N.S. Dogan scite author profile

N.S. Dogan

5Publications

131Citation Statements Received

2Citation Statements Given

How they've been cited

270

128

How they cite others

Affiliations

North Carolina Agricultural and Technical State University, Washington State University, Tuskegee University

Publications

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MICS Transceivers: Regulatory Standards and Applications

Savci

Sula

Wang

et al.

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The Medical Implant Communications Service (MICS) is an ultra-low power, unlicensed, mobile radio service for transmitting data in support of diagnostic or therapeutic functions associated with implanted medical devices. The US Federal Communications Commission (FCC) allocated 402-405 MHz frequency band for MICS operations on a shared, secondary basis in 1999. Although it is a fairly new standard, its usage is rapidly increasing in medical implant devices such as Cardiac Pacemakers, ImplantableCardioverter Defibrillator, Neurostimulators, Hearing Aids and Automated Drug Delivery Systems. This paper reviews the regulatory standards and the characteristics of MICS transceivers.

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Highly stable bilayer lipid membranes (BLMs) formed on microfabricated polyimide apertures

Eray

Dogan

Liu

et al. 1994

Biosensors and Bioelectronics

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Broadband electrostatic transducers: Modeling and experiments

Anderson

Hill

Fortunko

et al. 1995

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A model for broadband electrostatic transducers capable of generating and detecting ultrasound in air at megahertz frequencies has been developed. This model uses a lumped parameter approximation to describe a transducer with a grooved backplate and a stretched diaphragm. The mechanical stiffness effects included in the model are compressibility of the air gap separating the diaphragm and the backplate, flexure bending stiffness of the diaphragm, and in-plane tension forces applied to the diaphragm. A prototype transducer with backplate grooves 200 μm wide and 3.75 μm deep was constructed using micromachining techniques. Measurements of the electrical admittance and transmit sensitivity were made at various polarization voltages and diaphragm tensions. Model predictions of transducer electrical admittance and transmit sensitivity compare well with experimental data. The resonance frequency is predicted within 50 kHz of the nominal measured value near 500 kHz, and model predictions of transmit sensitivity were within 0–4 dB of measured values.

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Zero-temperature-coefficient biasing point of partially depleted SOI MOSFET's

Osman

Dogan

et al. 1995

IEEE Trans. Electron Devices

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A highly stable and selective biosensor using modified nicotinic acetylcholine receptor (nAChR)

et al. 1995

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N.S. Dogan

MICS Transceivers: Regulatory Standards and Applications

Highly stable bilayer lipid membranes (BLMs) formed on microfabricated polyimide apertures

Broadband electrostatic transducers: Modeling and experiments

Zero-temperature-coefficient biasing point of partially depleted SOI MOSFET's

A highly stable and selective biosensor using modified nicotinic acetylcholine receptor (nAChR)

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