João Ribeiro

Exchange Server ;Office Communications Server and Windows Mobile / Phones

Building Windows for the ARM processor architecture - Building Windows 8

Building Windows for the ARM processor architecture - Building Windows 8

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Last nght Steven Sinofsky released the following post, regarding Windows 8 and WOA ( Windows On Arm )


Building Windows for the ARM processor architecture - Building Windows 8 - Site Home - MSDN Blogs

It's an extensive reading, but it will sure worth your time :)


Kindest regards,


João Ribeiro


  • Feature rich and low cost ARM boards. Shipped more than 10 country across the world  Contact 91-9743301006

    LPC176x HPLUS Ex is an extension board for LPC176x HPLUS Board with Cortex M3 core microcontroller (LPC176x). This board has connectivity options similar to that of HPLUS Board which include Micro SDCard, Ethernet, USB Host/Device, 3.2inch TFT connectivity option, JTAG etc. Along with these features, the Ex Board has additional features of two RS232 interface plus a connectivity option for 128x64 Graphical LCD.

    The display connectivity option is available for the following display units.

    Graphical LCD Connectivity

    Model: TM12864H6CCOWA

    Driver IC: NT75451

    Data Interface Parallel

    Number of Pixels: 128 x 64

    3.2inch TFT Connectivity

    Model: KWH032GM02-F05

    Driver IC: SPFD5408 / ILI9325

    Interface : SPI.

    Number of Pixels: 240 x 320

    You can buy the TFT displays from the following links below

       3.2 inch TFT without Touchscreen.

       3.2 inch TFT with Touchscreen.

    You can buy the Graphical LCD from the following link

        1. 128 x 64 Graphical LCD (TM12864H6CCOWA).

    There is also an option for the customer to buy an LPC176x HPLUS Ex All in One package. Which include LPC176x HPLUS EX Board, 3.2 inch TFT with Touch and a graphical LCD.

    You can buy the All in one package from the following link.

            LPC176x HPLUS Ex All in one.

    Features of LPC1768

    Best in class Cortex M3 Hardware.

       100 MHz ARM Core with 64 KB of SRAM and 512 KB Flash.

       8-channel general purpose DMA controller, 4 UARTs, 2 CAN channels, 2 SSP controllers, SPI interface, 3 I2C interfaces, 2-input plus 2-output I2S interface, 8-channel 12-bit ADC, 10-bit DAC, motor control PWM, Quadrature Encoder interface, 4 general purpose timers, 6-output general purpose PWM, ultra-low power RTC with separate battery supply, and up to 70 general purpose I/O pins.

    LPC176x HPLUS Ex Features

       USB Device and Host Connectivity Options.

       Ethernet with DP83848 PHY MAC.

       SDCard (Micro) Interface.

       RS232 Interface for UART0 and UART3

       Analog input via ADC0.5

       Unused I/O pinouts.

       OnBoard Reset and ISP Switches.

       On Board Power Supply Circuit for +5V and +3.3V (USB or external Power Source input options)

       On Board 12 MHz Clock

       32.768 KHz Clock for RTC.

       Option for a CMOS Battery.

       Onboard 20 pin JTAG connector for debugging/programming applications.

       On board TFT Connector for 3.2inch TFT (with touch and without touch).

       On Board Graphical LCD Connector.

       LED for Power Supply, USB, Ethernet and Test LED.

       Board Dimensions: 90.4 x 86.1 mm

       Board Specifications:

           Laminate: FR4

           Board Thickness: 1.6mm

           Finish: ENIG

  • The LPC1788 Header Board is based on Cortex M3 Core, running at up to 120MHz, with 512KB internal Flash memory and 96KB SRAM, 4 KB EEPROM, external memory controller, LCD controller up to true color XGA, 10/100 ethernet, USB 2.0 Host/Device/OTG, 2 CAN, 12-bit ADC, 10-bit DAC, SD/MMC, I2S.

    The Board features an LPC1788 controller, JTAG, an USB Device, onboard power supply and all the input output pins taken out via a 2.54mm standard Berg Connectivity. The Board can be used as a general controller board for various designs and different connectivity options can be tried out as required using breakout boards.

    The sample source code, schematic, software and tools are provided along with the board using which you can start with your application development from day 1.

    The LPC1788 Header Board has a 20 pin Wiggler-compatible JTAG interface which can be used for debugging/programming.

    feature rich ARM Development boards  cnt 91-9743301006

    The board can be debugged/programmed using parallel JTAG and CoiNel USB JTAG. You can also program the board via UART0 by the use of a simple TTL to RS232 converter. Parallel JTAG and TTL to RS232 converters are not the part of the package.

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