1·This paper analyze the parameter frequency multiplier consist of variode in detail.
介绍变容二极管的电特性和温度特性。
2·This frequency multiplier may be used satisfactorily as the output-stage some velocity radar.
这种倍频器可以满意地用作为某型测速雷达的输出级。
3·Microwave dielectric resonators apply to SRD high-time frequency multiplier. This is a new try.
将微波介质谐振器应用于阶跃管高次倍频器中,这是一种新的尝试。
4·Simulation results show the PLL clock frequency multiplier has lower phase noise and shorter capture time.
结果表明,PLL倍频器具有较低的噪声和较高的捕获速度。
5·In this paper the realization approach of X-band four-frequency multiplier microstrip structure is discussed mainly.
本文主要讨论x波段四倍频器微带结构的实现途径。
6·The problem of synchronization of the whole system is solved through sync signal generator circuit applying phased-locked frequency multiplier;
并利用锁相环设计了同步信号发生器电路,解决了系统同步问题;
7·This paper discusses the fundamental principle on designing microwave frequency multiplier, and the method of designing a kind of S-band microwave frequency multiplier.
论述微波倍频器的基本设计原理及一种S波段三倍频电路的设计方法。
8·The chapter 4 discuss some question of the circuit using programmable device like digital phase locked loop and digital frequency multiplier, it can increase the way of circuit design.
第四章探讨了运用可编程技术设计数字锁相环和数字倍频器的相关问题,为以后电路设计拓展更多的方法。
9·This article analyses the applications and procedures in frequency transformation of multiplier from principle.
该文从原理上分析了相乘器在频率变换中的应用及过程。
10·Multiplier is the circuit which is conformed of nonlinear elements and can make two signal multiplied so that it can implement frequency transformation.
相乘器是由非线性元件组成,可以实现两个信号的相乘,完成频率变换的电路。