In_<0.49>GaP/Al_<0.45>GaAs E-pHEMT with High Gate Forward Turn-on Voltage & High Transconductance Linearity
スポンサーリンク
概要
- 論文の詳細を見る
- 2005-09-13
著者
-
JANG Kyoungchul
Seoul National Univ., School of Electrical Eng.
-
SEO Kwangseok
Seoul National Univ., School of Electrical Eng.
-
LEE Juyong
Seoul National Univ., School Of Electrical Engineering and Computer Science
-
LEE Jaehak
Seoul National Univ., School Of Electrical Engineering and Computer Science
-
Lee Jaehak
Theleds Co. Ltd.
-
Seo Kwangseok
Seoul National Univ. School Of Electrical Engineering And Computer Science
-
Seo Kwangseok
Seoul National Univ. School Of Electrical Eng.
-
Jang Kyoungchul
Seoul National Univ. School Of Electrical Engineering And Computer Science
-
Lee Jinsik
Seoul National Univ. School Of Electrical Eng.
-
Lee Juyong
Seoul National Univ. School Of Electrical Engineering And Computer Science
関連論文
- Integration of MIM Capacitors on BCB with Thin-Film MCM-D Technology
- Passivation Effects of 100nm In_AlAs/In_GaAs Metamorphic HEMT With Remote PECVD Grown Si_3N_4 Layer
- Pt Buried Gate E-pHEMT with High V_ and Reduced Surface Trap Effects
- Compact RF Switches Using Dielectric Overhang Gate Process & Stacked Inductor
- In_GaP/Al_GaAs E-pHEMT with High Gate Forward Turn-on Voltage & High Transconductance Linearity
- Transconductance Linearity Improvement of Enhancement-Mode Pseudomorphic HEMT with High Gate Forward Turn-On Voltage
- Transconductance Linearity Improvement of E-pHEMT with High Vg.on
- High performance 0.1μm GaAs PHEMT with Si pulse doped cap layer for 77GHz car radar applications
- High performance 50nm In_Al_As/In_Ga_As Metamorphic HEMTs with Si_3N_4 passivation on thin InGaAs/InP layer
- High-Speed Digital Circuits Using RTD as Load-Element
- Novel MOBILE Circuits Using 3 RTDs Operating up to 12.5Gb/s
- High performance 70nm In_GaP/In_AlAs/In_GaAs Metamorphic HEMT With Pd Schottky Contacts
- The Gate Length Reducing Process for Pseudomorphic In_Al_As/In_Ga_As HEMTs
- HEMT Yield Improvement with Ultrasonic-assisted recess for High speed Integrated Circuit
- High-speed and Low-Power SCFL-Type NRZ Delayed Flip-Flop Circuit Using RTD/HEMT Integration Technology
- High-speed and Low-Power NRZ Delayed Flip-Flop Circuit Using RTD/HEMT Integration Technology
- Transconductance Linearity Improvement of Enhancement-Mode Pseudomorphic HEMT with High Gate Forward Turn-On Voltage