| 10 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Pulse Count Modulation Method to Improve Localized Neural Stimulation for High-Resolution Retinal Prostheses |
2019 |
| 9 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Nano-Resonator Readout Circuit for Implantable Continuous Blood Glucose Monitoring |
2019 |
| 8 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Low-Noise Chopper-Stabilized Multi-Path Operational Amplifier with Nested Miller Compensation for High-Precision Sensors |
2019 |
| 7 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Low-noise Analog Front-end with Chopper-stabilized Multipath Current-feedback Instrumentation Amplifier for Resistive Sensors |
2019 |
| 6 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Low-noise 16-bit First-order Delta-sigma Capacitance-to-digital Converter for Capacitive Humidity Sensor |
2019 |
| 5 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Low Power Electrocardiogram and Bioimpedance Acquisition Circuit by Sharing Current Balanced Instrumentation Amplifier |
2019 |
| 4 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Implantable nanoresonator integrated circuit for continuous glucose monitoring |
2019 |
| 3 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Fully Differential Chopper-Stabilized Multi-Path Current-Feedback Instrumentation Amplifier with R-2R DAC Offset Adjustment for Resistive Bridge Sensors |
2019 |
| 2 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
Capacitively Coupled Multiple Feedback Biopotential Instrumentation Amplifier |
2019 |
| 1 |
전자공학과 |
4단계 BK21 미래국방 지능형ICT 교육연구단 |
4.36 fJ/Conversion-step Ultralow-power 16-bit Successive Approximation Register Capacitance-to-digital Converter in 0.18 mu m CMOS Process |
2019 |
