Difference between revisions of "Embedded Open Modular Architecture/EOMA-68/Tablet"

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(add tablet motherboard)
 
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Popular by decree, but only successfully-sold when the price is stunningly low yet the feature-set rich, tablets are the "must-have" for all ODMs and OEMs who aspire to a chunk of the large apple pie.  Key goals for this motherboard are therefore to be small, slim, low BOM and low-risk development.  Thanks also to the modular design, the board is sufficiently simple that it may even be possible to do as a 2-layer PCB, thus reducing costs even further.
 
Popular by decree, but only successfully-sold when the price is stunningly low yet the feature-set rich, tablets are the "must-have" for all ODMs and OEMs who aspire to a chunk of the large apple pie.  Key goals for this motherboard are therefore to be small, slim, low BOM and low-risk development.  Thanks also to the modular design, the board is sufficiently simple that it may even be possible to do as a 2-layer PCB, thus reducing costs even further.
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 +
= Connectors and Components =
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 +
The connectors required are:
 +
* 1x USB2
 +
* PCMCIA Connector "inline" (signals conforming to [[Embedded_Open_Modular_Architecture/PCMCIA|EOMA/PCMCIA Standard]])
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* 5V Power
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* 1x PCI Express "inline" (supporting USB Wifi, not PCI-e Wifi, such as RT2070 and RT3090)
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* 1x Stereo Speakers and Microphone
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* 1x RGB/TTL LCD Output (with LED Backlight)
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* 2x Battery Connectors
 +
 +
Major components are:
 +
* An STM32F106RB Embedded Controller (same as in the [[Embedded_Open_Modular_Architecture/PCMCIA/MicroEngineeringBoard|Micro Engineering Board]]
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* A 4-port USB-2 High-speed Hub (e.g. GL850G)
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* 12.5Mhz XTAL (for the GL850G)
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* Power Management ICs (Buck Converters for 3.8v Lithium to 5.0v; 3.3v LDOs)
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* An I2C EEPROM
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* An RT2070 or RT3090 USB-compliant MiniPCIe WIFI Module
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* An Antennae for the WIFI Module
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= Diagram of Tablet Motherboard Layout =
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From this diagram, it can be seen that there is very little involved.  Like the [http://hardkernel.com/renewal_2011/products/prdt_info.php?g_code=G129689092760&tab_idx=3 Odroid], it's possible to have a product where the connectors and buttons define the size of the PCB more than the ICs and discrete components.  In this case, many of the major connectors (such as USB-OTG, HDMI, Micro-SD and Headphones) will already be on the [[Embedded_Open_Modular_Architecture/PCMCIA|EOMA/PCMCIA-compliant]] CPU Card, leaving nothing left for the motherboard than to provide USB2 and Power connectors!  An alternative revision is also shown which takes a USB 3G Modem, in PCI-e form-factor.
  
 
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[[File:Mini_tablet_motherboard.png|border]]
 
[[File:Mini_tablet_motherboard.png|border]]
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= Diagram of Tablet Construction =
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 +
This diagram shows the physical construction of the tablet's components.  Critical to achieving a thin tablet, even when allowing for a 5.5mm height PCMCIA CPU Card, is to use an inline PCMCIA header as well as an inline PCI-e connector.  If one is used at all (rather than having the PCMCIA CPU card factory-installed) the PCMCIA assembly is shown being attached directly to the tablet's outer casing, rather than being attached to a PCB.  Additionally, two batteries are used (in parallel) rather than one, in order to prove a balanced weight distribution to the device.  The larger battery sizes, which could even be up to 6mm thickness, potentially allows for cheaper Lithium Polymer batteries to be used - again, reducing the overall cost of the device.
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----
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[[File:Tablet_layout.png|border]]

Revision as of 23:42, 21 September 2011

The Tablet Motherboard

Popular by decree, but only successfully-sold when the price is stunningly low yet the feature-set rich, tablets are the "must-have" for all ODMs and OEMs who aspire to a chunk of the large apple pie. Key goals for this motherboard are therefore to be small, slim, low BOM and low-risk development. Thanks also to the modular design, the board is sufficiently simple that it may even be possible to do as a 2-layer PCB, thus reducing costs even further.

Connectors and Components

The connectors required are:

  • 1x USB2
  • PCMCIA Connector "inline" (signals conforming to EOMA/PCMCIA Standard)
  • 5V Power
  • 1x PCI Express "inline" (supporting USB Wifi, not PCI-e Wifi, such as RT2070 and RT3090)
  • 1x Stereo Speakers and Microphone
  • 1x RGB/TTL LCD Output (with LED Backlight)
  • 2x Battery Connectors

Major components are:

  • An STM32F106RB Embedded Controller (same as in the Micro Engineering Board
  • A 4-port USB-2 High-speed Hub (e.g. GL850G)
  • 12.5Mhz XTAL (for the GL850G)
  • Power Management ICs (Buck Converters for 3.8v Lithium to 5.0v; 3.3v LDOs)
  • An I2C EEPROM
  • An RT2070 or RT3090 USB-compliant MiniPCIe WIFI Module
  • An Antennae for the WIFI Module

Diagram of Tablet Motherboard Layout

From this diagram, it can be seen that there is very little involved. Like the Odroid, it's possible to have a product where the connectors and buttons define the size of the PCB more than the ICs and discrete components. In this case, many of the major connectors (such as USB-OTG, HDMI, Micro-SD and Headphones) will already be on the EOMA/PCMCIA-compliant CPU Card, leaving nothing left for the motherboard than to provide USB2 and Power connectors! An alternative revision is also shown which takes a USB 3G Modem, in PCI-e form-factor.


Mini tablet motherboard.png

Diagram of Tablet Construction

This diagram shows the physical construction of the tablet's components. Critical to achieving a thin tablet, even when allowing for a 5.5mm height PCMCIA CPU Card, is to use an inline PCMCIA header as well as an inline PCI-e connector. If one is used at all (rather than having the PCMCIA CPU card factory-installed) the PCMCIA assembly is shown being attached directly to the tablet's outer casing, rather than being attached to a PCB. Additionally, two batteries are used (in parallel) rather than one, in order to prove a balanced weight distribution to the device. The larger battery sizes, which could even be up to 6mm thickness, potentially allows for cheaper Lithium Polymer batteries to be used - again, reducing the overall cost of the device.


Tablet layout.png