PHYSIOLOGICAL-READOUT
ISSCC2017AdvanceProgram
ISSCC2017AdvanceProgram
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SESSION 5<br />
Monday February 6 th , 1:30 PM<br />
Analog Techniques<br />
Session Chair: Tim Piessens, Icsense, Leuven, Belgium<br />
Associate Chair: Vadim Ivanov, Texas Instruments, Tucson, AZ<br />
1:30 PM<br />
5.1 A 5×80W 0.004% THD+N Automotive Multiphase Class-D Audio Amplifier with Integrated Low-<br />
DS1 Latency ΔΣ ADCs for Digitized Feedback after the Output Filter<br />
F. Mostert 1 , D. Schinkel 1,2 , W. Groothedde 2 , L. Breems 3 , R. van Heeswijk 1 ,<br />
M-J. Koerts 1 , E. van Iersel 1 , D. Groeneveld 2 , G. van Holland 1 , P. Zeelen 1 ,<br />
D-J. Hissink 1 , M. Pos 1 , P. Wielage 1 , F. Jorritsma 1 , M. Klein Middelink 1<br />
1<br />
NXP Semiconductors, Nijmegen, The Netherlands<br />
2<br />
Teledyne DALSA Semiconductors, Enschede, The Netherlands<br />
3<br />
NXP Semiconductors, Eindhoven, The Netherlands<br />
2:00 PM<br />
5.2 An 8Ω 10W 91%-Power-Efficiency 0.0023%-THD+N Multi-Level Class-D Audio Amplifier with<br />
Folded PWM<br />
J-H. Lee, J-S. Bang, K-D. Kim, H-D. Gwon, S-H. Park, Y. Huh, K-S. Yoon, J-B. Baek, Y-M. Ju, G.<br />
Lee, H. Park, H-M. Bae, G-H. Cho, KAIST, Daejeon, Korea<br />
2:30 PM<br />
5.3 A 95μW 24MHz Digitally Controlled Crystal Oscillator for IoT Applications with 36nJ Start-Up<br />
DS1 Energy and >13× Start-Up Time Reduction Using a Fully-Autonomous Dynamically Adjusted<br />
Load<br />
M. Ding, Y-H. Liu, Y. Zhang, C. Lu, P. Zhang, B. Busze, C. Bachmann, K. Philips<br />
Holst Centre / imec, Eindhoven, The Netherlands<br />
2:45 PM<br />
5.4 Frequency-Locked-Loop Ring Oscillator with 3ns Peak-to-Peak Accumulated Jitter in 1ms Time<br />
DS1 Window for High-Resolution Frequency Counting<br />
K. Pappu, G. P. Reitsma, S. Bapat, Texas Instruments, Santa Clara, CA<br />
Break 3:00 PM<br />
3:15 PM<br />
5.5 A Quadrature Relaxation Oscillator with a Process-Induced Frequency-Error Compensation Loop<br />
DS1 J. Koo 1 , K-S. Moon 2 , B. Kim 1 , H-J. Park 1 , J-Y. Sim 1<br />
1<br />
Pohang University of Science and Technology, Pohang, Korea<br />
2<br />
Research Institute of Industrial Science & Technology, Pohang, Korea<br />
3:30 PM<br />
5.6 A 0.68nW/kHz Supply-Independent Relaxation Oscillator with ±0.49%/V and 96ppm/°C Stability<br />
A. Savanth 1,2 , J. Myers 1 , A. Weddell 2 , D. Flynn 1,2 , B. Al-Hashimi 2<br />
1<br />
ARM, Cambridge, United Kingdom; 2 University of Southampton, Southampton, United Kingdom<br />
3:45 PM<br />
5.7 A 19nV/√Hz-Noise 2µV-Offset 75µA Low-Drift Capacitive-Gain Amplifier with Switched-Capacitor<br />
DS1 ADC Driving Capability<br />
H. Wang 1 , G. Mora-Puchalt 2 , C. Lyden 3 , R. Maurino 4 , C. Birk 3 , 1 Analog Devices, Beijing, China<br />
2<br />
Analog Devices, Valencia, Spain; 3 Analog Devices, Cork, Ireland; 4 Analog Devices, Turin, Italy<br />
4:15 PM<br />
5.8 A 9.3nW All-in-One Bandgap Voltage and Current Reference Circuit<br />
Y. Ji, C. Jeon, H. Son, B. Kim, H-J. Park, J-Y. Sim<br />
Pohang University of Science and Technology, Pohang, Korea<br />
4:30 PM<br />
5.9 An 18.75μW Dynamic-Distributing-Bias Temperature Sensor with 0.87°C (3σ) Untrimmed<br />
Inaccuracy and 0.00946mm 2 Area<br />
Y-C. Hsu 1 , C-L. Tai 1 , M-C. Chuang 1 , A. Roth 2 , E. Soenen 2 ; 1 TSMC, Hsinchu, Taiwan<br />
2<br />
TSMC, Austin, TX<br />
4:45 PM<br />
5.10 A 1A LDO Regulator Driven by a 0.0013mm 2 Class-D Controller<br />
W. Xu, P. Upadhyaya, X. Wang, R. Tsang, L. Lin, Marvell, Santa Clara, CA<br />
5:00 PM<br />
5.11 A 65nm Inverter-Based Low-Dropout Regulator with Rail-to-Rail Regulation and over -20dB<br />
PSR at 0.2V Lowest Supply Voltage<br />
F. Yang, P. K. T. Mok, Hong Kong University of Science and Technology, Hong Kong, China<br />
Conclusion 5:15 PM<br />
17