Abstract: An indium phosphide based double hetero-junction bipolar transistor with an increased collector-base breakdown voltage and a reduced operational knee voltage is provided by manipulating the conductivity in the collector region. The collector is formed using layers of different conductivities, with a region of the collector relatively close to the base being unintentionally or low doped. A voltage drop across the unintentionally doped region reduces the maximum value of the electric field and the velocity of carriers injected into the collector region at the base-collector junction. The conductivity throughout the collector region may be graded such that the highest conductivity occurs near the sub-collector and lowest conductivity occurs near the base region.
Type:
Grant
Filed:
February 11, 2004
Date of Patent:
October 3, 2006
Assignee:
Xindium Technologies, Inc.
Inventors:
Shyh-Chiang Shen, David Charles Caruth, Milton Feng
Abstract: An electronic circuit includes a current mirror bias circuit and a power amplifier that has a power transistor for amplifying radio frequency signals such that the output collector current of the power transistor is approximately constant over a wide range of varying power supply voltages. The power transistor is biased by a current mirror biasing circuit that has a reference voltage that maintains the quiescent DC collector current at an approximately constant value. The reference voltage may be varied to provide control of the output power of the power amplifier.
Abstract: An expitaxial layer structure that achieves reliable, high speed, and low noise device performance in indium phosphide (InP) based heterojunction bipolar transistors (HBTs) for high data rate receivers and optoelectronic integrated circuits (OEIC). The layer consists of an n+ InGaAs subcollector, an n+ InP subcollector, an unintentionally doped InGaAs collector, a carbon-doped base, an n-type InP emitter, an n-type InGaAs etch-stop layer, an n-type InP emitter, and anInGaAS cap layer.
Type:
Grant
Filed:
December 30, 2002
Date of Patent:
August 3, 2004
Assignee:
XINDIUM Technologies, Inc.
Inventors:
Milton Feng, Shyh Chiang, David C. Caruth
Abstract: The speed at which optical networking devices operate is increased with the present invention with integrated circuits that provide both optical and electronic functions. The present invention provides highly integrated p-i-n or p-i-n-i-p photodetectors and heterojunction bipolar transistors for amplifying photodetector signals formed from a single semiconductor layer stack. The techniques are applicable for the integration of all InP-based and GaAs-based single-heterojunction bipolar transistors and double-heterojunction bipolar transistors. The photodetectors and transistors are formed from common layers, allowing them to be manufactured simultaneously during a processing of the stack. Integrating these components on a single circuit has the potential to greatly increase the speed (in excess of 40 Gb/s) and to decrease the cost of high-speed networking components through the development of compact optical circuits for optical networking.