mbed-src updated for BMD-200 evaluation board. Just pin numbers are updated.
Dependents: mbed_blinky-bmd-200 bmd-200_accel_demo firstRig
Fork of mbed-src by
Replacement for the "mbed" or "mbed-src" library when using the BMD-200 Evaluation kit. This library only remaps the pin names (i.e. LED1 points to p0.01 instead of p0.18, etc) as used by the BMD-200 Evaluation board (select the nRF51822_mkit platform). All other code is untouched.
targets/hal/TARGET_NXP/TARGET_LPC43XX/README.txt
- Committer:
- dcnichols
- Date:
- 2015-07-10
- Revision:
- 592:5e2eb8beba71
- Parent:
- 256:76fd9a263045
File content as of revision 592:5e2eb8beba71:
mbed port to NXP LPC43xx ======================== Updated: 07/11/14 The NXP LPC43xx microcontrollers includes multiple Cortex-M cores in a single microcontroller package. This port allows mbed developers to take advantage of the LPC43xx in their application using APIs that they are familiar with. Some of the key features of the LPC43xx include: * Dual core ARM Cortex-M4/M0 both capable of up to 204 MHz * Up to 264 KB SRAM, 1 MB internal flash * Two High-speed USB 2.0 interfaces * Ethernet MAC * LCD interface * Quad-SPI Flash Interface (SPIFI) * State Configurable Timer (SCT) * Serial GPIO (SGPIO) * Up to 164 GPIO The NXP LPC18xx is a single core Cortex-M3 implementation that is compatible with the LPC43XX for cost-sensitive applications not requiring multiple cores. mbed port to the LPC43XX - Micromint USA <support@micromint.com> Compatibility ------------- * This port has been tested with the following boards: Board MCU RAM/Flash Micromint Bambino 200 LPC4330 264K SRAM/4 MB SPIFI flash Micromint Bambino 200E LPC4330 264K SRAM/8 MB SPIFI flash Micromint Bambino 210 LPC4330 264K SRAM/4 MB SPIFI flash Micromint Bambino 210E LPC4330 264K SRAM/8 MB SPIFI flash * CMSIS-DAP debugging is implemented with the Micromint Bambino 210/210E. To debug other LPC4330 targets, use a JTAG. The NXP DFU tool can be used for flash programming. * This port should support NXP LPC43XX and LPC18XX variants with a single codebase. The core declaration specifies the binaries to be built: mbed define CMSIS define MCU Target __CORTEX_M4 CORE_M4 LPC43xx Cortex-M4 __CORTEX_M0 CORE_M0 LPC43xx Cortex-M0 __CORTEX_M3 CORE_M3 LPC18xx Cortex-M3 These MCUs all share the peripheral IP, common driver code is feasible. Yet each variant can have different memory segments, peripherals, etc. Plus, each board design can integrate different external peripherals or interfaces. A future release of the mbed SDK and its build tools will support specifying the target board when building binaries. At this time building binaries for different targets requires an external project or Makefile. * No testing has been done with LPC18xx hardware. Notes ----- * On the LPC43xx the hardware pin name and the GPIO pin name are not the same, requiring different offsets for the SCU and GPIO registers. To simplify logic the pin identifier encodes the offsets. Macros are used for decoding. For example, P6_11 corresponds to GPIO3[7] and is encoded/decoded as follows: P6_11 = MBED_PIN(0x06, 11, 3, 7) = 0x032C0067 MBED_SCU_REG(P6_11) = 0x4008632C MBED_GPIO_PORT(P6_11) = 3 MBED_GPIO_REG(P6_11) = 0x400F4000 MBED_GPIO_PIN(P6_11) = 7 * Pin names use multiple aliases to support Arduino naming conventions as well as others. For example, to use pin p21 on the Bambino 210 from mbed applications the following aliases are equivalent: p21, D0, UART0_TX, COM1_TX, P6_4. See the board pinout graphic and the PinNames.h for available aliases. * The LPC43xx implements GPIO pin and group interrupts. Any pin in the 8 32-bit GPIO ports can interrupt (LPC4350 supports up to 164). On group interrupts a pin can only interrupt on the rising or falling edge, not both as required by the mbed InterruptIn class. Also, group interrupts can't be cleared individually. This implementation uses pin interrupts (8 on M4/M3, 1 on M0). A future implementation may provide group interrupt support. * The LPC3xx PWM driver uses the State Configurable Timer (SCT). The default build (PWM_MODE=0) uses the unified 32-bit times. Applications that use PWM and require other SCT uses can use the dual 16-bit mode by changing PWM_MODE when building the library.