An integrated switch in a HV-SOI wafer technology, with a novel self-protection mechanism

Matías Miguez; Joel Gak; Alfredo Arnaud

An integrated switch in a HV-SOI wafer technology, with a novel self-protection mechanism

Matías Miguez, Joel Gak, Alfredo Arnaud

Department of Engineering

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

An integrated switch to control electrical stimuli in implantable medical devices is presented. First a self-biased protection mechanism to avoid V_GS reaching maximum rated value is presented. Then, using a HV-CMOS technology this technique is incorporated in a fully integrated switch, to control 0 to 16V, and 0 to 30 MA, pulses for implantable stimulators. Because of the low supply voltage V_DD between 2 to 5V, and safety considerations in implantable devices, special level shifters, drivers, and a voltage multiplier, that drive a large 40000μm/3μm dual-in-series PMOS switch, were necessary for the circuit. The circuit was fabricated in a HV 0.6μm CMOS technology in SOI wafer for transistor isolation, and tested. Measurement results that closely fit the expected performance of the circuit are presented.

Original language	English
Pages (from-to)	7-15
Number of pages	9
Journal	Journal of Integrated Circuits and Systems
Volume	5
Issue number	1
State	Published - Mar 2010

Keywords

HV technology
High voltage CMOS
Medical devices

Cite this

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abstract = "An integrated switch to control electrical stimuli in implantable medical devices is presented. First a self-biased protection mechanism to avoid VGS reaching maximum rated value is presented. Then, using a HV-CMOS technology this technique is incorporated in a fully integrated switch, to control 0 to 16V, and 0 to 30 MA, pulses for implantable stimulators. Because of the low supply voltage VDD between 2 to 5V, and safety considerations in implantable devices, special level shifters, drivers, and a voltage multiplier, that drive a large 40000μm/3μm dual-in-series PMOS switch, were necessary for the circuit. The circuit was fabricated in a HV 0.6μm CMOS technology in SOI wafer for transistor isolation, and tested. Measurement results that closely fit the expected performance of the circuit are presented.",

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N2 - An integrated switch to control electrical stimuli in implantable medical devices is presented. First a self-biased protection mechanism to avoid VGS reaching maximum rated value is presented. Then, using a HV-CMOS technology this technique is incorporated in a fully integrated switch, to control 0 to 16V, and 0 to 30 MA, pulses for implantable stimulators. Because of the low supply voltage VDD between 2 to 5V, and safety considerations in implantable devices, special level shifters, drivers, and a voltage multiplier, that drive a large 40000μm/3μm dual-in-series PMOS switch, were necessary for the circuit. The circuit was fabricated in a HV 0.6μm CMOS technology in SOI wafer for transistor isolation, and tested. Measurement results that closely fit the expected performance of the circuit are presented.

AB - An integrated switch to control electrical stimuli in implantable medical devices is presented. First a self-biased protection mechanism to avoid VGS reaching maximum rated value is presented. Then, using a HV-CMOS technology this technique is incorporated in a fully integrated switch, to control 0 to 16V, and 0 to 30 MA, pulses for implantable stimulators. Because of the low supply voltage VDD between 2 to 5V, and safety considerations in implantable devices, special level shifters, drivers, and a voltage multiplier, that drive a large 40000μm/3μm dual-in-series PMOS switch, were necessary for the circuit. The circuit was fabricated in a HV 0.6μm CMOS technology in SOI wafer for transistor isolation, and tested. Measurement results that closely fit the expected performance of the circuit are presented.

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An integrated switch in a HV-SOI wafer technology, with a novel self-protection mechanism

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