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[Other resourceSPCA563A

Description: 自己编写的凌阳SPCA61A与SPCA563A图象识别模块连接驱动程序,带有4*8液晶显示驱动程序,开发环境unSP IDE 2-themselves prepared and Sunplus SPCA61A SPCA563A Image Recognition Module Link driver, * 8 with four LCD driver, development environment IDE 2.0.0 unSP
Platform: | Size: 12833 | Author: liyalin | Hits:

[Other resourcespeedmeasure

Description: 陵阳61单片机的计数测速程序, 按照双叶螺旋桨遮光计算,外部中断触发,SPI-led显示,定时器控制0.5秒更新,基于unSp IDE 2.0
Platform: | Size: 53649 | Author: 邵威 | Hits:

[SCMSPCA563A

Description: 自己编写的凌阳SPCA61A与SPCA563A图象识别模块连接驱动程序,带有4*8液晶显示驱动程序,开发环境unSP IDE 2-themselves prepared and Sunplus SPCA61A SPCA563A Image Recognition Module Link driver,* 8 with four LCD driver, development environment IDE 2.0.0 unSP
Platform: | Size: 88064 | Author: liyalin | Hits:

[SCMline_chabu

Description: 实现了直线插补程序,指明起点和终点即可.实际应用于XY绘图仪的画线并成功.在凌阳unSP IDE上编译通过.用C编写,可方便地移植.-achieved a linear interpolation procedures specified starting point and destination can be. actual XY plotters used in the line drawing and successfully. In Sunplus unSP compiled IDE through. C preparation and can be easily transplanted.
Platform: | Size: 1024 | Author: lkh | Hits:

[SCMspeedmeasure

Description: 陵阳61单片机的计数测速程序, 按照双叶螺旋桨遮光计算,外部中断触发,SPI-led显示,定时器控制0.5秒更新,基于unSp IDE 2.0-61 Singlechip陵阳count velocimetry procedures, in accordance with the propeller futaba shading, the external interrupt trigger, SPI-led shows that 0.5 seconds timer control to update, based on the unSp IDE 2.0
Platform: | Size: 83968 | Author: 邵威 | Hits:

[Embeded-SCM DevelopSPWM-300

Description: SPMC75 CPU ,产生300点SPWM,经实验直接可连接控制变频逆变,unSP IDE 平台-SPMC75 CPU, have 300 points SPWM, can be connected directly by the experimental control variable frequency inverter, unSP IDE platform
Platform: | Size: 99328 | Author: 吴飞 | Hits:

[ELanguagebasic-ide-0.2.6.6-src

Description: IDE开发环境,可以挂载SDCC The BASIC IDE is a new, RAD (Rapid Application Development) IDE (Integrated Development Environment) for the RapidQ programming language. The IDE currently has rich project options, a form designer (similar to Delphi s), and code editor. The BASIC IDE is being coded in Borland® Delphi® . We are currently using Delphi 6, but you should be able to use Delphi 3 or later (Delphi 7 included). Some of the BASIC IDEs features include: Form Designer with support for all of RapidQ s components Flexible Code Editor Project Management Written in OO (Object Oriented) Delphi. Some future items that we are working on are: Code Tip Code Completion CVS Integration Code Editor Macros Point-and-Click access to subroutines, functions, and variables -IDE development environment, you can mount SDCCThe BASIC IDE is a new, RAD (Rapid Application Development) IDE (Integrated Development Environment) for the RapidQ programming language. The IDE currently has rich project options, a form designer (similar to Delphi s), and code editor. The BASIC IDE is being coded in Borland ? Delphi ?. We are currently using Delphi 6, but you should be able to use Delphi 3 or later (Delphi 7 included). Some of the BASIC IDEs features include: Form Designer with support for all of RapidQ s components Flexible Code Editor Project Management Written in OO (Object Oriented) Delphi. Some future items that we are working on are: Code Tip Code Completion CVS Integration Code Editor Macros Point-and-Click access to subroutines, functions, and variables
Platform: | Size: 223232 | Author: 天下 | Hits:

[SCMshiyan2

Description: 开发环境:unSP IDE 2.0.0 实验目的:通过本实验熟悉SunPlus SPCE061A单片机的I/O,定时器的使用方法。中断系统的 使用。熟悉IDE开发环境的使用。 0 实验设备:装有WINDOWS操作系统以及SunPlus IDE仿真开发环境的PC机一台; ì’nSP™ 十六位单片机实验板及扩展板。 实验原理:通过键盘扫描获得键值后分别控制二极管的亮灭;使用定时器产生不同的显示模 式。 实验步骤: 1).连接PC机与SunPlus061A仿真板; 2).连接实验板与仿真板; 3.运行IDE开发环境程序; 4.建立新工程; 5.往新工程里添加C文件,编写主程序框架; 6.往工程里添加ASM文件,编写汇编子程序; 7.往新工程中添加中断处理程序; 8.添加头文件(hardware.inc等); 9.程序编译调试,观察运行结果,寄存器状态等; 10.脱机运行。 要求: 对于每个不同的按键,分别有下列响应: 1.全亮; 2.逐个轮流点亮; 3.交替闪亮; 4.其他。 (综合要求:键盘和LED灯能同时工作,定时器要用定时器中断方式实现。) -Development Environment: unSP IDE 2.0.0 Experimental Objective: Through this experiment familiar SunPlus SPCE061A microcontroller I/O, timers are used. Interrupt system Be used. Familiar with the use of IDE development environment. 0 Laboratory equipment: air WINDOWS operating system simulation development environment and SunPlus IDE PC with a desk ì nSP ™ sixteen single-chip board and expansion board. Experimental principle: get the key from the keyboard scan, respectively, after controlling diode light off using a different display mode timer Style. Experimental procedure: 1) Connect the PC and SunPlus061A emulation board 2) Connect the test board and emulation board 3 Run the IDE development environment program 4 Create a new project 5 new projects to add to the C files, write main frame 6 ASM files to add to the project, the preparation of assembly routines 7 new projects added to the interrupt handler 8 Add a header file (hardware.inc, etc.
Platform: | Size: 51200 | Author: niu | Hits:

[SCMshiyan3

Description: 开发环境:unSP IDE 2.0.0 实验目的: 1)了解SPCE061 PLL 振荡器的功能及其应用。 2)掌握系统时钟单元P_SystemClock的设置方法。 3)熟悉系统时钟和CPU时钟频率的编程方法。 实验设备: 1)装有µ ’nSP™ IDE仿真环境的PC机一台。 2)µ ’nSP™ 十六位单片机实验箱一个。 3)示波器一台。 实验原理: 在SPCE061A内,P_SystemClock(写)($7013H)单元控制着系统时钟和CPU时钟。通过设置该单元的B5-B7位可以改变系统时钟的频率(Fosc=20/24/32/40/49MHz);将第0-2位置为“111”可以使CPU时钟停止工作,系统切换至低功耗的备用状态。在备用状态下,通过设置该单元的B4位可以接通或关闭32KHz实时时钟。而且通过设置该单元的B3位可以使32768Hz时钟处自动弱振或强振状态。本实验通过选择不同Fosc信号频率或改变CPUClk频率来观察发光二极管亮灭的快慢。 实验步骤: 1)根据实验内容连接硬件电路并检查。 2)画流程图并编写程序代码。 3)编译程序,软件调试。 4)观察LED亮灭的快慢,并通过示波器观察波形。 要求: LED亮灭的快慢及通过示波器观察波形反映的定时信号与设计一致. (综合要求:要能通过键盘动态改变系统时钟和CPU时钟频率。)-The experiment: 1) Learn SPCE061 PLL oscillator function and its application. 2) master the system clock unit P_SystemClock setting method. 3) familiar with the system clock and CPU clock frequency programming method. Laboratory equipment: 1) with μ nSP ™ IDE emulation environment for PC machine. 2) μ nSP ™ 16 single-chip experiment box one. 3) an oscilloscope. Experimental principle: In SPCE061A inside, P_SystemClock (W) ($ 7013H) unit controls the system clock and CPU clock. By setting the unit B5-B7 bit can change the system clock frequency (Fosc = 20/24/32/40/49MHz) 0-2 position of the first "111" can make the CPU clock is stopped, the system switches to low standby power. In the standby state, by setting the unit can be switched on or off B4 32KHz bit real time clock. And by setting the unit B3 bit 32768Hz clock can automatically at the weak state of vibration or strong vibration. This experiment by choosing different Fosc frequency signal frequency or change
Platform: | Size: 23552 | Author: niu | Hits:

[SCMshiyan5

Description: 开发环境:unSP IDE 2.0.0 实验目的: 1)了解SPCE061A串行口(UART)的结构、与PC机串行通讯的原理。 2)了解UART的各配置单元P_UART_BaudScalarLow (7024H)、P_UART_BaudScalarHigh (7025H)、 P_UART_Command1(7021H)和P_UART_Command2 (7022H)的功能及控制方法。 3)掌握PC机与单片机通讯的编程方法。 实验设备: 1) 装有µ ’nSP™ IDE仿真环境的PC机一台。 2) µ ’nSP™ 十六位单片机实验箱一个。 3)连接软条线一根。 实验原理: UART模块提供了一个全双工标准接口,用于完成SPCE061A与外设之间的串行通讯。借助于IOB口的特殊功能和UART IRQ中断,可以同时完成UART接口的接收发送数据的过程。 硬件电路原理为:使用一根连接软条线就可以实现串口自环测试。 实验步骤: 1)根据内容自行设计硬件连接图,连接硬件并检查。 2)画流程图并编写程序代码。 3)编译程序,软件调试。 4)观察LED、各个寄存器状态。 要求: 在从内存中能观测到发送和接收的数据。 (综合要求:按不同的键时向 PC发送不同内容的字符串。) -The experiment: 1) Understanding SPCE061A serial port (UART) structure, with the PC serial communication works. 2) understand the UART each hive P_UART_BaudScalarLow (7024H), P_UART_BaudScalarHigh (7025H), P_UART_Command1 (7021H) and P_UART_Command2 (7022H) functions and control methods. 3) control communication between PC and microcontroller programming methods. Laboratory equipment: 1) with μ nSP ™ IDE emulation environment for PC machine. 2) μ nSP ™ 16 single-chip experiment box one. 3) Connect a flexible lines. Experimental principle: Module provides a full-duplex UART standard interface for complete SPCE061A with serial communication between peripherals. With special features and IOB port UART IRQ interrupt, UART interface can complete the process of transmission and reception of data. Hardware circuit principle: use a soft line connection can be achieved serial loopback testing. Experimental procedure: 1) self-designed hardware based on the content connecti
Platform: | Size: 23552 | Author: niu | Hits:

[SCMshiyan8_IRQ4

Description: 开发环境:unSP IDE 2.0.0 实验目的: 1)了解IRQ4的中断向量和中断源。 2)掌握中断控制单元P_INT_Ctrl, P_INT_Clear的设置方法。 3)熟悉中断的编程方法。 实验设备: 1)装有µ ’nSP™ IDE仿真环境的PC机一台。 2)µ ’nSP™ 十六位单片机实验箱一个。 实验原理: IRQ4 中断对应4096Hz、2048Hz、1024Hz 中断源,通过写P_INT_Ctrl来设置中断允许,CPU响应后进入中断, 我们编写一个用中断方式控制发光二极管亮灭程序, 中断程序里读取P_INT_Ctrl单元,判断是哪个中断源,转到相应中断程序控制对应发光二极管亮或灭.从而了解IRQ4 中断的组成及编程。 实验步骤: 1)根据实验内容自行设计,连接硬件电路并检查。 2)画流程图并编写程序代码。 3)编译程序,软件调试。 4) 观察LED、各个寄存器状态等。 要求: 能用LED的状态验证中断正确工作。 (综合要求:可用按键控制各个中断原是否产生中断。)-The experiment: 1) Learn IRQ4 interrupt vector and interrupt sources. 2) master interrupt control unit P_INT_Ctrl, P_INT_Clear setting method. 3) Familiar interrupt programming methods. Laboratory equipment: 1) with μ nSP ™ IDE emulation environment for PC machine. 2) μ nSP ™ 16 single-chip experiment box one. Experimental principle: IRQ4 interrupt corresponding 4096Hz, 2048Hz, 1024Hz interrupt source by writing P_INT_Ctrl to set the interrupt enable, CPU respond after entering the interrupt, we write an interrupt control with LED lights off procedures, the interrupt routine reads P_INT_Ctrl unit to determine which interrupt source, go to the corresponding interrupt program controls the corresponding LEDs on or off. IRQ4 interrupt to understand the composition and programming. Experimental procedure: 1) According to the experimental design their own content, connecting hardware circuit and check. 2) draw flowcharts and write program code. 3) compiler, software deb
Platform: | Size: 28672 | Author: niu | Hits:

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