1. 37 GHz bandwidth InP-based photoreceiver OEIC suitable for data rates up to 50 Gb/s
- Author
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Andreas Umbach, R. Steingruber, W. Schlaak, Heinz-Gunter Bach, G. Unterborsch, C. Schramm, G.G. Mekonnen, S. van Waasen, A. Seeger, Th. Enger, W. Passenberg, and Publica
- Subjects
Materials science ,iii-v semiconductors ,39.5 GHz ,InP-based photoreceiver oeic ,distributed amplifier ,data rates ,Optoelectronic integrated circuits ,HEMT integrated circuits ,law.invention ,GHz waveguide-integrated photodiode ,photodiodes ,Hardware_GENERAL ,law ,Optical receivers ,Hardware_INTEGRATEDCIRCUITS ,good quality ,Electrical and Electronic Engineering ,integrated optoelectronics ,eye pattern ,40 Gbit/s ,Elektrotechnik ,business.industry ,high-electron mobility transistors ,Transistor ,Bandwidth (signal processing) ,inp ,Distributed amplifier ,GHz bandwidth ,photoreceiver optoelectronic integrated circuit ,return-to-zero coded optical input signal ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Photodiode ,indium compounds ,system experiment ,optical receivers ,37 GHz ,Eye pattern ,Optoelectronics ,business - Abstract
A photoreceiver optoelectronic integrated circuit based on InP with a bandwidth of 37 GHz is presented. The receiver consists of a 50 GHz waveguide-integrated photodiode and a distributed amplifier with a bandwidth of 39.5 GHz, which is composed of four high-electron mobility transistors. A system experiment at 40 Gb/s receiving an return-to-zero coded optical input signal is demonstrated, and a good quality of eye pattern is achieved.
- Published
- 1999