Biomedical Electronics Lab 中文
Master students
 |
Name
|
Keng-Chuan Wu |
|
Grade
|
112 | |
|
Email
|
8905778a@gmail.com |
 |
姓名
|
Chi-Jhih Li |
|
系級
|
113 | |
|
Email
|
n26110396@gs.ncku.edu.tw |
 |
姓名
|
Wei-Chen Hsu |
|
系級
|
113 | |
|
Email
|
ycwey266@gmail.com |
 |
姓名
|
Zhe-Wei Zhang |
|
系級
|
113 | |
|
Email
|
gashj8695@gmail.com |
 |
Name
|
Hsin-Wen Chang |
|
Grade
|
113 | |
|
Email
|
eunice880724@gmail.com |
 |
姓名
|
Jhih-Siang Ciou |
|
系級
|
114 | |
|
Email
|
n26121737@gs.ncku.edu.tw |
 |
姓名
|
Chun-Min Yang |
|
系級
|
114 | |
|
Email
|
c.m.yang0101@gmail.com |
 |
姓名
|
Yu-hsiang su |
|
系級
|
114 | |
|
Email
|
shark891113@gmail.com |
 |
姓名
|
He-Ting Tzou |
|
系級
|
114 | |
|
Email
|
n26120414@gs.ncku.edu.tw |
 |
姓名
|
Chih-Wen Liu |
|
系級
|
114 | |
|
Email
|
09270927liu@gmail.com |
|
|
姓名
|
Yi-Te Chen |
|
系級
|
115 | |
|
Email
|
yite0711@gmail.com |
|
|
姓名
|
Meng-Hsun Yang |
|
系級
|
115 | |
|
Email
|
n26130273@gs.ncku.edu.tw |
|
|
姓名
|
Tsu-Ho Chan |
|
系級
|
115 | |
|
Email
|
09270927liu@gmail.com |
|
|
姓名
|
Hung-Chun Chen |
|
系級
|
115 | |
|
Email
|
09270927liu@gmail.com |
Alumni
|
Ph.D Students |
||
|
Name
|
Year
|
Thesis
|
| Dong-Long Lin | 96 | Three-dimensional Color Range-Image Sensing System |
| Ming-Hsien Shih | 104 | Design of Power Conversion Chips for Biomedical and Backlighting Applications |
| Chien-Fu Wu | 108 | Design of the Power Management ICs for Portable Devices |
| Hung-Hsien Wu | 108 | Design of Energy Harvesting Chips with Low Input Voltage for IoT Applications |
| Tse-An Chen | 110 | Design of Automatic Electrochemical Impedance Spectroscopy Measurement System for Home-Based Health care |
|
Master Students |
||
|
Name
|
Year
|
Thesis
|
| Tsung-Hsun Tsai | 96 | A Pixel Circuit Research on High Dynamic Range CMOS Image Sensor |
| Li-Hou Liu | 96 | An 8 bit 1.1 M samples SAR ADC for CMOS image sensor |
| Li Lin | 96 | A Cyclic Analog-to-Digital Converter for CMOS Image Sensors |
| Jiun-Wei Chiou | 96 | A Frequency Output CMOS Image Sensor with Adaptive Dynamic Range |
| Hou-Lon Choi | 97 | A 3-V 28-mW 10-bit 20-MSample/s Pipeline ADC Without Using a Front-End Sample-and-Hold Amplifier |
| Yu-Min Chang | 97 | An All-Digital Phase-Locked Loop for Digital Power Management Circuits |
| Lu-Yao Wu | 97 | A Versatile Step-Up/Step-Down Regulated Charge-Pump Based DC-DC Converter |
| Hsiu-Hui Yang | 97 | A Step-Down Regulated Charge-Pump DC-DC Converter |
| I-Ta Tseng |
97 |
Design of an Infant Respiration Detection Instrument by Use of a MEMS Piezo-Resistive Sensor |
| Chieh-En Chen | 98 | A Real-time Ventricular Pressure-Volume Loop Measurement System with the Conductance Catheter |
| Chien-Hsien Wu | 98 | A Step-UP/Step-Down DC-DC Converter with Low Output Voltage Ripple |
| Yi-Ting Lee | 98 | A Step-Down DC-DC Converter with Low Output Voltage Ripple |
| Chin-Hong Chen | 99 | Average-Current-Mode Non-inverting Buck-Boost DC-DC Converter |
| Chin-Wei Chang | 99 | Single-Inductor Four-Switch Voltage-Mode Buck-Boost DC-DC Converter |
| Chia-Chieh Wong | 99 | A fast transient and low-cost current-mode buck DC-DC Converter |
| Tse-An Chen | 99 | A Dual-Mode AC Signal Processing IC for Bio-Sample Detection |
| Yu-Chen Hsu | 100 | A Boost DC-DC Converter with Wide Input Voltage Range and Low Startup Voltage |
| Tin-Hao Liu | 100 | Design of an Infant Respiration Detection System on a Single Chip by Use of a Micro-Cantilever Flow Sensor |
| I-Ting Ko | 100 | Synchronous-Switch Average-Current-Mode Buck-Boost DC-DC Converter |
| Jr-Fu Yang | 100 | Design of System-on-a-Chip Signal Processing Circuits for Both Voltage- and Current-Mode Electrochemical Bio-sensing Methods |
| Yi-Wen Wang | 101 | A Wide-Range Programmable Sinusoidal Frequency Synthesizer for Electrochemical Impedance Spectroscopy Measurement System |
| Ren-Yi Lin | 101 | Design of a Respiration Detection Single Chip by Using Both Voltage- and Current-Mode MEMS Sensors |
| Hung-Hsien Wu | 101 | Design of an Adaptive Peak-Inductor-Current Controlled Pulse Frequency Modulated Boost Converter with a Near-Threshold Startup Voltage |
| Guo-Jyng Wu | 101 | Average-Current-Mode Buck-Boost DC-DC Converter with Full-Wave Current Sensor |
| Yu-Chen Lin | 102 | Design of a Temperature-Insensitive Micro Cantilever-Based Respiration Detection Chip |
| Sung-Yao Wang | 102 | A Boost Converter with Maximum Power Point Tracking for Solar Photovoltaic Energy Harvesting |
| Wen-Jui Wu | 102 | Design of an Impedance-to-Digital Converter for Electrochemical Impedance Spectroscopic Measurement System |
| Liang-Hong Lin | 102 | Wide-Supply-Voltage-Range Buck-Boost Single-Inductor-Dual-Output DC-DC Converter with PFM Control |
| Dian-Lin Tsai | 103 | A Low-Power-Consumption Boost Converter with Maximum Power Point Tracking Algorithm for Indoor Photovoltaic Energy Harvesting |
| Keng-Hong Chu | 103 | A 10-bit Segmented Digital-to-Time Converter with with 10ps-level Resolution and Automatic Offset Calibration |
| Siang-En Hong | 103 | A High Efficiency Hysteretic-Current-Mode Non-Inverting Buck-Boost DC-DC Converter with Built-In Compensation Network |
| Ming-Ke Tsai | 103 | Design of a Respiration Detection Chip with DC Offset Calibration Technique |
| Liang-Yun Chen | 104 | Design of a Pulse-Frequency-Modulation Controlled DC-DC Boost Converter with Low-Startup Voltage and Wide-Input-Range |
| Jia-Ning Su | 104 | Design of a Wide-Frequency-Range Signal Processing IC for Electrochemical Impedance Spectroscopy Measurement System |
| Chung-Ming Yu | 104 | Design of an External Capacitor-Less Low Dropout Regulator and a Low-Power Voltage Reference Circuit |
| Tsung-Wei Hsu | 105 | Design of Photovoltaic Energy Harvester with Fractional Open Circuit Voltage Based Maximum Power Point Tracking Circuit |
| Shih-Meng Tseng | 106 | Single-Axis CMOS-MEMS Capacitive Accelerometer with Post-Processing Circuits |
| Siang-Wei Wang | 106 |
Design of Peak Detector and Divider for Electrochemical Impedance Spectroscopy Measurement System |
| Chi-Hsiang Huang | 106 | Design of a Mixed-Ripple Adaptive On-Time Boost DC-DC Converter |
| Je-Jia Chang | 107 | Fully-Integrated Boost DC-DC Converter with Low-Startup Voltage for Thermoelectric Harvester |
| Kai-Min Chang | 107 | A Resistor-Based Temperature Sensing Chip with a 10-bit SAR ADC |
| Kuan-Hung Chen | 107 | Novel High-Accuracy Low-Power Voltage-Mode Analog Divider with Digital Output |
| Jian-Zhou Yan | 108 | Design of Photovoltaic Energy Harvester with Maximum Power Point Tracking Circuit and Sleep Mechanism |
| Heng-Yu Chiu | 108 | Design of a Single-Axis Capacitive Accelerometer with AC Offset Cancellation Circuit |
| Hsueh-Yu Kao | 108 | Design of Sensing Circuit for Lead-Free Piezoelectric MEMS Accelerometers |
| Tse-Wei Wu | 109 | Fully Built-In Low-Power Low-Frequency Oscillator |
| Yi Feng | 109 | Post-Processing Circuits for CMOS-MEMS Capacitive Accelerometer With 10-bit SAR ADC and AC Offset Calibration Technique |
| Yen-Yu Chen | 109 | Mixed-Ripple Adaptive On-Time Control Non-Inverting Buck-Boost DC-DC Converter |
| Yi-Ting Liou | 109 | A Non-Inverting Buck-Boost DC-DC Converter with Adaptive Voltage Positioning Mechanism |
| Hao-Wei Lin | 109 | Design of a Wide-Range Programmable Frequency Signal Processing IC with a Divider for Electrochemical Impedance Spectroscopy Measurement System |
| Wei-Han Pan | 110 | Novel Voltage-mode Analog Multiplier with Digital Output |
| Chi Tseng | 110 | Design of an Electrochemical Impedance Spectroscopy Measurement Chip and System with a Lock-in Impedance-to-Digital Converter |
| Chia-Jui Hsu | 110 | Design od Photovoltaic Energy Harvester with Maximum Power Point Tracking Circuit and Energy Buffer Stage |
| Yen-Ju Lin | 110 | A BJT-Based Temperature Sensing Chip with Digital Output Powered by Photovoltaic Energy |
| Da-Chun Hung | 110 | A Buck DC-DC Converter with Adaptive Voltage Positioning Mechanism |
| Tien Hsu | 111 | Design of a High-Efficiency Boost DC-DC Converter Chip with Wide Input Voltage Range and Low-Startup Voltage for Thermoelectric Harvester |
| Yu-Chuan Chang | 111 | Design of an Ultra-Low-Quiescent-Current Non-Inverting Buck-Boost DC-DC Converter IC with Dual Clock Control and Load-Sensitive Mode Transition |
| Yi-Chen Chen | 111 | Design of an Electrochemical Impedance Spectroscopy Measurement Chip and System with a Direct Digital Synthesis Based Sine Wave Generator |
| Chuan-Chu Liu | 111 | Design of a 1.24μA-Average-Controller-Current Dynamically Controlled Non-Inverting Buck-Boost DC-DC Converter with 1V-to-12V Input-Voltage Range |
| Kai-shih Wang | 111 | Design of an Ultra-Low Quiscent Current Controlled High Voltage DC-DC Buck Converter with Wide Output Load Range andHigh Efficiency |
| Jui-Je Shih | 111 | Design of a wide-range programmable frequency signal processing IC with aLook-up table sinewave generator and a Lock-in Impedance-to Digital Converter for Electrochemical Impedance Spectroscopy measurement system |
| Hsiu-Hui Su | 111 | Design of a Low Quiescent Current Controlled Non-Inverting Cascode Buck-Boost DC-DC Converter With Wide Input Voltage Range |
| Yao-Chieh Chuang | 112 | Design of a High-Efficiency and Fixed-Switching-Frequency Buck DC-DC Converter for Timing Controller |
| Yan-Ting Lu | 112 | Design of a Low Input Voltage and High Efficiency Single-Inductor Bidirectional-Dual-Boost DC-DC Converter with Storing Element |
| Shian-Hung Yang | 112 | Design of AC impedance measurement chip for detecting Li-ion Battery capacity |
| Wen-Cheng Tsai | 113 | A High-Effieciency Cascode DC-DC Buck Converter with Fixed Switching Frequency for Timing Controller |