Difference between revisions of "ITEAD A10/A20 Core"

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Note 2: Working current (low load) refers to the working current when no other operations are done (CPU occupancy rate of about 2%) after entering ITEAD OS instead of the minimum working current; SATA hard drive is a big power consumer, working current will reach up to 550mA when connecting2.5-inch SATA hard drive in the low load condition.
 
Note 2: Working current (low load) refers to the working current when no other operations are done (CPU occupancy rate of about 2%) after entering ITEAD OS instead of the minimum working current; SATA hard drive is a big power consumer, working current will reach up to 550mA when connecting2.5-inch SATA hard drive in the low load condition.
 
Note 3: Working current (high load) refers to the working current when CPU is doing super pi operation (CPU occupancy rate of about 98%) after entering ITEAD OS instead of the maximum working current.
 
Note 3: Working current (high load) refers to the working current when CPU is doing super pi operation (CPU occupancy rate of about 98%) after entering ITEAD OS instead of the maximum working current.
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===Hardware===
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====Appearance====
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http://imall.iteadstudio.com/media/wysiwyg/Products/Mainboard/IM130808001_itead_a10_core_1.jpg
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We supplied Eagle library file for customers to do secondary development based on the core board, and the downloading address is http://blog.iteadstudio.com/download/88/
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====Keys and Indicators====
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 +
====pinMap====
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 +
ftp://imall.iteadstudio.com/ARM/IM130808001/A10_A20_Core_pinmap_130903.pdf

Revision as of 03:00, 19 May 2014

Over View

ITEAD A10 CORE is a minimum system module based on design of A10 chip. With ARM Cortex A8 core, it supports maximum frequency up to 1GHz. The module is equipped with 1G DDR3 memory and 4G FLASH. The digital circuit section and the overall power design of SDRAM on the module has been completed, so it can work directly after powering up with a stable 5V supply.

To use ITEAD A10 CORE for project development, design of complex multi-layer high-speed circuit is not required, as you only need to provide it with a stable 5V power supply and connect the pins on the module to the corresponding socket (such as HDMI, Micro-SD card, USB, etc.), or to the relevant circuit bus (such as I / O ports, UART, SPI, etc.). With design of such functional board, the difficulty will be decreased compared to directly using chips with SDRAM, FLASH, power circuit and functional circuit for the layout and the project development cycle will also be greatly reduced.

Specifications

CPU Allwinner A10
PCB Size 62.72 X 56.39 X 1.61mm
Indicator 3V3
Interface 4 groups of 2*30 1mm pitched female headers break out all I/O interfaces
Input voltage 4.85~5.15VDC, typical value of 5VDC

Electrical characteristics

Item Typical Value Unit
CPU speed 1G Hz
RAM Capacity 1G Hz
FLASH Capacity 0/4G Byte
Voltage at I/O port 3.3 V
Input voltage 4.85~5.15 VDC
Working current(low load) 350 mA
 Working current(high load) 600 mA


Note 1: There are two versions of NAND FLASH capacity: 0G and 4G.

Note 2: Working current (low load) refers to the working current when no other operations are done (CPU occupancy rate of about 2%) after entering ITEAD OS instead of the minimum working current; SATA hard drive is a big power consumer, working current will reach up to 550mA when connecting2.5-inch SATA hard drive in the low load condition. Note 3: Working current (high load) refers to the working current when CPU is doing super pi operation (CPU occupancy rate of about 98%) after entering ITEAD OS instead of the maximum working current.

Hardware

Appearance

IM130808001_itead_a10_core_1.jpg

We supplied Eagle library file for customers to do secondary development based on the core board, and the downloading address is http://blog.iteadstudio.com/download/88/

Keys and Indicators

pinMap

ftp://imall.iteadstudio.com/ARM/IM130808001/A10_A20_Core_pinmap_130903.pdf