These are the examples provided for [[/users/frank26080115/libraries/LPC1700CMSIS_Lib/]] Note, the entire "program" is not compilable!
Diff: SPI/SDCard/abstract.h
- Revision:
- 0:bf7b9fba3924
diff -r 000000000000 -r bf7b9fba3924 SPI/SDCard/abstract.h --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/SPI/SDCard/abstract.h Sun Mar 20 05:38:56 2011 +0000 @@ -0,0 +1,90 @@ + ******************** (C) COPYRIGHT 2010 NXPSemiconductors ******************* + * @file SPI\SDCard\abstract.txt + * @author NXP MCU Vietnam Team + * @version 2.0 + * @date + * @brief Description of the SPI SC16IS750 Interrupt example. + ****************************************************************************** + * Software that is described herein is for illustrative purposes only + * which provides customers with programming information regarding the + * products. This software is supplied "AS IS" without any warranties. + * NXP Semiconductors assumes no responsibility or liability for the + * use of the software, conveys no license or title under any patent, + * copyright, or mask work right to the product. NXP Semiconductors + * reserves the right to make changes in the software without + * notification. NXP Semiconductors also make no representation or + * warranty that such application will be suitable for the specified + * use without further testing or modification. + ****************************************************************************** + +@Example description: + Purpose: + This example describes how to use SPI to read SD card's CID register + Process: + SPI configuration: + - CPHA = 0: data is sampled on the first clock edge of SCK. + - CPOL = 0: SCK is active high + - Clock rate = 1MHz + - LSBF = 0: SPI data is transferred MSB first + - BITS = 8: 8 bits per transfer + - MSTR = 1: SPI operates in Master mode + 1)Look for SD card connected or not, if yes then + 2)Configure SD card in SPI mode, then start SD card's internal + initialization process. + 3)Read SD card's CID register then decode and display out via UART0 + +@Directory contents: + \EWARM: includes EWARM (IAR) project and configuration files + \Keil: includes RVMDK (Keil)project and configuration files + + lpc17xx_libcfg.h: Library configuration file - include needed driver library for this example + makefile: Example's makefile (to build with GNU toolchain) + spi_sdcard.c: Main program + +@How to run: + Hardware configuration: + This example was tested on: + Keil MCB1700 with LPC1768 vers.1 + These jumpers must be configured as following: + - VDDIO: ON + - VDDREGS: ON + - VBUS: ON + - Remain jumpers: OFF + + Serial display configuration: (e.g: TeraTerm, Hyperterminal, Flash Magic...) + 115200bps + 8 data bit + No parity + 1 stop bit + No flow control + + Running mode: + Running mode: + This example can run on RAM/ROM mode. + + Note: If want to burn hex file to board by using Flash Magic, these jumpers need + to be connected: + - MCB1700 with LPC1768 ver.1: + + RST: ON + + ISP: ON + - IAR LPC1768 KickStart vers.A: + + RST_E: ON + + ISP_E: ON + + (Please reference "LPC1000 Software Development Toolchain" - chapter 4 "Creating and working with + LPC1000CMSIS project" for more information) + + Step to run: + - Step 1: Build example. + - Step 2: Burn hex file into board (if run on ROM mode) + - Step 3: Connect UART0 on board to COM port on your computer + - Step 4: Run example + + Plug in the SD card. + + Look at the PC terminal screen to see the information of SD card. + + (Pls see "LPC17xx Example Description" document - chapter "Examples > SPI > SDCard" + for more details) + +@Tip: + - Open \EWARM\*.eww project file to run example on IAR + - Open \RVMDK\*.uvproj project file to run example on Keil \ No newline at end of file