A 400-mV 2.4-GHz frequency-shift keying transmitter using a capacitor switch across a transformer for a wide tuning range voltage-controlled oscillator

Yasunori Miyahara; Keisuke Ishikawa; Tadahiro Kuroda

doi:10.7567/JJAP.56.04CF04

A 400-mV 2.4-GHz frequency-shift keying transmitter using a capacitor switch across a transformer for a wide tuning range voltage-controlled oscillator

Yasunori Miyahara, Keisuke Ishikawa, Tadahiro Kuroda

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

1 Citation (Scopus)

Abstract

We use a simple directly modulated closed loop to develop a 2.1-mW, 2.4-GHz frequency-shift keying (FSK) transmitter that operates on 400-mV DC supply. Connecting a capacitor bank switch via a transformer in the voltage control oscillator (VCO) to the frequency-divider circuit expands the frequency tuning range without reducing VCO performance. A prototype was fabricated using the 65-nm standard CMOS process with a chip size of 1.65 × 1.85mm2. A modulation output signal spectrum of %42 dBc at 1.5MHz with %6dBm at the PA buffer output terminal; moreover, a VCO phase noise of %101 dBc/Hz at 1MHz is achieved. The FSK transmitter can readily use voltages supplied by harvested energy because of the low power consumption of the sensor network.

Original language	English
Article number	04CF04
Journal	Japanese journal of applied physics
Volume	56
Issue number	4
DOIs	https://doi.org/10.7567/JJAP.56.04CF04
Publication status	Published - 2017 Apr
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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10.7567/JJAP.56.04CF04

Cite this

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title = "A 400-mV 2.4-GHz frequency-shift keying transmitter using a capacitor switch across a transformer for a wide tuning range voltage-controlled oscillator",

abstract = "We use a simple directly modulated closed loop to develop a 2.1-mW, 2.4-GHz frequency-shift keying (FSK) transmitter that operates on 400-mV DC supply. Connecting a capacitor bank switch via a transformer in the voltage control oscillator (VCO) to the frequency-divider circuit expands the frequency tuning range without reducing VCO performance. A prototype was fabricated using the 65-nm standard CMOS process with a chip size of 1.65 × 1.85mm2. A modulation output signal spectrum of %42 dBc at 1.5MHz with %6dBm at the PA buffer output terminal; moreover, a VCO phase noise of %101 dBc/Hz at 1MHz is achieved. The FSK transmitter can readily use voltages supplied by harvested energy because of the low power consumption of the sensor network.",

author = "Yasunori Miyahara and Keisuke Ishikawa and Tadahiro Kuroda",

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PY - 2017/4

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AB - We use a simple directly modulated closed loop to develop a 2.1-mW, 2.4-GHz frequency-shift keying (FSK) transmitter that operates on 400-mV DC supply. Connecting a capacitor bank switch via a transformer in the voltage control oscillator (VCO) to the frequency-divider circuit expands the frequency tuning range without reducing VCO performance. A prototype was fabricated using the 65-nm standard CMOS process with a chip size of 1.65 × 1.85mm2. A modulation output signal spectrum of %42 dBc at 1.5MHz with %6dBm at the PA buffer output terminal; moreover, a VCO phase noise of %101 dBc/Hz at 1MHz is achieved. The FSK transmitter can readily use voltages supplied by harvested energy because of the low power consumption of the sensor network.

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A 400-mV 2.4-GHz frequency-shift keying transmitter using a capacitor switch across a transformer for a wide tuning range voltage-controlled oscillator

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