Soarer EMV interface for multimedia player/gps/pc etc., EMV steering remote and more
People who have converted their Soarer’s TV and audio to natively receive Australian/UK/NZ broadcast using my DIY kits know that I am a die-hard Soarer enthusiast trying to get the most out of this amazing and unique car’s audio system. Over the last two years I have spent countless hours studying and developing an interface kit for the Soarer EMV. Today I am pleased to announce I have succeeded and the first prototype of this new kit is operating in my car. The kit allows most off the shelf multimedia devices (such as video/audio players, multimedia pc or satellite navigation systems) to be controlled via the EMV touch screen.
Many Soarer owners already have one or more of these devices connected to the EMV via the two Audio/Video (AV) inputs provided by my TV conversion kit or via the Factory Video Terminal (FVT). Most of the devices have an Infra Red (IR) remote control interface for navigation. I made the Soarer EMV interface to replace those IR remotes by using the Soarer EMV touch screen.
How does this work?
Currently when the Soarer TV is selected for viewing (or the initial TV screen after power on) the touch screen does not operate, as there are no user menus to control. I took advantage of that and made the touch screen to accept touch events in this state. I divided the EMV screen area in 9 equal size rectangular zones, forming a 3x3 matrix. There is no graphical indication on the screen where the buttons are, but it is not difficult to correctly identify and touch them because of their big size (three rows of three buttons per row).
Each of these 9 buttons sends a unique IR signal (code) when pressed. This IR signal is taken (learned) from the Infra Red (IR) remote of the multimedia player/gps/pc already connected to the EMV. In other words, the EMV interface makes the touch screen to function as an IR remote control for your external device.
Often the device IR remote controls have more than 9 buttons (functions). To support more functions, each touch screen zone is designed to send two independent IR codes – one for a short button touch (shorter than 0.5sec) and another for a touch and hold (longer than 0.5 sec). There is a short beep and a long beep feedback. This allows 2x9=18 independent IR codes to be sent by the EMV interface to the device.
The TV conversion kit has two AV inputs, selectable via TV channels 19 and 20, for connection of up to two multimedia player/gps/pc devices. The EMV interface is designed to support an independent set of IR codes for each individual AV input. Therefore, each device has its own 18 IR functions and can be independently controlled by the EMV touch screen. By simply switching to channel 19 or 20, the touch screen is automatically switched to control the corresponding device.
Some people are using the Factory Video Terminal (FVT), which allows mono audio and video devices to be connected to the EMV. The disadvantage of this AV input is that it is not well integrated. It requires a switch (in the storage compartment between the front seats) to enable/disable it. The EMV interface integrates this AV input with the EMV. I used the Traffic Control Info EMV button (the Traffic Control Info service is only available in Japan) to switch (enable) this input. Now when the Info button is pressed and released, the EMV TV is switched on and the FVT selected (to exit from FVT just select another TV channel or EMV function). I also made the touch screen operating in FVT mode exactly the same as the TV kit AV inputs. So the FVT has its own 18 IR functions for device control automatically selected when FVT is enabled.
In addition to the 18 touch screen IR control functions for each of the three external devices connected to the EMV, I added two special IR functions for entry/exit. For example, when TV channel 19 AV input is selected the entry IR function is sent to the device. When switching from channel 19 to another channel or EMV audio source, the exit function is sent to the device. The entry/exit functions could be used to power up/down (or play/pause) the device when the AV input is selected/deselected.
In summary the EMV interface kit allows touch screen control via IR signals (codes) for up to three player/gps/pc devices, each of them having 20 independent IR control functions. The EMV interface learns the IR codes from the device IR remote control. The learning procedure is rather simple and needs to be done once after the EMV interface kit is installed. The EMV interface keeps the codes forever in a nonvolatile memory. You can change them at any time and as many times as you wish.
The EMV interface kit also allows integration with Pioneer CD-SR100 steering wheel IR remote control.
http://www.pioneer.com.au/car_entertainment/accessories/cdsr100/index.html
The Pioneer CD-SR100 keys are mapped to EMV and touch screen buttons in the way shown bellow:
People who have converted their Soarer’s TV and audio to natively receive Australian/UK/NZ broadcast using my DIY kits know that I am a die-hard Soarer enthusiast trying to get the most out of this amazing and unique car’s audio system. Over the last two years I have spent countless hours studying and developing an interface kit for the Soarer EMV. Today I am pleased to announce I have succeeded and the first prototype of this new kit is operating in my car. The kit allows most off the shelf multimedia devices (such as video/audio players, multimedia pc or satellite navigation systems) to be controlled via the EMV touch screen.
Many Soarer owners already have one or more of these devices connected to the EMV via the two Audio/Video (AV) inputs provided by my TV conversion kit or via the Factory Video Terminal (FVT). Most of the devices have an Infra Red (IR) remote control interface for navigation. I made the Soarer EMV interface to replace those IR remotes by using the Soarer EMV touch screen.
How does this work?
Currently when the Soarer TV is selected for viewing (or the initial TV screen after power on) the touch screen does not operate, as there are no user menus to control. I took advantage of that and made the touch screen to accept touch events in this state. I divided the EMV screen area in 9 equal size rectangular zones, forming a 3x3 matrix. There is no graphical indication on the screen where the buttons are, but it is not difficult to correctly identify and touch them because of their big size (three rows of three buttons per row).
Each of these 9 buttons sends a unique IR signal (code) when pressed. This IR signal is taken (learned) from the Infra Red (IR) remote of the multimedia player/gps/pc already connected to the EMV. In other words, the EMV interface makes the touch screen to function as an IR remote control for your external device.
Often the device IR remote controls have more than 9 buttons (functions). To support more functions, each touch screen zone is designed to send two independent IR codes – one for a short button touch (shorter than 0.5sec) and another for a touch and hold (longer than 0.5 sec). There is a short beep and a long beep feedback. This allows 2x9=18 independent IR codes to be sent by the EMV interface to the device.
The TV conversion kit has two AV inputs, selectable via TV channels 19 and 20, for connection of up to two multimedia player/gps/pc devices. The EMV interface is designed to support an independent set of IR codes for each individual AV input. Therefore, each device has its own 18 IR functions and can be independently controlled by the EMV touch screen. By simply switching to channel 19 or 20, the touch screen is automatically switched to control the corresponding device.
Some people are using the Factory Video Terminal (FVT), which allows mono audio and video devices to be connected to the EMV. The disadvantage of this AV input is that it is not well integrated. It requires a switch (in the storage compartment between the front seats) to enable/disable it. The EMV interface integrates this AV input with the EMV. I used the Traffic Control Info EMV button (the Traffic Control Info service is only available in Japan) to switch (enable) this input. Now when the Info button is pressed and released, the EMV TV is switched on and the FVT selected (to exit from FVT just select another TV channel or EMV function). I also made the touch screen operating in FVT mode exactly the same as the TV kit AV inputs. So the FVT has its own 18 IR functions for device control automatically selected when FVT is enabled.
In addition to the 18 touch screen IR control functions for each of the three external devices connected to the EMV, I added two special IR functions for entry/exit. For example, when TV channel 19 AV input is selected the entry IR function is sent to the device. When switching from channel 19 to another channel or EMV audio source, the exit function is sent to the device. The entry/exit functions could be used to power up/down (or play/pause) the device when the AV input is selected/deselected.
In summary the EMV interface kit allows touch screen control via IR signals (codes) for up to three player/gps/pc devices, each of them having 20 independent IR control functions. The EMV interface learns the IR codes from the device IR remote control. The learning procedure is rather simple and needs to be done once after the EMV interface kit is installed. The EMV interface keeps the codes forever in a nonvolatile memory. You can change them at any time and as many times as you wish.
The EMV interface kit also allows integration with Pioneer CD-SR100 steering wheel IR remote control.
http://www.pioneer.com.au/car_entertainment/accessories/cdsr100/index.html
The Pioneer CD-SR100 keys are mapped to EMV and touch screen buttons in the way shown bellow:
