Project

• Home
• People
• Course
• Publication

Projects:

Ministry of Science and Technology (National Science Council)

FY104	應用於醫療用手持式低功耗4D即時超音波系統之研究-子計畫一：應用於4D即時超音波系統具寬頻多通道多模切換之低功耗低雜訊接收機前端電路設計(1/2) A Low-power Low-noise Multi-channel Multi-mode Receiver Front-end for 4D Real-time Ultrasound System	2015.08.01~2016.07.31
FY103	近場能量耦合供電之頻率鍵移接收發射器研製(I) A Near-Field Inductive Coupling Powered FSK Transceiver	2014.08.01~2015.07.31
FY102	可變傳輸速率之超低功耗頻率鍵移發射接收器電路研製(I) Design of an ultra-low power multi-rate FSK Transceiver	2013.08.01~2014.07.31
FY101	可變架構與傳輸速率之超低功耗頻率鍵移接收解調電路研製(I) Design of an ultra-low power, Low-IF/Zero-IF Reconfigurable and variable data rate FSK Receiver	2012.08.01~2013.07.31
FY100	次微微秒解析度之時間數位轉換器電路研製 Design of a time-to-digital converter with resolution of Sub-Pico second	2011.08.01~2012.07.31
FY99	應用於超寬頻系統之寬頻電流式類比基頻電路 Wideband current-mode analog baseband circuits for Ultra-wideband	2010.10.01~2011.7.31

Research:

Sub-Threshold RF/Analog Circuits

1. Ultra Low-Power FSK Transceiver for Huamn Body Communication. (張育銓)
2. Current-Mode Instrument Amplifier with Filcker Noise/DC-offset Reduction Technique.
3. Ultra Low-Power Multi-rate Low-IF/Zero-IF Reconfigurable FSK Receiver. (陳俊帆)
4. Time Difference Amplifier for Coarse-Fine Time-to-Digital Converter with Resolution of Sub-Pico Second. (林盛凱)
5. Ultra Low-Power Zero-IF FSK Receiver with Filcker Noise/DC-offset Reduction Technique. (王俊鴻)
6. Coarse-Fine Time-to-Digital Converter with Resolution of Sub-Pico Second. (廖柏舜)
7. Ultra Low-Power Multi-rate PSK Transceiver for Human Body Communication. (胡毓維)
8. Ultra Low-Power Multi-rate FSK Transmitter for Human Body Communication. (胡毓維)
9. A Near-Field Inductive Coupling Powered PSK Receiver. (楊承瑋)
10. All-Digital Phase-Locked Loop with Coarse-Fine Time-to-Digital Converter. (洪翊瑋)
11. Pressure MEMS Sensor and Readout Circuit for Arteries Stent. (李玟澄)
12. Ultra Low-Power PSK Transmitter for Human Body Communication. (楊珮婷)