Amin Hazrati Marangalou scite author profile

Amin Hazrati Marangalou

3Publications

1Citation Statement Received

22Citation Statements Given

How they've been cited

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Affiliations

Worcester Polytechnic Institute, Graz University of Technology, Silicon Austria Labs (Austria)

Publications

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Wireless Photometry Prototype for Tri-Color Excitation and Multi-Region Recording

et al. 2022

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Visualizing neuronal activation and neurotransmitter release by using fluorescent sensors is increasingly popular. The main drawback of contemporary multi-color or multi-region fiber photometry systems is the tethered structure that prevents the free movement of the animals. Although wireless photometry devices exist, a review of literature has shown that these devices can only optically stimulate or excite with a single wavelength simultaneously, and the lifetime of the battery is short. To tackle this limitation, we present a prototype for implementing a fully wireless photometry system with multi-color and multi-region functions. This paper introduces an integrated circuit (IC) prototype fabricated in TSMC 180 nm CMOS process technology. The prototype includes 3-channel optical excitation, 2-channel optical recording, wireless power transfer, and wireless data telemetry blocks. The recording front end has an average gain of 107 dB and consumes 620 μW of power. The light-emitting diode (LED) driver block provides a peak current of 20 mA for optical excitation. The rectifier, the core of the wireless power transmission, operates with 63% power conversion efficiency at 13.56 MHz and a maximum of 87% at 2 MHz. The system is validated in a laboratory bench test environment and compared with state-of-the-art technologies. The optical excitation and recording front end and the wireless power transfer circuit evaluated in this paper will form the basis for a future miniaturized final device with a shank that can be used in in vivo experiments.

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Digitally Controllable ASIC for Tri-Color Wireless Photometry

Kirschner

Marangalou

Tsuno

et al. 2022

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An On-Chip Analog Spectrum Analyzer Based on Miller Frequency Divider

Marangalou

Sondon

Kale

et al. 2020

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