Analysis and design of packaged and ESD protected BiCMOS RF front-end for a UHF receiver

Yongsheng Xu; Wei Jin; Yong Li; Shuzhen You; Chunqi Shi; Xiaojin Li; Zongsheng Lai

doi:10.1002/mmce.20176

Analysis and design of packaged and ESD protected BiCMOS RF front-end for a UHF receiver

Yongsheng Xu^*
, Wei Jin
, Yong Li
, Shuzhen You
, Chunqi Shi
, Xiaojin Li
, Zongsheng Lai

^*Corresponding author for this work

School of Communication and Electronic Engineering

East China Normal University

Research output: Contribution to journal › Article › peer-review

Abstract

The design of packaged and ESD protected RF front-end circuits for UHF receiver working at ISM band is presented. By extensively evaluating the effects of the package and ESD parasitics on the LNA input impedance, transconductance, and noise figure, some useful guidelines on the design of inductively degenerated common emitter LNA with package and ESD protection are provided. In addition, by taking advantage of both the bipolar and MOSFET devices, a BiFET mixer with low noise and high linearity is also described in this article. With the careful consideration of the tradeoffs among noise figure, linearity, power gain, and power consumption, the front-end is implemented in a generic low-cost 0.8-μm BiCMOS technology. The on-board measurement of the packaged RF front-end circuits demonstrates a 20.3-dB power gain, 2.6-dB DSB noise figure, and -9.5-dBm input referred third intercept point while consuming about 3.9-mA current.

Original language	English
Pages (from-to)	123-133
Number of pages	11
Journal	International Journal of RF and Microwave Computer-Aided Engineering
Volume	17
Issue number	2
DOIs	https://doi.org/10.1002/mmce.20176
State	Published - Mar 2007

Keywords

BiCMOS
Electrostatic discharge (ESD)
Low-noise amplifier (LNA)
Mixer
Packaging effects
RF front-end

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10.1002/mmce.20176

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title = "Analysis and design of packaged and ESD protected BiCMOS RF front-end for a UHF receiver",

abstract = "The design of packaged and ESD protected RF front-end circuits for UHF receiver working at ISM band is presented. By extensively evaluating the effects of the package and ESD parasitics on the LNA input impedance, transconductance, and noise figure, some useful guidelines on the design of inductively degenerated common emitter LNA with package and ESD protection are provided. In addition, by taking advantage of both the bipolar and MOSFET devices, a BiFET mixer with low noise and high linearity is also described in this article. With the careful consideration of the tradeoffs among noise figure, linearity, power gain, and power consumption, the front-end is implemented in a generic low-cost 0.8-μm BiCMOS technology. The on-board measurement of the packaged RF front-end circuits demonstrates a 20.3-dB power gain, 2.6-dB DSB noise figure, and -9.5-dBm input referred third intercept point while consuming about 3.9-mA current.",

keywords = "BiCMOS, Electrostatic discharge (ESD), Low-noise amplifier (LNA), Mixer, Packaging effects, RF front-end",

author = "Yongsheng Xu and Wei Jin and Yong Li and Shuzhen You and Chunqi Shi and Xiaojin Li and Zongsheng Lai",

year = "2007",

month = mar,

doi = "10.1002/mmce.20176",

language = "英语",

volume = "17",

pages = "123--133",

journal = "International Journal of RF and Microwave Computer-Aided Engineering",

issn = "1096-4290",

publisher = "John Wiley and Sons Inc",

number = "2",

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T1 - Analysis and design of packaged and ESD protected BiCMOS RF front-end for a UHF receiver

AU - Xu, Yongsheng

AU - Jin, Wei

AU - Li, Yong

AU - You, Shuzhen

AU - Shi, Chunqi

AU - Li, Xiaojin

AU - Lai, Zongsheng

PY - 2007/3

Y1 - 2007/3

N2 - The design of packaged and ESD protected RF front-end circuits for UHF receiver working at ISM band is presented. By extensively evaluating the effects of the package and ESD parasitics on the LNA input impedance, transconductance, and noise figure, some useful guidelines on the design of inductively degenerated common emitter LNA with package and ESD protection are provided. In addition, by taking advantage of both the bipolar and MOSFET devices, a BiFET mixer with low noise and high linearity is also described in this article. With the careful consideration of the tradeoffs among noise figure, linearity, power gain, and power consumption, the front-end is implemented in a generic low-cost 0.8-μm BiCMOS technology. The on-board measurement of the packaged RF front-end circuits demonstrates a 20.3-dB power gain, 2.6-dB DSB noise figure, and -9.5-dBm input referred third intercept point while consuming about 3.9-mA current.

AB - The design of packaged and ESD protected RF front-end circuits for UHF receiver working at ISM band is presented. By extensively evaluating the effects of the package and ESD parasitics on the LNA input impedance, transconductance, and noise figure, some useful guidelines on the design of inductively degenerated common emitter LNA with package and ESD protection are provided. In addition, by taking advantage of both the bipolar and MOSFET devices, a BiFET mixer with low noise and high linearity is also described in this article. With the careful consideration of the tradeoffs among noise figure, linearity, power gain, and power consumption, the front-end is implemented in a generic low-cost 0.8-μm BiCMOS technology. The on-board measurement of the packaged RF front-end circuits demonstrates a 20.3-dB power gain, 2.6-dB DSB noise figure, and -9.5-dBm input referred third intercept point while consuming about 3.9-mA current.

KW - BiCMOS

KW - Electrostatic discharge (ESD)

KW - Low-noise amplifier (LNA)

KW - Mixer

KW - Packaging effects

KW - RF front-end

UR - https://www.scopus.com/pages/publications/34247190216

U2 - 10.1002/mmce.20176

DO - 10.1002/mmce.20176

M3 - 文章

AN - SCOPUS:34247190216

SN - 1096-4290

VL - 17

SP - 123

EP - 133

JO - International Journal of RF and Microwave Computer-Aided Engineering

JF - International Journal of RF and Microwave Computer-Aided Engineering

IS - 2

ER -

Analysis and design of packaged and ESD protected BiCMOS RF front-end for a UHF receiver

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Keywords

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