Dejan Markovic

Affiliations: 
Electrical Engineering University of California, Los Angeles, Los Angeles, CA 
Area:
Integrated circuits for emerging radio and healthcare systems, energy-efficient flexible digital integrated circuits, circuit and architecture design with post-CMOS devices, optimization methods and CAD flows
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"Dejan Markovic"
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Parents

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Robert W. Brodersen grad student 2006 UC Berkeley
 (A power/area optimal approach to VLSI signal processing.)

Children

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Chia-Hsiang Yang grad student 2010 UCLA
Victoria L. Wang Limketkai grad student 2011 UCLA
Sarah P. Gibson grad student 2012 UCLA
Rashmi Nanda grad student 2012 UCLA

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Publications

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Abiri P, Abiri A, Gudapati V, et al. (2020) Wireless Pacing Using an Asynchronous Three-Tiered Inductive Power Transfer System. Annals of Biomedical Engineering
Yousefi A, Abidi AA, Markovic D. (2020) Analysis and Design of a Robust, Low-Power, Inductively Coupled LSK Data Link Ieee Journal of Solid-State Circuits. 55: 2583-2596
Pan J, Abidi AA, Jiang W, et al. (2019) Simultaneous Transmission of Up To 94-mW Self-Regulated Wireless Power and Up To 5-Mb/s Reverse Data Over a Single Pair of Coils Ieee Journal of Solid-State Circuits. 54: 1003-1016
Chandrakumar H, Markovic D. (2018) A 15.2-ENOB 5-kHz BW 4.5- $\mu$ W Chopped CT $\Delta\Sigma$ -ADC for Artifact-Tolerant Neural Recording Front Ends Ieee Journal of Solid-State Circuits. 53: 3470-3483
Abiri P, Abiri A, Packard RRS, et al. (2017) Inductively powered wireless pacing via a miniature pacemaker and remote stimulation control system. Scientific Reports. 7: 6180
Rozgic D, Markovic D. (2017) A Miniaturized 0.78-mW/cm2 Autonomous Thermoelectric Energy-Harvesting Platform for Biomedical Sensors. Ieee Transactions On Biomedical Circuits and Systems
Chandrakumar H, Markovic D. (2017) An 80-mVpp Linear-Input Range, 1.6- $\text{G}\Omega $ Input Impedance, Low-Power Chopper Amplifier for Closed-Loop Neural Recording That Is Tolerant to 650-mVpp Common-Mode Interference Ieee Journal of Solid-State Circuits. 52: 2811-2828
Chandrakumar H, Markovic D. (2017) A High Dynamic-Range Neural Recording Chopper Amplifier for Simultaneous Neural Recording and Stimulation Ieee Journal of Solid-State Circuits. 52: 645-656
Jiang W, Hokhikyan V, Chandrakumar H, et al. (2017) A ±50-mV Linear-Input-Range VCO-Based Neural-Recording Front-End With Digital Nonlinearity Correction Ieee Journal of Solid-State Circuits. 52: 173-184
Lee H, Alzate JG, Dorrance R, et al. (2015) Design of a fast and low-power sense amplifier and writing circuit for high-speed MRAM Ieee Transactions On Magnetics. 51
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