鄧凱駿
I obtained my bachelor's degree in the Department of Mechanical and Electrical Engineering from the National Changhua Normal University.
Throughout my time at university, I found my passion in circuit design.After graduating, I decided to study for a master's degree in electrical engineering at National Taiwan Normal University, where I began to invest in RF integrated circuit design. My research is primarily on LNA and Mixer, and have taped out few circuits using TSMC CMOS 180, 90 processes.
tengjason87@gmail.com
0908967606
Education
2020 - 2022
National Taiwan Normal University
Department of Electrical Engineering
2016 - 2020
National Changhua Normal University
Department of electromechanical engineering
Department of electromechanical engineering bachelor's degree
2016 - 2020
My senior project at the university is related to the mechanical three-axis stabilizer, which uses gravity to stabilize the axis. The device is installed on the slide rail and we can calculate the motion trajectory using the equation, then the servo motor controlled by ARDUINO can cooperate according to the calculated results.
Department of Electrical Engineering Master's degree
2020 - 2022
Due to the laboratory research related to the fifth-generation mobile communication RF circuits, during my time at master's degree , I conducted more in-depth research on the design of RF integrated circuits and learned about RF related knowledge. My main research focuses on LNA, Mixer circuit design, and implementing our design in various processes.
In my first year of master's degree, I mainly focused on the design of CMOS 29GHz LNA (180nm), and understanding the characteristics of transistor components in each process, and began to participate in the research of the senior member from the lab, which included a CMOS 28GHz IR Mixer (65nm).
In my second year of master's degree, I started my research on broadband amplifiers and receiver and a broadband LNA . The receiver is composed of a 28GHz LNA (180nm) and a 28GHz IR Mixer , LNA reduces noise figure's effect on the backend circuit and the IR Mixe eliminates the image signal received from the receiver. The most recent designs are CMOS 24 ~ 55GHz LNA (90nm) and CMOS 24 ~ 43GHz Direct Mixer with LO PPF(90nm).In the 24 ~ 55GHz LNA, multiple innovative architectures were added to this design , including Gain Peaking, GmBoosting to improve gain of the amplifier .24 ~ 43GHz Direct Mixer is a SSB Mixer whitch utilize a 2 stage poly phase filter at the LO end to improve image rejection ratio's bandwidth.
Language
English — TOEIC TOTAL SCORE : 865
Skill
software
Advanced Design System(ADS) - circuit simulation
Sonnet - Electromagnetic Simulation
Cadence - Chip layout
Origin、Word、Power Point
hardware
Vector Network Analyzer
Spectrum Analyzer
signal generator
Power Supplier
calibration tool
Program participation
Ministry of Science and Technology
Research and development of 28GHz phased array transceiver circuit technology for 5G mobile communication
off-campus study
2020 Summer Electromagnetic Education Symposium
Design Resme
2020.11 CMOS 180nm CMOS29GHz LNA
2021.11 CMOS 180nm CMOS 28GHz Receiver
2021.02 CMOS 90nm CMOS 24 ~ 55GHz LNA
2022.04 CMOS 90nm CMOS 24 ~ 43GHz Direct Mixer with LO PPF
Results display
TSMC CMOS 180 nm 29GHz LNA
TSMC CMOS 180 nm 28GHz LNA
TSMC CMOS 180 nm 28GHz Receiver
TSMC CMOS 90 nm 24 ~ 55GHz LNA
TSMC CMOS 90 nm 24 ~ 48GHz Direct Mixer with LO PPF
