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Milena Erceg

dr Milena Erceg

vanredni profesor | Elektrotehnički fakultet

Milena Erceg rođena je 30.03.1984. godine u Podgorici. Osnovnu školu "Milorad Musa Burzan" završila je 1998. godine.  Dobitnik je diplome "LUČA", a proglašena je i za "Učenika generacije 97/98. godine". Gimnaziju "Slobodan Škerović", prirodno-matematički smjer, završila je 2002. godine. Dobitnik je diplome "LUČA I", a dodijeljena joj je i "Diploma za najboljeg učenika generacije". Elektrotehnički fakultet u Podgorici upisala je 2002. godine. U toku studija bila je korisnik stipendije Opštine Podgorica, kao i Stipendije...

Izabrane publikacije

Godina Kategorija Autori Naslov Izvor
2025SCI, SCIE, SSCI, A&HCI
Tadić, N., Petričević, D., Erceg, M., Dervić, A. & Zimmermann, H.Voltage-Controlled Pulsed Current Source With Hyperbolic, Squared Hyperbolic, and Quasi-Dirac Delta Function Time DependenceIEEE Transactions on Instrumentation and Measurement
2023SCI, 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 SensorsIEEE Transactions on Instrumentation and Measurement
2023SCI, 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 VoltageIEEE Transactions on Instrumentation and Measurement
2023SCI, SCIE, SSCI, A&HCI
Erceg, M., Marković, A. & Tadić, N.A 30 kHz/√V Sensitivity Square-Rooting Voltage-to-Frequency ConverterIEEE Transactions on Instrumentation and Measurement
2022SCI, SCIE, SSCI, A&HCI
Radović, N., Prelević, V., Erceg, M. & Antunović, TMachine learning approach in mortality rate prediction for hemodialysis patientComputer Methods in Biomechanics and Biomedical Engineering
2021SCI, 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 applicationsAnalog Integrated Circuits and Signal Processing
2021SCI, 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 ProcessingIEEE Transactions on Instrumentation and Measurement
2021SCI, SCIE, SSCI, A&HCI
Radović, N. & Erceg, M.Hardware implementation of the upper confidence-bound algorithm for reinforcement learningComputers and Electrical Engineering
2019SCI, 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/AttenuatorIEEE Transactions on Circuits and Systems II: Express Briefs
2019SCI, 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 sourceAnalog Integrated Circuits and Signal Processing
2018SCI, SCIE, SSCI, A&HCI
Erceg, M.A Controllable Constant Power Generator in 0.35 μm CMOS Technology for Thermal-Based Sensor ApplicationsJournal of Sensors
2018SCI, 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 architectureIEEE Sensors Journal
2014SCI, 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 rangeIEEE Sensors Journal
2013SCI, 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 loopInternational Journal of Circuit Theory and Applications
2011SCI, SCIE, SSCI, A&HCI
Tadić, N., Zogović, M., Gaberl, W., & Zimmermann, H.A 78.4 dB photo-sensitivity dynamic range, 285 THz transimpedance bandwidth product BiCMOS optical sensor for optical storage systemsIEEE Journal of Solid-State Circuits
2011SCI, 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 SystemsAnalog Integrated Circuits and Signal Processing
2010SCI, SCIE, SSCI, A&HCI
Tadić, N., Zogović, M., Banjević, M. & Zimmermann, H.A Low-Voltage CMOS Adapter Circuit Suitable for Input Rail-to-Rail OperationInternational Journal of Electronics
2010SCOPUS
Tadić, N. & Zogović, M.A low-voltage CMOS voltage-controlled resistor with wide resistance dynamic rangeProc. of 27th International Conference on Microelectronics, MIEL 2010

Obavjestenja iz nastave

Elektronika telekomunikacije i računari-Mjerenja u elektronici

Termin održavanja popravnog kolokvijuma

Elektronika telekomunikacije i računari-Mjerenja u elektronici

Termin održavanja kolokvijuma

Elektronika telekomunikacije i računari-Mjerenja u elektronici

Termin održavanja nastave u ponedjeljak, 17.02.2025.

Elektronika telekomunikacije i računari, smjer Elektronika-Fizičko-tehnička mjerenja

Termin održavanja popravnog završnog ispita

Elektronika telekomunikacije i računari, smjer Elektronika-Fizičko-tehnička mjerenja

Termin održavanja završnog ispita

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