提出采用斩波式电流型开关电源结合单片式步进电机驱动器TA8435H,构成一种电机驱动电路的方案。
A method of stepping motor driver circuit was given, composed by a chopper type current mode switch regulator and a monolithic stepping motor driver TA8435H.
以开关信号理论为指导,对电流型CMOS电路中如何实现阈值控制进行了研究。
Guided by the switch signal-theory, how to realize the threshold controlling in current-mode CMOS circuits is studied.
提出了基于载波组合相移技术的电流型电力有源滤波器,在较低的开关频率下实现了等效的高频载波效果。
With this technique, the effect of equivalent high switching frequency converter has been obtained with low switching frequency converter.
本文就其优点作了叙述;对开关电源电流型控制集成器件作了简介;并给出试验电路。
This paper describes its advantages, introduces the current - mode control integrated device for switching power supply, and gives a experimental circuit.
第四章围绕着电流型反激式开关电源的设计和实现进行了研究。
The fourth chapter carries out the research on the design and realization of the current-mode flyback switching supply.
设计了一种以电流型PWM控制器UC3842芯片为核心的高频单端反激式开关稳压电源。
A high frequency single-ended flyback switching power supply is designed with current-mode PWM controller UC3842 chip as its core.
系统分析了高速电流型CMOS数模转换器中电流开关对输出毛刺的影响 ,给出了减小输出毛刺的方法 。
The influence of current switches on output glitch of high-speed current-steering CMOS D/A converter is thoroughly analyzed.
提出了一种新型的双重单端正激式弧焊逆变电源,采用IGBT为开关器件,引入了电流型脉宽调制控制器。
A new double single-ended forward arc welding power inverter with IGBT as power device and current PWM controller is introduced in this paper.
本文介绍了开关电源的电流型PWM控制技术的原理及特点,并和传统的电压型控制作了比较。
This paper presents the principle and virtues of a current-mode-control pulse width modulation(PWM), and makes a comparison with traditional voltage-mode-control.
这种结构的双向变换拓扑解决了电流型一电压型组合式拓扑的开关管电压尖峰问题和启动问题。
The proposed bi-directional converter has no high voltage spike problem and start-up problem, which are inherent in current-fed and voltage-fed hybrid type bi-directional converters.
应用该理论设计的三值全加器等电路具有简单的电路结构和正确的逻辑功能,从而证明了该理论在指导电流型CMOS电路在开关级逻辑设计中的有效性。
The circuits such as ternary full-adder, etc. designed by using this theory can have simpler circuit structures and correct logic functions. It is confirmed that this theory is efficient in...
应用该理论设计的三值全加器等电路具有简单的电路结构和正确的逻辑功能,从而证明了该理论在指导电流型CMOS电路在开关级逻辑设计中的有效性。
The circuits such as ternary full-adder, etc. designed by using this theory can have simpler circuit structures and correct logic functions. It is confirmed that this theory is efficient in...
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