Difference between revisions of "Implementing Clipsal Interface using Generic Serial Device"

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Clipsal Switches are used for controlling lights, curtains and temperature controls. They can be connected to the Serial Port and can be controlled via a PC. In the following tutorial, we will add Clipsal Switches using Generic Serial Device and implement Lights and Shutter control through the Linux MCE.
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[[Category:hardware]]
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[[Category: GSD]]
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{| align="right"
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  | __TOC__
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  |}
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Clipsal CBus Switches are used for controlling lights, curtains and temperature controls. They can be connected to the Serial Port and can be controlled via a PC. In the following tutorial, we will add Clipsal Switches using Generic Serial Device and implement Lights and Shutter control through the Linux MCE.
  
  
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* Create a Device Template 'Clipsal Interface' in Device Category: "Interfaces - Lighting Interface #81"
 
* Create a Device Template 'Clipsal Interface' in Device Category: "Interfaces - Lighting Interface #81"
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* Check Implements DCE - Command Line - Generic Serial Device
 
* In the packages, add "Pluto Generic Serial Device"
 
* In the packages, add "Pluto Generic Serial Device"
 
* In Device Data, add "#37 COM Port on PC(string)"
 
* In Device Data, add "#37 COM Port on PC(string)"
 
* In Commands Section, create and select "Ruby Internal Commands"
 
* In Commands Section, create and select "Ruby Internal Commands"
  
This Clipsal Interface will act as a parent device to all the child devices (eg. Lights, Curtains) that are controlled via the serial port to which Clipsal Switch is connected.
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This Clipsal Interface will act as a parent device to all the child devices (eg. Lights, Curtains) that are controlled via the serial port to which Clipsal Switch is connected. Now create a device from the device template Clipsal Interface.
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{{p}}
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== Ruby Commands for Lighting ==
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The Clipsal Interface will have all the lighting and curtains as its child devices. The commands from child devices will be directed to Clipsal Interface and this interface will send these commands to the serial port to which clipsal switch is connected.
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For the Clipsal Interface, following ruby commands will be implemented:
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* #Private Method Listing #373
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* #Process IDLE #351
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* #Process Incoming Data #350
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* #Process Initialize #355
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* #Process Receive Command For Child #384
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* #Process Release #356
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The most important of this command is #Process Receive Command For Child #384, which is process incoming data from child devices. When we receive any command from child device such as Light or Shutter, the ruby commands in this section are invoked and we need to send relevant commands to the serial port to carry out the action on lights or shutters.
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To edit the Ruby Commands for #384 Process Receive Command For Child, Edit the Clipsal Interface and click on 'Edit Ruby Codes' besides Implements DCE on the top.
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{{p}}
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== Ruby Code ==
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  group_no = device_.childdevices_[cmd.devidto_].devdata_[12]
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  if cmd.id_ == 192
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      serial_on = "\\05380079"+group_no+"\r"
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      log( "Sending " + serial_on + " \n" )
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      sendCmd(serial_on)
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  end
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  if cmd.id_ == 193
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      serial_off = "\\05380001"+group_no+"\r"
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      log( "Sending " + serial_off + " \n" )
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      sendCmd(serial_off)
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  end
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  log("We got cmd : " + cmd.id.to_s)
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  if cmd.id_ == 184
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      dim_level = cmd.params_[76]
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      serial_dim = "\\05380002"+group_no+""+dim_level+"\r"
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      log( "Sending " + serial_dim + " \n")
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      sendCmd(serial_dim)
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  end
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{{p}}
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== Explanation ==
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In the ruby code, what is happening is when we receive a command from any of the child devices (such as lights, curtains), we also get its port number. Then, using that port number we make a binary string to be sent to the serial port. That binary string is sent to the serial port defined in the Clipsal Interface Device Data.
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eg. Command # 192 is the command to switch light ON. The binary string to switch a light ON to be sent to the serial port is:
  
  
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\05380079 + Port Number + \r
  
  
This page is under authoring. More details coming soon.
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So, we receive the port number from child device (group_no), concatenate it in the binary string and send it to the serial port defined in the Clipsal Interface.

Latest revision as of 03:40, 5 July 2016


Clipsal CBus Switches are used for controlling lights, curtains and temperature controls. They can be connected to the Serial Port and can be controlled via a PC. In the following tutorial, we will add Clipsal Switches using Generic Serial Device and implement Lights and Shutter control through the Linux MCE.


Steps to Add Clipsal Interface

  • Create a Device Template 'Clipsal Interface' in Device Category: "Interfaces - Lighting Interface #81"
  • Check Implements DCE - Command Line - Generic Serial Device
  • In the packages, add "Pluto Generic Serial Device"
  • In Device Data, add "#37 COM Port on PC(string)"
  • In Commands Section, create and select "Ruby Internal Commands"


This Clipsal Interface will act as a parent device to all the child devices (eg. Lights, Curtains) that are controlled via the serial port to which Clipsal Switch is connected. Now create a device from the device template Clipsal Interface.



Ruby Commands for Lighting

The Clipsal Interface will have all the lighting and curtains as its child devices. The commands from child devices will be directed to Clipsal Interface and this interface will send these commands to the serial port to which clipsal switch is connected.


For the Clipsal Interface, following ruby commands will be implemented:

  • #Private Method Listing #373
  • #Process IDLE #351
  • #Process Incoming Data #350
  • #Process Initialize #355
  • #Process Receive Command For Child #384
  • #Process Release #356

The most important of this command is #Process Receive Command For Child #384, which is process incoming data from child devices. When we receive any command from child device such as Light or Shutter, the ruby commands in this section are invoked and we need to send relevant commands to the serial port to carry out the action on lights or shutters.


To edit the Ruby Commands for #384 Process Receive Command For Child, Edit the Clipsal Interface and click on 'Edit Ruby Codes' besides Implements DCE on the top.



Ruby Code

  group_no = device_.childdevices_[cmd.devidto_].devdata_[12]
  
  if cmd.id_ == 192
     serial_on = "\\05380079"+group_no+"\r"
     log( "Sending " + serial_on + " \n" )
     sendCmd(serial_on)
  end
  
  if cmd.id_ == 193
     serial_off = "\\05380001"+group_no+"\r"
     log( "Sending " + serial_off + " \n" )
     sendCmd(serial_off)
  end
  
  log("We got cmd : " + cmd.id.to_s)
  
  if cmd.id_ == 184
     dim_level = cmd.params_[76]
     serial_dim = "\\05380002"+group_no+""+dim_level+"\r"
     log( "Sending " + serial_dim + " \n")
     sendCmd(serial_dim)
  end



Explanation

In the ruby code, what is happening is when we receive a command from any of the child devices (such as lights, curtains), we also get its port number. Then, using that port number we make a binary string to be sent to the serial port. That binary string is sent to the serial port defined in the Clipsal Interface Device Data.

eg. Command # 192 is the command to switch light ON. The binary string to switch a light ON to be sent to the serial port is:


\05380079 + Port Number + \r


So, we receive the port number from child device (group_no), concatenate it in the binary string and send it to the serial port defined in the Clipsal Interface.