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ORCIDAdrijan Baric
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2020 – today
- 2024
[j13]Jurica Kundrata
, Adrijan Baric:
Clock Frequency Optimization of a Compensated Spread-Spectrum Controller in Buck Converters. IEEE Access 12: 4881-4891 (2024)- [j12]Andro Zamboki, Leo Gocan, Josip Mikulic, Gregor Schatzberger, Tomislav Markovic, Adrijan Baric:
Analysis and compensation of stress effects on CMOS reference current sources. Elektrotech. Informationstechnik 141(1): 29-36 (2024) - [c84]Andro Zamboki, Leo Gocan, Josip Mikulic, Gregor Schatzberger, Johannes Fellner, Tomislav Markovic, Adrijan Baric:
Automated Optimal Resistance Measurement Method for Precision Resistor Stress Response Analysis. MIPRO 2024: 1631-1636 - [c83]Leo Gocan, Andro Zamboki, Josip Mikulic, Gregor Schatzberger, Johannes Fellner, Tomislav Markovic, Adrijan Baric:
Analysis of Wheatstone Bridge Sensitivity for Applications in Integrated Piezoresistive Stress Sensors. MIPRO 2024: 1637-1642 - [c82]Mislav Krizan, Ivo Budanovic, Marin Coti, Jurica Kundrata, Vladimir Ceperic, Tvrtko Mandic, Tomislav Markovic, Adrijan Baric:
Design and Verification Challenges in SoC Integration of PicoRV32 RISC-V with Sigma-Delta ADC. MIPRO 2024: 1683-1687 - 2023
- [c81]Andro Zamboki, Leo Gocan, Josip Mikulic, Niko Bako, Gregor Schatzberger, Tomislav Markovic, Adrijan Baric:
Stress-Dependent MOSFET Model for Use in Circuit Simulations. MIPRO 2023: 184-189 - [c80]Leo Gocan, Andro Zamboki, Niko Bako, Josip Mikulic, Gregor Schatzberger, Tomislav Markovic, Adrijan Baric:
Low-Power Frequency-Locked Loop Circuit with Static Frequency Offset Cancellation. MIPRO 2023: 190-195 - [c79]Ivana Frankovic, Franjo Mikic, Josip Mikulic, Niko Bako, Gregor Schatzberger, Adrijan Baric:
Measurement System for Characterization of a Resistor Array in 180-nm CMOS Technology. MIPRO 2023: 202-207 - [c78]Alma Trazivuk, Adrijan Baric:
Performance Analysis of 1-MHz Voltage-Controlled Ring Oscillator Designed in 180-nm CMOS Technology for Phase-Locked Loop. MIPRO 2023: 208-212 - [c77]Hrvoje Stimac, Adrijan Baric:
Analysis of the Effect of Differential-Mode and Common-Mode Impedance Matching on the Common-Mode Rejection Ratio of a Differential Electro-Optical Voltage Probe. MIPRO 2023: 223-228 - [c76]Andrea Krizanic, Raul Blecic, Andro Broznic, Adrijan Baric:
Characterization of Ground Bounce and Conducted Emissions of Integrated Isolated DC-DC Converter. MIPRO 2023: 234-238 - [c75]Igor Krois, Adrijan Baric:
Characterization of Class-E Resonant Converter Operating in MHz-Range. MIPRO 2023: 239-241 - [c74]Kresimir Solaja, Raul Blecic, Andro Broznic, Adrijan Baric:
Design and Characterization of the Output Network of a High-Current Buck Converter. MIPRO 2023: 242-246 - [c73]Juraj Baca, Raul Blecic, Andro Broznic, Adrijan Baric:
Developing a Model of Buck Converter for EMI Filter Optimization by Circuit Simulations. MIPRO 2023: 247-252 - [c72]Jurica Kundrata, Adrijan Baric:
Implementation of Voltage Regulation in a Spread-Spectrum-Clocked Buck Converter. MIPRO 2023: 253-258 - 2022
- [j11]Jurica Kundrata, Ivan Skeledzija, Adrijan Baric:
EMI and Voltage Ripple Co-Optimization of a Spread-Spectrum Controller in Buck Converters. IEEE Access 10: 131909-131919 (2022) - [c71]Franjo Mikic, Josip Bacmaga, Adrijan Baric:
Evaluation of DrMOS-Based Buck Converter Operating in Diode Emulation Mode. ICECS 2022 2022: 1-4 - [c70]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Delay and Offset Compensated Relaxation Oscillator Core with Replica Integrator. MIPRO 2022: 168-173 - [c69]Andro Zamboki, Leo Gocan, Niko Bako, Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Low-Power Frequency-Locked Loop Circuit with Short Settling Time. MIPRO 2022: 174-179 - [c68]Alma Trazivuk, Adrijan Baric:
1-MHz Voltage-controlled Ring Oscillator Designed in 180-nm CMOS Technology for Implementation in Phase-locked Loop. MIPRO 2022: 180-184 - [c67]Jurica Kundrata, Ivan Skeledzija, Adrijan Baric:
Voltage Regulation in an Integrated Controller of a Spread-Spectrum-Clocked Buck Converter. MIPRO 2022: 185-190 - [c66]Mario Golubic, Jurica Kundrata, Ivan Skeledzija, Dimitri Ciaglia, Nicolas Pages, Johannes Fellner, Adrijan Baric:
Automated testing of ARM Cortex based SoC with I3C interface and temperature sensor. MIPRO 2022: 195-200 - 2021
- [j10]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Post-Manufacturing Process and Temperature Calibration of a 2-MHz On-Chip Relaxation Oscillator. IEEE Trans. Circuits Syst. I Regul. Pap. 68(10): 4076-4089 (2021) - [c65]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Self-Referenced 32-kHz Rotating Capacitor Relaxation Oscillator with Chopped Comparator Offset-Voltage Cancellation. MIPRO 2021: 1-5 - [c64]Tin Fogec, Josip Bacmaga, Igor Krois, Adrijan Baric:
Characterization of GaN-Based Synchronous Buck Converter Operating in MHz-Range. MIPRO 2021: 90-95 - [c63]Kresimir Spoljaric, Josip Mikulic, Adrijan Baric:
Design and Testing of an 8-Bit Current DAC in 180-nm CMOS Technology. MIPRO 2021: 107-112 - [c62]Ivan Skeledzija, Josip Mikulic, Adrijan Baric:
200-MHz and 400-MHz Self-Biased Temperature-Compensated Ring Oscillators in 180-nm CMOS Technology. MIPRO 2021: 113-118 - [c61]Alma Trazivuk, André Alberts, Adrijan Baric, Vladimir Ceperic:
Decoupling Analog Conservative Connections Using Waveform Relaxation Method. MIPRO 2021: 131-135 - [c60]Jurica Kundrata, Dubravko Tomic, Ivan Maretic, Adrijan Baric:
Particle filter implemented as a hardware accelerator in Cortex-M core periphery. MIPRO 2021: 154-159 - [c59]Mario Golubic, Jurica Kundrata, Adrijan Baric:
Verification of the Legacy Compatibility of the MIPI I3C Master. MIPRO 2021: 160-165 - 2020
- [c58]Josip Bacmaga, Tvrtko Mandic, Adrijan Baric:
Methodology for Characterization of Temperature and Power Losses of Inductors in DC/DC SMPS. ICECS 2020: 1-4 - [c57]Ivan Brezovec, Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Semi-Analytical Estimation of On-Chip Intertwined Rectangular Transformer Parameters in 180 nm CMOS Technology. MIPRO 2020: 71-76 - [c56]Ivan Kuljak, Ivan Tomic, Roman Bertolan, Josip Mikulic, Gregor Schatzberger, Johannes Fellner, Adrijan Baric:
Design and measurements of low power 32-kHz oscillators and a test interface in 180-nm CMOS technology. MIPRO 2020: 83-88 - [c55]Dubravko Tomic, Josip Mikulic, Gregor Schatzberger, Johannes Fellner, Adrijan Baric:
Programmable low-frequency divider in 180-nm CMOS technology. MIPRO 2020: 89-92 - [c54]David Osmanovic, Ivan Skeledzija, Kresimir Spoljaric, Domagoj Tomic, Josip Mikulic, Gregor Schatzberger, Johannes Fellner, Adrijan Baric:
Design of a tunable temperature coefficient voltage reference with low-dropout voltage regulator in 180-nm CMOS technology. MIPRO 2020: 93-98 - [c53]Ivan Porin Tolic, Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Design of CMOS Temperature Sensors Based on Ring Oscillators in 180-nm and 110-nm technology. MIPRO 2020: 104-108 - [c52]Jurica Kundrata, Daisuke Fujimoto, Yu-ichi Hayashi, Adrijan Baric:
Comparison of Pearson correlation coefficient and distance correlation in Correlation Power Analysis on Digital Multiplier. MIPRO 2020: 146-151
2010 – 2019
- 2019
- [j9]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
A 1-MHz Relaxation Oscillator Core Employing a Self-Compensating Chopped Comparator Pair. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(5): 1728-1736 (2019) - [c51]Fabio Pareschi, Raul Blecic, Mauro Mangia, Adrijan Baric, Riccardo Rovatti, Gianluca Setti:
Tuning a Resonant DC/DC Converter on the Second Harmonic for Improving Performance: A Case Study. ISCAS 2019: 1-5 - [c50]Ivan Porin Tolic, Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Design of Sense Amplifiers for Non-Volatile Memory. MIPRO 2019: 59-64 - [c49]Ivan Brezovec, Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Design Methodology of an On-Chip Inductor in 180 nm CMOS Technology. MIPRO 2019: 65-69 - [c48]Vedran Major, Josip Bacmaga, Renaud Gillon, Adrijan Baric:
Design and Characterization of Bias Tee Used for S-parameter Characterization of Power Inductors. MIPRO 2019: 82-86 - [c47]Tvrtko Mandic, Op't Land, Adrijan Baric:
Time-Domain Response Simulation of Incident Field Coupling to Transmission Lines. MIPRO 2019: 108-111 - 2018
- [c46]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
A 1-MHz Relaxation Oscillator Core Employing a Self-Compensating Chopped Comparator Pair. ISCAS 2018: 1-4 - [c45]Marko Magerl, Bertrand Courivaud, Christian Stockreiter, Adrijan Baric:
Modelling of a transmission line pulse measurement setup. MIPRO 2018: 84-88 - [c44]Raul Blecic, Josip Bacmaga, Adrijan Baric, Fabio Pareschi, Riccardo Rovatti, Gianluca Setti:
Impact of the Spread-Spectrum Technique on the Higher-Order Harmonics and Radiated Emissions of a Synchronous Buck Converter. NGCAS 2018: 13-16 - [c43]Josip Bacmaga, Raul Blecic, Roger Voaden, Adrijan Baric:
Characterization of Digital IC for Sub-Nanosecond Dead-Time Adjustment Used in Synchronous DC-DC Converters. NGCAS 2018: 74-77 - [c42]Raul Blecic, Josip Bacmaga, Adrijan Baric:
Characterization and Equivalent Circuit Model of 500-MHz Two-Port Electromagnetic Resonant Couplers for Isolated Gate Drivers. NGCAS 2018: 118-121 - 2017
- [j8]Niko Bako, Kyle Fricke, Robert Sobot, Adrijan Baric:
An 11-μ W, 9-bit fully differential, cyclic/algorithmic ADC in 0.13 μm CMOS. Int. J. Circuit Theory Appl. 45(8): 1095-1114 (2017) - [c41]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
A 1-MHz on-chip relaxation oscillator with comparator delay cancelation. ESSCIRC 2017: 95-98 - [c40]Josip Mikulic, Peter Sarson, Gregor Schatzberger, Adrijan Baric:
Fault-based test methodology for analog amplifier circuits. EWDTS 2017: 1-7 - [c39]Josip Bacmaga, Raul Blecic, Adrijan Baric:
Programmable digital IC for sub-nanoseconc dead-time adjustment used in synchronous switching DC-DC converters. ICIT 2017: 195-200 - [c38]Tvrtko Mandic, Adrijan Baric:
Active-learning implementation proposal for course Electronics at undergraduate level. MIPRO 2017: 13-16 - [c37]Ivan Brezovec, Marko Magerl, Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Characterization of measurement system for high-precision oscillator measurements. MIPRO 2017: 88-92 - [c36]Josip Mikulic, Ivan Brezovec, Marko Magerl, Gregor Schatzberger, Adrijan Baric:
Temperature calibration of an on-chip relaxation oscillator. MIPRO 2017: 93-97 - 2016
- [j7]Marko Magerl, Vladimir Ceperic, Adrijan Baric:
Echo State Networks for Black-Box Modeling of Integrated Circuits. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 35(8): 1309-1317 (2016) - [c35]Josip Mikulic, Gregor Schatzberger, Adrijan Baric:
Relaxation oscillator calibration technique with comparator delay regulation. MIPRO 2016: 57-61 - [c34]Filip Hormot, Josip Bacmaga, Adrijan Baric:
Infrared protection system for high-voltage testing of SiC and GaN FETs used in DC-DC converters. MIPRO 2016: 72-75 - [c33]Raul Blecic, Quentin Diduck, Adrijan Baric:
Minimization of maximum electric field in high-voltage parallel-plate capacitor. MIPRO 2016: 99-103 - [c32]Roko Mislov, Marko Magerl, Sandra Fratte-Sumper, Bernhard Weiss, Christian Stockreiter, Adrijan Baric:
Modelling SMD capacitors by measurements. MIPRO 2016: 104-109 - 2015
- [c31]Tvrtko Mandic, Raul Blecic, Renaud Gillon, Adrijan Baric:
DC/DC converter dead-time variation analysis and far-field radiation estimation. EMC Compo 2015: 7-12 - [c30]Raul Blecic, Renaud Gillon, Bart Nauwelaers, Adrijan Baric:
Radiation characteristics of small loop antenna above perforated finite image plane. EMC Compo 2015: 222-227 - [c29]Marko Magerl, Christian Stockreiter, Oliver Eisenberger, Rainer Minixhofer, Adrijan Baric:
Building interchangeable black-box models of integrated circuits for EMC simulations. EMC Compo 2015: 258-263 - [c28]Josip Bacmaga, Raul Blecic, Renaud Gillon, Adrijan Baric:
3D EM simulations and analysis of in-package metal plate interconnecting high-side and low-side FETs of DC-DC converter. ICECS 2015: 364-367 - [c27]Niko Bako, Zeljko Butkovic, Adrijan Baric:
Design of a power supply and voltage references for a wirelessly powered ADC in 0.18-µm CMOS. MIPRO 2015: 62-67 - [c26]Ivo Broz, Niko Bako, Zeljko Butkovic, Adrijan Baric:
RFID UHF protocol implementation in distributed sensor networks. MIPRO 2015: 68-73 - [c25]Jurica Kundrata, Adrijan Baric:
Comparison of electrical and electromagnetic properties of a planar inductor. MIPRO 2015: 83-86 - [c24]Filip Fajdetic, Mislav Mikic, Tvrtko Mandic, Adrijan Baric:
Effects influencing repeatability of direct power injection measurements. MIPRO 2015: 87-90 - [c23]Raul Blecic, Renaud Gillon, Bart Nauwelaers, Adrijan Baric:
SPICE analysis of RL and RC snubber circuits for synchronous buck DC-DC converters. MIPRO 2015: 91-97 - [c22]Filip Hormot, Josip Bacmaga, Adrijan Baric:
Dual-channel programmable precise time-delay pulse signal generator for synchronous DC-DC converter applications. MIPRO 2015: 98-102 - 2014
- [j6]Vladimir Ceperic, Niko Bako, Adrijan Baric:
A symbolic regression-based modelling strategy of AC/DC rectifiers for RFID applications. Expert Syst. Appl. 41(16): 7061-7067 (2014) - [j5]Vladimir Ceperic, Georges G. E. Gielen, Adrijan Baric:
Sparse ε-tube support vector regression by active learning. Soft Comput. 18(6): 1113-1126 (2014) - [c21]Marko Magerl, Tvrtko Mandic, Adrijan Baric:
Broadband characterization of SMA connectors by measurements. MIPRO 2014: 104-109 - [c20]Kresimir Ivanus, Adrijan Baric:
Application of TEM cell in measurement of electromagnetic fields of electronic modules. MIPRO 2014: 110-114 - [c19]Josip Bacmaga, Kristijan Bene, Branimir Pejcinovic, Adrijan Baric:
Evaluation of the operation of depletion-mode SiC power JFET in DC-DC converter applications. MIPRO 2014: 130-135 - [c18]K. Fukuda, Vladimir Ceperic, Adrijan Baric:
Photocopier PID controller with iterative error compensation. MIPRO 2014: 136-140 - [c17]Vladimir Ceperic, Adrijan Baric:
Reducing Complexity of Echo State Networks with Sparse Linear Regression Algorithms. UKSim 2014: 26-31 - 2013
- [j4]D. Vrtaric, Vladimir Ceperic, Adrijan Baric:
Area-efficient differential Gaussian circuit for dedicated hardware implementations of Gaussian function based machine learning algorithms. Neurocomputing 118: 329-333 (2013) - [j3]Niko Bako, Adrijan Baric:
A low-power, temperature and supply voltage compensated current starved ring oscillator. Microelectron. J. 44(12): 1154-1158 (2013) - [c16]Renaud Gillon, Niko Bako, Adrijan Baric:
Broadband detection of radiating moments using the TEM-cell and a phase-calibrated oscilloscope. EMC Compo 2013: 27-32 - [c15]Tvrtko Mandic, Renaud Gillon, Adrijan Baric:
IC-Stripline design optimization using response surface methodology. EMC Compo 2013: 69-73 - [c14]Thomas Steinecke, Markus Unger, Stanislav Scheier, Stephan Frei, Josip Bacmaga, Adrijan Baric:
System-ESD validation of a microcontroller with external RC-filter. EMC Compo 2013: 196-201 - [c13]Vladimir Ceperic, Georges G. E. Gielen, Adrijan Baric:
Black-Box Modelling of AC-DC Rectifiers for RFID Applications Using Support Vector Regression Machines. UKSim 2013: 815-819 - 2012
- [j2]Vladimir Ceperic, Georges G. E. Gielen, Adrijan Baric:
Recurrent sparse support vector regression machines trained by active learning in the time-domain. Expert Syst. Appl. 39(12): 10933-10942 (2012) - [j1]Vladimir Ceperic, Georges G. E. Gielen, Adrijan Baric:
Sparse multikernel support vector regression machines trained by active learning. Expert Syst. Appl. 39(12): 11029-11035 (2012) - [c12]Niko Bako, Adrijan Baric:
A low-power fully differential cyclic 9-bit ADC. ICECS 2012: 504-507 - [c11]Jurica Kundrata, Adrijan Baric:
Design of a planar inductor for DC-DC converter on flexible foil applications. MIPRO 2012: 54-59 - [c10]Vladimir Ceperic, Adrijan Baric:
A brief overview of the black-box behavioural modelling of electronic circuits for transient simulations. MIPRO 2012: 72-77 - [c9]Andro Broznic, Raul Blecic, Adrijan Baric:
A 2.5-GHz GaN power amplifier design and modeling by circuit-electromagnetic co-simulation. MIPRO 2012: 78-82 - [c8]Davor Vinko, Tomislav Svedek, Adrijan Baric:
Limitations of the CVSL driver as voltage level booster for switching capacitors in high-gain charge pumps. MIPRO 2012: 103-106 - 2011
- [c7]Niko Bako, Adrijan Baric:
A low-power fully differential 9-bit C-2C cyclic ADC. ECCTD 2011: 576-579 - [c6]Tomislav Markovic, Raul Blecic, Adrijan Baric:
Quadrature coupler and power divider circuit-EM co-simulation. MIPRO 2011: 113-117
2000 – 2009
- 2009
- [c5]Tvrtko Mandic, Filip Vanhee, Renaud Gillon, Johan Catrysse, Adrijan Baric:
Equivalent circuit model of the TEM cell electric and magnetic field coupling to microstrip lines. ICECS 2009: 247-250 - 2007
- [c4]Branimir Pejcinovic, Vladimir Ceperic, Adrijan Baric:
Design and Use of FR-4 CBCPW Lines In Test Fixtures for SMD Components. ICECS 2007: 375-378 - 2004
- [c3]Vladimir Ceperic, Adrijan Baric:
Modeling of analog circuits by using support vector regression machines. ICECS 2004: 391-394 - 2003
- [c2]Johncy Castelino, Phillip K. Wong, Edin Sijercic, Branimir Pejcinovic, Adrijan Baric:
Comparison of non-linear MESFET models over 1-12 GHz frequency range. ICECS 2003: 487-490 - 2002
- [c1]Hrvoje Markovic, Nikica Maric, Vladimir Ceperic, Adrijan Baric:
High-speed GaAs SCFL digital test structures. ICECS 2002: 635-639
Coauthor Index
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