dr Nikša Tadić
redovni profesor | Elektrotehnički fakultet Rođen je 27.03.1966. u Dečanima, Srbija. Osnovnu i srednju školu završio je u Titogradu. Dobitnik je diploma Luča I za osnovnu i srednju školu. Izabran je za najboljeg učenika Gimnazije “Slobodan Škerović” u Titogradu za školsku 1984/85 godinu.
Nastava
Izabrane publikacije
| Godina | Kategorija | Autori | Naslov | Izvor |
|---|---|---|---|---|
| 2023 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Rešetar, M., Erceg, M. & Dervić, A., | A Current-Mode Interface With Mixed Single/Dual Slope Integration for Differential Capacitive Sensors | IEEE Transactions on Instrumentation and Measurement |
| 2023 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Ratković, G., Erceg, M. & Dervić, A. | RC-to-Digital Converter Using Single-Slope Integration With Bisection of the Reference Voltage | IEEE Transactions on Instrumentation and Measurement |
| 2023 | SCI, SCIE, SSCI, A&HCI | Erceg, M., Marković, A. & Tadić, N. | A 30 kHz/√V Sensitivity Square-Rooting Voltage-to-Frequency Converter | IEEE Transactions on Instrumentation and Measurement |
| 2021 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Dervić, A., Erceg, M. & Zimmermann, H. | A 40 µW –30 mW generated power, 280Ω - 1.68 kΩ load resistance CMOS controllable constant-power source for thermally-based sensor applications | Analog Integrated Circuits and Signal Processing |
| 2021 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Petrić, D., Erceg, M. & Dervić, A. | CMRR Enhancement in Instrumentation Amplifiers Using an Algorithmic Approach With Dynamic Analog Signal Processing | IEEE Transactions on Instrumentation and Measurement |
| 2020 | SCI, SCIE, SSCI, A&HCI | Dervić, A., Tadić, N., Mahmoudi, H., Goll, B., Hofbauer, M. & Zimmermann, H. | Single-pixel postprocessing-free 5 Mbps quantum random number generator using a single-photon avalanche diode detector and a T/(T - t) pulse-shaped laser driver | Optical Engineering |
| 2019 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Dervić, A., Erceg, M., Goll, B., & Zimmermann, H. | A 54.2 dB Current Gain Dynamic Range, 1.78 GHz Gain-Bandwidth Product CMOS Voltage-Controlled Current Amplifier/Attenuator | IEEE Transactions on Circuits and Systems II: Express Briefs |
| 2019 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Dervić, A., Erceg, M., Goll, B. & Zimmermann, H. | 1.3 V supply voltage, high bandwidth, 100 nA minimum amplitude BiCMOS voltage-controlled current source | Analog Integrated Circuits and Signal Processing |
| 2018 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Erceg, M., Dervić, A. & Gobović, D. | An analog controllable CMOS constant-power source for a thermally-based sensor interface using a resistive mirror architecture | IEEE Sensors Journal |
| 2017 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Goll, B. & Zimmermann, H. | Laser diode current driver with (1-t/T)-1 time dependence in 0.35 um BiCMOS technology for quantum random number generators | IEEE Transactions on Circuits and Systems, part II: Express Briefs |
| 2016 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Goll, B. & Zimmermann, H. | 100 MHz current generator with T/(T − t) time waveform in 0.35 μm BiCMOS technology | Electronics Letters |
| 2014 | SCI, SCIE, SSCI, A&HCI | Tadić, N. Schidl, S. & Zimmermann, H. | Vertical triple-junction RGB optical sensor with signal processing based on the determination of the space-charge region borders | Optics Letters |
| 2014 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Zogović, M. & Gobović, D. | A CMOS controllable constant-power source for variable resistive loads using resistive mirror with large load resistance dynamic range | IEEE Sensors Journal |
| 2013 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Zogović, M., Gaberl, W. & Zimmermann, H. | On frequency response and stability of an optical frontend with variable-gain current amplifier using a BJT translinear loop | International Journal of Circuit Theory and Applications |
| 2011 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Zogović, M., Gaberl, W., & Zimmermann, H. | A 78.4 dB photo-sensitivity dynamic range, 285 THz transimpedance bandwidth product BiCMOS optical sensor for optical storage systems | IEEE Journal of Solid-State Circuits |
| 2011 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Gaberl, W., Zogović, M. & Zimmermann, H. | A BJT Translinear Loop Based Optoelectronic Integrated Circuit with Variable Transimpedance for Optical Storage Systems | Analog Integrated Circuits and Signal Processing |
| 2010 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Zogović, M., Banjević, M. & Zimmermann, H. | A Low-Voltage CMOS Adapter Circuit Suitable for Input Rail-to-Rail Operation | International Journal of Electronics |
| 2010 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Banjević, M., Schloegl, F. & Zimmermann, H. | Rail-to-rail BiCMOS operational amplifier using input signal adapters with floating outputs | Analog Integrated Circuits and Signal Processing |
| 2010 | SCOPUS | Tadić, N. & Zogović, M. | A low-voltage CMOS voltage-controlled resistor with wide resistance dynamic range | Proc. of 27th International Conference on Microelectronics, MIEL 2010 |
| 2009 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Marchlewski, A. & Zimmermann, H. | A 122 THz transimpedance bandwidth product BiCMOS optical sensor front-end with a 54.7 dB voltage-controlled photo-sensitivity range | Analog Integrated Circuits and Signal Processing |
| 2008 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Zimmermann, H. | Optical receiver with widely tunable sensitivity in BiCMOS technology | IEEE Transactions on Circuits and Systems, part I: Regular papers |
| 2008 | SCI, SCIE, SSCI, A&HCI | Tadić, N., Marchlewski, A. & Zimmermann, H. | BiCMOS optical receiver with 54.7 dB voltage-controlled sensitivity range | Electronics Letters |
| 2008 | SCOPUS | Tadić, N., Marchlewski, A. & Zimmermann, H. | Optical receiver with voltage-controlled transimpedance in BiCMOS technology with a gain bandwidth product of 126 TΩHz | Proc. of the IEEE International Conference on Microelectronics MIEL |
| 2008 | SCOPUS | Tadić, N., Banjević, M., Schloegl, F. & Zimmermann, H. | Input adapter based BiCMOS operational amplifier with rail-to-rail capability | Proc. of the IEEE International Conference on Microelectronics MIEL |
| 2007 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Gobović, D. | Smart sensor interfacing circuit using square-rooting current-to-frequency conversion | International Journal of Electronics |
| 2007 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Zimmermann, H. | Low-power BiCMOS optical receiver with voltage-controlled transimpedance | IEEE Journal of Solid-State Circuits |
| 2006 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Zimmermann, H. | Highly linear BiCMOS optical receiver with voltage-controlled sensitivity | Electronics Letters |
| 2006 | SCOPUS | Tadić, N. & Zimmermann, H. | Optical receiver with voltage-controlled transimpedance in BiCMOS technology | Proc. of the IEEE International Conference on Microelectronics MIEL |
| 2003 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Gobović, D. | A square-rooting current-to-frequency converter | IEEE Transactions on Instrumentation and Measurement |
| 2003 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Gobović, D. | Current-controlled CMOS transconductor using bisection of input voltage | Electronics Letters |
| 2002 | SCOPUS | Tadić, N. & Gobović, D. | A square-rooting current-to-frequency converter | Proc. of the IEEE Instrumentation and Measurement Technology Conference IMTC |
| 2001 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Gobović, D. | A voltage-controlled resistor in CMOS technology using bisection of the voltage range | IEEE Transactions on Instrumentation and Measurement |
| 2001 | SCOPUS | Tadić, N. & Gobović, D. | A floating, negative resistance voltage-controlled resistor | Proc. of the IEEE Instrumentation and Measurement Technology Conference IMTC |
| 2000 | SCI, SCIE, SSCI, A&HCI | Tadić, N. & Gobović, D. | Self-balancing linear bridge circuits with resistive mirrors for resistance measurement | IEEE Transactions on Instrumentation and Measurement |
| 2000 | SCI, SCIE, SSCI, A&HCI | Tadić, N. | Resistive mirror with the current-mode approach in bipolar technology | IEEE Transactions on Instrumentation and Measurement |
| 2000 | SCOPUS | Tadić, N. & Gobović, D. | A voltage-controlled resistor in CMOS technology using bisection of the voltage range | Proc. of the IEEE Instrumentation and Measurement Technology Conference IMTC |
| 2000 | SCOPUS | Tadić, N. & Gobović, D. | Self-Balancing DC bridge circuits using resistive mirror-based voltage-controlled resistors | Proc.of the IEEE Instrumentation and Measurement Technology Conference IMTC |
| 1999 | SCOPUS | Tadić, N. | A β-error elimination in the translinear reduction of the “log-antilog” multiplier/divider | Proc. of the IEEE Instrumentation and Measurement Technology Conference IMTC |
| 1998 | SCI, SCIE, SSCI, A&HCI | Tadić, N. | Resistive mirror-based voltage controlled resistor with generalized active devices | IEEE Transactions on Instrumentation and Measurement |
| 1998 | SCOPUS | Tadić, N. | Resistive mirror-based voltage-controlled resistor | Proc. of the IEEE Instrumentation and Measurement Technology Conference IMTC |