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5G communication anti-mismatch broadband low-noise amplifier

A low-noise amplification, wide-band low-noise technology, applied in amplifiers, improved amplifiers to expand bandwidth, improved amplifiers to improve efficiency, etc., can solve the problems of sensitive input and output impedance, deterioration of OIP3 performance, low self-resonant frequency, etc., to achieve Low noise amplification capability, improvement of gate-source mismatch phenomenon, and the effect of improving linearity index

Active Publication Date: 2020-09-18
CHENGDU GANIDE TECH
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AI Technical Summary

Problems solved by technology

[0005] (1) Low power consumption, high linearity, high gain, and low noise amplification indicators are mutually restricted: driven by the market, the standby power consumption of the RF front-end receiver needs to be reduced as much as possible to achieve energy-saving functions, but the traditional common source ( or common emitter) low-noise amplifier design, the best noise bias point to achieve the best noise, and the best bias point to meet the gain and linearity often cannot achieve the lowest power consumption of the amplifier, so the two indicators can not be very well compatible
[0006] (2) High linearity low noise amplifier can only maintain high linearity in 50 ohm system
[0008] (1) The current multiplexing structure requires the use of feed inductance and large capacitance to achieve static bias multiplexing of two common source (or common emitter) amplifiers. The self-resonant frequency of this large inductance and large capacitance feed structure is low , when realizing ultra-wideband amplification, it is possible that the self-resonant frequency point will fall into the amplification frequency band, thereby deteriorating the radio frequency characteristics; at the same time, large inductance and capacitance often occupy a large chip area, thereby increasing the cost of the chip
[0009] (2) Conventional high-linearity low-noise amplifiers are sensitive to input and output impedances. When the input and output impedances change, the performance of OIP3 (output third-order intercept point) will deteriorate

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Embodiment Construction

[0029]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.

[0030] An embodiment of the present invention provides a 5G communication anti-mismatch broadband low noise amplifier, such as figure 1 As shown, including input 45° phase shift network, first high linearity low noise amplifier network, second high linearity low noise amplifier network, output 45° phase shift network, first active bias network, second active A bias network, a first passive bias network, a second passive bias network, and an RC negative feedback network.

[0031] The input end of the input 45° phase shifting network is connected to the DC blocking capacitor C1 as the radio frequency input end of the low n...

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Abstract

The invention discloses a 5G communication anti-mismatch broadband low-noise amplifier. The 5G communication anti-mismatch broadband low-noise amplifier comprises two paths of high-linearity low-noiseamplification networks which are connected in parallel, an active bias network, a passive bias network, an RC negative feedback network, an input 45-degree phase shift network and an output 45-degreephase shift network. Two transistors with different sizes are adopted to form a series stacked structure to realize a low-noise amplification network, and an RC negative feedback network is combinedto realize ultra-wideband low noise, impedance matching and high linearity; meanwhile, a balanced synthesis structure is adopted to design an integral circuit; a phase shift network is added into theinput and the output. The load mismatch tolerance and the load change insensitivity of the amplifier are improved; the linearity index of the amplifier in a non-50 ohm system is improved, so that thewhole low-noise amplifier not only has good broadband, linearity, low power consumption and low noise amplification capacity in the non-50 ohm system, but also higher OIP3 performance is still kept inthe non-50 ohm system.

Description

technical field [0001] The invention belongs to the technical field of effect transistor radio-frequency low-noise amplifiers and integrated circuits, and in particular relates to the design of a 5G communication anti-mismatch broadband low-noise amplifier. Background technique [0002] With the rapid development of the 5G civil communication market, RF front-end receivers are also developing in the direction of high performance, high integration, and low power consumption. Therefore, the market urgently needs ultra-wideband, high-gain, high-linearity, low-noise RF and microwave low-noise amplifier chips. [0003] At the same time, with the continuous expansion of communication frequency bands, the number of bands (bands) used in communication systems continues to increase, and multiple high-performance filters need to be switched between each band. At this time, the input and output impedance of the amplifier in certain frequency bands is not 50 ohms. In this application s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03F1/02H03F1/26H03F1/34H03F1/42H03F1/56
CPCH03F1/0205H03F1/26H03F1/42H03F1/34H03F1/565H03F1/223H03F3/211
Inventor 童伟邬海峰王测天吕继平王亚文
Owner CHENGDU GANIDE TECH
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