文件名称:Examples
- 所属分类:
- 微处理器(ARM/PowerPC等)
- 资源属性:
- [C/C++] [源码]
- 上传时间:
- 2013-04-05
- 文件大小:
- 2.49mb
- 下载次数:
- 0次
- 提 供 者:
- Martia******
- 相关连接:
- 无
- 下载说明:
- 别用迅雷下载,失败请重下,重下不扣分!
介绍说明--下载内容均来自于网络,请自行研究使用
Example with ZLPC2103 evaluation board sail on www.the0.net
The Zero Research Institute presents a brand new ZLPC2103 Development Board for Philips NXP LPC2103 ARM Family. The ZLPC2103 Development board helps you get started writing programs and testing the Philips LPC2103 microcontroller and its capabilities.
Built-in Philips NXP LPC2103 ARM 32-bit RISC microcontroller with thumb extensions 10-bit A/D converters, two 32-bit and two 16-bit timers/external event counters.
Built-in ARM JTAG interface, supports Keil Ulink or other JTAG programmer, debugger.
Built-in 128 x 160 TFT LCD Color Display module with backlight for On-board experiment.
Built-in backup battery holder for RTC(real-time clock).
Built-in 32Khz oscillator for RTC.
Built-in RS232 Serial port, let you connect to PC using RS232.
Powered by USB bus or External power adapter.(5V)
On-board high quality buttons.
Built-in voltage regulator, more reliable. -Example with ZLPC2103 evaluation board sail on www.the0.net
The Zero Research Institute presents a brand new ZLPC2103 Development Board for Philips NXP LPC2103 ARM Family. The ZLPC2103 Development board helps you get started writing programs and testing the Philips LPC2103 microcontroller and its capabilities.
Built-in Philips NXP LPC2103 ARM 32-bit RISC microcontroller with thumb extensions 10-bit A/D converters, two 32-bit and two 16-bit timers/external event counters.
Built-in ARM JTAG interface, supports Keil Ulink or other JTAG programmer, debugger.
Built-in 128 x 160 TFT LCD Color Display module with backlight for On-board experiment.
Built-in backup battery holder for RTC(real-time clock).
Built-in 32Khz oscillator for RTC.
Built-in RS232 Serial port, let you connect to PC using RS232.
Powered by USB bus or External power adapter.(5V)
On-board high quality buttons.
Built-in voltage regulator, more reliable.
The Zero Research Institute presents a brand new ZLPC2103 Development Board for Philips NXP LPC2103 ARM Family. The ZLPC2103 Development board helps you get started writing programs and testing the Philips LPC2103 microcontroller and its capabilities.
Built-in Philips NXP LPC2103 ARM 32-bit RISC microcontroller with thumb extensions 10-bit A/D converters, two 32-bit and two 16-bit timers/external event counters.
Built-in ARM JTAG interface, supports Keil Ulink or other JTAG programmer, debugger.
Built-in 128 x 160 TFT LCD Color Display module with backlight for On-board experiment.
Built-in backup battery holder for RTC(real-time clock).
Built-in 32Khz oscillator for RTC.
Built-in RS232 Serial port, let you connect to PC using RS232.
Powered by USB bus or External power adapter.(5V)
On-board high quality buttons.
Built-in voltage regulator, more reliable. -Example with ZLPC2103 evaluation board sail on www.the0.net
The Zero Research Institute presents a brand new ZLPC2103 Development Board for Philips NXP LPC2103 ARM Family. The ZLPC2103 Development board helps you get started writing programs and testing the Philips LPC2103 microcontroller and its capabilities.
Built-in Philips NXP LPC2103 ARM 32-bit RISC microcontroller with thumb extensions 10-bit A/D converters, two 32-bit and two 16-bit timers/external event counters.
Built-in ARM JTAG interface, supports Keil Ulink or other JTAG programmer, debugger.
Built-in 128 x 160 TFT LCD Color Display module with backlight for On-board experiment.
Built-in backup battery holder for RTC(real-time clock).
Built-in 32Khz oscillator for RTC.
Built-in RS232 Serial port, let you connect to PC using RS232.
Powered by USB bus or External power adapter.(5V)
On-board high quality buttons.
Built-in voltage regulator, more reliable.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
Examples
........\1.1 - First
........\...........\First.Opt
........\...........\First.Uv2
........\...........\First.axf
........\...........\First.c
........\...........\First.htm
........\...........\First.lnp
........\...........\First.map
........\...........\First.plg
........\...........\First.sct
........\...........\First.tra
........\...........\First_Target 1.dep
........\...........\First_Uv2.Bak
........\...........\Startup.lst
........\...........\Startup.o
........\...........\Startup.s
........\...........\first.o
........\10.1 - uCos251
........\..............\App
........\..............\...\output
........\..............\...\......\Os_cpu_a.lst
........\..............\...\......\Os_cpu_a.o
........\..............\...\......\Os_int_a.lst
........\..............\...\......\Os_int_a.o
........\..............\...\......\Startup.lst
........\..............\...\......\Startup.o
........\..............\...\......\bsp.o
........\..............\...\......\main.__i
........\..............\...\......\main.o
........\..............\...\......\os_core.o
........\..............\...\......\os_cpu_a._ia
........\..............\...\......\os_cpu_c.o
........\..............\...\......\os_flag.o
........\..............\...\......\os_int_a._ia
........\..............\...\......\os_mbox.o
........\..............\...\......\os_mem.o
........\..............\...\......\os_mutex.o
........\..............\...\......\os_q.o
........\..............\...\......\os_sem.o
........\..............\...\......\os_task.o
........\..............\...\......\os_time.o
........\..............\...\......\uCos2103.axf
........\..............\...\......\uCos2103.htm
........\..............\...\......\uCos2103.lnp
........\..............\...\......\uCos2103.map
........\..............\...\......\uCos2103.plg
........\..............\...\......\uCos2103.sct
........\..............\...\......\uCos2103.tra
........\..............\...\OS_CFG.H
........\..............\...\Startup.s
........\..............\...\bsp.c
........\..............\...\bsp.c.bak
........\..............\...\bsp.h
........\..............\...\bsp.h.bak
........\..............\...\main.c
........\..............\...\main.c.bak
........\..............\arm
........\..............\...\OS_CPU.H
........\..............\...\Os_cpu_a.s
........\..............\...\Os_cpu_a.s.bak
........\..............\...\Os_cpu_c.c
........\..............\...\Os_int_a.s
........\..............\ucosii
........\..............\......\Includes.h
........\..............\......\OS_CORE.C
........\..............\......\OS_FLAG.C
........\..............\......\OS_MBOX.C
........\..............\......\OS_MEM.C
........\..............\......\OS_MUTEX.C
........\..............\......\OS_Q.C
........\..............\......\OS_SEM.C
........\..............\......\OS_TASK.C
........\..............\......\OS_TIME.C
........\..............\......\uCOS_II.H
........\..............\uCos2103.Opt
........\..............\uCos2103.Uv2
........\..............\uCos2103.plg
........\..............\uCos2103_Opt.Bak
........\..............\uCos2103_Target 1.dep
........\..............\uCos2103_Uv2.Bak
........\2.1 - GPIO_OUT
........\..............\OUTPUT
........\..............\......\GPIO_OUT.axf
........\..............\......\GPIO_OUT.htm
........\..............\......\GPIO_OUT.lnp
........\..............\......\GPIO_OUT.map
........\..............\......\GPIO_OUT.plg
........\..............\......\GPIO_OUT.sct
........\..............\......\GPIO_OUT.tra
........\..............\......\Startup.lst
........\..............\......\Startup.o
........\..............\......\gpio_out.o
........\..............\GPIO_OUT.C
........\..............\GPIO_OUT.Opt
........\..............\GPIO_OUT.Uv2
........\..............\GPIO_OUT.plg
........\..............\GPIO_OUT_Opt.Bak
........\..............\GPIO_OUT_Target 1.dep
........\..............\GPIO_OUT_Uv2.Bak