提出了一种不同阈值电压反相器控制的传输门组合结构。
A combinational structure of the transmission gate in the inverter control with different threshold voltages is presented.
作为另一个示例,当提供给反相器501- 506的电源电压增加时,VIN边缘通过反相器501 - 506的时间减小。
As another example, when the power supply voltage provided to inverters 501-506 increases, the time it takes for edges in VIN to pass through inverters 501-506 decreases.
如此,在容限电压法当中,直流电压和和有功功率分别被整流器和反相器所控制。
Thus, in the voltage margin method, the dc voltage and the active power are separately controlled by the rectifier and the inverter, respectively.
从而使TTL反相器和CMOS反相器的电压传输特性曲线能够在示波器荧光屏上形象而又直观地显示出来。
Therefore, the curve of voltage transmission characteristics of both TTL inverter and CMOSinverter can be displayed on the screen of an oscilloscope intuitively.
从而使TTL反相器和CMOS反相器的电压传输特性曲线能够在示波器荧光屏上形象而又直观地显示出来。
Therefore, the curve of voltage transmission characteristics of both TTL inverter and CMOSinverter can be displayed on the screen of an oscilloscope intuitively.
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