Chris Kapusta scite author profile

Chris Kapusta

5Publications

78Citation Statements Received

33Citation Statements Given

How they've been cited

168

How they cite others

Affiliations

GE Global Research (United States), General Electric (United States), General Electric (Israel)

Publications

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A hydromechanical biomimetic cochlea: Experiments and models

Chen¹,

Cohen²,

Bifano³

et al. 2006

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The construction, measurement, and modeling of an artificial cochlea (ACochlea) are presented in this paper. An artificial basilar membrane (ABM) was made by depositing discrete Cu beams on a piezomembrane substrate. Rather than two fluid channels, as in the mammalian cochlea, a single fluid channel was implemented on one side of the ABM, facilitating the use of a laser to detect the ABM vibration on the other side. Measurements were performed on both the ABM and the ACochlea. The measurement results on the ABM show that the longitudinal coupling on the ABM is very strong. Reduced longitudinal coupling was achieved by cutting the membrane between adjacent beams using a laser. The measured results from the ACochlea with a laser-cut ABM demonstrate cochlear-like features, including traveling waves, sharp high-frequency rolloffs, and place-specific frequency selectivity. Companion computational models of the mechanical devices were formulated and implemented using a circuit simulator. Experimental data were compared with simulation results. The simulation results from the computational models of the ABM and the ACochlea are similar to their experimental counterparts.

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Design and Development of a Package Using LCP for RF/Microwave MEMS Switches

Chen

Pham

Evers

et al. 2006

IEEE Trans. Microwave Theory Techn.

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Fabrication of Multimeasurand Sensor for Monitoring of a Li-Ion Battery

Knobloch

Kapusta

Karp

et al. 2018

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This paper details the fabrication and testing of a combined temperature and expansion sensor to improve state of charge (SOC) and state of health (SOH) estimation for Li-ion batteries. These sensors enable the characterization of periodic stress and strain changes in the electrode materials of Lithium-ion batteries during the charge and discharge process. These ultrathin sensors are built on a polyimide substrate which can enable direct integration between cells without compromising safety or cell cooling design. Leveraging the sensor design and fabrication process used to create inductive coil eddy current (EC) sensors for crack detection, these sensors were characterized on three Panasonic 5 A-h cells showing the capability to measure expansion of Li-ion batteries. By sensing the intercalation effects, which cause cell expansion, improvements in estimation of SOH and SOC can be enabled through the use of physics-based battery models, which combine the thermal, mechanical, and electrochemical aspects of its operation.

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A Wire-Bondless Packaging Platform for Silicon Carbide Power Semiconductor Devices

Yin

Kapusta

Gowda

et al. 2018

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As silicon carbide (SiC) power semiconductor devices continue to mature for market adoption, innovative power electronics packaging designs and materials are needed. Wire-bonding loop is one of the limiting factors in traditional module packaging methods. Wire-bondless packaging methods have been demonstrated with low losses and to allow integration of gate drive circuit. In this paper, a wire-bondless packaging platform, referred to as power overlay kiloWatt (POL-kW), for SiC devices is presented. The packaging platform is intended for motor drives and power conversion in automotive, aerospace, and renewable power applications. POL-kW module's electrical and thermal performances are first summarized from previous experimental evaluations and numerical simulations. Although some of the evaluations were made using Si and Si–SiC hybrid modules, the results are applicable to SiC modules. Compared with aluminum wire-bonds, the utilization of polyimide-based Cu via interconnections resulted in much reduced parasitic inductance, contributing to significantly lower switching loss and less voltage overshoot. The POL-kW module with integrated heat sinks showed low thermal resistance, which was further reduced by double-sided cooling. Recent reliability results are presented, including high-temperature storage, temperature cycling, and power cycling.

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Eddy current sensor for in-situ monitoring of swelling of Li-ion prismatic cells

Plotnikov

Karp

Knobloch

et al. 2015

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Chris Kapusta

A hydromechanical biomimetic cochlea: Experiments and models

Design and Development of a Package Using LCP for RF/Microwave MEMS Switches

Fabrication of Multimeasurand Sensor for Monitoring of a Li-Ion Battery

A Wire-Bondless Packaging Platform for Silicon Carbide Power Semiconductor Devices

Eddy current sensor for in-situ monitoring of swelling of Li-ion prismatic cells

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