D.F. Lemmerhirt scite author profile

This paper reports the development and in-vivo testing of a compact multitransducer microsystem intended for neuroethology experiments, including studies of gait dynamics in free-running insects. The system incorporates a combination of custom and off-the-shelf components. Its suite of measurement devices comprises leg-mounted strain gauges, electromyogram (EMG) and extracellular electrodes for the central nervous system, and a two-axis accelerometer. For signal conditioning and selection, the microsystem implements off-the-shelf electronics in a custom chip-on-board configuration. The microsystem measures 16 mm x 19 mm, supports 40 components and 56 I/O leads, and is assembled on a four-layer printed-circuit board. The entire system occupies only 0.65 cm3 and weighs less than 5 g. It has been successfully used to monitor leg-strain and EMG signals on walking cockroaches and for stimulation in the insect central nervous and muscular systems.

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Chip-Scale Integration of Data-Gathering Microsystems

Lemmerhirt

Wise

2006

Proc. IEEE

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A 32 x 32 capacitive micromachined ultrasonic transducer array manufactured in standard CMOS

Lemmerhirt¹,

Cheng²,

White

et al. 2012

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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As ultrasound imagers become increasingly portable and lower cost, breakthroughs in transducer technology will be needed to provide high-resolution, real-time 3-D imaging while maintaining the affordability needed for portable systems. This paper presents a 32 x 32 ultrasound array prototype, manufactured using a CMUT-in-CMOS approach whereby ultrasonic transducer elements and readout circuits are integrated on a single chip using a standard integrated circuit manufacturing process in a commercial CMOS foundry. Only blanket wet-etch and sealing steps are added to complete the MEMS devices after the CMOS process. This process typically yields better than 99% working elements per array, with less than ±1.5 dB variation in receive sensitivity among the 1024 individually addressable elements. The CMUT pulseecho frequency response is typically centered at 2.1 MHz with a -6 dB fractional bandwidth of 60%, and elements are arranged on a 250 μm hexagonal grid (less than half-wavelength pitch). Multiplexers and CMOS buffers within the array are used to make on-chip routing manageable, reduce the number of physical output leads, and drive the transducer cable. The array has been interfaced to a commercial imager as well as a set of custom transmit and receive electronics, and volumetric images of nylon fishing line targets have been produced.

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CMUT-in-CMOS ultrasonic transducer arrays with on-chip electronics

Cheng¹,

Lemmerhirt²,

Kripfgans

et al. 2009

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D.F. Lemmerhirt

Modeling and Characterization of CMOS-Fabricated Capacitive Micromachined Ultrasound Transducers

A Multitransducer Microsystem for Insect Monitoring and Control

Chip-Scale Integration of Data-Gathering Microsystems

A 32 x 32 capacitive micromachined ultrasonic transducer array manufactured in standard CMOS

CMUT-in-CMOS ultrasonic transducer arrays with on-chip electronics

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