Difference between revisions of "Mini2440"

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4) Now you need to flash the nand for this you can use OpenOCD
 
4) Now you need to flash the nand for this you can use OpenOCD
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== Advanced ==
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you can use framebuffer to display a splash screen
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Where to purchase
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http://www.quickembed.com/Tools/Shop/ARM/200905/4.html
  
 
= OpenOCD =
 
= OpenOCD =
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  erase /dev/nand0.barebox.bb
 
  erase /dev/nand0.barebox.bb
 
  tftp barebox.bin /dev/nand0.barebox.bb
 
  tftp barebox.bin /dev/nand0.barebox.bb
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[[Category:Development Boards]]
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[[Category:Hardware]]

Revision as of 06:01, 28 March 2012

Hardware

Mini2440 3.jpg

  • Dimension: 100 x 100 mm
  • CPU: 400 MHz Samsung S3C2440A ARM920T (max freq. 533 MHz)
  • RAM: 64 MB SDRAM, 32 bit Bus
  • Flash: 64 MB / 128 MB / 256 MB / 1GB NAND Flash and 2 MB NOR Flash with BIOS
  • EEPROM: 256 Byte (I2C)
  • Ext. Memory: SD-Card socket
  • Serial Ports: 1x DB9 connector (RS232), total: 3x serial port connectors
  • USB: 1x USB-A Host 1.1, 1x USB-B Device 1.1
  • Audio Output: 3.5 mm stereo jack
  • Audio Input: Connector + Condenser microphone
  • Ethernet: RJ-45 10/100M (DM9000)
  • RTC: Real Time Clock with battery
  • Beeper: PWM buzzer
  • Camera: 20 pin (2.0 mm) Camera interface
  • LCD Interface: 41 pin (1.0 mm) connector for FriendlyARM Displays and VGA Board
  • Touch Panel: 4 wire resistive
  • User Inputs: 6x push buttons and 1x A/D pot
  • User Outputs: 4x LEDs
  • Expansion: 40 pin System Bus, 34 pin GPIO, 10 pin Buttons (2.0 mm)
  • Debug: 10 pin JTAG (2.0 mm)
  • Power: regulated 5V (DC-Plug: 1.35mm inner x 3.5mm outer diameter)
  • Power Consumption: Mini2440: 0.3 A, Mini2440 + 3.5" LCD: 0.6 A, Mini2440 + 7" LCD: 1 A

Barebox

Barebox uses the same build (Kbuild) and configuration (Kconfig) tools as the Linux kernel.

1) First you need to clone the tree

git clone git://git.pengutronix.de/git/barebox.git

Most probably you want to use a released Barebox version, by running 'git checkout <version>'. Check which versions are available with 'git tag -l' and use the latest one.

2) Then you need to configure it:

make mini2440_defconfig

3) Compile it

make

4) Now you need to flash the nand for this you can use OpenOCD

Advanced

you can use framebuffer to display a splash screen

Where to purchase http://www.quickembed.com/Tools/Shop/ARM/200905/4.html

OpenOCD

now you need so start OpenOCD. For this you need to specify the interface (First) and then the board

for this I just a Jlink

openocd -f interface/jlink.cfg -f target/samsung_s3c2440.cfg -c "adapter_khz 12000"

Flashing barebox And then the following steps:

  • connect a terminal application to the mini2440's serial connector
  • connect the mini2440 to a working network
  • switch S2 to boot from NOR to boot into 'supervivi'
  • switch on your mini2440
  • run the OpenOCD daemon configured with the file shown above
  • connect to the OpenOCD daemon via 'telnet'.
  • run the following commands to download a barebox into your target


> halt
> load_image \<path to the 'barebox.bin'\> 0x31000000 bin
> resume 0x31000000

Now a barebox is starting from an already initialized CPU and SDRAM (done by 'supervivi').

Change to your terminal console and configure the network first. Adapt the following settings to your network:

eth0.ipaddr=192.168.1.240
eth0.netmask=255.255.255.0
eth0.gateway=192.168.23.2
eth0.serverip=192.168.1.7

A 'ping' to your TFTP server should bring a "...is alive" message now.

We are ready now to program a barebox into the NAND flash:

erase /dev/nand0.barebox.bb
tftp barebox.bin /dev/nand0.barebox.bb