Research Overview. Payam Heydari Nanoscale Communication IC Lab University of California, Irvine, CA

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1 Research Overview Payam Heydari Nanoscale Communication IC Lab University of California, Irvine, CA

2 NCIC Lab (Sub)-MMW measurement facility for frequencies up to 120GHz Students 11 Ph.D. students and 2 M.S. students

3 Nanoscale Communication IC Lab High-Speed Wireline RF Wireless Noise Design of Distributed Amplifiers/Buffers (DAs) Design of Novel BW- Enhancing Techniques for Broadband IC s Design of Ultra-Broadband IC s Design of Distributed Wideband RFIC s Design of Multi-Antenna TRX s Design of (Sub)-Millimeter- Wave ICs Design of Ultra-Low Power RF IC s for Biomedical Applications High-Freq. Device Noise LNA/Mixer [JASP06] Frequency Synthesizer Environmental Noise Oscillator Phase-Noise Δ/Σ SNR [TCAS-I 05] PLL Jitter [TCAS-I 04] Recipient of 2008 Low-Power Design Contest Award; Int l Symp on Low-Power Electronics and Design (ISLPED) IEEE Circuits and Systems Society Guillemin-Cauer Award 2005 IEEE Circuits and Systems Society Darlington Award 2005 National Science Foundation CAREER Award Best Paper Award nomination at the 2006 ISLPED; IEEE CICC 2007; IEEE RFIC Symposium 2008 Designed and fabricated more than 30 RF/Analog silicon chips since 2002 Filed 10 patents since 2002; three were issued

4 MMW/UWB Research 3-10GHz UWB CMOS Distributed Radios Fully-Integrated MMW Radar Transceivers in (Bi)CMOS Demonstrated the first 22-29GHz UWB Receiver Front-End in 0.18µm CMOS [CICC 2007 and T-MTT 2009] Designed/fabricated/measured a Novel MMW Low Phase-Noise Frequency Synthesizer [CICC 08 and JSSC 2009] Designed/fabricated/measured the first Dual-Band GHz / GHz Automotive Radar TRX [ISSCC 09 ] Novel multi-functional building blocks up to 120GHz UWB 24GHz UWB 60GHz UWB 77GHz UWB WPAN IEEE a Automotive Short-range Radar Gbps WLAN/WPAN Future Automotive Short-range Radar GHz

5 Ultra-Low Power ICs for Future Implants Future Trend: More Sensing Capabillity Increased Complexity Higher Data Rates Increased Power Approach: Innovative Circuits and Systems Design Motor Cortex Neural Recording Cochlear Impants Visual Prosthesis

6 Highlights (1) Designed and tested the first CMOS 22-29GHz automotive radar receiver front-end IN TSMC 180nm LNA Mixers+VGAs QVCO Results appeared in CICC 2007 and T-MTT 2009 Measurement done in NCIC Lab Pulse Formers The first dual-band architecture for millimeter-wave GHz / 77-81GHz TRX was designed and fabricated BiCMOS 180nm technology. The ISSCC paper was successfully presented. LNA I/Q Downconversion Chains RX PF Frequency Synthesizer BB Pulse Generator TX PF 24GHz PA 79GHz PA A carrier-less RF-correlation-based IR-UWB TRX front-end in 130nm CMOS was designed. Occupying 6.4mm 2 chip area, the TRX achieves a maximum data rate of 2Gbps and RX sensitivity of -64dBm with a BER of 10-5, while requiring only 51.5pJ/pulse in the TX mode and 72.9pJ/pulse in the RX mode. The paper will be presented in RFIC Symp. / MTT-S 2009 TX ECPG MPCG Timing Synchron izer Fig. 7 RX ECPG Die micrograph Mixer + VGA LNA

7 Highlights (2) Designed and tested a novel CMOS distributed radio for UWB direct conversion receivers The results appeared in CICC 2007 conference Measurement done in NCIC Lab 1.1mm 400μm RF TL 500μm I/Q merged LNTA/mixers Programmable RF TL termination 1.1mm Designed and tested CMOS active power combiner/splitter for multi-antenna transceivers Splitter The results appeared in July issue of JSSC 2007 Measurement done in NCIC Lab Combiner Studied the dynamics of the regenerative frequency divider Study was based on a frequency divider chip designed at Broadcom in a 65nm CMOS process Results appeared in IEEE TCAS-II

8 Acknowledgement Jazz Semiconductor Technologies NSF computing research infrastructure award CRI NSF CAREER Award Broadcom, Qualcomm, Fujitsu, Intel, IBM for support of projects in the NCIC Lab NIJ research grant #2006-IJ-CX-K044 NCIC Lab members Agilent Technologies

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