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system_objs [2019/11/19 10:55] – [Roles] ingrid | system_objs [2020/07/15 09:46] – ingrid | ||
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* [[#RGB| RGB]] | * [[#RGB| RGB]] | ||
* [[# | * [[# | ||
+ | * [[# | ||
* [[#web_ui| Web UI]] | * [[#web_ui| Web UI]] | ||
* [[# | * [[# | ||
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* [[# | * [[# | ||
* [[# | * [[# | ||
- | * [[#Lutron_project| Lutron Project]] | + | * [[#Lutron| Lutron Project]] |
* [[# | * [[# | ||
* [[# | * [[# | ||
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* **Server client port** Number of the TCP port needed to remotely connect with the server (outside the server network). The default port is 7550. | * **Server client port** Number of the TCP port needed to remotely connect with the server (outside the server network). The default port is 7550. | ||
* **Local IP address** IP address (for example 192.168.X.X) needed to connect with the server from clients that operate in the server LAN. | * **Local IP address** IP address (for example 192.168.X.X) needed to connect with the server from clients that operate in the server LAN. | ||
+ | * **KNXNet/IP interface** if enabled, the Thinknx server can be used as a KNXNet/IP interface, allowing KNX programming from the ETS software for example. More information are available on the [[knxnet_ip| KNXnet/IP]] guide. | ||
+ | * **KNXNet/IP different IP** if enabled, permits to choose a different KNXNet/IP interface to connect and access the KNX bus. | ||
+ | * **Clients Ph. Address Base** base physical address for the clients connections. | ||
+ | * **Client number** number of supported client tunnel connections. | ||
+ | * **KNXNet/IP router** If enabled, the server will also route traffic from TP to multicast IP and vice versa, allowing to connect different parts of a KNX system together over IP. More information are available on the [[knxnet_ip| KNXnet/IP]] guide. | ||
* **System name** Name to identify the project once it has been uploaded to the server. | * **System name** Name to identify the project once it has been uploaded to the server. | ||
* **Location** Name of the location where the system is installed. | * **Location** Name of the location where the system is installed. | ||
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* **Controller type** Selection among three possible models: | * **Controller type** Selection among three possible models: | ||
- | * // | + | * //**Mitsubishi AG 150:**// This controller permits to interact with Mitsubishi G50, AG150 and newer controllers with Mitsubishi XML protocol (this protocol needs to be enabled on the Mitsubishi side). |
- | * //KNX interface simple:// This controller allows to set mode and speed using standard 1 byte objects. | + | * //**KNX interface simple:**// This controller allows to set mode and speed using standard 1 byte objects. |
- | * //KNX interface extended:// This controller allows to set mode and speed using 1 bit objects.\\ | + | * //**KNX interface extended:**// This controller allows to set mode and speed using 1 bit objects.\\ |
+ | * // | ||
- | If Controller type is ”Mitsubishi AG 150” the following | + | Select the ”Devices” property |
- | * **IP address** HVAC controller | + | |
+ | ==== CoolMaster Net ==== | ||
+ | |||
+ | CoolAutomation devices permits to directly talk with many Air conditioning brands including Daikin and many others. It is connected directly to the AC bus and can control with a single interface all the units connected to the bus. | ||
+ | |||
+ | Integration with Thinknx is directly through the network and permits to control devices under CoolMaster directly within Thinknx. It is not required that the CoolMaster has KNX port. The communication with the KNX devices | ||
+ | |||
+ | {{ : | ||
+ | |||
+ | On the system node the following properties will appear:\\ | ||
+ | * **IP address** HVAC Controller | ||
+ | * **Port number** TCP/IP port for Ethernet connection. For example, 10102. | ||
* **Devices** List of HVAC devices linked to the system. | * **Devices** List of HVAC devices linked to the system. | ||
- | ==== Adding a HVAC device | + | These are the properties for the single |
+ | * // | ||
+ | * // | ||
+ | * //**KNX On/Off command group**// 1-bit group to switch the device on/off from KNX | ||
+ | * //**KNX On/Off feedback group**// 1-bit group to receive feedback regarding on/off status of the device | ||
+ | * //**KNX Fan command group:**// 1-byte group to switch device fan speed from KNX. | ||
+ | * //**KNX Fan feedback group:**// 1-byte group to receive feedback regarding fan speed status of the device | ||
+ | * //**KNX Temperature setpoint command group**// 2-byte DPT9 group to set the setpoint temperature for the device from KNX | ||
+ | * //**KNX Temperature setpoint feedback group**// 2-byte DPT9 group to receive feedback regarding actual setpoint from the device. | ||
+ | * //**KNX Mode command group:**// 1-byte group to switch device modality from KNX. | ||
+ | * //**KNX Mode feedback group:**// 1-byte group to receive feedback regarding modality of the device. | ||
+ | * //**Actual temperature from internal unit KNX group**// 2-byte DPT9 group to receive actual temperature read from the device (only available if supported by the device) | ||
+ | * //**Value fan min:**// value for minimum fan speed. It will be sent to fan command group to set speed and, if received in fan feedback group, minimum speed will be recognized (1-byte value). | ||
+ | * //**value fan middle:**// value for middle fan speed. It will be sent to fan command group to set speed and, if received in fan feedback group, middle speed will be recognized (1-byte value). | ||
+ | * //**value fan max:**// value for maximum fan speed. It will be sent to fan command group to set speed and, if received in fan feedback group, maximum speed will be recognized (1-byte value). | ||
+ | * //**Value Cool Mode:**// value that corresponds to Cool Modality for mode group (1-byte). | ||
+ | * //**Value Heat Mode:**// value that corresponds to Heat Modality for mode group (1-byte). | ||
+ | * //**Value Dry Mode:**// value that corresponds to Dry Modality for mode group (1-byte). | ||
+ | * //**Value Fan Mode:**// value that corresponds to Fan Modality for mode group (1-byte). | ||
+ | * //**Enable regulator: | ||
- | Select the ”Devices” property and click on the button displayed on the right to open the devices editor window; click on ”Add” button and adjust the properties in the grid. | ||
==== Mitsubishi device ==== | ==== Mitsubishi device ==== | ||
+ | If Controller type is ”// | ||
+ | * **IP address** HVAC controller IP address.\\ | ||
+ | |||
+ | These are the properties for the single device: | ||
* **Name** Device name. | * **Name** Device name. | ||
* **Device index** Index associated to the device inside the controller. | * **Device index** Index associated to the device inside the controller. | ||
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* **Email content** body of the email. | * **Email content** body of the email. | ||
++++ | ++++ | ||
+ | |||
+ | ===== Thinknx Sensors ===== | ||
+ | This object allows to configure Thinknx sensors (temperature, | ||
+ | * **Label** Text to identify the object. | ||
+ | * **Thinknx devices** List of Thinknx devices used for reading sensors values. | ||
+ | |||
+ | For each sensor added, the below parameters are available: | ||
+ | * **Name** Label that identify the sensor or the device | ||
+ | * **Serial number** Serial number of the device to retrieve sensors values. | ||
+ | * **KNX Gateway** If enabled, permits to send the sensors values to the KNX bus. | ||
+ | * **Temperature group** KNX group to send the value read from the temperature sensor. | ||
+ | * **Humidity group** KNX group to send the value read from the humidity sensor. | ||
+ | * **Light group** KNX group to send the value read from the ambiant luminosity sensor. | ||
+ | * **Send mode** Defines the criteria used to decide when the values should be sent to the KNX bus. Available options: | ||
+ | * After a fixed time interval | ||
+ | * One new value reception | ||
+ | * On over-threshold change | ||
+ | * On over-threshold change and after time | ||
+ | |||
+ | ==== Object commands ==== | ||
+ | |||
+ | Commands recallable from other objects: | ||
+ | ++++Get the actual humidity| | ||
+ | ++++ | ||
+ | ++++Get the actual luminosity| | ||
+ | ++++ | ||
+ | ++++Get the actual tmperature| | ||
+ | ++++ | ||
+ | |||
+ | |||
+ | |||
===== Web UI ===== | ===== Web UI ===== | ||
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{{ : | {{ : | ||
- | It allows to integrate Modbus devices. | + | It allows to integrate Modbus devices |
* **Communication Type** Define the method and mean of communication. Serial over TCP is used when a Serial Server is used.\\ If in the property ”Communication Type” is selected the setting ”Modbus Serial”, the following properties will appear: | * **Communication Type** Define the method and mean of communication. Serial over TCP is used when a Serial Server is used.\\ If in the property ”Communication Type” is selected the setting ”Modbus Serial”, the following properties will appear: | ||
- | * Port Number: Serial port number. | + | * Port Number: Serial port number |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
* Baud Rate: Modbus Baud Rate | * Baud Rate: Modbus Baud Rate | ||
* Data Length: Number of bits for data | * Data Length: Number of bits for data | ||
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* **Selected bits mask** mask value of the selected bits to be changed. | * **Selected bits mask** mask value of the selected bits to be changed. | ||
++++ | ++++ | ||
+ | |||
+ | ===== Gateway Modbus Slave===== | ||
+ | |||
+ | {{ : | ||
+ | |||
+ | It allows to integrate Modbus devices when Thinknx server is used as Slave. | ||
+ | |||
+ | * **Communication Type** Define the method and mean of communication. Serial over TCP is used when a Serial Server is used.\\ If in the property ”Communication Type” is selected the setting ”Modbus Serial”, the following properties will appear: | ||
+ | * Port Number: Serial port number that changes depending on the server used: | ||
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
+ | * Baud Rate: Modbus Baud Rate | ||
+ | * Data Length: Number of bits for data | ||
+ | * Parity: Parity check modality | ||
+ | * Stop Bits: Number of stop bits. | ||
+ | * Custom Timing: if enabled, it allows to change the waiting times below: | ||
+ | * waiting time after enabling RTS before the writing begins. | ||
+ | * waiting time after writing before disabling RTS. | ||
+ | * waiting time after disabling RTS before the reading begins. | ||
+ | |||
+ | * **Device Address** Address of the slave device (1byte) to be used on the bus for identification. | ||
+ | * **Modbus Type** variant of the Modbus protocol to use for communication. Select between RTU (mostly used) and ASCII. | ||
+ | * **Datapoints** Datapoints collection | ||
+ | |||
+ | |||
===== Gateway MyHome ===== | ===== Gateway MyHome ===== | ||
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* **IP Address** IP address of the device or of the serial server | * **IP Address** IP address of the device or of the serial server | ||
- | * **Port Number** Serial port number. | + | * **Port Number** Serial port number |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
* **Lights** Collection of lights | * **Lights** Collection of lights | ||
* **Automation** | * **Automation** | ||
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{{ : | {{ : | ||
- | It allows to integrate Z-Wave devices. Without any gateway, the result is a reliable and easy-to-use system with a bidirectional connection between Z-Wave and other standards such as KNX. | + | It allows to integrate Z-Wave devices. Without any gateway, the result is a reliable and easy-to-use system with a bidirectional connection between Z-Wave and other standards such as KNX. |
+ | |||
+ | <WRAP important center round 60%> For a full list of all the compatible Z-wave devices with Thinknx server, visit this link here http:// | ||
* **Use internal controller** If enable, it will be used the server internal Z-Wave controller. If disabled it will be possible to use an external Z-Wave controller. This option is only used during configuration phase. If disabled, following properties will appear: | * **Use internal controller** If enable, it will be used the server internal Z-Wave controller. If disabled it will be possible to use an external Z-Wave controller. This option is only used during configuration phase. If disabled, following properties will appear: | ||
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This object represents the interface between ThinKnx system and a third-party device connected through serial port. It makes possible to send commands through the serial port to the device. | This object represents the interface between ThinKnx system and a third-party device connected through serial port. It makes possible to send commands through the serial port to the device. | ||
- | * **Port Number** Serial port number. | + | * **Port Number** Serial port number |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
* **Baud Rate** Serial port baud rate. | * **Baud Rate** Serial port baud rate. | ||
* **Data Length** Number of bits for data. | * **Data Length** Number of bits for data. | ||
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* IP address: Device IP address. | * IP address: Device IP address. | ||
* Port number: TCP/IP port number for ethernet connection.\\ If the property ”Use serial port” is set to ”Enabled”, | * Port number: TCP/IP port number for ethernet connection.\\ If the property ”Use serial port” is set to ”Enabled”, | ||
- | * Serial port: Server serial | + | * Serial port: Serial |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
==== Object commands ==== | ==== Object commands ==== | ||
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* IP address: Device IP address. | * IP address: Device IP address. | ||
* Port number: TCP/IP port number for ethernet connection.\\ If the property ”Use serial port” is set to ”Enabled”, | * Port number: TCP/IP port number for ethernet connection.\\ If the property ”Use serial port” is set to ”Enabled”, | ||
- | * Serial port: Server serial | + | * Serial port: Serial |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
* **Mute KNX Group** KNX group for mute command. | * **Mute KNX Group** KNX group for mute command. | ||
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* //TV brand LCD// | * //TV brand LCD// | ||
* //TV brand NEC// | * //TV brand NEC// | ||
- | * **Serial port** | + | * **Serial port** |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
==== Object Commands ==== | ==== Object Commands ==== | ||
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* IP address: Device IP address. | * IP address: Device IP address. | ||
* Port number: TCP/IP port number for ethernet connection.\\ If the property ”Use serial port” is set to ”Enabled”, | * Port number: TCP/IP port number for ethernet connection.\\ If the property ”Use serial port” is set to ”Enabled”, | ||
- | * Serial port: Server serial | + | * Serial port: Serial |
+ | * Compact: use 0. | ||
+ | * Rack: for the 2 RS-232 ports use 0 and 1. For the additional green ports use 2 and 3. | ||
+ | * Brickbox: for RS-232 use 4. For RS-485 use 5. | ||
+ | * When using a USB port, use 10. | ||
==== Object commands ==== | ==== Object commands ==== | ||
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This object represents the complete integration of Sonos systems in ThinKnx, it allows to control and receive feedbacks from Sonos players directly through network without creating more traffic on KNX. In this way, all the commands and feedbacks can be available on KNX only if the installer really need them. | This object represents the complete integration of Sonos systems in ThinKnx, it allows to control and receive feedbacks from Sonos players directly through network without creating more traffic on KNX. In this way, all the commands and feedbacks can be available on KNX only if the installer really need them. | ||
+ | |||
+ | <WRAP important center align round 80%> This object is currently tested with Sonos S1 system. For more information on S2, contact our support team. </ | ||
* **Players** Sonos players configured in ThinKnx system. | * **Players** Sonos players configured in ThinKnx system. |