1) bootstrap mode scanning circuit
自举扫描电路
2) bootstrap sweep circuit
自举式扫描电路
3) scanning circuit
扫描电路
1.
The cluster of non-linearity coefficient ε curves of scanning circuit;
扫描电路的非线性系数ε曲线簇
2.
This paper discussed the relationship among the relative amplitude error of scanning circuit and the power utilization factor,the jumping change and leaping change time,and the relative time error;and also pointed out the relative amplitude error of scanning circuit is a factor(-1 to 1),which has its limit value in practice,and is smaller than the relative time error.
论述了扫描电路的相对幅差与电源利用系数、跳变或跃变时间和相对时差等的关系,并说明相对幅差是一个比相对时差还小的、在-1到1之间变化的系数,而且实际应用中有它的极限值。
4) sweep circuit
扫描电路
1.
And the use of its sweep circuit is expounded.
引入了时差概念 ,分析了一种数控精密压控振荡器的性能及时间误差 ,并阐明了其扫描电路的用途 。
5) Scan circuit
扫描电路
1.
In view of the dissatisfactory linearity of the output voltage of the integrating long cycle scan circuit of the ordinary operational amplifier based on the charge and discharge of capacitor, a design of digital scan circuit based on counter and D/A translator is given.
本文鉴于常用的基于电容充放电的运算放大器积分式长周期扫描电路输出电压线性差 ,设计了基于计数器和D/A转换的数字式线性功率扫描电
6) bootstrap circuit
自举电路
1.
This paper introduces the application of Mitsubishi Intelligent Power Module PS22056 in the UPQC main circuit,expatiates upon the selecting method for PS22056 peripheral parts,the calculating methods of main parameters,Experiments are made and the results show that the circuit can stay stable at 10 kHz,bootstrap circuit can stabilize driving voltage at about 14.
介绍了三菱1200V DIP-IPM模块PS22056的在UPQC主电路中的应用,阐述了PS22056外围器件的选择方法、主要参数的计算方法,并进行试验,试验结果证明电路可以稳定工作在10 kHz的频率,自举电路可以很好地将驱动电压稳定在14。
2.
Problems were analyzed on the standby power loss of traditional bootstrap circuit in the isolation power source design.
分析了在隔离型电源设计中传统自举电路待机功耗存在的问题,介绍了一种可降低待机功率的自举电路,并给出了详细的实验电路和参数及实验结果。
3.
The bootstrap process of intelligent power module (IPM) bootstrap circuit was analyzed.
对智能功率模块(IPM)自举电路的自举过程进行了分析。
补充资料:扫描电子显微镜(见扫描电子显微术)
扫描电子显微镜(见扫描电子显微术)
scanning eleetron mieroseoPe
扫描电子显微镜scanning eleetron mieroseope见扫描电子显微术。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条