A DC-100 GHz Active Frequency Doubler With a Low-Voltage Multiplier Core

A DC-100 GHz Active Frequency Doubler With a Low-Voltage Multiplier Core

Cross-coupled differential pairs implement an even-order active frequency multiplier in 90 nm SiGe-BiCMOS. The multiplier core uses asymmetric biasing to realize an even-order transfer function. Wideband (WB) and narrowband doublers built around the active core are proposed, and their relative perfo...

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Veröffentlicht in:IEEE journal of solid-state circuits 2015-09, Vol.50 (9), p.1963-1973
Hauptverfasser: Vera, Leonardo, Long, John R.
Format: Artikel
Sprache:eng
Schlagworte:
Active multiplier
asymmetrically biased cross-coupled differential pairs
Frequency response
Gain
Harmonic analysis
millimeter-wave
Narrowband
narrowband doubler
SiGe-BiCMOS
SiGe-HBT
Transistors
Wideband
wideband frequency doubler
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Zusammenfassung:Cross-coupled differential pairs implement an even-order active frequency multiplier in 90 nm SiGe-BiCMOS. The multiplier core uses asymmetric biasing to realize an even-order transfer function. Wideband (WB) and narrowband doublers built around the active core are proposed, and their relative performance is compared from simulation. Measurement of a WB prototype consisting of the doubler, active load with feedback regulation of bias, and 50 Ω input and output buffers validates the circuit concepts. Conversion gain (CG) for the WB doubler peaks at low frequency (e.g., 12 dB at 10 GHz) and rolls off to 0 dB at 100 GHz. For 25 GHz output, significant spurs are: -25 dBc at 12.5 GHz (input tone) and -28 dBc at 50 GHz (4th harmonic). The 0.37 mm 2 WB testchip consumes 55.5 mA from a 4.5 V supply.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2015.2443372