U. Cilingiroglu scite author profile

U. Cilingiroglu

5Publications

98Citation Statements Received

49Citation Statements Given

How they've been cited

210

How they cite others

Affiliations

Yeditepe University, Texas A&M University, Istanbul Technical University

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A capacitive threshold-logic gate

Özdemir

Kepkep

Pamir

et al. 1996

IEEE J. Solid-State Circuits

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A dense and fast threshold-logic gate with a very high fan-in capacity is described. The gate performs sum-ofproduct and thresholding operations in an architecture comprising a poly-to-poly capacitor array and an inverter chain. The Boolean function performed by the gate is soft programmable. This is accomplished by adjusting the threshold with a dc voltage. Essentially, the operation is dynamic and thus, requires periodic reset. However, the gate can evaluate multiple input vectors in between two successive reset phases because evaluation is nondestructive. Asynchronous operation is, therefore, possible. The paper presents an electrical analysis of the gate, identifies its limitations, and describes a test chip containing four different gates of fan-in 30, 62, 127, and 255. Experimental results confirming proper functionality in all these gates are given, and applications in arithmetic and logic function blocks are described.

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On-Chip Photovoltaic Energy Conversion in Bulk-CMOS for Indoor Applications

Cilingiroglu

Tar

Ozmen

2014

IEEE Trans. Circuits Syst. I

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A CMOS K-winners-take-all circuit with O(n) complexity

Sekerkiran

Cilingiroglu

1999

IEEE Trans. Circuits Syst. II

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An evaluation of MOS interface-trap charge pump as an ultralow constant-current generator

Cilingiroglu

Becker-Gomez

Veeder

2003

IEEE J. Solid-State Circuits

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In this work, we explore the MOS interface-trap charge-pump as an ultralow constant-current generator for analog CMOS applications. Charge pumping techniques in general are more suitable than conventional continuous-time techniques for ultralow current generation because the linear controllability of current by frequency is maintained regardless of the level of current. An interface-trap pump has the same property but the minimum charge it puts out per cycle is at least two orders of magnitude smaller than that of a switched-capacitor charge pump. This helps generate the same current more accurately at a much higher frequency with a much smaller filter capacitance. The paper presents a simplified model of the terminal characteristics of the interface-trap pump and an evaluation of its performance as a stand-alone current generator. Cascoding and complementary pumping are introduced as measures of performance improvement. Temperature sensitivity, pulse feedthrough, controllability, matching, reliability, and trimming issues are addressed. Transconductor circuits built with the charge pump are presented and experimentally evaluated.

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A compact high-speed (31,5) parallel counter circuit based on capacitive threshold-logic gates

Leblebici

Özdemir

Kepkep

et al. 1996

IEEE J. Solid-State Circuits

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U. Cilingiroglu

A capacitive threshold-logic gate

On-Chip Photovoltaic Energy Conversion in Bulk-CMOS for Indoor Applications

A CMOS K-winners-take-all circuit with O(n) complexity

An evaluation of MOS interface-trap charge pump as an ultralow constant-current generator

A compact high-speed (31,5) parallel counter circuit based on capacitive threshold-logic gates

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