Kerim Türe scite author profile

Kerim Türe

4Publications

28Citation Statements Received

82Citation Statements Given

How they've been cited

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112

Affiliations

École Polytechnique Fédérale de Lausanne, University College London, Weatherford College

Publications

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Area and Power Efficient Ultra-Wideband Transmitter Based on Active Inductor

Türe

Arnout

Maloberti

et al. 2018

IEEE Trans. Circuits Syst. II

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This paper presents the design of an impulse radio ultra-wideband (IR-UWB) transmitter for low-power, shortrange, and high-data rate applications such as high density neural recording interfaces. The IR-UWB transmitter pulses are generated by modulating the output of a local oscillator. The large area requirement of the spiral inductor in a conventional on-chip LC tank is overcome by replacing it with an active inductor topology. The circuit has been fabricated in a UMC CMOS 180 nm technology, with a die area of 0.012 mm 2. The temporal width of the output waveform is determined by a pulse generator based on logic gates. The measured pulse is compliant with Federal Communications Commission (FCC) power spectral density limits and within the frequency band of 3-6 GHz. For the minimum pulse duration of 1 ns, the energy consumption of the design is 20 pJ per bit, while transmitting at a 200 Mbps data rate with an amplitude of 130 mV. Index Terms-Wireless data transmission, low-power, highdata rate, impulse radio ultra-wideband (IR-UWB) transmitter, pulse generation, active inductor.

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Implantable Monitoring System for Epilepsy

Türe

Dehollain

Maloberti

2020

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A 0.4 nJ Excitation Energy Bridge-to-Digital Converter for Implantable Pulmonary Artery Pressure Monitoring

Besirli

Türe

Barrettino

et al. 2021

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Adaptive Learning-Based Compressive Sampling for Low-power Wireless Implants

Aprile

Türe

Baldassarre

et al. 2018

IEEE Trans. Circuits Syst. I

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Implantable systems are nowadays being used to interface the human brain with external devices, in order to understand and potentially treat neurological disorders. The most predominant design constraints are the system's area and power. In this paper, we implement and combine advanced compressive sampling algorithms to reduce the power requirements of wireless telemetry. Moreover, we apply variable compression, to dynamically modify the device performance, based on the actual signal need. This paper presents an area-efficient adaptive system for wireless implantable devices, which dynamically reduces the power requirements yielding compression rates from 8× to 64×, with a high reconstruction performance, as qualitatively demonstrated on a human data set. Two different versions of the encoder have been designed and tested, one with and the second without the adaptive compression, requiring an area of 230×235 μm and 200 × 190 μm, respectively, while consuming only 0.47 μW at 0.8 V. The system is powered by a 4-coil inductive link with measured power transmission efficiency of 36%, while the distance between the external and internal coils is 10 mm. Wireless data communication is established by an OOK modulated narrowband and an IR-UWB transmitter, while consuming 124.2 pJ/bit and 45.2 pJ/pulse, respectively.Index Terms-Implantable integrated circuit, area-efficient, low-power, compressive sensing, neural signals, learning-based digital signal processing, signal recovery.

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Kerim Türe

Area and Power Efficient Ultra-Wideband Transmitter Based on Active Inductor

Implantable Monitoring System for Epilepsy

A 0.4 nJ Excitation Energy Bridge-to-Digital Converter for Implantable Pulmonary Artery Pressure Monitoring

Adaptive Learning-Based Compressive Sampling for Low-power Wireless Implants

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