Tomasz Kulej (0000-0002-6315-9292)

Personal information

No personal information available

Biography

Tomasz Kulej received the M.Sc. and Ph.D. degrees
(Hons.) from Gdansk University of Technology,
Gdansk, Poland, in 1990 and 1996, respectively.
He was a Senior Design Analysis Engineer at polish
branch of Chipworks Inc., Ottawa, Canada. He is
currently an Associate Professor with the Department
of Electrical Engineering, Czestochowa University
of Technology, Poland, where he conducts lectures
on electronics fundamentals, analog circuits, and
computer aided design. He has authored or coauthored
over 70 publications in peer-reviewed journals
and conferences. He holds three patents. His recent research interests
include analog integrated circuits in CMOS technology, with emphasis to
low voltage and low power solutions. He serves as an Associate Editor of the
Circuits Systems and Signal Processing and IET Circuits Devices and Systems.
He was also a Guest Editor for the special issues on Low Voltage Integrated
Circuits on Circuits Systems and Signal Processing (2017), and IET Circuits
Devices and Systems (2018).

Activities

Collapse all

Czestochowa University of Technology: Czestochowa, PL

2019-02-01 to present | Associate Professor (Electrical Engineering)

Employment

Tomasz Kulej

https://orcid.org/0000-0002-6315-9292

Personal information

Biography

Activities

Employment (4)

Czestochowa University of Technology: Czestochowa, PL

Czestochowa University of Technology: Czestochowa, PL

Chipworks Inc: Ottawa, ON, CA

Częstochowa University of Technology: Częstochowa, PL

Education and qualifications (2)

Gdansk University of Technology: Gdansk, PL

Gdansk University of Technology: Gdansk, PL

Works (50 of 52)

0.3-V Bulk-Driven Nanopower OTA-C Integrator in 0.18 µm CMOS

0.3V bulk-driven current conveyor

0.5 V bulk-driven CMOS fully differential current feedback operational amplifier

0.5 V Universal Filter Based on Multiple-Input FDDAs

0.5 V sixth-order Chebyshev band-pass filter based on multiple-input bulk-driven OTA

A 0.3-V 37-nW 53-dB SNDR asynchronous delta-sigma modulator in 0.18-μm CMOS

A 0.5-V Bulk-Driven Active Voltage Attenuator

A Compact 0.3-V Class AB Bulk-Driven OTA

A compact power-efficient 0.5 V fully differential difference amplifier

Bulk-driven fully balanced second-generation current conveyor in 0.18 µm CMOS

Comparative performance study of multiple-input bulk-driven and multiple-input bulk-driven quasi-floating-gate DDCCs

Design and implementation of a 0.3-v differential difference amplifier

Multiple-Input Bulk-Driven MOS Transistor for Low-Voltage Low-Frequency Applications

Multiple-input bulk-driven quasi-floating-gate MOS transistor for low-voltage low-power integrated circuits

Design and implementation of sub 0.5-V OTAs in 0.18-μm CMOS

Guest Editorial: Low voltage low power integrated circuits and systems

Low-voltage fully differential difference transconductance amplifier

0.3-V bulk-driven programmable gain amplifier in 0.18-µm CMOS

0.5 V bulk-driven ring amplifier based on master–slave technique

Bulk-driven class AB fully-balanced differential difference amplifier

Extremely Low-Voltage Bulk-Driven Tunable Transconductor

Fully-balanced four-terminal floating nullor for ultra-low voltage analogue filter design

Guest Editorial: Low-Voltage Integrated Circuits and Systems

Low-Voltage Diode-Less Rectifier Based on Fully Differential Difference Transconductance Amplifier

Shadow filters based on DDCC

Sub 0.5-V bulk-driven LTA in 0.18 μm CMOS

Sub 0.5-V bulk-driven winner take all circuit based on a new voltage follower

1-V Inverting and Non-inverting Loser-Take-All Circuit and Its Applications

Low-voltage low-power bulk-driven analog median filter

0.4-V bulk-driven differential-difference amplifier

0.4-V Bulk-Driven Operational Amplifier with Improved Input Stage

0.5-V bulk-driven OTA and its applications

0.5-V DTMOS median filter

1 V Rectifier Based on Bulk-Driven Quasi-Floating-Gate Differential Difference Amplifiers

A 0.5 v bulk-driven voltage follower/DC level shifter and its application in class AB output stage

A digitally programmable gain amplifier for ultra-low-power applications

Bulk-driven adaptively biased OTA in 0.18 μm CMOS

Digitally programmable low-voltage highly linear transconductor based on promising CMOS structure of differential difference current conveyor

Novel current controlled differential-input buffered output active element and its application in all-pass filter

Sub-volt fully balanced differential difference amplifier

Ultra low-voltage low-power current conveyor transconductance amplifier

0.5-V bulk-driven CMOS operational amplifier

Regulated capacitance multiplier in CMOS technology,Regulowany multiplikator pojemności w technologii CMOS

Bulk-driven, pseudo-differential amplifier in CMOS technology,Wzmacniacz pseudoróżnicowy CMOS, sterowany z elektrod podłoża o ulepszonej liniowości

Low-voltage, bulk-driven transconductance amplifier in CMOS technology,Niskonapie{ogonek}ciowy wzmacniacz transkonduktancyjny CMOS, sterowany z elektrod podłoża

Low-voltage, current-mode biquad filter in CMOS technology for low frequency applications,Niskonapiȩciowy filtr bikwadratowy CMOS, pracuja̧cy w trybie pra̧dowym na zakres małych czȩstotliwości

Low voltage low transconductance OTA in 50 nm CMOS

Regulated capacitance multiplier in CMOS technology

Ultra low power analog standard cell for low frequency CMOS filters design

Current-mode LP CMOS active filter for very low frequency applications

0.5 V sixth-order Chebyshev band-pass filter based on multiple-input bulk-driven OTA

A compact power-efficient 0.5 V fully differential difference amplifier

Bulk-driven fully balanced second-generation current conveyor in 0.18 µm CMOS