read value: 0-OFF, 1-ON -
ON/OFF; data type: DPT_1.001 switch
Set value: 0-OFF; 1-ON -
Set auto mode; data type: DPT_1.001 switch
Set value: 1-set as auto mode -
set Cool mode; data type: DPT_1.001 switch
Set value: 1-set as Cool mode -
Set Heat mode; data type: DPT_1.001 switch
Set value: 1-set as Heat mode -
Set Dry mode; data type: DPT_1.001 switch
Set value: 1-set as Dry mode -
Set Fan mode; data type: DPT_1.001 switch
Set value: 1-set as Fan mode -
Set mode +/-; data type: DPT_1.008 UpDown
Set value: 1-Down 0-UP -
Set temperature +/- of Non Auto Mode; data type: DPT_1.008 UpDown
Set value: 1-Down 0-UP -
The fan speed +/-; data type: DPT_1.008 UpDown
Set value: 1-Down 0-UP -
Set cool temperature +/- of Auto Mode; data type: DPT_1.008 UpDown
Set value: 1-Down 0-UP -
Set heat temperature +/- of Auto Mode; data type: DPT_1.008 UpDown
Set value: 1-Down 0-UP
MAIN OFFICE
Blasco de Garay, 4-6
08960 Sant Just Desvern (Barcelona)
Tel. +34 93 480 33 22 http://www.frigicoll.es/
http://www.kaysun.es/en/
MADRID
Senda Galiana, 1
Polígono Industrial Coslada
Coslada (Madrid)
Tel. +34 91 669 97 01
Fax. +34 91 674 21 00
madrid@frigicoll.es
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>