96d2702826
git-svn-id: svn://svn.code.sf.net/p/nuttx/code/trunk@4252 42af7a65-404d-4744-a932-0658087f49c3
639 lines
22 KiB
Plaintext
Executable File
639 lines
22 KiB
Plaintext
Executable File
README
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======
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This README discusses issues unique to NuttX configurations for the
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STMicro STM32140G-EVAL development board.
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Contents
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========
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- Development Environment
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- GNU Toolchain Options
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- IDEs
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- NuttX buildroot Toolchain
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- STM3240G-EVAL-specific Configuration Options
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- LEDs
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- Ethernet
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- PWM
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- CAN
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- Configurations
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Development Environment
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=======================
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Either Linux or Cygwin on Windows can be used for the development environment.
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The source has been built only using the GNU toolchain (see below). Other
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toolchains will likely cause problems. Testing was performed using the Cygwin
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environment because the Raisonance R-Link emulatator and some RIDE7 development tools
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were used and those tools works only under Windows.
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GNU Toolchain Options
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=====================
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The NuttX make system has been modified to support the following different
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toolchain options.
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1. The CodeSourcery GNU toolchain,
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2. The devkitARM GNU toolchain,
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3. Raisonance GNU toolchain, or
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4. The NuttX buildroot Toolchain (see below).
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All testing has been conducted using the CodeSourcery toolchain for Windows. To use
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the devkitARM, Raisonance GNU, or NuttX buildroot toolchain, you simply need to
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add one of the following configuration options to your .config (or defconfig)
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file:
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CONFIG_STM32_CODESOURCERYW=y : CodeSourcery under Windows
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CONFIG_STM32_CODESOURCERYL=y : CodeSourcery under Linux
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CONFIG_STM32_DEVKITARM=y : devkitARM under Windows
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CONFIG_STM32_RAISONANCE=y : Raisonance RIDE7 under Windows
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CONFIG_STM32_BUILDROOT=y : NuttX buildroot under Linux or Cygwin (default)
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If you change the default toolchain, then you may also have to modify the PATH in
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the setenv.h file if your make cannot find the tools.
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NOTE: the CodeSourcery (for Windows), devkitARM, and Raisonance toolchains are
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Windows native toolchains. The CodeSourcey (for Linux) and NuttX buildroot
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toolchains are Cygwin and/or Linux native toolchains. There are several limitations
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to using a Windows based toolchain in a Cygwin environment. The three biggest are:
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1. The Windows toolchain cannot follow Cygwin paths. Path conversions are
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performed automatically in the Cygwin makefiles using the 'cygpath' utility
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but you might easily find some new path problems. If so, check out 'cygpath -w'
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2. Windows toolchains cannot follow Cygwin symbolic links. Many symbolic links
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are used in Nuttx (e.g., include/arch). The make system works around these
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problems for the Windows tools by copying directories instead of linking them.
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But this can also cause some confusion for you: For example, you may edit
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a file in a "linked" directory and find that your changes had no effect.
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That is because you are building the copy of the file in the "fake" symbolic
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directory. If you use a Windows toolchain, you should get in the habit of
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making like this:
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make clean_context all
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An alias in your .bashrc file might make that less painful.
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3. Dependencies are not made when using Windows versions of the GCC. This is
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because the dependencies are generated using Windows pathes which do not
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work with the Cygwin make.
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Support has been added for making dependencies with the windows-native toolchains.
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That support can be enabled by modifying your Make.defs file as follows:
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- MKDEP = $(TOPDIR)/tools/mknulldeps.sh
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+ MKDEP = $(TOPDIR)/tools/mkdeps.sh --winpaths "$(TOPDIR)"
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If you have problems with the dependency build (for example, if you are not
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building on C:), then you may need to modify tools/mkdeps.sh
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NOTE 1: The CodeSourcery toolchain (2009q1) does not work with default optimization
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level of -Os (See Make.defs). It will work with -O0, -O1, or -O2, but not with
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-Os.
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NOTE 2: The devkitARM toolchain includes a version of MSYS make. Make sure that
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the paths to Cygwin's /bin and /usr/bin directories appear BEFORE the devkitARM
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path or will get the wrong version of make.
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IDEs
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====
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NuttX is built using command-line make. It can be used with an IDE, but some
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effort will be required to create the project.
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Makefile Build
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--------------
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Under Eclipse, it is pretty easy to set up an "empty makefile project" and
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simply use the NuttX makefile to build the system. That is almost for free
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under Linux. Under Windows, you will need to set up the "Cygwin GCC" empty
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makefile project in order to work with Windows (Google for "Eclipse Cygwin" -
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there is a lot of help on the internet).
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Native Build
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------------
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Here are a few tips before you start that effort:
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1) Select the toolchain that you will be using in your .config file
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2) Start the NuttX build at least one time from the Cygwin command line
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before trying to create your project. This is necessary to create
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certain auto-generated files and directories that will be needed.
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3) Set up include pathes: You will need include/, arch/arm/src/stm32,
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arch/arm/src/common, arch/arm/src/armv7-m, and sched/.
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4) All assembly files need to have the definition option -D __ASSEMBLY__
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on the command line.
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Startup files will probably cause you some headaches. The NuttX startup file
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is arch/arm/src/stm32/stm32_vectors.S. With RIDE, I have to build NuttX
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one time from the Cygwin command line in order to obtain the pre-built
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startup object needed by RIDE.
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NuttX buildroot 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 Cortex-M3 GCC toolchain (if
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different from the default in your PATH variable).
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If you have no Cortex-M3 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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This GNU toolchain builds and executes in the Linux or Cygwin environment.
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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 stm3240g-eval/<sub-dir>
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2. Download the latest buildroot package into <some-dir>
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3. unpack the buildroot tarball. The resulting directory may
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have versioning information on it like buildroot-x.y.z. If so,
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rename <some-dir>/buildroot-x.y.z to <some-dir>/buildroot.
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4. cd <some-dir>/buildroot
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5. cp configs/cortexm3-defconfig-4.3.3 .config
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6. make oldconfig
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7. make
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8. Edit setenv.h, if necessary, so that the PATH variable includes
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the path to the newly built binaries.
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See the file configs/README.txt in the buildroot source tree. That has more
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detailed PLUS some special instructions that you will need to follow if you are
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building a Cortex-M3 toolchain for Cygwin under Windows.
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Ethernet
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========
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The Ethernet driver is configured to use the MII interface:
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Board Jumper Settings:
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Jumper Description
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JP8 To enable MII, JP8 should not be fitted.
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JP6 2-3: Enable MII interface mode
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JP5 2-3: Provide 25 MHz clock for MII or 50 MHz clock for RMII by MCO at PA8
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SB1 Not used with MII
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LEDs
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====
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The STM3240G-EVAL board has four LEDs labeled LD1, LD2, LD3 and LD4 on the
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board.. These LEDs are not used by the board port unless CONFIG_ARCH_LEDS is
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defined. In that case, the usage by the board port is defined in
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include/board.h and src/up_leds.c. The LEDs are used to encode OS-related\
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events as follows:
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SYMBOL Meaning LED1* LED2 LED3 LED4
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------------------- ----------------------- ------- ------- ------- ------
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LED_STARTED NuttX has been started ON OFF OFF OFF
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LED_HEAPALLOCATE Heap has been allocated OFF ON OFF OFF
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LED_IRQSENABLED Interrupts enabled ON ON OFF OFF
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LED_STACKCREATED Idle stack created OFF OFF ON OFF
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LED_INIRQ In an interrupt** ON N/C N/C OFF
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LED_SIGNAL In a signal handler*** N/C ON N/C OFF
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LED_ASSERTION An assertion failed ON ON N/C OFF
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LED_PANIC The system has crashed N/C N/C N/C ON
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LED_IDLE STM32 is is sleep mode (Optional, not used)
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* If LED1, LED2, LED3 are statically on, then NuttX probably failed to boot
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and these LEDs will give you some indication of where the failure was
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** The normal state is LED3 ON and LED1 faintly glowing. This faint glow
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is because of timer interupts that result in the LED being illuminated
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on a small proportion of the time.
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*** LED2 may also flicker normally if signals are processed.
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PWM
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===
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The STM3240G-Eval has no real on-board PWM devices, but the board can be
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configured to output a pulse train using TIM4 CH2. This pin is used by
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FSMC is but is also connected to the Motor Control Connector (CN5) just
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for this purpose:
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PD13 FSMC_A18 / MC_TIM4_CH2 pin 33 (EnB)
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FSMC must be disabled in this case! PD13 is available at:
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Daughterboard Extension Connector, CN3, pin 32 - available
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TFT LCD Connector, CN19, pin 17 -- not available without removing the LCD.
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Motor Control Connector CN15, pin 33 -- not available unless you bridge SB14.
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CAN
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===
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Connector 10 (CN10) is DB-9 male connector that can be used with CAN1 or CAN2.
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JP10 connects CAN1_RX or CAN2_RX to the CAN transceiver
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JP3 connects CAN1_TX or CAN2_TX to the CAN transceiver
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CAN signals are then available on CN10 pins:
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CN10 Pin 7 = CANH
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CN10 Pin 2 = CANL
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Mapping to STM32 GPIO pins:
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PD0 = FSMC_D2 & CAN1_RX
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PD1 = FSMC_D3 & CAN1_TX
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PB13 = ULPI_D6 & CAN2_TX
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PB5 = ULPI_D7 & CAN2_RX
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Configuration Options:
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CONFIG_CAN - Enables CAN support (one or both of CONFIG_STM32_CAN1 or
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CONFIG_STM32_CAN2 must also be defined)
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CONFIG_CAN_FIFOSIZE - The size of the circular buffer of CAN messages.
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Default: 8
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CONFIG_CAN_NPENDINGRTR - The size of the list of pending RTR requests.
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Default: 4
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CONFIG_STM32_CAN1 - Enable support for CAN1
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CONFIG_CAN1_BAUD - CAN1 BAUD rate. Required if CONFIG_STM32_CAN1 is defined.
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CONFIG_STM32_CAN2 - Enable support for CAN1
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CONFIG_CAN2_BAUD - CAN1 BAUD rate. Required if CONFIG_STM32_CAN2 is defined.
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CONFIG_CAN_REGDEBUG - If CONFIG_DEBUG is set, this will generate an
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dump of all CAN registers.
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STM3240G-EVAL-specific Configuration Options
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============================================
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CONFIG_ARCH - Identifies the arch/ subdirectory. This should
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be set to:
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CONFIG_ARCH=arm
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CONFIG_ARCH_family - For use in C code:
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CONFIG_ARCH_ARM=y
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CONFIG_ARCH_architecture - For use in C code:
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CONFIG_ARCH_CORTEXM4=y
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CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory
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CONFIG_ARCH_CHIP=stm32
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CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
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chip:
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CONFIG_ARCH_CHIP_STM32F407IG=y
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CONFIG_ARCH_BOARD_STM32_CUSTOM_CLOCKCONFIG - Enables special STM32 clock
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configuration features.
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CONFIG_ARCH_BOARD_STM32_CUSTOM_CLOCKCONFIG=n
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CONFIG_ARCH_BOARD - Identifies the configs subdirectory and
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hence, the board that supports the particular chip or SoC.
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CONFIG_ARCH_BOARD=stm3240g_eval (for the STM3240G-EVAL development board)
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CONFIG_ARCH_BOARD_name - For use in C code
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CONFIG_ARCH_BOARD_STM3240G_EVAL=y
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CONFIG_ARCH_LOOPSPERMSEC - Must be calibrated for correct operation
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of delay loops
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CONFIG_ENDIAN_BIG - define if big endian (default is little
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endian)
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CONFIG_DRAM_SIZE - Describes the installed DRAM (SRAM in this case):
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CONFIG_DRAM_SIZE=0x00010000 (64Kb)
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CONFIG_DRAM_START - The start address of installed DRAM
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CONFIG_DRAM_START=0x20000000
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CONFIG_DRAM_END - Last address+1 of installed RAM
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CONFIG_DRAM_END=(CONFIG_DRAM_START+CONFIG_DRAM_SIZE)
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CONFIG_ARCH_IRQPRIO - The STM3240xxx supports interrupt prioritization
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CONFIG_ARCH_IRQPRIO=y
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CONFIG_ARCH_FPU - The STM3240xxx supports a floating point unit (FPU)
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CONFIG_ARCH_FPU=y
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
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have LEDs
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CONFIG_ARCH_INTERRUPTSTACK - This architecture supports an interrupt
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stack. If defined, this symbol is the size of the interrupt
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stack in bytes. If not defined, the user task stacks will be
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used during interrupt handling.
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CONFIG_ARCH_STACKDUMP - Do stack dumps after assertions
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to board architecture.
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CONFIG_ARCH_CALIBRATION - Enables some build in instrumentation that
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cause a 100 second delay during boot-up. This 100 second delay
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serves no purpose other than it allows you to calibratre
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CONFIG_ARCH_LOOPSPERMSEC. You simply use a stop watch to measure
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the 100 second delay then adjust CONFIG_ARCH_LOOPSPERMSEC until
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the delay actually is 100 seconds.
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Individual subsystems can be enabled:
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AHB1
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----
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CONFIG_STM32_CRC
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CONFIG_STM32_BKPSRAM
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CONFIG_STM32_CCMDATARAM
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CONFIG_STM32_DMA1
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CONFIG_STM32_DMA2
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CONFIG_STM32_ETHMAC
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CONFIG_STM32_OTGHS
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AHB2
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----
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CONFIG_STM32_DCMI
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CONFIG_STM32_CRYP
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CONFIG_STM32_HASH
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CONFIG_STM32_RNG
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CONFIG_STM32_OTGFS
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AHB3
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----
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CONFIG_STM32_FSMC
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APB1
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----
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CONFIG_STM32_TIM2
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CONFIG_STM32_TIM3
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CONFIG_STM32_TIM4
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CONFIG_STM32_TIM5
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CONFIG_STM32_TIM6
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CONFIG_STM32_TIM7
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CONFIG_STM32_TIM12
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CONFIG_STM32_TIM13
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CONFIG_STM32_TIM14
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CONFIG_STM32_WWDG
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CONFIG_STM32_SPI2
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CONFIG_STM32_SPI3
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CONFIG_STM32_USART2
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CONFIG_STM32_USART3
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CONFIG_STM32_UART4
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CONFIG_STM32_UART5
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CONFIG_STM32_I2C1
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CONFIG_STM32_I2C2
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CONFIG_STM32_I2C3
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CONFIG_STM32_CAN1
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CONFIG_STM32_CAN2
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CONFIG_STM32_DAC1
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CONFIG_STM32_DAC2
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CONFIG_STM32_PWR -- Required for RTC
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APB2
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----
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CONFIG_STM32_TIM1
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CONFIG_STM32_TIM8
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CONFIG_STM32_USART1
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CONFIG_STM32_USART6
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CONFIG_STM32_ADC1
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CONFIG_STM32_ADC2
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CONFIG_STM32_ADC3
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CONFIG_STM32_SDIO
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CONFIG_STM32_SPI1
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CONFIG_STM32_SYSCFG
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CONFIG_STM32_TIM9
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CONFIG_STM32_TIM10
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CONFIG_STM32_TIM11
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Timer and I2C devices may need to the following to force power to be applied
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unconditionally at power up. (Otherwise, the device is powered when it is
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initialized).
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CONFIG_STM32_FORCEPOWER
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Timer devices may be used for different purposes. One special purpose is
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to generate modulated outputs for such things as motor control. If CONFIG_STM32_TIMn
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is defined (as above) then the following may also be defined to indicate that
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the timer is intended to be used for pulsed output modulation, ADC conversion,
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or DAC conversion.
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CONFIG_STM32_TIM1_PWM
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CONFIG_STM32_TIM2_PWM
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CONFIG_STM32_TIM3_PWM
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CONFIG_STM32_TIM4_PWM
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CONFIG_STM32_TIM5_PWM
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CONFIG_STM32_TIM8_PWM
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CONFIG_STM32_TIM9_PWM
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CONFIG_STM32_TIM10_PWM
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CONFIG_STM32_TIM11_PWM
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CONFIG_STM32_TIM12_PWM
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CONFIG_STM32_TIM13_PWM
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CONFIG_STM32_TIM14_PWM
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CONFIG_STM32_TIM1_ADC
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CONFIG_STM32_TIM2_ADC
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CONFIG_STM32_TIM3_ADC
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CONFIG_STM32_TIM4_ADC
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CONFIG_STM32_TIM5_ADC
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CONFIG_STM32_TIM6_ADC
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CONFIG_STM32_TIM7_ADC
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CONFIG_STM32_TIM8_ADC
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CONFIG_STM32_TIM1_DAC
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CONFIG_STM32_TIM2_DAC
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CONFIG_STM32_TIM3_DAC
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CONFIG_STM32_TIM4_DAC
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CONFIG_STM32_TIM5_DAC
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CONFIG_STM32_TIM6_DAC
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CONFIG_STM32_TIM7_DAC
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CONFIG_STM32_TIM8_DAC
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For each timer that is enabled for PWM usage, we need the following additional
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configuration settings:
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CONFIG_STM32_TIMx_CHANNEL - Specifies the timer output channel {1,..,4}
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NOTE: The STM32 timers are each capable of generating different signals on
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each of the four channels with different duty cycles. That capability is
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not supported by this driver: Only one output channel per timer.
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JTAG Enable settings (by default JTAG-DP and SW-DP are disabled):
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CONFIG_STM32_JTAG_FULL_ENABLE - Enables full SWJ (JTAG-DP + SW-DP)
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CONFIG_STM32_JTAG_NOJNTRST_ENABLE - Enables full SWJ (JTAG-DP + SW-DP)
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but without JNTRST.
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CONFIG_STM32_JTAG_SW_ENABLE - Set JTAG-DP disabled and SW-DP enabled
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STM3240xxx specific device driver settings
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CONFIG_U[S]ARTn_SERIAL_CONSOLE - selects the USARTn (n=1,2,3) or UART
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m (m=4,5) for the console and ttys0 (default is the USART1).
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CONFIG_U[S]ARTn_RXBUFSIZE - Characters are buffered as received.
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This specific the size of the receive buffer
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CONFIG_U[S]ARTn_TXBUFSIZE - Characters are buffered before
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being sent. This specific the size of the transmit buffer
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CONFIG_U[S]ARTn_BAUD - The configure BAUD of the UART. Must be
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CONFIG_U[S]ARTn_BITS - The number of bits. Must be either 7 or 8.
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CONFIG_U[S]ARTn_PARTIY - 0=no parity, 1=odd parity, 2=even parity
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CONFIG_U[S]ARTn_2STOP - Two stop bits
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CONFIG_STM32_SPI_INTERRUPTS - Select to enable interrupt driven SPI
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support. Non-interrupt-driven, poll-waiting is recommended if the
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interrupt rate would be to high in the interrupt driven case.
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CONFIG_STM32_SPI_DMA - Use DMA to improve SPI transfer performance.
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Cannot be used with CONFIG_STM32_SPI_INTERRUPT.
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CONFIG_SDIO_DMA - Support DMA data transfers. Requires CONFIG_STM32_SDIO
|
|
and CONFIG_STM32_DMA2.
|
|
CONFIG_SDIO_PRI - Select SDIO interrupt prority. Default: 128
|
|
CONFIG_SDIO_DMAPRIO - Select SDIO DMA interrupt priority.
|
|
Default: Medium
|
|
CONFIG_SDIO_WIDTH_D1_ONLY - Select 1-bit transfer mode. Default:
|
|
4-bit transfer mode.
|
|
|
|
CONFIG_STM32_PHYADDR - The 5-bit address of the PHY on the board
|
|
CONFIG_STM32_MII - Support Ethernet MII interface
|
|
CONFIG_STM32_MII_MCO1 - Use MCO1 to clock the MII interface
|
|
CONFIG_STM32_MII_MCO2 - Use MCO2 to clock the MII interface
|
|
CONFIG_STM32_RMII - Support Ethernet RMII interface
|
|
CONFIG_STM32_AUTONEG - Use PHY autonegotion to determine speed and mode
|
|
CONFIG_STM32_ETHFD - If CONFIG_STM32_AUTONEG is not defined, then this
|
|
may be defined to select full duplex mode. Default: half-duplex
|
|
CONFIG_STM32_ETH100MBPS - If CONFIG_STM32_AUTONEG is not defined, then this
|
|
may be defined to select 100 MBps speed. Default: 10 Mbps
|
|
CONFIG_STM32_PHYSR - This must be provided if CONFIG_STM32_AUTONEG is
|
|
defined. The PHY status register address may diff from PHY to PHY. This
|
|
configuration sets the address of the PHY status register.
|
|
CONFIG_STM32_PHYSR_SPEED - This must be provided if CONFIG_STM32_AUTONEG is
|
|
defined. This provides bit mask indicating 10 or 100MBps speed.
|
|
CONFIG_STM32_PHYSR_100MBPS - This must be provided if CONFIG_STM32_AUTONEG is
|
|
defined. This provides the value of the speed bit(s) indicating 100MBps speed.
|
|
CONFIG_STM32_PHYSR_MODE - This must be provided if CONFIG_STM32_AUTONEG is
|
|
defined. This provide bit mask indicating full or half duplex modes.
|
|
CONFIG_STM32_PHYSR_FULLDUPLEX - This must be provided if CONFIG_STM32_AUTONEG is
|
|
defined. This provides the value of the mode bits indicating full duplex mode.
|
|
CONFIG_STM32_ETH_PTP - Precision Time Protocol (PTP). Not supported
|
|
but some hooks are indicated with this condition.
|
|
|
|
STM3240G-EVAL CAN Configuration
|
|
|
|
CONFIG_CAN - Enables CAN support (one or both of CONFIG_STM32_CAN1 or
|
|
CONFIG_STM32_CAN2 must also be defined)
|
|
CONFIG_CAN_FIFOSIZE - The size of the circular buffer of CAN messages.
|
|
Default: 8
|
|
CONFIG_CAN_NPENDINGRTR - The size of the list of pending RTR requests.
|
|
Default: 4
|
|
CONFIG_CAN_LOOPBACK - A CAN driver may or may not support a loopback
|
|
mode for testing. The STM32 CAN driver does support loopback mode.
|
|
CONFIG_CAN1_BAUD - CAN1 BAUD rate. Required if CONFIG_STM32_CAN1 is defined.
|
|
CONFIG_CAN2_BAUD - CAN1 BAUD rate. Required if CONFIG_STM32_CAN2 is defined.
|
|
CONFIG_CAN_REGDEBUG - If CONFIG_DEBUG is set, this will generate an
|
|
dump of all CAN registers.
|
|
|
|
STM3240G-EVAL LCD Hardware Configuration
|
|
|
|
Configurations
|
|
==============
|
|
|
|
Each STM3240G-EVAL configuration is maintained in a sudirectory and
|
|
can be selected as follow:
|
|
|
|
cd tools
|
|
./configure.sh stm3240g-eval/<subdir>
|
|
cd -
|
|
. ./setenv.sh
|
|
|
|
Where <subdir> is one of the following:
|
|
|
|
dhcpd:
|
|
-----
|
|
|
|
This builds the DCHP server using the apps/examples/dhcpd application
|
|
(for execution from FLASH.) See apps/examples/README.txt for information
|
|
about the dhcpd example. The server address is 10.0.0.1 and it serves
|
|
IP addresses in the range 10.0.0.2 through 10.0.0.17 (all of which, of
|
|
course, are configurable).
|
|
|
|
CONFIG_STM32_CODESOURCERYW=y : CodeSourcery under Windows
|
|
|
|
nettest:
|
|
-------
|
|
|
|
This configuration directory may be used to verify networking performance
|
|
using the STM32's Ethernet controller. It uses apps/examples/nettest to excercise the
|
|
TCP/IP network.
|
|
|
|
CONFIG_EXAMPLE_NETTEST_SERVER=n : Target is configured as the client
|
|
CONFIG_EXAMPLE_NETTEST_PERFORMANCE=y : Only network performance is verified.
|
|
CONFIG_EXAMPLE_NETTEST_IPADDR=(10<<24|0<<16|0<<8|2) : Target side is IP: 10.0.0.2
|
|
CONFIG_EXAMPLE_NETTEST_DRIPADDR=(10<<24|0<<16|0<<8|1) : Host side is IP: 10.0.0.1
|
|
CONFIG_EXAMPLE_NETTEST_CLIENTIP=(10<<24|0<<16|0<<8|1) : Server address used by which ever is client.
|
|
|
|
ostest:
|
|
------
|
|
This configuration directory, performs a simple OS test using
|
|
examples/ostest. By default, this project assumes that you are
|
|
using the DFU bootloader.
|
|
|
|
CONFIG_STM32_CODESOURCERYW=y : CodeSourcery under Windows
|
|
|
|
nsh:
|
|
---
|
|
Configures the NuttShell (nsh) located at apps/examples/nsh. The
|
|
Configuration enables both the serial and telnet NSH interfaces.
|
|
|
|
CONFIG_STM32_CODESOURCERYW=y : CodeSourcery under Windows
|
|
CONFIG_NSH_DHCPC=n : DHCP is disabled
|
|
CONFIG_NSH_IPADDR=(10<<24|0<<16|0<<8|2) : Target IP address 10.0.0.2
|
|
CONFIG_NSH_DRIPADDR=(10<<24|0<<16|0<<8|1) : Host IP address 10.0.0.1
|
|
|
|
NOTES:
|
|
1. This example assumes that a network is connected. During its
|
|
initialization, it will try to negotiate the link speed. If you have
|
|
no network connected when you reset the board, there will be a long
|
|
delay (maybe 30 seconds?) before anything happens. That is the timeout
|
|
before the networking finally gives up and decides that no network is
|
|
available.
|
|
|
|
2. This example supports the ADC test (apps/examples/adc) but this must
|
|
be manually enabled by selecting:
|
|
|
|
CONFIG_ADC=y : Enable the generic ADC infrastructure
|
|
CONFIG_STM32_ADC3=y : Enable ADC3
|
|
CONFIG_STM32_TIM1_ADC3=y : Assign timer 1 to driver ADC3 sampling
|
|
|
|
See also apps/examples/README.txt
|
|
|
|
General debug for analog devices (ADC/DAC):
|
|
|
|
CONFIG_DEBUG_ANALOG
|
|
|
|
3. This example supports the PWM test (apps/examples/pwm) but this must
|
|
be manually enabled by selecting:
|
|
|
|
CONFIG_PWM=y : Enable the generic PWM infrastructure
|
|
CONFIG_STM32_TIM4_PWM=y : Use TIM4 to generate PWM output
|
|
|
|
See also apps/examples/README.txt
|
|
|
|
Special PWM-only debug options:
|
|
|
|
CONFIG_DEBUG_PWM
|
|
|
|
4. This example supports the CAN loopback test (apps/examples/can) but this
|
|
must be manually enabled by selecting:
|
|
|
|
CONFIG_CAN=y : Enable the generic CAN infrastructure
|
|
CONFIG_STM32_CAN1=y : Enable CAN1
|
|
CONFIG_CAN_LOOPBACK=y : Enable CAN loopback mode
|
|
|
|
See also apps/examples/README.txt
|
|
|
|
Special CAN-only debug options:
|
|
|
|
CONFIG_DEBUG_CAN
|
|
CONFIG_CAN_REGDEBUG
|