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Continuous inverse F-type stacked power amplifier based on waveform control technology

A power amplifier and control technology technology, applied in amplifiers, amplifiers with semiconductor devices/discharge tubes, electrical components, etc., can solve the problem of low power output capability and power gain capability, mutual restriction of ultra-broadband high efficiency indicators, and broadband output. In order to improve the power capacity and power gain, simplify the peripheral gate power supply structure, and compensate for leakage

Pending Publication Date: 2018-11-02
CHENGDU GANIDE TECH
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Problems solved by technology

However, in the design of traditional high-efficiency power amplifiers, there have always been some design problems, mainly reflected in the mutual restriction of ultra-wideband and high-efficiency indicators: in order to ensure the high-efficiency operation of the amplifier, the transistor must work in the overdrive mode, similar to the switch state, but the bandwidth of the overdrive switching power amplifier has always been the technical bottleneck of the circuit implementation
[0003] There are many circuit structures of common high-efficiency power amplifiers, the most typical ones are traditional class AB, class C, switching type power amplifiers of class D, class E, and class F, etc. However, there are still some shortcomings in the broadband characteristics of these high-efficiency amplifiers. , which is mainly reflected in: the theoretical limit efficiency of the traditional class AB amplifier is 78.5%, which is relatively low, and it is often necessary to sacrifice the output insertion loss and efficiency to increase the bandwidth of the amplifier; the limit efficiency of the class C amplifier is 100%, but the power output capability is low. The broadband output capability and efficiency are low; switching type D, E, F power amplifiers, etc. need to rely on precise harmonic impedance control, or strict impedance matching conditions, these controls and conditions greatly limit the operating bandwidth of the amplifier
In addition, the existing high-efficiency FET power amplifiers are often implemented based on a single common-source transistor, which is limited by a single transistor, and the power output capability and power gain capability are relatively low

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  • Continuous inverse F-type stacked power amplifier based on waveform control technology
  • Continuous inverse F-type stacked power amplifier based on waveform control technology

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Embodiment Construction

[0019] Exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be understood that the implementations shown and described in the drawings are only exemplary, intended to explain the principle and spirit of the present invention, rather than limit the scope of the present invention.

[0020] An embodiment of the present invention provides a continuous inverse class F stack power amplifier based on waveform control technology, such as figure 1As shown, including input fundamental wave matching stabilization network, gate-source compensation type two-stack self-biased power amplifier network, continuous inverse class F output matching network, gate supply bias network and drain supply bias network; input fundamental wave matching The input end of the stabilization network is the input end of the entire continuous inverse class F stacked power amplifier, and its output end is connected with the input end...

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Abstract

The invention discloses a continuous inverse F-type stacked power amplifier based on waveform control technology, including an input fundamental wave matching stable network, a gate source compensation type two-stack self-biasing power amplification network, a continuous inverse F-type output matching network, a gate power supply bias network, and a drain power supply bias network. The invention uses a gate source compensation type two-stack self-biasing transistor structure and combines a continuous inverse F-type output matching network, so that the circuit has ultra-wideband high efficiency, high gain, and high power output capability.

Description

technical field [0001] The invention belongs to the technical field of field effect transistor radio frequency power amplifiers and integrated circuits, and in particular relates to the design of a continuous inverse class F stack power amplifier based on waveform control technology. Background technique [0002] With the development of modern military and civilian communication technologies, RF front-end transmitters are also developing in the direction of ultra-wideband, high efficiency, high gain, and high power output. Therefore, the market urgently needs ultra-wideband, high-efficiency, high-gain, and high-power power amplifiers. However, in the design of traditional high-efficiency power amplifiers, there have always been some design problems, mainly reflected in the mutual restriction of ultra-wideband and high-efficiency indicators: in order to ensure the high-efficiency operation of the amplifier, the transistor must work in the overdrive mode, similar to the switch...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03F3/217
CPCH03F3/2171H03F3/2176Y02D30/70
Inventor 胡柳林邬海峰滑育楠陈依军吕继平童伟王测天
Owner CHENGDU GANIDE TECH
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