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Metamorphic HEMT technology for low-noise applications

Metamorphic HEMT technology for low-noise applications,10.1109/ICIPRM.2009.5012475,A. Leuther,A. Tessmann,I. Kallfass,R. Losch,M. Seelmann-Eggebert,N.

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Metamorphic HEMT technology for low-noise applications (Citations: 7)


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Different noise sources in HEMTs are discussed, and state-of-the-art low-noise amplifiers based on the Fraunhofer IAF 100 nm and 50 nm gate length metamorphic HEMT (mHEMT) process are presented. These mHEMT technology feature an extrinsic fT of 220 / 375 GHz and an extrinsic transconduction gm, max of 1300 / 1800 mS/mm. By using the 50 nm technology several low-noise amplifier MMICs were realized. A small signal gain of 21 dB and a noise figure of 1.9 dB was measured in the frequency range between 80 and 100 GHz at ambient temperature. To investigate the low temperature behaviour of the 100 nm technology, single 4 * 40 mum mHEMTs were integrated in hybrid 4 - 8 GHz (Chalmers) and 16 - 26 GHz (Yebes) amplifiers. At cryogenic temperatures noise temperatures of 3 K at 5 GHz and 12 K at 22 GHz were achieved.

Conference: Indium Phosphide and Related Materials Conference - CSW/IPRM , pp. 188-191, 2009

DOI: 10.1109/ICIPRM.2009.5012475

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Citation Context (4)

- ...All MMIC components of the radiometer were designed at Fraunhofer IAF and fabricated with the in-house 100 nm mHEMT technology [6]...
Ernst Weissbrodt, et al. W-band radiometer system with switching front-end for multi-load calib...
- ...HEMT technology of the IAF and a gate length of 100 nm. This technology features a maximum cutoff frequency of 220 GHz and of 300 GHz and is featuring a state of the art low noise performance at room temperature as well as at cryogenic temperatures [5], [6] with a corresponding circuit design...
S. Wuensch, et al. Development of Monolithic Microwave Integrated Amplifiers as Readout f...
- ...There has been significant advancements in sub-50 nm HEMT devices[1,2] and circuits[3] operating in sub-millimeter-wave (sub-MMW) band above 300 GHz...
R. Lai, et al. Sub 50 nm InP HEMT with fT = 586 GHz and amplifier circuit gain at 390...
- ...For the successful fabrication of high-speed millimeterwave devices, a metamorphic buffer layer is grown on a conventional gallium arsenide (GaAs) wafer, enabling to process InGaAs channels with high indium content, similar to that of InP-based HEMTs, which provides excellent noise characteristics [4]...
E. Weissbrodt, et al. Low-noise amplifiers in D-band using 100 nm and 50 nm mHEMT technology

Millimeter-wave circuits and modules up to 500 GHz based on metamorphic HEMT technology for remote sensing and wireless communication applications

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Conference: Annual IEEE Northeast Workshop on Circuits and Systems - NEWCAS , 2011

Development of Monolithic Microwave Integrated Amplifiers as Readout for Detectors at 4.2 K

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Journal: IEEE Transactions on Applied Superconductivity - IEEE TRANS APPL SUPERCONDUCT , vol. 21, no. 3, pp. 302-305, 2011

Sub 50 nm InP HEMT with fT = 586 GHz and amplifier circuit gain at 390 GHz for sub-millimeter wave applications (Citations: 2)

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Conference: Indium Phosphide and Related Materials Conference - CSW/IPRM , pp. 1-3, 2010

Keywords (5)

Metamorphic HEMT technology for low-noise applications,10.1109/ICIPRM.2009.5012475,A. Leuther,A. Tessmann,I. Kallfass,R. Losch,M. Seelmann-Eggebert,N.

Citation Context (4)

Ernst Weissbrodt, et al. W-band radiometer system with switching front-end for multi-load calib...

S. Wuensch, et al. Development of Monolithic Microwave Integrated Amplifiers as Readout f...

R. Lai, et al. Sub 50 nm InP HEMT with fT = 586 GHz and amplifier circuit gain at 390...

E. Weissbrodt, et al. Low-noise amplifiers in D-band using 100 nm and 50 nm mHEMT technology

References (4)

50 nm MHEMT Technology for G- and H-Band MMICs (Citations: 23)

220GHz metamorphic HEMT amplifier MMICs for high-resolution imaging applications (Citations: 52)

Metamorphic HEMT MMICs and Modules for Use in a High-Bandwidth 210 GHz Radar (Citations: 16)

Extremely low-noise amplification with cryogenic FETs and HFETs: 1970-2004 (Citations: 27)

Citations (7)

An Overview of Solid-State Integrated Circuit Amplifiers in the Submillimeter-Wave and THz Regime (Citations: 1)

W-band radiometer system with switching front-end for multi-load calibration

Millimeter-wave circuits and modules up to 500 GHz based on metamorphic HEMT technology for remote sensing and wireless communication applications

Development of Monolithic Microwave Integrated Amplifiers as Readout for Detectors at 4.2 K

Sub 50 nm InP HEMT with fT = 586 GHz and amplifier circuit gain at 390 GHz for sub-millimeter wave applications (Citations: 2)


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