365 lines
14 KiB
Plaintext
365 lines
14 KiB
Plaintext
README
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======
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This directory contains the port to the NXP LPCXpress-LPC54628 board
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(OMI1309UL). This board features:
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- LPC54628 Cortex-M4 microcontroller running at up to 220MHz
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- 272x480 color LCD with capacitive touch screen
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- On-board, high-speed USB, Link2 debug probe with CMSIS-DAP and SEGGER
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J-Link protocol options
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- UART and SPI port bridging from LPC546xx target to USB via the on-
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board debug probe
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- Support for external debug probe
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- 3 x user LEDs, plus Reset, ISP (3) and user buttons
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- Multiple Expansion options, including Arduino UNO and PMod
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- Built-in power consumption measurement for target LPC546xx MCU
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- 128Mb Micron MT25QL128 Quad-SPI flash
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- 16MB Micron MT48LC8M16A2B4 SDRAM
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- Knowles SPH0641LM4H digital microphone
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- Full size SD/MMC card slot
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- NXP MMA8652FCR1 accelerometer
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- Stereo audio codec with line in/out
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- High and full speed USB ports with micro A/B connector for host or
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device functionality
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- 10/100Mbps Ethernet (RJ45 connector)
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STATUS
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======
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2017-12-10: The basic NSH configuration is functional at 220MHz with a
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Serial console, timer and LED support. Added support for the external
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SDRAM and for the RAM test utility.
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2017-12-11: Fixed an error in board LEDs. Added framework for future
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I2C and SPI flexcomm drivers.
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2017-12-12: The SDRAM is now functional and passes the commplete RAM
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test. Added configuration options and logic to add none, portions, or
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all of the external SDRAM to the system heap. Brought in the LPC1788
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LCD driver. The LPC1788 LCD registers are identical to the LPC54xx
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(other than a minor clock source setting).
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2017-12-13: Created the fb configuration for testing the LCD.
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2017-12-14: Corrected a misconception about how the video data lines
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were configured. The LCD now appears to be fully functional.
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2017-12-15: Added an I2C driver.
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2017-12-16: Added support for LPC54xx GPIO interrupts; added button
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support (with interrupts) to the NSH configuration. The button
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test appears to functional functional. There are noticeable delays
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in receiving the button events, especially when the button is
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released. But if you do not press the buttons too quickly all events
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are processed. This, I suspect, is a consequence of the strong glitch
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filtering that is enbled in the pin configuration. Snappier
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response my be obtainble with filtering off.
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2017-12-17: Added a driver for the FT5x06 capacitive, multi-touch
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controller. Add support logic for the LPCXpresso-LPC54528 to
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initialize and the register the FT5x06 driver. Unfortunately, the
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FT5x06 interrupt is on pin P4.0 but pin interrupts are only supported
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on P0.m and P1.m, m=0..31.
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2017-12-18: Added an option to the FT5x06 driver to support a timer-
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based poll instead of interrupts. This is very inefficient in that it
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will introduce delays in touchscreen response and will consume more CPU
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bandwidth. The driver appears to be functional. Added the NxWM
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configuration to do some integrated testing. NxWM seems to be fully
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functional. However, the action of the touchscreen could use some
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human factors improvements. I imagine that this is a consequence of
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the polled solution.
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Configurations
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==============
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Information Common to All Configurations
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----------------------------------------
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Each LPCXpresso-LPC54628 configuration is maintained in a sub-directory
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and can be selected as follow:
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.tools/configure.sh [OPTIONS] xmc5400-relax/<subdir>
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See '.tools/configure.sh -h' for a list of all options. The most typical
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are -l to select the Linux host or -c to select the Windows Cygwin host.
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Before starting the build, make sure that your PATH environment variable
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includes the correct path to your toolchain.
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And then build NuttX by simply typing the following. At the conclusion of
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the make, the nuttx binary will reside in an ELF file called, simply, nuttx.
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make
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The <subdir> that is provided above as an argument to the tools/configure.sh
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must be is one of the following.
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NOTES:
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1. These configurations use the mconf-based configuration tool. To
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change any of these configurations using that tool, you should:
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a. Build and install the kconfig-mconf tool. See nuttx/README.txt
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see additional README.txt files in the NuttX tools repository.
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b. Execute 'make menuconfig' in nuttx/ in order to start the
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reconfiguration process.
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2. Unless stated otherwise, all configurations generate console
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output on USART0 (aka Flexcomm0). USART0 connects to the serial
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bridge on LPC4322JET100 and should be available as a USB serial
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device on your host PC.
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3. All of these configurations are set up to build under Windows using
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the "GNU Tools for ARM Embedded Processors" that is maintained by
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ARM (unless stated otherwise in the description of the configuration).
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https://developer.arm.com/open-source/gnu-toolchain/gnu-rm
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That toolchain selection can easily be reconfigured using
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'make menuconfig'. Here are the relevant current settings:
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Build Setup:
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CONFIG_HOST_WINDOWS=y : Window environment
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CONFIG_WINDOWS_CYGWIN=y : Cywin under Windows
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System Type -> Toolchain:
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CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIW=y : GNU ARM EABI toolchain
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Configuration sub-directories
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-----------------------------
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fb:
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A simple NSH configuration used for some basic debug of LCD using the
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framebuffer character drivers. This configuration provides the test
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programs:
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- apps/examples/pdcurses, and
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- apps/examples/fb
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as NSH built-in applications.
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NOTES:
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1. This configuration enables SDRAM to hold the LCD framebuffer and
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enables the LPC54xx LCD driver in order to support the LPCXpresso's
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TFT panel. In this configuration, the framebuffer resides in the
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the lower half megabyte of SDRAM beginning at address 0xa0000000
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The remainder of the SDRAM from 0xa0080000 up to 0xa1000000 is added
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to the heap.
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The is wasteful of SDRAM: Only 261,120 bytes actually used for the
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framebuffer. This memory could be reclaimed by changing the DRAM
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CS0 offset value in the .config file.
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2. Some of the pdcurses test rely on some positional input device and so
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is not yet usable. Others work fine with no user include: charset,
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xmas, firework, worms, rain, for examples.
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3. I2C2 is enabled (will be used with the capacitive touchscreen). In
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order to verify I2C functionality, the I2C tool at apps/system/i2ctool
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is enabled in this configuration.
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nsh> i2c dev -b 2 3 77
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0 1 2 3 4 5 6 7 8 9 a b c d e f
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00: -- -- -- -- -- -- -- -- -- -- -- -- --
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10: -- -- -- -- -- -- -- -- -- -- 1a -- -- 1d -- --
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20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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30: -- -- -- -- -- -- -- -- 38 -- -- -- -- -- -- --
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40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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50: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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60: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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70: -- -- -- -- -- -- -- --
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Codec I2C address: 0x1a
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Accel I2C address: 0x1d
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Touch panel I2C address: 0x38
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4. The touchscreen test program at apps/examples/touchscreen is also
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included in this configuration.
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nsh> tc 5
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tc_main: nsamples: 2
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tc_main: Initializing external touchscreen device
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tc_main: Opening /dev/input0
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Sample :
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npoints : 1
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Point 1 :
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id : 0
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flags : 1a
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x : 230
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y : 84
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h : 0
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w : 0
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pressure : 0
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etc.
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NOTE that the touchscreen controlled must run in a polled mode! The
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FT5x06 interrupt GPIO is on P4.0 and, as far as I know, GPIO
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interrupts are not supported on P4. So polled mode only for this
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puppy.
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nsh:
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Configures the NuttShell (nsh) application located at examples/nsh.
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This configuration was used to bring up the board support and, hence,
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is focused on low level, command-line driver testing. It has no
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network.
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NOTES:
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1. NSH built-in applications are supported.
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Binary Formats:
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CONFIG_BUILTIN=y : Enable support for built-in programs
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Application Configuration:
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CONFIG_NSH_BUILTIN_APPS=y : Enable starting apps from NSH command line
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2. SDRAM support is enabled, but the SDRAM is *not* added to the system
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heap. The apps/system/ramtest utility is include in the build as an
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NSH builtin function that can be used to verify the SDRAM.
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nsh> ramtest -h
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RAMTest: Missing required arguments
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Usage: <noname> [-w|h|b] <hex-address> <decimal-size>
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Where:
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<hex-address> starting address of the test.
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<decimal-size> number of memory locations (in bytes).
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-w Sets the width of a memory location to 32-bits.
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-h Sets the width of a memory location to 16-bits (default).
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-b Sets the width of a memory location to 8-bits.
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The MTL48LC8M16A2B4-6A SDRAM is on CS0 which corresponds to address
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0xa0000000, the size of the memory is 128Mbits or 16Mb. So the DRAM
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may be tested with this command:
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NuttShell (NSH) NuttX-7.23
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nsh> ramtest a0000000 16777216
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RAMTest: Marching ones: a0000000 16777216
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RAMTest: Marching zeroes: a0000000 16777216
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RAMTest: Pattern test: a0000000 16777216 55555555 aaaaaaaa
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RAMTest: Pattern test: a0000000 16777216 66666666 99999999
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RAMTest: Pattern test: a0000000 16777216 33333333 cccccccc
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RAMTest: Address-in-address test: a0000000 16777216
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nsh>
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3. I2C2 is enabled (will be used with the capacitive touchscreen). In
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order to verify I2C functionality, the I2C tool at apps/system/i2ctool
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is enabled in this configuration.
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nsh> i2c bus
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BUS EXISTS?
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Bus 0: NO
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Bus 1: NO
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Bus 2: YES
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Bus 3: NO
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Bus 4: NO
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Bus 5: NO
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Bus 6: NO
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Bus 7: NO
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Bus 8: NO
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Bus 9: NO
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nsh> i2c dev -b 2 3 77
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0 1 2 3 4 5 6 7 8 9 a b c d e f
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00: -- -- -- -- -- -- -- -- -- -- -- -- --
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10: -- -- -- -- -- -- -- -- -- -- 1a -- -- 1d -- --
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20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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30: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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50: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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60: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
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70: -- -- -- -- -- -- -- --
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I believe that the on-board Accelerometer, Audio Codec, and touch
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panel controller should have been detected (but perhaps the touch
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panel is not powered in this configuration since the LCD is not
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configured?)
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Codec I2C address: 0x1a
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Accel I2C address: 0x1d
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Touch panel I2C address: 0x38
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4. Support for the on-board USER button is included as well as the
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button test program at apps/examples/buttons. This test is useful
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for verifying the functionality of GPIO interrupts.
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NuttShell (NSH) NuttX-7.23
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nsh> buttons
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buttons_main: Starting the button_daemon
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buttons_main: button_daemon started
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button_daemon: Running
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button_daemon: Opening /dev/buttons
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button_daemon: Supported BUTTONs 0x01
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nsh> Sample = 1
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Sample = 0
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Sample = 1
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Sample = 0
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Sample = 1
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Sample = 0
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Sample = 1
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etc.
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There are noticeable delays in receiving the button events,
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especially when the button is released. But if you do not press the
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buttons too quickly all events are processed. This, I suspect, is a
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consequence of the strong glitch filtering that is enbled in the pin
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configuration. Snappier response my be obtainble with filtering off
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if desired.
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nxwm:
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This is a special configuration setup for the NxWM window manager
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UnitTest. This builds on top of the features that were unit tested in
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by the fb configuration.
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The NxWM window manager can be found here:
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<nuttx-code>/NxWidgets/nxwm
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The NxWM unit test can be found at:
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<nuttx-code>/NxWidgets/UnitTests/nxwm
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Documentation for installing the NxWM unit test can be found here:
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<nuttx-code>/NxWidgets/UnitTests/README.txt
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Where <nuttx-code> is whatever path you have select to install
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NuttX.
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Here is the quick summary of the build steps (Assuming that all of
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the required packages are available in a directory ~/<nuttx-code>):
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1. Install the nxwm configuration
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$ cd ~/<nuttx-code>/nuttx
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$ tools/configure.sh [OPTIONS] lpcxpresso-lpc54628/nxwm
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Use the -l option with the configure.sh script if you are using a
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Linux host; use the -c option if you are using Cygwin under Windows.
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Use the -h option to see other selections.
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2. Make the build context (only)
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$ make context
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3. Install the nxwm unit test
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$ cd ~/<nuttx-code>/NxWidgets
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$ tools/install.sh ~/<nuttx-code>/apps nxwm
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Creating symbolic link
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- To ~/<nuttx-code>/NxWidgets/UnitTests/nxwm
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- At ~/<nuttx-code>/apps/external
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4. Build the NxWidgets library
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$ cd ~/<nuttx-code>/NxWidgets/libnxwidgets
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$ make TOPDIR=~/<nuttx-code>/nuttx
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5. Build the NxWM library
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$ cd ~/<nuttx-code>/NxWidgets/nxwm
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$ make TOPDIR=~/<nuttx-code>/nuttx
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6. Built NuttX with the installed unit test as the application
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$ cd ~/<nuttx-code>/nuttx
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$ make
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