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基于AT89S51单片机的PWM专用信号发生器的设计
- 基于AT89S51单片机的PWM专用信号发生器的设计
STC12C5A60S2.pdf
- STC12C5A60S2/AD/PWM系列单片机是宏晶科技生产的单时钟/机器周期(1T)的单片机,是高速/低功耗/超强抗干扰的新一代8051单片机,指令代码完全兼容传统8051,但速度快8-12倍。内部集成MAX810专用复位电路,2路PWM,8路高速10位A/D转换(250K/S),针对电机控制,强干扰场合。 1.增强型8051 CPU,1T,单时钟/机器周期,指令代码完全兼容传统8051; 2.工作电压:STC12C5A60S2系列工作电压:5.5V-3.3V(5V单片机)STC12LE5A
deadtime
- ,通过对87C196MC单 片机及波形发生器(WFG)的深入研究分析,提出 了一种通过调整死区时间生成DC/DC变换器 PWM控制脉冲的新方法。该-Through 87C196MC SCM and Waveform Generator (WFG) in-depth analysis, a dead time generated by adjusting the DC/DC converter PWM control pulse of the new method. That
pwm
- 整个系统以CPLD为核心逻辑控制器件,配以外围测试及试验电路:显示、时钟信号产生电路、蜂鸣器电路和ByteBlaster的数据变换电路,构成正负脉宽数控调制信号发生器。基于CPLD逻辑控制器件构成的正负脉宽数控调制信号发生器是一个单片系统,整个PWM信号控制所需的各种功能都可由CPLD来实现。-The entire system to the core logic control CPLD devices, together with the external test and the test
PWM
- 基于FPGA的高精度PWM发生器的设计与实现-High Precision PWM generator based on FPGA Design and Implementation
PWM
- PWM波形发生器的设计,脉冲宽度调制是现代控制技术常用的一种控制信息输出,可以有效地利用数字技术控制模拟信号的技术-Pulse width modulation of modern control technology is one of the most common control information output, can effectively use digital technology control simulation signal of the technology
pwm
- pwm波形发生器,这里是pwm波形发生器的顶层文件-pwm waveform generator, here is the top-level file pwm waveform generator
FPGA-based-PWM-generator--Design
- 基于FPGA的PWM发生器所对应的论文,详细阐述整个设计的思路和过程-FPGA-based PWM generator corresponding to the paper, the whole elaborate design ideas and processes
DC_pwm
- 任意波形源的pwm信号生成电路控制桥式结构 其中上面是双极式调制pwm考虑了上下桥臂不能同时开通(加了延迟);下面是受限单极式调制pwm信号发生器-Pwm arbitrary waveform signal generating circuit bridge structure wherein the control source is a bipolar modulator pwm at the upper and lower arms can be considered simultaneo
PWM
- 直流电源通过PWM发生器经由单相逆变器输出交流,示波器测量输出电压电流波形-DC power supply by single phase inverter AC output through the PWM generator, output voltage and current waveform by scope
SVG
- H桥串联型静止无功发生器(SVG)研究的论文,对设计静止无功发生器有很好的参考价值-With the fast develoPing technology of green energy,an ever一enhaneed atrention has been focused to the PWM reetifier in the field of powerelectronics. PWM reetifier might become an ideal