52986226a3
git-svn-id: svn://svn.code.sf.net/p/nuttx/code/trunk@1150 42af7a65-404d-4744-a932-0658087f49c3
158 lines
4.6 KiB
Plaintext
158 lines
4.6 KiB
Plaintext
Olimex STR-P711
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^^^^^^^^^^^^^^^
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Features:
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- MCU: STR711FR2T6 16/32 bit ARM7TDMI™ with 256K Bytes Program Flash,
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64K Bytes RAM, USB 2.0, RTC, 12 bit ADC, 4x UARTs, 2x I2C,2x SPI,
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5x 32bit TIMERS, 2x PWM, 2x CCR, WDT, up to 50MHz operation
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- Standard JTAG connector with ARM 2x10 pin layout for programming/debugging
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with ARM-JTAG
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- USB connector
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- Two channel RS232 interface and drivers
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- SD/MMC card connector
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- Two buttons
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- Trimpot connected to ADC
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- Two status LEDs
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- Buzzer
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- UEXT - 10 pin extension connector for Olimex addon peripherials like MP3,
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RF2.4Ghz, RFID etc. modules
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- 2x SPI connectors
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- I2C connector
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- On board voltage regulator 3.3V with up to 800mA current
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- Single power supply: 6V AC or DC required, USB port can power the board
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- Power supply LED
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- Power supply filtering capacitor
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- RESET circuit
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- RESET button
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- 4 Mhz crystal oscillator
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- 32768 Hz crystal and RTC
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Power Supply
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6V AC or DC (or powered from USB port)
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GIO with on-board connections (others available for prototyping):
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SIGNAL DESCRIPTION PIN
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------- --------------------- -----
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MISO1 BSPI0 to MMC/SD P0.4
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MOSI1 " " "" " " P0.5
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SCLK1 " " "" " " P0.6
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SS1 " " "" " " P0.7
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U0RX UART 0 P0.8
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U0TX " " " P0.9
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U1RX UART 1 P0.10
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U1TX " " " P0.11
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BUZZ Buzzer P0.13
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WAKE-UP Button P0.15
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AIN0 Potentiometer (AN_TR) P1.3
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LED1 LED 1 P1.8
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LED2 LED 2 P1.9
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WP MMC/SD write protect P1.10
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USBOP USB P1.11
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USBON " " P1.12
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BUT Button P1.13
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CP MMC/SD card present P1.15
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Jumpers
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STNBY Will pull pin 23 /STDBY low
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Toolchain
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^^^^^^^^^
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A GNU GCC-based toolchain is assumed. The files */setenv.sh should
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be modified to point to the correct path to the SH toolchain (if
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different from the default).
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If you have no SH toolchain, one can be downloaded from the NuttX
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SourceForge download site (https://sourceforge.net/project/showfiles.php?group_id=189573).
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1. You must have already configured Nuttx in <some-dir>nuttx.
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cd tools
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./configure.sh olimex-strp711/<sub-dir>
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2. Download the latest buildroot package into <some-dir>
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3. unpack
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4. cd <some-dir>/buildroot
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5. cp configs/arm-defconfig .config
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6. make oldconfig
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7. make
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8. Edit setenv.h so that the PATH variable includes the path to the
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newly built binaries.
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OpenOCD
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^^^^^^^
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For a debug environment, I am using OpenOCD with a Wiggler-clone JTAG interface. The
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following steps worked for me with a 20081028 OpenOCD snapshot.
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GENERAL STEPS:
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1. Check out OpenOCD
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svn checkout svn://svn.berlios.de/openocd/trunk openocd
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2. Build OpenOCD
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Read the INSTALL file from the files you just downloaded. You probably just need
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to run:
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./bootstrap
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Then configure OpenOCD using the configure script created by ./bootstrap.
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./configure --enable-parport
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Build OpenOCD with:
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make
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Install OpenOCD. Since we used the default configuration the code will be
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installed at /usr/local/bin/openocd. Other files will be installed at
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/usr/local/lib/openocd (configuration files, scripts, etc.) and /usr/local/share/info
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(online documentation accessable via 'info openocd'). You need root priviledges
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to do the following:
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make install.
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3. Setup
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OpenOCD reads its configuration from the file openocd.cfg in the current directory
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when started. You have two different options:
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* Create a symbolic link named openocd.cfg to one of the configuration files in
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/usr/local/lib/openocd, or
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* Use a custom configuration file specified with the ‘-f <conf.file>’ command line
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switch opeion when starting OpenOCD.
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For the STR-P711, I have included bash scripts in the scripts sub-directory.
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4. Running OpenOCD
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Make sure the ARM7TDMI board is powered and the JTAG cable is connected
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Run 'src/openocd -d' (might be required to be root) and check for any errors
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reported. The '-d' option enables debugging info.
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5. Telnet interface
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telnet into port 4444 to get a command interface: 'telnet localhost 4444'
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6. GDB
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start arm-elf-gdb
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type 'file <executable.elf>' to load the executable
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type 'set debug remote 1' to enable tracing of gdb protocol (if required)
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type 'target remote localhost:3333' to connect to the target
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The same commands from the telnet interface can now be accessed through the
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'monitor' command, e.g. 'monitor help'
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