DSPtms320f2808程序ADCSPISCIDACKEYEXINTDACCPU

共770个文件

h：275个

c：200个

asm：24个

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**正文** 本资源针对的是TI公司的TMS320F2808数字信号处理器（DSP），这是一款高性能、低功耗的微控制器，广泛应用于工业控制、电机驱动、自动化和嵌入式系统等领域。该资源包含11个经典教程，非常适合初学者深入理解和实践DSP的编程与应用。首先，我们要了解**DSP**（Digital Signal Processor）是一种专门用于处理数字信号的微处理器，它的设计目标是执行快速的数学运算，如乘法、加法和积分等，这对于实时信号处理至关重要。TMS320F2808集成了浮点运算单元，能够进行高精度的数值计算，适用于复杂的算法实现。 **ADC**（Analog-to-Digital Converter）是模拟到数字转换器，它将物理世界中的模拟信号转化为数字信号，以便于DSP进行处理。在TMS320F2808中，配置和使用ADC需要了解其采样率、分辨率、转换时间等相关参数。 **SPI**（Serial Peripheral Interface）是一种同步串行通信协议，用于连接TMS320F2808与外部设备，如传感器或存储器。在编程时，需要设置SPI的时钟速度、数据格式以及主从模式等参数。 **SCI**（Serial Communication Interface）通常指的是UART（Universal Asynchronous Receiver/Transmitter），在TMS320F2808中用于实现串行通信，例如与PC或其他设备交换数据，配置时需要关注波特率、数据位、停止位和奇偶校验等设置。 **DAC**（Digital-to-Analog Converter）是数字到模拟转换器，它将DSP处理后的数字信号转换为模拟信号，用于驱动模拟负载，如音频设备或电机控制。TMS320F2808的DAC配置涉及到转换速率、参考电压和输出范围等。 **KEY**和**EXINT**指的是外部输入/中断，是TMS320F2808处理外部事件的关键部分。按键（KEY）可以作为用户交互的输入，而外部中断（EXINT）可以响应外部引脚上的特定电平变化，这些都需要在程序中正确配置中断服务函数来处理。 **DAC**（CPU Timer）是处理器内部的定时器，常用于周期性任务、延迟操作或中断源。TMS320F2808有多路定时器，需要了解其工作模式、预分频器设置以及中断触发条件。 CCS（Code Composer Studio）是TI提供的集成开发环境，用于编写、调试和优化TMS320F2808的C/C++代码。CMD文件可能包含了工程配置、编译选项和链接脚本等信息，对于项目构建和调试非常关键。通过这些教程，学习者不仅可以掌握TMS320F2808的基本操作，还能深入了解如何配置寄存器、使用CCS进行软件开发以及如何利用DSP的硬件特性来提高系统性能。这些知识对于成为熟练的嵌入式系统开发者是必不可少的。

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DSP tms320f2808 程序 ADC SPI SCI DAC KEY EXINT DAC CPU_TIMER （770个子文件）

ADC 0B

ADC_MIRROR 0B

DSP280x_CodeStartBranch.asm 3KB

DSP280x_usDelay.asm 3KB

DSP280x_CSMPasswords.asm 2KB

DSP280x_DisInt.asm 2KB

DSP280x_DBGIER.asm 859B

FLASH.cmd.bak 9KB

spi.c.bak 1KB

AD.bak 1KB

KEY.bak 1KB

DSP280x_SWPrioritizedDefaultIsr.c 39KB

DSP280x_DefaultIsr.c 25KB

DSP280x_ECan.c 15KB

DSP280x_Spi.c 12KB

DSP280x_Spi.c 11KB

DSP280x_EPwm.c 11KB

DSP280x_Spi.c 11KB

DSP280x_GlobalVariableDefs.c 10KB

DSP280x_SWPrioritizedPieVect.c 9KB

DSP280x_SysCtrl.c 9KB

共 770 条

// TI File $Revision: /main/1 $ // Checkin $Date: December 1, 2004 17:04:36 $ //########################################################################### // // FILE: DSP280x_SWPrioritizedDefaultIsr.c // // TITLE: DSP280x Device Default Software Prioritized Interrupt Service Routines. // //########################################################################### // // $TI Release: DSP280x V1.30 $ // $Release Date: February 10, 2006 $ //########################################################################### #include "DSP280x_Device.h" // DSP280x Headerfile Include File #include "DSP280x_Examples.h" // DSP280x Examples Include File #include "DSP280x_SWPrioritizedIsrLevels.h" // Connected to INT13 of CPU (use MINT13 mask): // Note CPU-Timer1 is reserved for TI use, however XINT13 // ISR can be used by the user. #if (INT13PL != 0) interrupt void INT13_ISR(void) // INT13 or CPU-Timer1 { IER |= MINT13; // Set "global" priority EINT; // Insert ISR Code here // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } #endif // Connected to INT14 of CPU (use MINT14 mask): #if (INT14PL != 0) interrupt void INT14_ISR(void) // CPU-Timer2 { IER |= MINT14; // Set "global" priority EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } #endif // Connected to INT15 of CPU (use MINT15 mask): #if (INT15PL != 0) interrupt void DATALOG_ISR(void) // Datalogging interrupt { IER |= MINT15; // Set "global" priority EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } #endif // Connected to INT16 of CPU (use MINT16 mask): #if (INT16PL != 0) interrupt void RTOSINT_ISR(void) // RTOS interrupt { IER |= MINT16; // Set "global" priority EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } #endif // Connected to EMUINT of CPU (non-maskable): interrupt void EMUINT_ISR(void) // Emulation interrupt { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } // Connected to NMI of CPU (non-maskable): interrupt void NMI_ISR(void) // Non-maskable interrupt { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void ILLEGAL_ISR(void) // Illegal operation TRAP { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER1_ISR(void) // User Defined trap 1 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER2_ISR(void) // User Defined trap 2 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER3_ISR(void) // User Defined trap 3 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER4_ISR(void) // User Defined trap 4 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER5_ISR(void) // User Defined trap 5 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER6_ISR(void) // User Defined trap 6 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER7_ISR(void) // User Defined trap 7 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER8_ISR(void) // User Defined trap 8 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER9_ISR(void) // User Defined trap 9 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER10_ISR(void) // User Defined trap 10 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER11_ISR(void) // User Defined trap 11 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } interrupt void USER12_ISR(void) // User Defined trap 12 { EINT; // Insert ISR Code here....... // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } // ----------------------------------------------------------- // PIE Group 1 - MUXed into CPU INT1 // ----------------------------------------------------------- // Connected to PIEIER1_1 (use MINT1 and MG11 masks): #if (G11PL != 0) interrupt void SEQ1INT_ISR( void ) // ADC { // Set interrupt priority: volatile Uint16 TempPIEIER = PieCtrlRegs.PIEIER1.all; IER |= M_INT1; IER &= MINT1; // Set "global" priority PieCtrlRegs.PIEIER1.all &= MG11; // Set "group" priority PieCtrlRegs.PIEACK.all = 0xFFFF; // Enable PIE interrupts EINT; // Insert ISR Code here....... // Restore registers saved: DINT; PieCtrlRegs.PIEIER1.all = TempPIEIER; // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); } #endif // Connected to PIEIER1_2 (use MINT1 and MG12 masks): #if (G12PL != 0) interrupt void SEQ2INT_ISR( void ) // ADC { // Set interrupt priority: volatile Uint16 TempPIEIER = PieCtrlRegs.PIEIER1.all; IER |= M_INT1; IER &= MINT1; // Set "global" priority PieCtrlRegs.PIEIER1.all &= MG12; // Set "group" priority PieCtrlRegs.PIEACK.all = 0xFFFF; // Enable PIE interrupts EINT; // Insert ISR Code here....... // Restore registers saved: DINT; PieCtrlRegs.PIEIER1.all = TempPIEIER; // Next two lines for debug only to halt the processor here // Remove after inserting ISR Code asm (" ESTOP0"); for(;;); }

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