مرکز منطقه ای اطلاع رساني علوم و فناوري - A 6.5/17.5-GHz dual-channel interferometer-based capacitive Sensor in 65-nm CMOS for high-speed flow cytometry

DocumentCode :

171410

Title :

A 6.5/17.5-GHz dual-channel interferometer-based capacitive Sensor in 65-nm CMOS for high-speed flow cytometry

Author :

Jun-Chau Chien ; Anwar, Mohd ; Erh-Chia Yeh ; Lee, L.P. ; Niknejad, Ali M.

Author_Institution :

Univ. of California, Berkeley, Berkeley, CA, USA

fYear :

2014

fDate :

1-6 June 2014

Firstpage :

Lastpage :

Abstract :

In this paper, a dual-channel interferometer-based capacitive sensor with high sensitivity is implemented in 65nm CMOS. Such architecture facilitates high throughput flow cytometry applications using intrinsic EM signatures of biological cells. To enhance SNR, injection-locked oscillator is utilized to perform phase amplification with regard to capacitance-induced frequency shift. Noise from on-chip QVCO is further reduced through I/Q interpolation. Measurements show that the sensor achieves better than 1.5 aF of sensitivity at 250-kHz equivalent noise-bandwidth. With the aid of 3D hydrodynamic focusing, flow cytometry is tested with polystyrene beads. The proposed dual-channel sensor consumes 30 mW under 1 V supply.

Keywords :

CMOS integrated circuits; biomedical electronics; capacitive sensors; cellular biophysics; injection locked oscillators; integrated circuit noise; interferometers; interpolation; voltage-controlled oscillators; 3D hydrodynamic focusing; CMOS; I-Q interpolation; SNR; bandwidth 250 kHz; biological cell intrinsic EM signature; capacitance 1.5 aF; capacitance-induced frequency shift; complementary metal oxide semiconductor; dual-channel interferometer-based capacitive sensor; equivalent noise-bandwidth; frequency 17.5 GHz; frequency 6.5 GHz; high sensitivity; high-speed flow cytometry; injection-locked oscillator; on-chip QVCO; phase amplification; polystyrene beads; power 30 mW; quadrature voltage controlled oscillator; signal-to-noise ratio; size 65 nm; CMOS integrated circuits; Capacitance; Frequency measurement; Noise measurement; Sensors; Switches; Voltage-controlled oscillators; capacitive sensor; flow cytometry; injection-locked oscillators; interferometer; microfluidics; permittivity;

fLanguage :

English

Publisher :

ieee

Conference_Titel :

Microwave Symposium (IMS), 2014 IEEE MTT-S International

Conference_Location :

Tampa, FL

Type :

conf

DOI :

10.1109/MWSYM.2014.6848507

Filename :

6848507

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=171410