The power amplifier contains dynamic control bias circuits and a fully integrated power detector.
该功率放大器同时包括动态控制偏置电路和完全集成的功率检测器。
This paper describes a design method of microstrip elements with wide-band short-circuits, and their applications in the bias circuits.
本文介绍了一种扇形微带宽频带的短路元件的设计方法及其在偏置电路中的应用。
Many papers have focused on the research of these adaptive bias circuits, but none has reported on the comparison and analysis of these bias circuits.
许多文献都对这种自适应偏置技术进行了研究,然而,对于多种自适应线性化偏置电路比较和分析的文章尚未见报道。
Finally, bias circuits are designed for the S-band radar receiver LTCC module, the layout and simulated validation are carried out with the LTCC technics requirement.
最后针对S波段接收机前端设计了偏置电路,并按LTCC工艺要求对该接收机前端进行了布局布线和最后的仿真验证。
Reference sources are widely used in analog and mix-mode circuits, such as A/D, D/A converters, voltage regulators, measurements, instrumentation circuits, and bias circuits.
基准源模块广泛的应用于模拟和混合电路中,如A/D、D/A转换器,电压调谐器,电压表,电流表等测试仪器以及偏置电路。
Thirdly, according to the design techniques mentioned above, three kinds of Low-Power rectifier, demodulator and other circuits, such as bias circuits, POR generator, etc. are put forward.
在上述理论分析的基础上,分别设计了三种不同结构的低功耗电源恢复电路和解调电路以及参考电压源电路等电路模块。
Although input bias current is a common source of this type of error, currents generated by external circuits can also result in errors due to voltage drops across the source resistance.
虽然输入偏置电流是这种误差的常见来源,但是外电路产生的电流在源电阻上形成的电压降也能引起误差。
Ideally suited for bypassing and coupling application circuits operating with low DC bias in the environment approaching to room temperature.
适用于要求大容量,使用温度范围接近于室温的旁路、耦合等,及低直流偏压电路中。
Based on the driving circuit of IR2110, the circuits for producing negative bias voltage and increasing driving power are introduced.
在IR 2110驱动电路的基础上,介绍了产生负偏压和提高驱动功率的电路,并且针对电路中存在占空比的问题,设计了占空比调节电路。
Based on the driving circuit of IR2110, the circuits for producing negative bias voltage and increasing driving power are introduced.
在IR 2110驱动电路的基础上,介绍了产生负偏压和提高驱动功率的电路,并且针对电路中存在占空比的问题,设计了占空比调节电路。
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