Low cost GaAs PHEMT MMICs for millimeter-wave sensor applications

A compact 94 GHz FMCW radar MMIC based on 100 nm InGaAs mHEMT technology with integrated transmission signal conditioning

Zech, C.
Hülsmann, A.
Weber, R.
Tessmann, A.
Wagner, S.
Schlechtweg, M.
Leuther, A.
Ambacher, O.

January 2013

In this paper, a compact 94 GHz frequency-modulated continuous-wave (FMCW) radar monolithic microwav...

A monolithic integrated mHEMT chipset for high-resolution submillimeter-wave radar applications

Tessmann, A.
Leuther, A.
Massler, H.
Lewark, U.J.
Wagner, S.
Weber, R.
Kuri, M.
Zink, M.
Riessle, M.
Stulz, H.P.
Schlechtweg, M.
Ambacher, O.
Sommer, R.
Wahlen, A.
Stanko, S.

January 2013

In this paper, we present the development of a millimeter-wave monolithic integrated circuit (MMIC) ...

X Band 7.5 W MMIC Power Amplifier for Radar Application

Samsung Thales Company
Kyung Ai Lee
Jong-hoon Chun
Songcheol Hong

January 2008

Abstract—An X-band MMIC power amplifier for radar application is developed using 0.25-μm gate length...

A GaAs HEMT MMIC chip set for automotive radar systems fabricated by optical stepper lithography

Müller, J.-E.
Grave, T.
Siweris, H.J.
Kärner, M.
Schäfer, A.
Tischer, H.
Riechert, H.
Schleicher, L.
Verweyen, L.
Bangert, A.
Kellner, W.
Meier, T.

January 1997

A 77-GHz automotive radar system for collision avoidance and intelligent cruise control has recently...

High Frequency Circuits Based on GaAs-pHEMT Technology for Modern Sensor and Communication Systems

M. Schlechtweg
W. Haydl
A. Hülsmann
A. Tessmann

February 2015

Abstract- For sensor and communication system applications, Monolithic Microwave Integrated Circuits...

Coplanar high performance MMICs in MHEMT and PHEMT technology for applications up to 100 GHz

Schwörer, C.
Tessmann, A.
Leich, M.
Leuther, A.
Kudszus, S.
Bessemoulin, A.
Schlechtweg, M.

January 2002

In this paper we present coplanar MMICs based on both, metamorphic (MHEMT) and pseudomorphic (PHEMT)...

Automotive applications of GaAs components

Colquhoun, A.
Meinel, Holger

June 1996

The market for GaAs MMICs in motor vehicles is expanding and will become a major area of interest fo...

Millimeter- and submillimeter-wave monolithic integrated circuits based on metamorphic HEMT technology for sensors and communication

Schlechtweg, M.
Tessmann, A.
Leuther, A.
Massler, H.
Wagner, S.
Aidam, R.
Rosenzweig, J.
Ambacher, O.
Kallfass, I.
Lewark, U.J.
Sommer, R.
Wahlen, A.
Stanko, S.
Ender, J.

January 2013

For the next generation of sensors and communication systems operating at frequencies up to 600 GHz ...

Nonlinear circuit design for 77 GHz automotive applications

Verweyen, L.
Siweris, H.J.
Neumann, M.
Schaper, U.
Haydl, W.H.
Keller, W.
Schlechtweg, M.

January 1998

W-band radar systems for automotive applications have focused interest on cost effective integrated ...

Electronic calibrator MMIC with frequency range up to 50 GHz for vector network analyzers in GaAs pHEMT technology

Daniil Danilov
Nikolai Drobotun
Aleksei Medvedev
Vladimir Ulyanov

November 2019

This paper presents design, simulation and measurements results of electronic calibrator with freque...

SEE PROFILE

P. F. Alleaume
Heinrich Daembkes
M. Camiade
D. Domnesque
P. F. Alleaume
A. Mallet
H. Daembkes

January 1998

This paper describes design, fabrication, and performance of a GaAs based MMIC chip set for a produc...

The First 0.1μm 6 ” GaAs PHEMT MMIC Process

L. Gunter
D. Dugas
X. Yang
P. Seekell
M. Gerlach
J. Diaz
J. Lombardi
W. Hu
K. Nichols
W. Kong
B. Golja
K. H. G. Duh
A. Swanson

December 2014

BAE Systems has developed the world’s first 0.1µm 6 ” 2-mil PHEMT MMIC process with high power, high...

A Multipurpose 76 GHz Radar Transceiver System for Automotive Applications Based on SiGe MMICs

Schoepfel, J.
Kueppers, S.
Aufinger, K.
Pohl, N.

January 2018

In this paper a SiGe chipset for automotive applications in the band around 76 GHz is presented. The...

Newly developed chip sets for 60 GHz radio communication systems

Zirath, Herbert
Ferndahl, Mattias
Kozhuharov, Rumen
K\ue4rnfelt, Camilla

January 2007

In order to reduce the manufacturing cost for future 60 GHz products, a high integration level is ne...

MMICs in the millimeter-wave regime

Huei Wang

[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...

A compact 94 GHz FMCW radar MMIC based on 100 nm InGaAs mHEMT technology with integrated transmission signal conditioning

Zech, C.
Hülsmann, A.
Weber, R.
Tessmann, A.
Wagner, S.
Schlechtweg, M.
Leuther, A.
Ambacher, O.

January 2013

In this paper, a compact 94 GHz frequency-modulated continuous-wave (FMCW) radar monolithic microwav...

A monolithic integrated mHEMT chipset for high-resolution submillimeter-wave radar applications

Tessmann, A.
Leuther, A.
Massler, H.
Lewark, U.J.
Wagner, S.
Weber, R.
Kuri, M.
Zink, M.
Riessle, M.
Stulz, H.P.
Schlechtweg, M.
Ambacher, O.
Sommer, R.
Wahlen, A.
Stanko, S.

January 2013

In this paper, we present the development of a millimeter-wave monolithic integrated circuit (MMIC) ...

X Band 7.5 W MMIC Power Amplifier for Radar Application

Samsung Thales Company
Kyung Ai Lee
Jong-hoon Chun
Songcheol Hong

January 2008

Abstract—An X-band MMIC power amplifier for radar application is developed using 0.25-μm gate length...

A GaAs HEMT MMIC chip set for automotive radar systems fabricated by optical stepper lithography

Müller, J.-E.
Grave, T.
Siweris, H.J.
Kärner, M.
Schäfer, A.
Tischer, H.
Riechert, H.
Schleicher, L.
Verweyen, L.
Bangert, A.
Kellner, W.
Meier, T.

January 1997

A 77-GHz automotive radar system for collision avoidance and intelligent cruise control has recently...

High Frequency Circuits Based on GaAs-pHEMT Technology for Modern Sensor and Communication Systems

M. Schlechtweg
W. Haydl
A. Hülsmann
A. Tessmann

February 2015

Abstract- For sensor and communication system applications, Monolithic Microwave Integrated Circuits...

Coplanar high performance MMICs in MHEMT and PHEMT technology for applications up to 100 GHz

Schwörer, C.
Tessmann, A.
Leich, M.
Leuther, A.
Kudszus, S.
Bessemoulin, A.
Schlechtweg, M.

January 2002

In this paper we present coplanar MMICs based on both, metamorphic (MHEMT) and pseudomorphic (PHEMT)...

Automotive applications of GaAs components

Colquhoun, A.
Meinel, Holger

June 1996

The market for GaAs MMICs in motor vehicles is expanding and will become a major area of interest fo...

Millimeter- and submillimeter-wave monolithic integrated circuits based on metamorphic HEMT technology for sensors and communication

Schlechtweg, M.
Tessmann, A.
Leuther, A.
Massler, H.
Wagner, S.
Aidam, R.
Rosenzweig, J.
Ambacher, O.
Kallfass, I.
Lewark, U.J.
Sommer, R.
Wahlen, A.
Stanko, S.
Ender, J.

January 2013

For the next generation of sensors and communication systems operating at frequencies up to 600 GHz ...

Nonlinear circuit design for 77 GHz automotive applications

Verweyen, L.
Siweris, H.J.
Neumann, M.
Schaper, U.
Haydl, W.H.
Keller, W.
Schlechtweg, M.

January 1998

W-band radar systems for automotive applications have focused interest on cost effective integrated ...

Electronic calibrator MMIC with frequency range up to 50 GHz for vector network analyzers in GaAs pHEMT technology

Daniil Danilov
Nikolai Drobotun
Aleksei Medvedev
Vladimir Ulyanov

November 2019

This paper presents design, simulation and measurements results of electronic calibrator with freque...

SEE PROFILE

P. F. Alleaume
Heinrich Daembkes
M. Camiade
D. Domnesque
P. F. Alleaume
A. Mallet
H. Daembkes

January 1998

This paper describes design, fabrication, and performance of a GaAs based MMIC chip set for a produc...

The First 0.1μm 6 ” GaAs PHEMT MMIC Process

L. Gunter
D. Dugas
X. Yang
P. Seekell
M. Gerlach
J. Diaz
J. Lombardi
W. Hu
K. Nichols
W. Kong
B. Golja
K. H. G. Duh
A. Swanson

December 2014

BAE Systems has developed the world’s first 0.1µm 6 ” 2-mil PHEMT MMIC process with high power, high...

A Multipurpose 76 GHz Radar Transceiver System for Automotive Applications Based on SiGe MMICs

Schoepfel, J.
Kueppers, S.
Aufinger, K.
Pohl, N.

January 2018

In this paper a SiGe chipset for automotive applications in the band around 76 GHz is presented. The...

Newly developed chip sets for 60 GHz radio communication systems

Zirath, Herbert
Ferndahl, Mattias
Kozhuharov, Rumen
K\ue4rnfelt, Camilla

January 2007

In order to reduce the manufacturing cost for future 60 GHz products, a high integration level is ne...

MMICs in the millimeter-wave regime

Huei Wang

[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...

A compact 94 GHz FMCW radar MMIC based on 100 nm InGaAs mHEMT technology with integrated transmission signal conditioning

Zech, C.
Hülsmann, A.
Weber, R.
Tessmann, A.
Wagner, S.
Schlechtweg, M.
Leuther, A.
Ambacher, O.

January 2013

In this paper, a compact 94 GHz frequency-modulated continuous-wave (FMCW) radar monolithic microwav...

A monolithic integrated mHEMT chipset for high-resolution submillimeter-wave radar applications

Tessmann, A.
Leuther, A.
Massler, H.
Lewark, U.J.
Wagner, S.
Weber, R.
Kuri, M.
Zink, M.
Riessle, M.
Stulz, H.P.
Schlechtweg, M.
Ambacher, O.
Sommer, R.
Wahlen, A.
Stanko, S.

January 2013

In this paper, we present the development of a millimeter-wave monolithic integrated circuit (MMIC) ...

X Band 7.5 W MMIC Power Amplifier for Radar Application

Samsung Thales Company
Kyung Ai Lee
Jong-hoon Chun
Songcheol Hong

January 2008

Abstract—An X-band MMIC power amplifier for radar application is developed using 0.25-μm gate length...

Low cost GaAs PHEMT MMICs for millimeter-wave sensor applications

Abstract

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Low cost GaAs PHEMT MMICs for millimeter-wave sensor applications

Abstract

Extracted data

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