Difference between revisions of "LCD-HD700"

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[[LCD-HD700/zh|查看中文]]
 
[[LCD-HD700/zh|查看中文]]
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==Introduction==
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[[File:HD700.png|thumb|]]
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* The HD700 LCD is a FriendlyARM developed LCD with capacitive touch panel. Its resolution is 1280 x 800. Its backlight is adjustable via FriendlyARM’s one-wire technology. It works with FriendlyARM’s Tiny4412, Super4412, NanoPC-T1, NanoPC-T2,  NanoPi 2 and NanoPi 2 Fire under Linux and Android. Its driver is open source.
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* The HD700 has a black ABS bezel with mounting holes making it easily deployed in various situations.
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==Dimensional Diagram==
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[[File:HD70001.png|frameless|600px|]]
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==Applications==
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[[File:HD70002.png|frameless|600px|]]
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[[File:HD70003.png|frameless|600px|]]
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==Datasheet==
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*[[http://pan.baidu.com/s/1bNcNXs/ Click to download]]
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==Schematics==
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*[[http://pan.baidu.com/s/1pLenqf5/ Click to download]]
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==Applicable Platforms==
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::{| class="wikitable"
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|-
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|Debian || Android          ||Linux+Qt     
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|-
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|NanoPi 2  || NanoPi 2  ||     
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|-
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|NanoPi M2  || NanoPi M2    ||     
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|-
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|NanoPi 2 Fire  || NanoPi 2 Fire    ||   
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|-
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|NanoPi M3  || NanoPi M3    ||   
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|-
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|NanoPC T2  || NanoPC T2    || 
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|-
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|NanoPC T3 || NanoPC T3  ||   
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|-
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|Smart4418 || Smart4418  || 
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|-
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|  || Tiny4412  || Tiny4412
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|}
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==One-Wire Technology==
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* As for most ARM boards we observed that using CPU’s ADC conversion didn’t work very well for large-size LCDs (7” and larger) with four-wire resistive touch. Some vendors use an external USB or UART module to connect these LCDs. To save CPU’s hardware resources and minimize usage of external modules we developed the one-wire technology which only uses a single GPIO pin and we have integrated this technology in all our LCD controller boards. This technology uses an MCU to communicate with the touch panel’s chip (we use the ADS7843 chip or other chips compatible with ADS7843) and  process the four-wire resistor’s analog signals and output the filtered stable signals to the ARM board via GPIO. We tested this technology in various LCDs and it worked very well even for a large LCD of 19” and some commonly observed issues such as screen flipping and jittering were not encountered.
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* Today most LCDs whose size is less than 12” have LED backlight. We use the one-wire’s MCU to process the backlight as well. The backlight is set with a range of values. Users can set a value to the backlight and this value is passed to MCU for processing via one-wire’s GPIO pin. 
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* Each FriendlyARM’s LCD module has a unique ID which is saved in the one-wire’s MCU. When the MCU reads the ID information from GPIO signals it will recognize the LCD model and instruct the bootloader to load the corresponding LCD driver, making a FriendlyARM LCD plug and play.
 +
* As for the one-wire technology for our LCDs with capacitive touch we removed the resistive touch panel’s chip but kept the backlight adjusting function and LCD’s ID information. Therefore the communication between the capacitive touch and the ARM board is still standard IIC.
 +
* Attention:the one-wire technology is different from the commonly known single-bus communication. Actually in the ARM board we use a PWM timer (not PWM pins) to generate the communication frequency (9600Hz). For more details please refer to the driver’s source code.
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==Update Log==
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===June-29-2016===
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* Created English wiki

Revision as of 23:38, 28 June 2016

查看中文

1 Introduction

HD700.png
  • The HD700 LCD is a FriendlyARM developed LCD with capacitive touch panel. Its resolution is 1280 x 800. Its backlight is adjustable via FriendlyARM’s one-wire technology. It works with FriendlyARM’s Tiny4412, Super4412, NanoPC-T1, NanoPC-T2, NanoPi 2 and NanoPi 2 Fire under Linux and Android. Its driver is open source.
  • The HD700 has a black ABS bezel with mounting holes making it easily deployed in various situations.

2 Dimensional Diagram

HD70001.png

3 Applications

HD70002.png HD70003.png

4 Datasheet

5 Schematics

6 Applicable Platforms

Debian Android Linux+Qt
NanoPi 2 NanoPi 2
NanoPi M2 NanoPi M2
NanoPi 2 Fire NanoPi 2 Fire
NanoPi M3 NanoPi M3
NanoPC T2 NanoPC T2
NanoPC T3 NanoPC T3
Smart4418 Smart4418
Tiny4412 Tiny4412

7 One-Wire Technology

  • As for most ARM boards we observed that using CPU’s ADC conversion didn’t work very well for large-size LCDs (7” and larger) with four-wire resistive touch. Some vendors use an external USB or UART module to connect these LCDs. To save CPU’s hardware resources and minimize usage of external modules we developed the one-wire technology which only uses a single GPIO pin and we have integrated this technology in all our LCD controller boards. This technology uses an MCU to communicate with the touch panel’s chip (we use the ADS7843 chip or other chips compatible with ADS7843) and process the four-wire resistor’s analog signals and output the filtered stable signals to the ARM board via GPIO. We tested this technology in various LCDs and it worked very well even for a large LCD of 19” and some commonly observed issues such as screen flipping and jittering were not encountered.
  • Today most LCDs whose size is less than 12” have LED backlight. We use the one-wire’s MCU to process the backlight as well. The backlight is set with a range of values. Users can set a value to the backlight and this value is passed to MCU for processing via one-wire’s GPIO pin.
  • Each FriendlyARM’s LCD module has a unique ID which is saved in the one-wire’s MCU. When the MCU reads the ID information from GPIO signals it will recognize the LCD model and instruct the bootloader to load the corresponding LCD driver, making a FriendlyARM LCD plug and play.
  • As for the one-wire technology for our LCDs with capacitive touch we removed the resistive touch panel’s chip but kept the backlight adjusting function and LCD’s ID information. Therefore the communication between the capacitive touch and the ARM board is still standard IIC.
  • Attention:the one-wire technology is different from the commonly known single-bus communication. Actually in the ARM board we use a PWM timer (not PWM pins) to generate the communication frequency (9600Hz). For more details please refer to the driver’s source code.

8 Update Log

8.1 June-29-2016

  • Created English wiki