清华大学孙楠教授实验室主页
清华大学孙楠教授实验室主页
首页
团队成员
学术成果
招聘与招生
本研课程
联系方式
浅色
深色
自动
中文 (简体)
中文 (简体)
English
English
中文 (简体)
Nan Sun
最新
A 0.004-mm2 200MS/s Pipelined SAR ADC with kT/C Noise Cancellation and Robust Ring-Amp
A 0.014mm2 10kHz-BW Zoom-Incremental-Counting ADC Achieving 103dB SNDR and 100dB Full-Scale CMRR
An Overview of Noise-Shaping SAR ADC: From Fundamentals to the Frontier
A 51-pJ/Pixel 33.7-dB PSNR 4× Compressive CMOS Image Sensor With Column-Parallel Single-Shot Compressive Sensing
A Fully Dynamic Low-Power Wideband Time-Interleaved Noise-Shaping SAR ADC
10.4 A 3.7mW 12.5MHz 81dB-SNDR 4th-Order CTDSM with Single-OTA and 2nd-Order NS-SAR
15.2 A 2.75-to-75.9TOPS/W Computing-in-Memory NN Processor Supporting Set-Associate Block-Wise Zero Skipping and Ping-Pong CIM with Simultaneous Computation and Weight Updating
27.1 A 250kHz-BW 93dB-SNDR 4th-Order Noise-Shaping SAR Using Capacitor Stacking and Dynamic Buffering
27.4 A 0.4-to-40MS/s 75.7dB-SNDR Fully Dynamic Event-Driven Pipelined ADC with 3-Stage Cascoded Floating Inverter Amplifier
27.7 A 79dB-SNDR 167dB-FoM Bandpass ΔΣ ADC Combining N-Path Filter with Noise-Shaping SAR
A 77.1-dB-SNDR 6.25-MHz-BW Pipeline SAR ADC With Enhanced Interstage Gain Error Shaping and Quantization Noise Shaping
A 13.5-ENOB, 107-μW Noise-Shaping SAR ADC With PVT-Robust Closed-Loop Dynamic Amplifier
A 13-bit 0.005-mm2 40-MS/s SAR ADC With kT/C Noise Cancellation
A 74.5-dB Dynamic Range 10-MHz BW CT-ΔΣ ADC With Distributed-Input VCO and Embedded Capacitive-π Network in 40-nm CMOS
A 7-bit 900-MS/s 2-Then-3-bit/cycle SAR ADC With Background Offset Calibration
An Energy-Efficient Time-Domain Incremental Zoom Capacitance-to-Digital Converter
16.5 A 13b 0.005mm2 40MS/s SAR ADC with kT/C Noise Cancellation
9.3 A 40kHz-BW 90dB-SNDR Noise-Shaping SAR with 4× Passive Gain and 2nd-Order Mismatch Error Shaping
9.5 A 13.5b-ENOB Second-Order Noise-Shaping SAR with PVT-Robust Closed-Loop Dynamic Amplifier
A Pipeline SAR ADC With Second-Order Interstage Gain Error Shaping
An Energy-Efficient Comparator With Dynamic Floating Inverter Amplifier
A 0.025-mm2 0.8-V 78.5-dB SNDR VCO-Based Sensor Readout Circuit in a Hybrid PLL-ΔΣ M Structure
A Fractional- N PLL With Space–Time Averaging for Quantization Noise Reduction
A Second-Order Purely VCO-Based CT ΔΣ ADC Using a Modified DPLL Structure in 40-nm CMOS
A 10-bit 120-MS/s SAR ADC With Reference Ripple Cancellation Technique
An OTA-Less Second-Order VCO-Based CT ΔΣ Modulator Using an Inherent Passive Integrator and Capacitive Feedback
A Two-Step ADC With a Continuous-Time SAR-Based First Stage
A Second-Order Noise-Shaping SAR ADC With Passive Integrator and Tri-Level Voting
18.2 A 16fJ/Conversion-Step Time-Domain Two-Step Capacitance-to-Digital Converter
3.4 A 0.01mm2 25µW 2MS/s 74dB-SNDR Continuous-Time Pipelined-SAR ADC with 120fF Input Capacitor
A 0.029-mm2 17-fJ/Conversion-Step Third-Order CT ΔΣ ADC With a Single OTA and Second-Order Noise-Shaping SAR Quantizer
A 13-ENOB Second-Order Noise-Shaping SAR ADC Realizing Optimized NTF Zeros Using the Error-Feedback Structure
A 13-ENOB 2nd-order noise-shaping SAR ADC realizing optimized NTF zeros using an error-feedback structure
A 1-V 0.25-μW Inverter Stacking Amplifier With 1.07 Noise Efficiency Factor
A 6-bit 0.81-mW 700-MS/s SAR ADC With Sparkle-Code Correction, Resolution Enhancement, and Background Window Width Calibration
A 10-b 800-MS/s Time-Interleaved SAR ADC With Fast Variance-Based Timing-Skew Calibration
A Fully Passive Compressive Sensing SAR ADC for Low-Power Wireless Sensors
A 174.3-dB FoM VCO-Based CT ΔΣ Modulator With a Fully-Digital Phase Extended Quantizer and Tri-Level Resistor DAC in 130-nm CMOS
An Energy-Efficient Hybrid SAR-VCO ΔΣ Capacitance-to-Digital Converter in 40-nm CMOS
A 0.7-V 0.6-μW 100-kS/s Low-Power SAR ADC With Statistical Estimation-Based Noise Reduction
A 12-b ENOB 2.5-MHz BW VCO-Based 0-1 MASH ADC With Direct Digital Background Calibration
Palm NMR and 1-Chip NMR
Palm NMR and one-chip NMR
CMOS RF Biosensor Utilizing Nuclear Magnetic Resonance
CMOS Mini Nuclear Magnetic Resonance System and its Application for Biomolecular Sensing
On the Self-Generation of Electrical Soliton Pulses
引用
×