Issue 9, 2008

An integrated CMOS high voltage supply for lab-on-a-chip systems

Abstract

Electrophoresis is a mainstay of lab-on-a-chip (LOC) implementations of molecular biology procedures and is the basis of many medical diagnostics. High voltage (HV) power supplies are necessary in electrophoresis instruments and are a significant part of the overall system cost. This cost of instrumentation is a significant impediment to making LOC technologies more widely available. We believe one approach to overcoming this problem is to use microelectronic technology (complementary metal-oxide semiconductor, CMOS) to generate and control the HV. We present a CMOS-based chip (3 mm × 2.9 mm) that generates high voltages (hundreds of volts), switches HV outputs, and is powered by a 5 V input supply (total power of 28 mW) while being controlled using a standard computer serial interface. Microchip electrophoresis with laser induced fluorescence (LIF) detection is implemented using this HV CMOS chip. With the other advancements made in the LOC community (e.g. micro-fluidic and optical devices), these CMOS chips may ultimately enable ‘true’ LOC solutions where essentially all the microfluidics, photonics and electronics are on a single chip.

Graphical abstract: An integrated CMOS high voltage supply for lab-on-a-chip systems

Article information

Article type
Paper
Submitted
12 Mar 2008
Accepted
03 Jun 2008
First published
21 Jul 2008

Lab Chip, 2008,8, 1524-1529

An integrated CMOS high voltage supply for lab-on-a-chip systems

M. Behnam, G. V. Kaigala, M. Khorasani, P. Marshall, C. J. Backhouse and D. G. Elliott, Lab Chip, 2008, 8, 1524 DOI: 10.1039/B804275F

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