共查询到18条相似文献,搜索用时 46 毫秒
1.
2.
为适应一种稳压源满足多种情况下使用的需要,设计了一种新型多功能开关电源。分析了UC3842芯片工作原理及该电源的工作过程,设计中加入了转换电路,增大了输入电压的范围,采用光耦和三端可编程并联稳压二极管TL431实现了输入输出电气隔离和实时反馈控制占空比,输出各路相互隔离,并对输出电路进行了设置,使得输出电压可调且稳定。实验结果表明,该电源具有电压调整率和负载调整率高、体积小、质量小等优点。 相似文献
3.
4.
5.
万利达、新科、夏新、奇声、实达等集团公司生产的多种激光播放机,均采用以稳压调整控制的开关电源芯片UC3842系列为核心构成的开关电源组件。该系列机型开关电源组件采用新型控制芯片UC3842和场效应管组成他激式振荡,并与误差取样电路KA431(或TL431)、光电耦合器PC817(或HS817/PC2061)等器件构成PWM稳压控制方式的开关电源,具有适应市电范围宽、效率高、功耗低、 相似文献
6.
7.
UC3842是一款高性能宽频率电流型控制器,它广泛用于计算机设备及家用电器的电源电路中,其内部框图见图1,各脚电压见表1。[第一段] 相似文献
8.
9.
为了给交流传动窄轨电机车的辅助设备提供直流电源,针对实际的需要利用电流型脉宽调制器UC3842设计了直流斩波电源,介绍了电流型脉宽调制器UC3842的基本原理,同时也介绍了基于UC3842直流斩波电源设计原理及应用。 相似文献
10.
反激变换器具有高可靠性、效率高、电路拓扑简洁、输入输出电气隔离、升降范围宽、易于多路输出等优点,反激变换器是中小功率开关电源理想的电路拓扑.因此在小功率开关电源产品中得到了广泛的应用.基于电流型PWM集成控制器UC3842设计并制作出一款7路输出的单端反激电源.试验结果表明,所制作的开关电源具有稳压性能优良,纹波小等优点. 相似文献
11.
12.
电流型PWM整流器输出滤波器设计方法 总被引:1,自引:0,他引:1
动力蓄电池组对充、放电电流敏感,但是本身内阻极小且具有反电动势,普通整流器对电池组进行充电时都会出现充电电流纹波超标的现象。电流型PWM整流器虽然可以输出较为恒定的直流电流,但其容量受直流侧储能电感的限制。针对以上问题,本文从两个方面比较了低通滤波器中巴特沃斯和切比雪夫滤波器不同衰减特性,包括二者在相同衰减条件下阶数的设定,以及相同阶数、截止频率和阻带损耗前提下系统的滤波效果和响应速度,并以此为依据提出了电流型PWM整流器输出滤波器的参数设计方案。该方法通过算法选取适当的滤波器参数,大大减小了电流型PWM整流器直流侧滤波电感取值,因此可以减少电抗压降带来的损耗,提高系统效率。本文设计了电流型PWM整流器直流侧滤波器的参数,通过仿真和实验验证了该方法的正确性和可行性。 相似文献
13.
14.
15.
介绍了为直流电动机脉宽调速系统而研制的功率晶体管基极驱动装置,讨论了对功率晶体管基极驱动电路的要求,提出了具有自动保护和自动调节功能的驱动电路,分析了这种新型驱动装置的工作原理。 相似文献
16.
Toshihisa Shimizu Tsutomu Fujita Gunji Kimura Jun Hirose 《Electrical Engineering in Japan》1998,123(1):51-62
The generation of harmonics and their subsequent propagation into power lines is a topic of increasing concern to power-supply authorities. To prevent obstacles in the power system, a unity-power-factor PWM converter will be applied at ac-dc power conversion plants. However, the PWM converter, especially at single-phase circuit, has some serious defects, including low-frequency ripple current that flows into the dc line and gives rise to a low-frequency ripple voltage that appears on the dc output. In usual cases, it is necessary to connect a very large capacitor or a passive L-C resonant circuit to the dc line for reduction of low-frequency ripple voltage. However, when batteries are connected to the dc output, most of the dc ripple current flows into the battery even if the above circuits are used, because the impedance of the battery is very low compared to that of the circuits. The low-frequency ripple current causes power loss on the battery and the temperature rises. It is well known that the life of a battery is deeply influenced by the temperature. The ripple current, therefore, should be reduced as low as possible. To accomplish reduction of the low-frequency ripple current, a novel topology for the PWM rectifier is presented in this paper. The main circuit is constituted by adding only a pair of switching devices to the conventional PWM converter circuit. With a simple control technique, the ripple energy on the dc line is converted into stored energy on the input ac capacitors through additional switches. The theoretical characteristics are obtained by using the state-space averaging method. The effect of ripple reduction is confirmed by experiments using a breadboard setup. © 1998 Scripta Technica, Electr Eng Jpn, 123(1): 51–62, 1998 相似文献
17.