Transistor Oscillator and Amplifier Grids

Robert M. Weikle; Moonil Kim; H. Hacker; Michael P. Delisio; David B. Rutledge; P. Popovi; J. B. Jonathan; Z. B. Zoya

doi:10.1109/5.175256

Transistor Oscillator and Amplifier Grids

Robert M. Weikle, Moonil Kim, H. Hacker, Michael P. Delisio, David B. Rutledge, P. Popovi, J. B. Jonathan, Z. B. Zoya

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

30 Citations (Scopus)

Abstract

In this paper, we review recent developments in quasi-optical power combining. In particular, we examine planar periodic grids and their use as quasi-optical active components. A variety of grids used for the generation and amplification of electromagnetic radiation have been investigated. Although quasi-optical techniques are applicable to a large variety of solid-state devices, special attention is given to transistors. Transistors are attractive because they can be used as either amplifiers or oscillators. Experimental results for MESFET bar-grid and planar grid oscillators are presented. In addition, we discuss a MESFET grid amplifier that receives only vertically polarized waves at the input and radiates horizontally polarized waves at the output. An advantage of these planar grids is they can be scaled for operation at millimeter- and submillimeter-wave frequencies. By using modern IC fabrication technology, planar grid oscillators and amplifiers containing thousands of devices can be built, thereby realizing an efficient means for large-scale power combining.

Original language	English
Pages (from-to)	1800-1809
Number of pages	10
Journal	Proceedings of the IEEE
Volume	80
Issue number	11
DOIs	https://doi.org/10.1109/5.175256
Publication status	Published - 1992 Nov

Bibliographical note

Funding Information:
Manuscript received October 4, 1991; revised February 26, 1992. This research was supported by the Army Research Office, the Northrop Corporation, and a fellowship from the Rockwell International Trust. I. Hacker holds an NSERC Fellowship from Canada and M. De Lisio holds an NSF Fellowship.

ASJC Scopus subject areas

General Computer Science
Electrical and Electronic Engineering

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title = "Transistor Oscillator and Amplifier Grids",

abstract = "In this paper, we review recent developments in quasi-optical power combining. In particular, we examine planar periodic grids and their use as quasi-optical active components. A variety of grids used for the generation and amplification of electromagnetic radiation have been investigated. Although quasi-optical techniques are applicable to a large variety of solid-state devices, special attention is given to transistors. Transistors are attractive because they can be used as either amplifiers or oscillators. Experimental results for MESFET bar-grid and planar grid oscillators are presented. In addition, we discuss a MESFET grid amplifier that receives only vertically polarized waves at the input and radiates horizontally polarized waves at the output. An advantage of these planar grids is they can be scaled for operation at millimeter- and submillimeter-wave frequencies. By using modern IC fabrication technology, planar grid oscillators and amplifiers containing thousands of devices can be built, thereby realizing an efficient means for large-scale power combining.",

author = "Weikle, {Robert M.} and Moonil Kim and H. Hacker and Delisio, {Michael P.} and Rutledge, {David B.} and P. Popovi and Jonathan, {J. B.} and Zoya, {Z. B.}",

note = "Funding Information: Manuscript received October 4, 1991; revised February 26, 1992. This research was supported by the Army Research Office, the Northrop Corporation, and a fellowship from the Rockwell International Trust. I. Hacker holds an NSERC Fellowship from Canada and M. De Lisio holds an NSF Fellowship.",

year = "1992",

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AU - Weikle, Robert M.

AU - Kim, Moonil

AU - Hacker, H.

AU - Delisio, Michael P.

AU - Rutledge, David B.

AU - Popovi, P.

AU - Jonathan, J. B.

AU - Zoya, Z. B.

N1 - Funding Information: Manuscript received October 4, 1991; revised February 26, 1992. This research was supported by the Army Research Office, the Northrop Corporation, and a fellowship from the Rockwell International Trust. I. Hacker holds an NSERC Fellowship from Canada and M. De Lisio holds an NSF Fellowship.

PY - 1992/11

Y1 - 1992/11

N2 - In this paper, we review recent developments in quasi-optical power combining. In particular, we examine planar periodic grids and their use as quasi-optical active components. A variety of grids used for the generation and amplification of electromagnetic radiation have been investigated. Although quasi-optical techniques are applicable to a large variety of solid-state devices, special attention is given to transistors. Transistors are attractive because they can be used as either amplifiers or oscillators. Experimental results for MESFET bar-grid and planar grid oscillators are presented. In addition, we discuss a MESFET grid amplifier that receives only vertically polarized waves at the input and radiates horizontally polarized waves at the output. An advantage of these planar grids is they can be scaled for operation at millimeter- and submillimeter-wave frequencies. By using modern IC fabrication technology, planar grid oscillators and amplifiers containing thousands of devices can be built, thereby realizing an efficient means for large-scale power combining.

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Transistor Oscillator and Amplifier Grids

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Bibliographical note

ASJC Scopus subject areas

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