Difference between revisions of "Embedded Open Modular Architecture/PCMCIA"
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= PCMCIA form-factor Open Modular Architecture = | = PCMCIA form-factor Open Modular Architecture = | ||
− | This page describes the specification for re-purposing of the PCMCIA interface and form-factor as a portable Embedded Computing Module. | + | This page describes the specification for re-purposing of the PCMCIA interface and form-factor as a portable Embedded Computing Module. Mass-volume "Lowest Common Denominator" interfaces have been chosen, all of which have existed for over a decade, but are low-power enough to be standard across virtually all mass-produced powerful Embedded CPUs. These interfaces are: 24-pin RGB/TTL (for LCD Panels), I2C, USB2, 10/100 Ethernet, and SATA-II. The interfaces have been specifically chosen because they are either essential or they are multi-purpose buses. The only interface which is not particularly common on mass-produced powerful Embedded CPUs is SATA-II: this can be constructed from a USB-to-SATA converter IC such as the Genesys Logic [http://www.genesyslogic.com/_en/product_01_1.php?id=67 GL831A]. |
= Pinouts = | = Pinouts = |
Revision as of 13:38, 5 September 2011
PCMCIA form-factor Open Modular Architecture
This page describes the specification for re-purposing of the PCMCIA interface and form-factor as a portable Embedded Computing Module. Mass-volume "Lowest Common Denominator" interfaces have been chosen, all of which have existed for over a decade, but are low-power enough to be standard across virtually all mass-produced powerful Embedded CPUs. These interfaces are: 24-pin RGB/TTL (for LCD Panels), I2C, USB2, 10/100 Ethernet, and SATA-II. The interfaces have been specifically chosen because they are either essential or they are multi-purpose buses. The only interface which is not particularly common on mass-produced powerful Embedded CPUs is SATA-II: this can be constructed from a USB-to-SATA converter IC such as the Genesys Logic GL831A.
Pinouts
- LCD Pixel Clock
- LCD Pixel data enable (TFT) output
- LCD Horizontal Synchronization
- LCD Vertical Synchronization
- LCD Pixel Data bit 0 (Red0)
- LCD Pixel Data bit 1 (Red1)
- LCD Pixel Data bit 2 (Red2)
- LCD Pixel Data bit 3 (Red3)
- LCD Pixel Data bit 4 (Red4)
- LCD Pixel Data bit 5 (Red5)
- LCD Pixel Data bit 6 (Red6)
- LCD Pixel Data bit 7 (Red7)
- LCD Pixel Data bit 8 (Green0)
- LCD Pixel Data bit 9 (Green1)
- LCD Pixel Data bit 10 (Green2)
- LCD Pixel Data bit 11 (Green3)
- LCD Pixel Data bit 12 (Green4)
- LCD Pixel Data bit 13 (Green5)
- LCD Pixel Data bit 14 (Green6)
- LCD Pixel Data bit 15 (Green7)
- LCD Pixel Data bit 16 (Blue0)
- LCD Pixel Data bit 17 (Blue1)
- LCD Pixel Data bit 18 (Blue2)
- LCD Pixel Data bit 19 (Blue3)
- LCD Pixel Data bit 20 (Blue4)
- LCD Pixel Data bit 21 (Blue5)
- LCD Pixel Data bit 22 (Blue6)
- LCD Pixel Data bit 23 (Blue7)
- GROUND
- GROUND
- 10/100 Ethernet (TX+)
- 10/100 Ethernet (TX-)
- 10/100 Ethernet (RX+)
- 10/100 Ethernet (RX-)
- GROUND
- GROUND
- USB2 (Data+)
- USB2 (Data-)
- GROUND
- GROUND
- I2C Clock (SCL)
- I2C Data (SDA)
- PWR (5V)
- PWR (5V)
- PWR (3.3v)
- PWR (3.3v)
- PWR (3.3v)
- PWR (3.3v)
- GPIO (0)
- GPIO (1)
- GPIO (2)
- GPIO (3)
- GPIO (4)
- GPIO (5)
- GPIO (6)
- GPIO (7)
- GPIO (8)
- GPIO (9)
- GPIO (10)
- GPIO (11)
- GROUND
- GROUND
- SATA-II Transmit (A+)
- SATA-II Transmit (A-)
- GROUND
- GROUND
- SATA-II Receive (B+)
- SATA-II Receive (B-)