Design of a 0.6-V, 429-MHz FSK Transceiver Using Q-Enhanced and Direct Power Transfer Techniques in 90-nm CMOS

A 429-MHz ultra low-power frequency-shift keying (FSK) transceiver (TRX) that is operated at 0.6 V at 200 kb/s is presented in this work. The receiver (RX) used in this work uses a proposed frequency-to-time-based technique that demodulates the output data by discriminating the corresponding date pe...

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Veröffentlicht in:IEEE journal of solid-state circuits 2020-11, Vol.55 (11), p.3024-3035
Hauptverfasser: Chiu, Chun-Yuan, Zhang, Zhen-Cheng, Lin, Tsung-Hsien
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container_issue 11
container_start_page 3024
container_title IEEE journal of solid-state circuits
container_volume 55
creator Chiu, Chun-Yuan
Zhang, Zhen-Cheng
Lin, Tsung-Hsien
description A 429-MHz ultra low-power frequency-shift keying (FSK) transceiver (TRX) that is operated at 0.6 V at 200 kb/s is presented in this work. The receiver (RX) used in this work uses a proposed frequency-to-time-based technique that demodulates the output data by discriminating the corresponding date period. The proposed RX provides a sensitivity of −85 dBm at a bit error rate of 0.1% and consumes a power of 146 \mu \text{W} . The 429-MHz FSK transmitter (TX) is also reported in this study. For eliminating circuits that consume high power, in particular power amplifier and phase-locked loop, the proposed TX adopts an oscillator that drives the antenna through an impedance matching network for power conversion. The TX consumes 390 \mu \text{W} , supplies an output power of −8.2 dBm, and achieves a global efficiency of 38.7%. The TRX was fabricated in the TSMC 90-nm CMOS process.
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The receiver (RX) used in this work uses a proposed frequency-to-time-based technique that demodulates the output data by discriminating the corresponding date period. The proposed RX provides a sensitivity of −85 dBm at a bit error rate of 0.1% and consumes a power of 146 <inline-formula> <tex-math notation="LaTeX">\mu \text{W} </tex-math></inline-formula>. The 429-MHz FSK transmitter (TX) is also reported in this study. For eliminating circuits that consume high power, in particular power amplifier and phase-locked loop, the proposed TX adopts an oscillator that drives the antenna through an impedance matching network for power conversion. The TX consumes 390 <inline-formula> <tex-math notation="LaTeX">\mu \text{W} </tex-math></inline-formula>, supplies an output power of −8.2 dBm, and achieves a global efficiency of 38.7%. The TRX was fabricated in the TSMC 90-nm CMOS process.]]></abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/JSSC.2020.3010374</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-1733-5945</orcidid><orcidid>https://orcid.org/0000-0003-3306-4468</orcidid></addata></record>
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source IEEE Electronic Library (IEL)
subjects Bit error rate
CMOS
Demodulator
direct power transfer (DPT)
Energy conversion efficiency
Frequency shift keying
frequency-shift keying (FSK) modulation
Gm-boosted technique
Impedance
Impedance matching
Keying
Oscillators
Phase locked loops
Power amplifiers
Power consumption
Power demand
Power transfer
Q-enhanced technique
receiver (RX)
transceiver (TRX)
Transceivers
transmitter (TX)
title Design of a 0.6-V, 429-MHz FSK Transceiver Using Q-Enhanced and Direct Power Transfer Techniques in 90-nm CMOS
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