InP D-HBT ICs for 40-Gb/s and higher bitrate lightwave transceivers

InP D-HBT ICs for 40-Gb/s and higher bitrate lightwave transceivers

The combination of device speed (f/sub T/, f/sub max/ > 150 GHz) and breakdown voltage (V/sub bceo/ > 8 V) makes the double heterojunction bipolar InP-based transistor (D-HBT) an attractive technology to implement the most demanding analog functions of 40-Gb/s transceivers. This is illustrated...

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Veröffentlicht in:IEEE journal of solid-state circuits 2002-09, Vol.37 (9), p.1152-1159
Hauptverfasser: Baeyens, Y., Georgiou, G., Weiner, J.S., Leven, A., Houtsma, V., Paschke, P., Lee, Q., Kopf, R.F., Yang Yang, Chua, L., Chen, C., Liu, C.T., Young-Kai Chen
Format: Artikel
Sprache:eng
Schlagworte:
Amplifiers
Analog circuits
Bit rate
Constraining
Devices
Differential amplifiers
Distributed amplifiers
Double heterojunction bipolar transistors
Driver circuits
Drivers
Electric potential
Fingers
Indium phosphide
Indium phosphides
Low-noise amplifiers
Swing
Transceivers
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Zusammenfassung:The combination of device speed (f/sub T/, f/sub max/ > 150 GHz) and breakdown voltage (V/sub bceo/ > 8 V) makes the double heterojunction bipolar InP-based transistor (D-HBT) an attractive technology to implement the most demanding analog functions of 40-Gb/s transceivers. This is illustrated by the performance of a number of analog circuits realized in an InP D-HBT technology with an 1.2- or 1.6-/spl mu/m-wide emitter finger: a low phase noise push-push voltage-controlled oscillator with -7-dBm output power at 146 GHz, a 40-GHz bandwidth and low-jitter 40-Gb/s limiting amplifier, a lumped 40-Gb/s limiting driver amplifier with 4.5-V/sub pp/ differential output swing, a distributed 40-Gb/s driver amplifier with 6-V/sub pp/ differential output swing, and a number of distributed preamplifiers with up to 1.3-THz gain-bandwidth product.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2002.801188