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msp430F135wendu
- msp430F135内部温度传感器,并在数码管上显示,时钟ACLK= n/a, MCLK= SMCLK= default DCO ~ 800k-msp430F135 internal temperature sensor and digital control display, clock ACLK = n/a, MCLK = SMCLK = default DCO ~ 800k
fet430_adc12_01
- A single sample is made on A0 with reference to AVcc. Software sets ADC12SC to start sample and conversion - ADC12SC automatically cleared at EOC. ADC12 internal oscillator times sample (16x) and conversion. In Mainloop MSP430 waits in LPM0 to save p
DComm
- VC下Win32 API 串口编程核心代码,这段代码来自作者实际应用系统,是用Win32 API实现串口编程的核心代码部分。-VC serial programming under the Win32 API the core code, the code of the application from the system is programmed with the Win32 API to achieve the core of serial sections of code.
dco-class.c.tar
- This the mpi source code for the document classification program-This is the mpi source code for the document classification program
MSP430F149
- The Texas Instruments MSP430 family of ultralow-power microcontrollers consist of several devices featuring different sets of peripherals targeted for various applications. The architecture, combined with five low power modes is optimized to achi
msp430g2xx1
- Timer_A, LED Toggle P1.0, CCR0 Cont. Mode ISR, DCO SMCLK with all MSP430 Value Line. It learn how use Timer and Interrupts with base clock DCO SMCLK.
TA_13
- MSP-FET430P140演示程序。Timer_A PWM TA1-2,模式,SMCLK DCO / / / /描述:这个程序会产生两种PWM输出开P1.2,3使用 / / Timer_A配置的模式。在CCR0价值,512-1,定义了PWM(脉宽调制) / /时间和价值观在CCR1 CCR2 PWM技术和责任周期。利用~ 800千赫 / / SMCLK作为TACLK,定时器周期~ 640我们一个75 的关税P1.2周期, / 25 ,P1.3-MSP-FET430P140
code
- PLL中的TDC和DCO代码,是TI公司团队的,相当经典的代码,非常不错-the code of TDC and DCO
MSP430FR57xx_ta0_01
- Module: TimerA0 MSP430FR57xx_ta0_01.c Timer0_A3, Toggle P1.0, CCR0 Cont Mode ISR, DCO SMCLK-Module: TimerA0 MSP430FR57xx_ta0_01.c Timer0_A3, Toggle P1.0, CCR0 Cont Mode ISR, DCO SMCLK
MSP430FR57xx_uscia0_spi_10
- Descr iption: SPI slave talks to SPI master using 3-wire mode. Data received from master is echoed back. ACLK = 32.768kHz, MCLK = SMCLK = DCO ~ 1MHz Note: Ensure slave is powered up before master to prevent delays due to slave init.-Descr i
MSP430FR57xx_01
- MSP430FR57x Demo - Toggle P1.0 using software Descr iption: Toggle P1.0 using software. ACLK = n/a, MCLK = SMCLK = TACLK = default DCO = ~625 KHz-MSP430FR57x Demo- Toggle P1.0 using software Descr iption: Toggle P1.0 using software. ACL
fet110_ta_uart9600_05
- 利用MSP430单片机生成PWM波,并从P2.6脚输出-MSP-FET430x110 Demo- Comp_A Output Comparator_A reference voltages on P2.Descr iption Output comparator_A reference levels on P2.3. Program will cycle through the on-chip comparator_A reference voltages with output on
fet410_lcd_03
- msp430f425的LCD驱动程序,4-mux模式-MSP-FET430P410 Demo- LCD, Display Numbers on a 4-Mux LCD // // Descr iption: This program displays digits stored in the variable "value" // on a 4-mux LCD, then waits in low power mode 3. To use the program run it
fet140_ta_03
- Descr iption: Toggle P1.0 using software and Timer_A overflow ISR. // In this example an ISR triggers when TA overflows. Inside the TA // overflow ISR P1.0 is toggled. Toggle rate is approximatlely 12Hz. // Proper use of the TAIV interrupt vect
msp430f2619
- 总共包括15种实验源代码,DMA实验 DCO操作实验 硬件乘法器实验 WDT操作实验 16定时器操作实验 I2C通讯操作实验 红外通讯IrDA操作实验 低功耗实验 FLASH实验 UART操作实验等等,是学习MSP430单片机的好例程-A total of 15 kinds of experimental source code DCO operation, the DMA experiment experimental hardware multiplier experimental WDT
3
- This program demonstrates using an external high speed crystal // or resonator to supply ACLK and MCLK for the CPU. SMLCK is supplied by the // internal DCO. The high speed crystal or resonator connects between pins // Xin and Xout. The DCO cl
4
- This program demonstrates using an external 32kHz crystal to // supply ACLK, and using a high speed crystal or resonator to supply SMCLK. // MLCK for the CPU is supplied by the internal DCO. The 32kHz crystal // connects between pins Xin and Xo
main_bitloop
- 位同步程序,本程序通过早迟门的结果,通过相位误差鉴别器和环路滤波器和DCO,来达到位同步。-Bit synchronization program, this program, the results of the early-late gate phase error discriminator and loop filter and DCO to achieve bit synchronization.
frequency_timerA
- 基于timerA,采用计数法完成数字信号频率测量,使用片内时钟DCO时钟频率为默认值,获得金近似1s的时间闸门,即调整delay循环次数实现-Based on timerA, USES the count method is used to complete the digital signal frequency measurements, use the clock DCO within the clock frequency for default, obtain approximate
msp430x20x3_dco_calib
- MSP430F20xx Output Buffered clocks with preloaded DCO calibration constants for BCSCTL1 and DCOCTL-MSP430F20xx DCO calibration