• Title/Summary/Keyword: W-Band Amplifier

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W-band MMIC Low Noise Amplifier for Millimeter-wave Seeker using Tuner System (Tuner System을 이용한 밀리미터파 탐색기용 W-band MMIC 저잡음 증폭기)

  • An, Dan;Kim, Sung-Chan;Rhee, Jin-Koo
    • Journal of the Institute of Electronics Engineers of Korea TC
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    • v.48 no.11
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    • pp.89-94
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    • 2011
  • In this paper, we developed the W-band MMIC low noise amplifier for the millimeter-wave seeker using the tuner system. The MHEMT devices for MMIC LNA exhibited DC characteristics with a drain current density of 692mA/mm, an extrinsic transconductance of 726mS/mm. The current gain cutoff frequency(fT) and maximum oscillation frequency($f_{max}$) were 195GHz and 305GHz, respectively. The fabricated W-band low noise amplifier represented S21 gain of 7.42dB at 94 GHz and noise figure of 2.8dB at 94.2 GHz.

The Study on the design and implementation of a X-band 25W Power Amplifier Module using GaAs MMIC (GaAs MMIC를 이용한 X대역용 25W급 전력증폭모듈의 설계 및 구현에 대한 연구)

  • Kim, Ki-Jung;Kim, Bong-Soo
    • The Journal of the Korea institute of electronic communication sciences
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    • v.9 no.11
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    • pp.1311-1316
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    • 2014
  • To be used in a transmitter of a satellite transponder of this paper, X band 25W power amplifier module, a part constituting of high-power amplifier is transmitted to the equipment for transmitting to geostationary communications satellites(36,000Km distance). PAM consisted a total of four power amplifier module has a high output characteristic of the high-output amplifier is used in the ground station. Used in conjunction with the structured type power amplifier module is composed of Serial Combining Structure. This PAM(Power Amplifier Module) configured by combining the circuit with the power amplifier, 10 MMIC chips and the Al2O3 thin film substrate using a Hybrid Technique of power amplifier module, was implemented at X band PAM(Power Amplifier Module) of 25W grade.

A 20 W GaN-based Power Amplifier MMIC for X-band Radar Applications

  • Lee, Bok-Hyung;Park, Byung-Jun;Choi, Sun-Youl;Lim, Byeong-Ok;Go, Joo-Seoc;Kim, Sung-Chan
    • Journal of IKEEE
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    • v.23 no.1
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    • pp.181-187
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    • 2019
  • In this paper, we demonstrated a power amplifier monolithic microwave integrated circuit (MMIC) for X-band radar applications. It utilizes commercial $0.25{\mu}m$ GaN-based high electron mobility transistor (HEMT) technology and delivers more than 20 W of output power. The developed GaN-based power amplifier MMIC has small signal gain of over 22 dB and saturated output power of over 43.3 dBm (21.38 W) in a pulse operation mode with pulse width of $200{\mu}s$ and duty cycle of 4% over the entire band of 9 to 10 GHz. The chip dimensions are $3.5mm{\times}2.3mm$, generating the output power density of $2.71W/mm^2$. Its power added efficiency (PAE) is 42.6-50.7% in the frequency bandwidth from 9 to 10 GHz. The developed GaN-based power amplifier MMIC is expected to be applied in a variety of X-band radar applications.

A X-band 40W AlGaN/GaN Power Amplifier MMIC for Radar Applications (레이더 응용을 위한 X-대역 40W AlGaN/GaN 전력 증폭기 MMIC)

  • Byeong-Ok, Lim;Joo-Seoc, Go;Keun-Kwan, Ryu;Sung-Chan, Kim
    • Journal of IKEEE
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    • v.26 no.4
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    • pp.722-727
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    • 2022
  • In this paper, we present the design and characterization of a power amplifier (PA) monolithic microwave integrated circuit (MMIC) in the X-band. The device is designed using a 0.25 ㎛ gate length AlGaN/GaN high electron mobility transistor (HEMT) on SiC process. The developed X-band AlGaN/GaN power amplifier MMIC achieves small signal gain of over 21.6 dB and output power more than 46.11 dBm (40.83 W) in the entire band of 9 GHz to 10 GHz. Its power added efficiency (PAE) is 43.09% ~ 44.47% and the chip dimensions are 3.6 mm × 4.3 mm. The generated output power density is 2.69 W/mm2. It seems that the developed AlGaN/GaN power amplifier MMIC could be applicable to various X-band radar systems operating X-band.

A Ka-Band 6-W High Power MMIC Amplifier with High Linearity for VSAT Applications

  • Jeong, Jin-Cheol;Jang, Dong-Pil;Yom, In-Bok
    • ETRI Journal
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    • v.35 no.3
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    • pp.546-549
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    • 2013
  • A Ka-band 6-W high power microwave monolithic integrated circuit amplifier for use in a very small aperture terminal system requiring high linearity is designed and fabricated using commercial 0.15-${\mu}m$ GaAs pHEMT technology. This three-stage amplifier, with a chip size of 22.1 $mm^2$ can achieve a saturated output power of 6 W with a 21% power-added efficiency and 15-dB small signal gain over a frequency range of 28.5 GHz to 30.5 GHz. To obtain high linearity, the amplifier employs a class-A bias and demonstrates an output third-order intercept point of greater than 43.5 dBm over the above-mentioned frequency range.

Design of High-gain W-band MMIC Amplifier Using Source Feedback (소스 피드백을 이용한 고이득 W-band MMIC 증폭기설계)

  • Park, Sang-Min;Kim, Young-Min;Koh, Yu-Min;Seo, Kwang-Seok;Kwon, Young-Woo;Jeong, Jin-Ho
    • Journal of the Institute of Electronics Engineers of Korea TC
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    • v.47 no.10
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    • pp.74-79
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    • 2010
  • In this paper, a high gain W-band amplifier is presented using 70 run mHEMT MMIC technology. The length of source feedback line of common-source FET is carefully determined to maximize the gain at a design frequency. Simulation shows that MAG can be increased by 0.8 dB by optimizing the length of this line. In addition, this feedback line changes the input impedance of the common-source FET in a way that the input match can be made easier. In this work, 4-stage amplifier is designed on CPW using the source feedback. The measurement shows the excellent gain performance higher than 22.0 dB across 70~103 GHz.

A Compact C-Band 50 W AlGaN/GaN High-Power MMIC Amplifier for Radar Applications

  • Jeong, Jin-Cheol;Jang, Dong-Pil;Han, Byoung-Gon;Yom, In-Bok
    • ETRI Journal
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    • v.36 no.3
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    • pp.498-501
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    • 2014
  • A C-band 50 W high-power microwave monolithic integrated circuit amplifier for use in a phased-array radar system was designed and fabricated using commercial $0.25{\mu}m$ AlGaN/GaN technology. This two-stage amplifier can achieve a saturated output power of 50 W with higher than 35% power-added efficiency and 22 dB small-signal gain over a frequency range of 5.5 GHz to 6.2 GHz. With a compact $14.82mm^2$ chip area, an output power density of $3.2W/mm^2$ is demonstrated.

A 4W GaAs Power Amplifier MMIC for Ku-band Satellite Communication Applications

  • Ryu, Keun-Kwan;Ahn, Ki-Burm;Kim, Sung-Chan
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.15 no.4
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    • pp.501-505
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    • 2015
  • In this paper, we demonstrated a 4W power amplifier monolithic microwave integrated circuit (MMIC) for Ku-band satellite communication applications. The used device technology relies on $0.25{\mu}m$ GaAs pseudomorphic high electron mobility transistor (PHEMT) process. The 4W power amplifier MMIC has linear gain of over 30 dB and saturated output power of over 36.1 dBm in the frequency range of 13.75 GHz ~ 14.5 GHz. Power added efficiency (PAE) is over 30 %.

High performance X-band power amplifier MMIC using a 0.25 ㎛ GaN HEMT technology (0.25 ㎛ GaN HEMT 기술을 이용한 우수한 성능의 X-대역 전력 증폭기)

  • Lee, Bok-Hyung;Park, Byung-Jun;Choi, Sun-Youl;Lim, Byeong-Ok;Go, Joo-Seoc;Kim, Sung-Chan
    • Journal of IKEEE
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    • v.23 no.2
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    • pp.425-430
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    • 2019
  • This work describes the design and characterization of a X-band power amplifier (PA) monolithic microwave integrated circuit (MMIC) using a $0.25{\mu}m$ gate length gallium nitride (GaN) high electron mobility transistor (HEMT) technology. The developed X-band power amplifier MMIC has small signal gain of over 22.7 dB and saturated output power of 43.02 dBm (20.04 W) over the entire band of 9 to 10 GHz. Maximum saturated output power is a 43.84 dBm (24.21 W) at 9.5 GHz. Its power added efficiency (PAE) is 41.0~51.24% and the chip dimensions are $3.7mm{\times}2.3mm$, generating the output power density of $2.84W/mm^2$. The developed GaN power amplifier MMIC is expected to be applied in a variety of X-band radar applications.

A D-Band Integrated Signal Source Based on SiGe 0.18μm BiCMOS Technology

  • Jung, Seungyoon;Yun, Jongwon;Rieh, Jae-Sung
    • Journal of electromagnetic engineering and science
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    • v.15 no.4
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    • pp.232-238
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    • 2015
  • This work describes the development of a D-band (110-170 GHz) signal source based on a SiGe BiCMOS technology. This D-band signal source consists of a V-band (50-75 GHz) oscillator, a V-band amplifier, and a D-band frequency doubler. The V-band signal from the oscillator is amplified for power boost, and then the frequency is doubled for D-band signal generation. The V-band oscillator showed an output power of 2.7 dBm at 67.3 GHz. Including a buffer stage, it had a DC power consumption of 145 mW. The peak gain of the V-band amplifier was 10.9 dB, which was achieved at 64.0 GHz and consumed 110 mW of DC power. The active frequency doubler consumed 60 mW for D-band signal generation. The integrated D-band source exhibited a measured output oscillation frequency of 133.2 GHz with an output power of 3.1 dBm and a phase noise of -107.2 dBc/Hz at 10 MHz offset. The chip size is $900{\times}1,890{\mu}m^2$, including RF and DC pads.