搜索资源列表
32kPWM
- 用于凌阳单片机SPCE061A上的波形产生算法,生成32KPWM波,可以用于载波输出。 用于凌阳单片机SPCE061A上的波形产生算法,生成32KPWM波,可以用于载波输出。-SCM SPCE061A Sunplus for the waveform generation algorithms, generating 32KPWM wave, the output can be used for carrier. For Sunplus SCM SPCE061A the waveform g
02
- 使用LPC2138开发的arm平台脉搏波形测量系统。包括AD7689芯片的驱动。开发环境ADS1.2-Pulse wave measurement system using the LPC2138 . Including the AD7689 chip driver, with the IDE of ADS1.2
Wave-Generator
- 基于ARM Cortex M0的信号发生器的实现,在超频情况下可输出更优质的波形,芯片类型NXP LPC1114-Based on the of RAM Cortex M0 signal generator output waveform in the overclocking situation, the types of chips NXP the LPC1114
Waveform-generator
- 波形发生器 能都生成波形 生成方波 梯形波-Waveform generator to generate the waveform generated square-wave trapezoidal wave
dispwave
- 本例程讲述如何通过STM32将AD采集的电压以波形形式在LCD上右移显示。-This example shows how to use STM32 MCU to display the voltage wave from AD and move to right.
SSD1623_0.11
- SSD1623_0.11 寄存器功能表,仿真波形-SSD1623_0.11 register,wave form
wave-generetor
- 采用信号发生芯片,与单片机结合,能够产生常用的信号波形,此信号发生器能够满足实验要求,为昂贵信号发生器低成本代替品,包含实际仿真电路与程序文件-Signal chip microcontroller, able to generate the signal waveform signal generator can meet the test requirements, low-cost alternative to expensive signal generator contains the
zhengxianbo
- 学习单片机超级简单,Arduino 学习例子 产生P正弦波波形-Learning microcontroller super simple, Arduino P sine wave generated learning examples
ad9850
- AD9850内含可编程DDS系统和高速比较器,能实现全数字编程控制的频率合成,信号发生器具有输出频率范围宽,可以输出正弦和方波两种波形,51代码-AD9850 DDS system and includes a programmable high-speed comparator, to achieve all-digital programming control of the frequency synthesizer, the signal generator has an output
5_PWMled
- TMS320F2812输出PWM波形。波形通过gpiof口输出,经过发光二极管,使得发光二极管能够以正弦波形输出。-TMS320F2812 PWM output waveform. Waveform output port through gpiof through the light emitting diodes, light emitting diodes can be such that the output sine wave.
test
- stm32输出互补的带有死区的pwm波形(STM32 output complementary PWM wave with dead zone)
TM1产生SPWMTIM2同步信号
- 输出正弦和方波交替的波形,信号通过外部中断同步(Output sine and square wave alternated waveform, signal through external interrupt synchronization)