This method is able to make the analysis and calculation of the transistor amplifier circuit tend to be simplified.
使用这种方法,可以使晶体管放大电路的分析和计算趋于简单化。
This paper presents a new circuit model for designing a microwave transistor amplifier, and gives a general optimum programing.
提出了一种新的设计微波晶体管放大器的电路模型,给出了通用优化设计程序。
The circuit is constructed by a operational amplifier and bipolar transistor current mirrors with multiple outputs.
该电路由一集成运算放大器及多端输出的双极晶体管电流镜构成。
It is pointed out that there are some questions determining configuration of single transistor amplifier, the general method and common circuit are given.
指出确定晶体管单管放大电路组态时存在的问题并进行了讨论,给出确定的一般方法及单管放大电路的通用电路。
RF PA almost working in large signal, so it's circuit design methods and transistor used are different from microwave small signal amplifier, these will led to RF PA design become more difficulty.
射频功率放大器总是工作在大信号状态下,它所用的放大器件和电路设计方法都不同于小信号放大器,导致了功率放大器的设计难度较大。
A fast access time is achieved by using six-transistor CMOS memory cell, latched sense amplifier, and high-speed decoder circuit.
存储器采用六管CMOS存储单元、锁存器型敏感放大器和高速译码电路,以期达到最快的存取时间。
A fast access time is achieved by using six-transistor CMOS memory cell, latched sense amplifier, and high-speed decoder circuit.
存储器采用六管CMOS存储单元、锁存器型敏感放大器和高速译码电路,以期达到最快的存取时间。
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