Menicanin, A., Živanov, L. D., Kisić, M.,& Stefanov, A. Z.. (2023). Namotani kondenzator realizovan u Fused Fabricated Filament tehnologiji. in Институт за мултидисциплинарна истраживања – ИМСИ, Београд Факултет техничких наука – ФТН, Нови Сад
"Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu"., 1-18.
https://hdl.handle.net/21.15107/rcub_rimsi_3145

Menicanin A, Živanov LD, Kisić M, Stefanov AZ. Namotani kondenzator realizovan u Fused Fabricated Filament tehnologiji. in Институт за мултидисциплинарна истраживања – ИМСИ, Београд Факултет техничких наука – ФТН, Нови Сад. 2023;:1-18.
https://hdl.handle.net/21.15107/rcub_rimsi_3145 .

Menicanin, Aleksandar, Živanov, Ljiljana D, Kisić, Milica, Stefanov, Aleksandar Z, "Namotani kondenzator realizovan u Fused Fabricated Filament tehnologiji" in Институт за мултидисциплинарна истраживања – ИМСИ, Београд Факултет техничких наука – ФТН, Нови Сад (2023):1-18,
https://hdl.handle.net/21.15107/rcub_rimsi_3145 .

TY  - JOUR
AU  - Stefanov, Aleksandar Z
AU  - Živanov, Ljiljana D
AU  - Kisić, Milica G.
AU  - Menicanin, Aleksandar
PY  - 2022
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1606
AB  - In this paper, an organic capacitive displacement sensor was fully realized using Fused Filament Fabrication (FFF) technology. The fabricated sensor consists of two circular electrodes, the spacer, and the casing. The FFF-printed electrodes were made of a conductive graphene/Polylactic acid (PLA) composite filament. For sensor’s spacer a thermoplastic elastomer filament was used. Using these filaments gives us the possibility to design the extremely simple sensor with good sensitivity. The casing of the sensor and the applicator used for applying the displacement on the sensor were fabricated using a PLA. The sensor with three setup of spacer with different infill densities of the spacer (50%, 80%, and 100%) were realized and their characteristics were compared. The highest sensitivity was obtained for the sensor with infill density of spacer of 50%. The measurement results confirm the possibility of using FFF technology for the fabrication of low-cost and all organic and fully FFF-printed sensor with good characteristics.
PB  - Institute of Electrical and Electronics Engineer
T2  - IEEE Sensors Journal
T1  - Fully FFF-Printed Capacitive Displacement Sensor Based on Graphene/PLA Composite and Thermoplastic Elastomer Filaments
VL  - 22
DO  - 10.1109/JSEN.2022.3168931
ER  - 

@article{
author = "Stefanov, Aleksandar Z and Živanov, Ljiljana D and Kisić, Milica G. and Menicanin, Aleksandar",
year = "2022",
abstract = "In this paper, an organic capacitive displacement sensor was fully realized using Fused Filament Fabrication (FFF) technology. The fabricated sensor consists of two circular electrodes, the spacer, and the casing. The FFF-printed electrodes were made of a conductive graphene/Polylactic acid (PLA) composite filament. For sensor’s spacer a thermoplastic elastomer filament was used. Using these filaments gives us the possibility to design the extremely simple sensor with good sensitivity. The casing of the sensor and the applicator used for applying the displacement on the sensor were fabricated using a PLA. The sensor with three setup of spacer with different infill densities of the spacer (50%, 80%, and 100%) were realized and their characteristics were compared. The highest sensitivity was obtained for the sensor with infill density of spacer of 50%. The measurement results confirm the possibility of using FFF technology for the fabrication of low-cost and all organic and fully FFF-printed sensor with good characteristics.",
publisher = "Institute of Electrical and Electronics Engineer",
journal = "IEEE Sensors Journal",
title = "Fully FFF-Printed Capacitive Displacement Sensor Based on Graphene/PLA Composite and Thermoplastic Elastomer Filaments",
volume = "22",
doi = "10.1109/JSEN.2022.3168931"
}

Stefanov, A. Z., Živanov, L. D., Kisić, M. G.,& Menicanin, A.. (2022). Fully FFF-Printed Capacitive Displacement Sensor Based on Graphene/PLA Composite and Thermoplastic Elastomer Filaments. in IEEE Sensors Journal
Institute of Electrical and Electronics Engineer., 22.
https://doi.org/10.1109/JSEN.2022.3168931

Stefanov AZ, Živanov LD, Kisić MG, Menicanin A. Fully FFF-Printed Capacitive Displacement Sensor Based on Graphene/PLA Composite and Thermoplastic Elastomer Filaments. in IEEE Sensors Journal. 2022;22.
doi:10.1109/JSEN.2022.3168931 .

Stefanov, Aleksandar Z, Živanov, Ljiljana D, Kisić, Milica G., Menicanin, Aleksandar, "Fully FFF-Printed Capacitive Displacement Sensor Based on Graphene/PLA Composite and Thermoplastic Elastomer Filaments" in IEEE Sensors Journal, 22 (2022),
https://doi.org/10.1109/JSEN.2022.3168931 . .

TY  - JOUR
AU  - Blaz, Nelu V.
AU  - Živanov, Ljiljana D
AU  - Kisić, M.G.
AU  - Menicanin, Aleksandar
PY  - 2022
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1520
AB  - This paper presents a novel approach in the fabrication of rolled capacitors using a printable conductive ABS composite filament. On the contrary to conventional manufacturing of rolled capacitors, here a fused filament fabrication (FFF) technology, which allows a simpler and cheaper procedure of production is used. Also, a simple model of a 3D printed rolled capacitor is developed and the capacitance of the fabricated capacitor is calculated. The capacitance of the fabricated capacitor is measured in the frequency range from 100 Hz to 100 kHz. The measured capacitance is in good agreement with the calculated capacitance. It confirms the possibility of using conductive ABS composite filament for fabrication of 3D printed electrodes which could be formed passive device such as rolled capacitor or sensor for measuring liquid level.
PB  - Elsevier Inc.
T2  - Electrochemistry Communications
T1  - Fully 3D printed rolled capacitor based on conductive ABS composite electrodes
VL  - 134
DO  - 10.1016/j.elecom.2021.107178
ER  - 

@article{
author = "Blaz, Nelu V. and Živanov, Ljiljana D and Kisić, M.G. and Menicanin, Aleksandar",
year = "2022",
abstract = "This paper presents a novel approach in the fabrication of rolled capacitors using a printable conductive ABS composite filament. On the contrary to conventional manufacturing of rolled capacitors, here a fused filament fabrication (FFF) technology, which allows a simpler and cheaper procedure of production is used. Also, a simple model of a 3D printed rolled capacitor is developed and the capacitance of the fabricated capacitor is calculated. The capacitance of the fabricated capacitor is measured in the frequency range from 100 Hz to 100 kHz. The measured capacitance is in good agreement with the calculated capacitance. It confirms the possibility of using conductive ABS composite filament for fabrication of 3D printed electrodes which could be formed passive device such as rolled capacitor or sensor for measuring liquid level.",
publisher = "Elsevier Inc.",
journal = "Electrochemistry Communications",
title = "Fully 3D printed rolled capacitor based on conductive ABS composite electrodes",
volume = "134",
doi = "10.1016/j.elecom.2021.107178"
}

Blaz, N. V., Živanov, L. D., Kisić, M.G.,& Menicanin, A.. (2022). Fully 3D printed rolled capacitor based on conductive ABS composite electrodes. in Electrochemistry Communications
Elsevier Inc.., 134.
https://doi.org/10.1016/j.elecom.2021.107178

Blaz NV, Živanov LD, Kisić M, Menicanin A. Fully 3D printed rolled capacitor based on conductive ABS composite electrodes. in Electrochemistry Communications. 2022;134.
doi:10.1016/j.elecom.2021.107178 .

Blaz, Nelu V., Živanov, Ljiljana D, Kisić, M.G., Menicanin, Aleksandar, "Fully 3D printed rolled capacitor based on conductive ABS composite electrodes" in Electrochemistry Communications, 134 (2022),
https://doi.org/10.1016/j.elecom.2021.107178 . .

TY  - CONF
AU  - Srdic, B.
AU  - Stefanov, A.
AU  - Kisic, M.
AU  - Živanov, Ljiljana D
AU  - Menicanin, Aleksandar
PY  - 2021
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1433
AB  - The aim of the work is the realization and modelling of a simple capacitive displacement sensor with the use of 3D printing technology and polylactic acid (PLA) material. The sensor consists of three 3D printed PLA parts: Two electrodes with cavities and a spacer. The silver paste is not printed but micromolded by filling it into the cavities of printed PLA electrodes via a syringe. The capacitance of the fabricated sensor versus applied displacement is measured and compared with calculated capacitance of simple sensor model. A simple model of a sensor capacitor is not capable of describing the behavior of this type of sensor. Therefore, more complex model of sensor capacitor is given better fit to measured results. Additionally, the hysteresis of the fabricated sensor is tested.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Design and Modelling of 3D Printed Capacitive Displacement Sensor
VL  - 2021-May
DO  - 10.1109/ISSE51996.2021.9467666
ER  - 

@conference{
author = "Srdic, B. and Stefanov, A. and Kisic, M. and Živanov, Ljiljana D and Menicanin, Aleksandar",
year = "2021",
abstract = "The aim of the work is the realization and modelling of a simple capacitive displacement sensor with the use of 3D printing technology and polylactic acid (PLA) material. The sensor consists of three 3D printed PLA parts: Two electrodes with cavities and a spacer. The silver paste is not printed but micromolded by filling it into the cavities of printed PLA electrodes via a syringe. The capacitance of the fabricated sensor versus applied displacement is measured and compared with calculated capacitance of simple sensor model. A simple model of a sensor capacitor is not capable of describing the behavior of this type of sensor. Therefore, more complex model of sensor capacitor is given better fit to measured results. Additionally, the hysteresis of the fabricated sensor is tested.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Design and Modelling of 3D Printed Capacitive Displacement Sensor",
volume = "2021-May",
doi = "10.1109/ISSE51996.2021.9467666"
}

Srdic, B., Stefanov, A., Kisic, M., Živanov, L. D.,& Menicanin, A.. (2021). Design and Modelling of 3D Printed Capacitive Displacement Sensor. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society., 2021-May.
https://doi.org/10.1109/ISSE51996.2021.9467666

Srdic B, Stefanov A, Kisic M, Živanov LD, Menicanin A. Design and Modelling of 3D Printed Capacitive Displacement Sensor. in Proceedings of the International Spring Seminar on Electronics Technology. 2021;2021-May.
doi:10.1109/ISSE51996.2021.9467666 .

Srdic, B., Stefanov, A., Kisic, M., Živanov, Ljiljana D, Menicanin, Aleksandar, "Design and Modelling of 3D Printed Capacitive Displacement Sensor" in Proceedings of the International Spring Seminar on Electronics Technology, 2021-May (2021),
https://doi.org/10.1109/ISSE51996.2021.9467666 . .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Zivanov, Ljiljana
AU  - Blaz, Nelu V.
AU  - Kisic, Milica
AU  - Zlebic, Cedo J.
PY  - 2020
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/3114
AB  - U ovom radu, provodni ABS kompozitni materijal je korišćen za proizvodnju 3D štampanih elektroda namotanog kondenzatora primenom komercijalno dostupnog 3D štampača (nano3Dprint A2200). Kondenzator sadrži Arhimedove spiralne elektrode čije su dimenzije: unutrašnji prečnik 10 mm, debljina elektroda 0,6 mm, visina 10 mm. Izmerena kapacitivnost odštampanog kondenzatora je 93,8 pF,u vazduhu kao dielektriku, i 5119,12 pF u destilovanoj vodi. To potvrđuje mogućnost korišćenja provodnog ABS kompozitnog filamenta za štampanje elektroda (spiralnog) namotanog kondenzatora.
AB  - In this letter, a conductive ABS composite filament was used to create 3D printed electrodes of rolled capacitor using a commercial 3D printer. The capacitor consists of two Archimedes spiral electrodes which dimensions are: inner diameter 10 mm, thickness of electrodes 0.6 mm, hight 10 mm. The measured capacitance of the fabricated capacitor is 93.8 pF in the air, and 5119.12 pF in the deionised water. It confirms the possibility of using conductive ABS composite filament for fabrication of electrodes of rolled capacitor.
PB  - Visoka tehnička škola strukovnih studija u Novom Sadu
C3  - 6. Međunarodna Konferencija Upravljanje Znanjem I Informatika
T1  - Fabrikacija namotanog kondenzatora koriscenjem provodnog ABS kompozitnog filamenta u tehnologiji 3D stampe
T1  - FABRICATION OF ROLLED CAPACITOR USING CONDUCTIVE ABS COMPOSITE FILAMENT IN 3D PRINTING TECHNOLOGY
EP  - 129
SP  - 124
UR  - https://hdl.handle.net/21.15107/rcub_rimsi_3114
ER  - 

@conference{
author = "Menicanin, Aleksandar and Zivanov, Ljiljana and Blaz, Nelu V. and Kisic, Milica and Zlebic, Cedo J.",
year = "2020",
abstract = "U ovom radu, provodni ABS kompozitni materijal je korišćen za proizvodnju 3D štampanih elektroda namotanog kondenzatora primenom komercijalno dostupnog 3D štampača (nano3Dprint A2200). Kondenzator sadrži Arhimedove spiralne elektrode čije su dimenzije: unutrašnji prečnik 10 mm, debljina elektroda 0,6 mm, visina 10 mm. Izmerena kapacitivnost odštampanog kondenzatora je 93,8 pF,u vazduhu kao dielektriku, i 5119,12 pF u destilovanoj vodi. To potvrđuje mogućnost korišćenja provodnog ABS kompozitnog filamenta za štampanje elektroda (spiralnog) namotanog kondenzatora., In this letter, a conductive ABS composite filament was used to create 3D printed electrodes of rolled capacitor using a commercial 3D printer. The capacitor consists of two Archimedes spiral electrodes which dimensions are: inner diameter 10 mm, thickness of electrodes 0.6 mm, hight 10 mm. The measured capacitance of the fabricated capacitor is 93.8 pF in the air, and 5119.12 pF in the deionised water. It confirms the possibility of using conductive ABS composite filament for fabrication of electrodes of rolled capacitor.",
publisher = "Visoka tehnička škola strukovnih studija u Novom Sadu",
journal = "6. Međunarodna Konferencija Upravljanje Znanjem I Informatika",
title = "Fabrikacija namotanog kondenzatora koriscenjem provodnog ABS kompozitnog filamenta u tehnologiji 3D stampe, FABRICATION OF ROLLED CAPACITOR USING CONDUCTIVE ABS COMPOSITE FILAMENT IN 3D PRINTING TECHNOLOGY",
pages = "129-124",
url = "https://hdl.handle.net/21.15107/rcub_rimsi_3114"
}

Menicanin, A., Zivanov, L., Blaz, N. V., Kisic, M.,& Zlebic, C. J.. (2020). Fabrikacija namotanog kondenzatora koriscenjem provodnog ABS kompozitnog filamenta u tehnologiji 3D stampe. in 6. Međunarodna Konferencija Upravljanje Znanjem I Informatika
Visoka tehnička škola strukovnih studija u Novom Sadu., 124-129.
https://hdl.handle.net/21.15107/rcub_rimsi_3114

Menicanin A, Zivanov L, Blaz NV, Kisic M, Zlebic CJ. Fabrikacija namotanog kondenzatora koriscenjem provodnog ABS kompozitnog filamenta u tehnologiji 3D stampe. in 6. Međunarodna Konferencija Upravljanje Znanjem I Informatika. 2020;:124-129.
https://hdl.handle.net/21.15107/rcub_rimsi_3114 .

Menicanin, Aleksandar, Zivanov, Ljiljana, Blaz, Nelu V., Kisic, Milica, Zlebic, Cedo J., "Fabrikacija namotanog kondenzatora koriscenjem provodnog ABS kompozitnog filamenta u tehnologiji 3D stampe" in 6. Međunarodna Konferencija Upravljanje Znanjem I Informatika (2020):124-129,
https://hdl.handle.net/21.15107/rcub_rimsi_3114 .

TY  - CONF
AU  - Kisic, M.
AU  - Živanov, Ljiljana D
AU  - Blaz, Nelu V.
AU  - Stefanov, A.
AU  - Menicanin, Aleksandar
PY  - 2020
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1307
AB  - This paper investigates the dielectric characteristics of the material used to make capacitor in fused filament fabrication technology. The characteristics of the capacitor made of PLA (Polylactic Acid) as dielectric are examined. Using a 3D printer, dielectric samples are created in the form of a disk 8.6 mm in diameter. Preliminary samples revealed that the surfaces of the printed samples are rough, after which the mechanical treatment of the samples is applied. The thicknesses of the samples belbre and after polishing are 1 mm and 0.7 mm, respectively. Epoxy electrodes are applied to the dielectric disks on both surfaces to produce the parallel plate capacitors. The capacitance of the fabricated capacitors is measured in the low frequency range, from 0.1 Hz to 200 kHz. The dissipation characteristics of the capacitor are examined, and a measured average value of tangent loss is 0.007. The printed dielectric samples without the electrodes are used to investigate their ability to withstand voltages up to 6 kV. The measurement results confirmed that the used PLA material is suitable for the fabrication of he capacitor with good characteristics.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Investigation of Dielectric Properties of Printed Material for Capacitor Application
VL  - 2020-May
DO  - 10.1109/ISSE49702.2020.9120980
ER  - 

@conference{
author = "Kisic, M. and Živanov, Ljiljana D and Blaz, Nelu V. and Stefanov, A. and Menicanin, Aleksandar",
year = "2020",
abstract = "This paper investigates the dielectric characteristics of the material used to make capacitor in fused filament fabrication technology. The characteristics of the capacitor made of PLA (Polylactic Acid) as dielectric are examined. Using a 3D printer, dielectric samples are created in the form of a disk 8.6 mm in diameter. Preliminary samples revealed that the surfaces of the printed samples are rough, after which the mechanical treatment of the samples is applied. The thicknesses of the samples belbre and after polishing are 1 mm and 0.7 mm, respectively. Epoxy electrodes are applied to the dielectric disks on both surfaces to produce the parallel plate capacitors. The capacitance of the fabricated capacitors is measured in the low frequency range, from 0.1 Hz to 200 kHz. The dissipation characteristics of the capacitor are examined, and a measured average value of tangent loss is 0.007. The printed dielectric samples without the electrodes are used to investigate their ability to withstand voltages up to 6 kV. The measurement results confirmed that the used PLA material is suitable for the fabrication of he capacitor with good characteristics.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Investigation of Dielectric Properties of Printed Material for Capacitor Application",
volume = "2020-May",
doi = "10.1109/ISSE49702.2020.9120980"
}

Kisic, M., Živanov, L. D., Blaz, N. V., Stefanov, A.,& Menicanin, A.. (2020). Investigation of Dielectric Properties of Printed Material for Capacitor Application. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society., 2020-May.
https://doi.org/10.1109/ISSE49702.2020.9120980

Kisic M, Živanov LD, Blaz NV, Stefanov A, Menicanin A. Investigation of Dielectric Properties of Printed Material for Capacitor Application. in Proceedings of the International Spring Seminar on Electronics Technology. 2020;2020-May.
doi:10.1109/ISSE49702.2020.9120980 .

Kisic, M., Živanov, Ljiljana D, Blaz, Nelu V., Stefanov, A., Menicanin, Aleksandar, "Investigation of Dielectric Properties of Printed Material for Capacitor Application" in Proceedings of the International Spring Seminar on Electronics Technology, 2020-May (2020),
https://doi.org/10.1109/ISSE49702.2020.9120980 . .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Luković, Miloljub
AU  - Blaz, Nelu V.
AU  - Movrin, D.
AU  - Živanov, Ljiljana D
PY  - 2019
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1269
AB  - In this paper, we present spiral inductor fabricated by 3D additive manufacturing (AM) with added ferrite disc in the middle of the inductor (center), first approach, and with added ferrite disc beneath the inductor, second approach. The inductor was made with conductive epoxy silver based paste which was injected in a spiral channel fabricated in polylactic acid (PLA) substrate (model) using AM technology. 3D model and obtained results present a connection between passive components production and additive manufacturing. The designed spiral inductor has four full turns, with inner diameter 10 mm and outer diameter 24 mm The total dimension of the component is 27 mm x 27 mm The prototype results show good characteristics and demonstrate an innovative approach to fabricate low-cost, passive devices such as an inductor.
PB  - Institute of Electrical and Electronics Engineers Inc.
C3  - EUROCON 2019 - 18th International Conference on Smart Technologies
T1  - Design and Fabrication of Ferrite Inductor Using 3D Printed Spiral Coil and Ferrite Disc
DO  - 10.1109/EUROCON.2019.8861829
ER  - 

@conference{
author = "Menicanin, Aleksandar and Luković, Miloljub and Blaz, Nelu V. and Movrin, D. and Živanov, Ljiljana D",
year = "2019",
abstract = "In this paper, we present spiral inductor fabricated by 3D additive manufacturing (AM) with added ferrite disc in the middle of the inductor (center), first approach, and with added ferrite disc beneath the inductor, second approach. The inductor was made with conductive epoxy silver based paste which was injected in a spiral channel fabricated in polylactic acid (PLA) substrate (model) using AM technology. 3D model and obtained results present a connection between passive components production and additive manufacturing. The designed spiral inductor has four full turns, with inner diameter 10 mm and outer diameter 24 mm The total dimension of the component is 27 mm x 27 mm The prototype results show good characteristics and demonstrate an innovative approach to fabricate low-cost, passive devices such as an inductor.",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
journal = "EUROCON 2019 - 18th International Conference on Smart Technologies",
title = "Design and Fabrication of Ferrite Inductor Using 3D Printed Spiral Coil and Ferrite Disc",
doi = "10.1109/EUROCON.2019.8861829"
}

Menicanin, A., Luković, M., Blaz, N. V., Movrin, D.,& Živanov, L. D.. (2019). Design and Fabrication of Ferrite Inductor Using 3D Printed Spiral Coil and Ferrite Disc. in EUROCON 2019 - 18th International Conference on Smart Technologies
Institute of Electrical and Electronics Engineers Inc...
https://doi.org/10.1109/EUROCON.2019.8861829

Menicanin A, Luković M, Blaz NV, Movrin D, Živanov LD. Design and Fabrication of Ferrite Inductor Using 3D Printed Spiral Coil and Ferrite Disc. in EUROCON 2019 - 18th International Conference on Smart Technologies. 2019;.
doi:10.1109/EUROCON.2019.8861829 .

Menicanin, Aleksandar, Luković, Miloljub, Blaz, Nelu V., Movrin, D., Živanov, Ljiljana D, "Design and Fabrication of Ferrite Inductor Using 3D Printed Spiral Coil and Ferrite Disc" in EUROCON 2019 - 18th International Conference on Smart Technologies (2019),
https://doi.org/10.1109/EUROCON.2019.8861829 . .

Blaz, N. V., Kisic, M., Zivanov, L., Damnjanovic, M.,& Menicanin, A.. (2017). Metoda za izradu senzora pomeraja u 3D aditivnoj tehnologiji. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu
Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu., 1-6.
https://hdl.handle.net/21.15107/rcub_rimsi_3125

Blaz NV, Kisic M, Zivanov L, Damnjanovic M, Menicanin A. Metoda za izradu senzora pomeraja u 3D aditivnoj tehnologiji. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu. 2017;:1-6.
https://hdl.handle.net/21.15107/rcub_rimsi_3125 .

Blaz, Nelu V., Kisic, Milica, Zivanov, Ljiljana, Damnjanovic, Mirjana, Menicanin, Aleksandar, "Metoda za izradu senzora pomeraja u 3D aditivnoj tehnologiji" in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu (2017):1-6,
https://hdl.handle.net/21.15107/rcub_rimsi_3125 .

Menicanin, A., Zivanov, L., Blaz, N. V.,& Movrin, D.. (2017). Spiralni induktor proizveden u 3D aditivnoj tehnologiji. in Spiralni inductor proizveden u 3D aditivnooj tehnologiji
Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu., 1-7.
https://hdl.handle.net/21.15107/rcub_rimsi_3142

Menicanin A, Zivanov L, Blaz NV, Movrin D. Spiralni induktor proizveden u 3D aditivnoj tehnologiji. in Spiralni inductor proizveden u 3D aditivnooj tehnologiji. 2017;:1-7.
https://hdl.handle.net/21.15107/rcub_rimsi_3142 .

Menicanin, Aleksandar, Zivanov, Ljiljana, Blaz, Nelu V., Movrin, Dejan, "Spiralni induktor proizveden u 3D aditivnoj tehnologiji" in Spiralni inductor proizveden u 3D aditivnooj tehnologiji (2017):1-7,
https://hdl.handle.net/21.15107/rcub_rimsi_3142 .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Živanov, Ljiljana D
AU  - Movrin, D.
AU  - Blaz, Nelu V.
PY  - 2017
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1072
AB  - This paper presents spiral inductor fabricated by 3D additive manufacturing. The inductor was made with conductive epoxy silver based paste which was injected in spiral channel fabricated in polylactide (PLA) substrate (model) using additive manufacturing technology. The fabricated structure has value of effective inductance around 415 nH, maximum quality factor around 12 and outer dimension diameter 24 mm. The prototype results show good characteristics of 3D additive manufactured spiral inductor and demonstrate an innovative approach to fabricate low-cost, passive devices such as an inductor.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Spiral Inductor Fabricated by 3D Additive Manufacturing
DO  - 10.1109/ISSE.2017.8001007
ER  - 

@conference{
author = "Menicanin, Aleksandar and Živanov, Ljiljana D and Movrin, D. and Blaz, Nelu V.",
year = "2017",
abstract = "This paper presents spiral inductor fabricated by 3D additive manufacturing. The inductor was made with conductive epoxy silver based paste which was injected in spiral channel fabricated in polylactide (PLA) substrate (model) using additive manufacturing technology. The fabricated structure has value of effective inductance around 415 nH, maximum quality factor around 12 and outer dimension diameter 24 mm. The prototype results show good characteristics of 3D additive manufactured spiral inductor and demonstrate an innovative approach to fabricate low-cost, passive devices such as an inductor.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Spiral Inductor Fabricated by 3D Additive Manufacturing",
doi = "10.1109/ISSE.2017.8001007"
}

Menicanin, A., Živanov, L. D., Movrin, D.,& Blaz, N. V.. (2017). Spiral Inductor Fabricated by 3D Additive Manufacturing. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society..
https://doi.org/10.1109/ISSE.2017.8001007

Menicanin A, Živanov LD, Movrin D, Blaz NV. Spiral Inductor Fabricated by 3D Additive Manufacturing. in Proceedings of the International Spring Seminar on Electronics Technology. 2017;.
doi:10.1109/ISSE.2017.8001007 .

Menicanin, Aleksandar, Živanov, Ljiljana D, Movrin, D., Blaz, Nelu V., "Spiral Inductor Fabricated by 3D Additive Manufacturing" in Proceedings of the International Spring Seminar on Electronics Technology (2017),
https://doi.org/10.1109/ISSE.2017.8001007 . .

TY  - JOUR
AU  - Zlebic, Cedo J.
AU  - Zivanov, Ljiljana
AU  - Menicanin, Aleksandar
AU  - Blaz, Nelu V.
AU  - Damnjanovic, Mirjana
PY  - 2016
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/3118
AB  - In this paper, resistive strain gages designed and fabricated in inkjet printing technology with three different silver nanoparticle inks are presented. Inks have different Ag content (15, 20 or 25 wt%) and solvents (water type or organic type). Strain gages were printed on a 50 µm thick polyimide and 140 µm thick PET-based substrate with different printer types (professional and desktop). All printed sensors have the same size (17 mm × 5 mm). To determine the change of resistance due to bending of the steel beam, tensile tests were performed up to 1500 microstrains. Due to performed cycles of loading and unloading of the steel beam, gauge factor and stability of the response of the strain gages are measured. Resistance change was measured with Keithley SourceMeter 2410. For acquisition of measured data, in-house software tool was developed. Measured gauge factors of the sensors are in the range between 1.07 and 2.03 (depending on a used ink, substrate and printer). Results of this research indicate the strain gages with good GF can be produced even with low-cost equipment, such as desktop printer EPSON C88+ and PET-based substrate.
PB  - Facta Universitatis - University of Niš
T2  - Facta Universitatis - Series: Electronics and Energetics
T1  - Inkjet printed resistive strain gages on flexible substrates
EP  - 100
IS  - 1
SP  - 89
VL  - 29
DO  - 10.2298/FUEE1601089Z
ER  - 

@article{
author = "Zlebic, Cedo J. and Zivanov, Ljiljana and Menicanin, Aleksandar and Blaz, Nelu V. and Damnjanovic, Mirjana",
year = "2016",
abstract = "In this paper, resistive strain gages designed and fabricated in inkjet printing technology with three different silver nanoparticle inks are presented. Inks have different Ag content (15, 20 or 25 wt%) and solvents (water type or organic type). Strain gages were printed on a 50 µm thick polyimide and 140 µm thick PET-based substrate with different printer types (professional and desktop). All printed sensors have the same size (17 mm × 5 mm). To determine the change of resistance due to bending of the steel beam, tensile tests were performed up to 1500 microstrains. Due to performed cycles of loading and unloading of the steel beam, gauge factor and stability of the response of the strain gages are measured. Resistance change was measured with Keithley SourceMeter 2410. For acquisition of measured data, in-house software tool was developed. Measured gauge factors of the sensors are in the range between 1.07 and 2.03 (depending on a used ink, substrate and printer). Results of this research indicate the strain gages with good GF can be produced even with low-cost equipment, such as desktop printer EPSON C88+ and PET-based substrate.",
publisher = "Facta Universitatis - University of Niš",
journal = "Facta Universitatis - Series: Electronics and Energetics",
title = "Inkjet printed resistive strain gages on flexible substrates",
pages = "100-89",
number = "1",
volume = "29",
doi = "10.2298/FUEE1601089Z"
}

Zlebic, C. J., Zivanov, L., Menicanin, A., Blaz, N. V.,& Damnjanovic, M.. (2016). Inkjet printed resistive strain gages on flexible substrates. in Facta Universitatis - Series: Electronics and Energetics
Facta Universitatis - University of Niš., 29(1), 89-100.
https://doi.org/10.2298/FUEE1601089Z

Zlebic CJ, Zivanov L, Menicanin A, Blaz NV, Damnjanovic M. Inkjet printed resistive strain gages on flexible substrates. in Facta Universitatis - Series: Electronics and Energetics. 2016;29(1):89-100.
doi:10.2298/FUEE1601089Z .

Zlebic, Cedo J., Zivanov, Ljiljana, Menicanin, Aleksandar, Blaz, Nelu V., Damnjanovic, Mirjana, "Inkjet printed resistive strain gages on flexible substrates" in Facta Universitatis - Series: Electronics and Energetics, 29, no. 1 (2016):89-100,
https://doi.org/10.2298/FUEE1601089Z . .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Živanov, Ljiljana D
AU  - Damnjanović, M.S.
AU  - Blaz, Nelu V.
AU  - Marić, Andrea M
PY  - 2016
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/968
AB  - In this paper, influence of different substrates' thickness on coplanar waveguide (CPW) inductors for high frequency applications is presented. The designed CPW inductors are two-port meanders with one turn and outer dimension 1.8 mm x 2.0 mm. CPW inductors were made in inkjet printing technology with nanoparticle ink which contain 20 wt% of silver. CPW inductors are fabricated on substrates with 25, 50, 75 and 125 m thicknesses. The measured response characteristics are in excellent agreement with the predicted simulation response. The best values of inductance and Q-factor were obtained with 125 mu m thickness of substrate (L=2.269 nH and Q congruent to 5).
PB  - IEEE Computer Society
C3  - Mediterranean Microwave Symposium
T1  - Influence of different substrates' thickness on the performance of inkjet printed CPW inductors
VL  - 0
DO  - 10.1109/MMS.2016.7803874
ER  - 

@conference{
author = "Menicanin, Aleksandar and Živanov, Ljiljana D and Damnjanović, M.S. and Blaz, Nelu V. and Marić, Andrea M",
year = "2016",
abstract = "In this paper, influence of different substrates' thickness on coplanar waveguide (CPW) inductors for high frequency applications is presented. The designed CPW inductors are two-port meanders with one turn and outer dimension 1.8 mm x 2.0 mm. CPW inductors were made in inkjet printing technology with nanoparticle ink which contain 20 wt% of silver. CPW inductors are fabricated on substrates with 25, 50, 75 and 125 m thicknesses. The measured response characteristics are in excellent agreement with the predicted simulation response. The best values of inductance and Q-factor were obtained with 125 mu m thickness of substrate (L=2.269 nH and Q congruent to 5).",
publisher = "IEEE Computer Society",
journal = "Mediterranean Microwave Symposium",
title = "Influence of different substrates' thickness on the performance of inkjet printed CPW inductors",
volume = "0",
doi = "10.1109/MMS.2016.7803874"
}

Menicanin, A., Živanov, L. D., Damnjanović, M.S., Blaz, N. V.,& Marić, A. M.. (2016). Influence of different substrates' thickness on the performance of inkjet printed CPW inductors. in Mediterranean Microwave Symposium
IEEE Computer Society., 0.
https://doi.org/10.1109/MMS.2016.7803874

Menicanin A, Živanov LD, Damnjanović M, Blaz NV, Marić AM. Influence of different substrates' thickness on the performance of inkjet printed CPW inductors. in Mediterranean Microwave Symposium. 2016;0.
doi:10.1109/MMS.2016.7803874 .

Menicanin, Aleksandar, Živanov, Ljiljana D, Damnjanović, M.S., Blaz, Nelu V., Marić, Andrea M, "Influence of different substrates' thickness on the performance of inkjet printed CPW inductors" in Mediterranean Microwave Symposium, 0 (2016),
https://doi.org/10.1109/MMS.2016.7803874 . .

TY  - CONF
AU  - Preradović, S.
AU  - Menicanin, Aleksandar
PY  - 2016
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/938
AB  - A fully printable 3D stacked chipless RFID tag on a 50-mu m thin polyimide film is presented. The tag consists of multi-layer cross-polarized dipole resonators which overlap. The data encoding is performed in the multiresonating circuit which is comprised of multiple stop band resonators. The resonators are printed using screen printing technology using a silver based conductive paste. The chipless RFID tag is designed specifically for security applications which are suitable for mass deployment for low cost items in trillions.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Printed 3-D Stacked Chipless RFID Tag with Spectral and Polarization Encoding Capacity
EP  - 505
SP  - 500
VL  - 2016-September
DO  - 10.1109/ISSE.2016.7563249
ER  - 

@conference{
author = "Preradović, S. and Menicanin, Aleksandar",
year = "2016",
abstract = "A fully printable 3D stacked chipless RFID tag on a 50-mu m thin polyimide film is presented. The tag consists of multi-layer cross-polarized dipole resonators which overlap. The data encoding is performed in the multiresonating circuit which is comprised of multiple stop band resonators. The resonators are printed using screen printing technology using a silver based conductive paste. The chipless RFID tag is designed specifically for security applications which are suitable for mass deployment for low cost items in trillions.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Printed 3-D Stacked Chipless RFID Tag with Spectral and Polarization Encoding Capacity",
pages = "505-500",
volume = "2016-September",
doi = "10.1109/ISSE.2016.7563249"
}

Preradović, S.,& Menicanin, A.. (2016). Printed 3-D Stacked Chipless RFID Tag with Spectral and Polarization Encoding Capacity. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society., 2016-September, 500-505.
https://doi.org/10.1109/ISSE.2016.7563249

Preradović S, Menicanin A. Printed 3-D Stacked Chipless RFID Tag with Spectral and Polarization Encoding Capacity. in Proceedings of the International Spring Seminar on Electronics Technology. 2016;2016-September:500-505.
doi:10.1109/ISSE.2016.7563249 .

Preradović, S., Menicanin, Aleksandar, "Printed 3-D Stacked Chipless RFID Tag with Spectral and Polarization Encoding Capacity" in Proceedings of the International Spring Seminar on Electronics Technology, 2016-September (2016):500-505,
https://doi.org/10.1109/ISSE.2016.7563249 . .

Zlebic, C. J., Zivanov, L., Kisic, M., Blaz, N. V., Damnjanovic, M.,& Menicanin, A.. (2015). Izrada uzoraka na bazi grafenskog mastila korišćenjem desktop inkdžet štampača. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu
Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu., 1-5.
https://hdl.handle.net/21.15107/rcub_rimsi_3143

Zlebic CJ, Zivanov L, Kisic M, Blaz NV, Damnjanovic M, Menicanin A. Izrada uzoraka na bazi grafenskog mastila korišćenjem desktop inkdžet štampača. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu. 2015;:1-5.
https://hdl.handle.net/21.15107/rcub_rimsi_3143 .

Zlebic, Cedo J., Zivanov, Ljiljana, Kisic, Milica, Blaz, Nelu V., Damnjanovic, Mirjana, Menicanin, Aleksandar, "Izrada uzoraka na bazi grafenskog mastila korišćenjem desktop inkdžet štampača" in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu (2015):1-5,
https://hdl.handle.net/21.15107/rcub_rimsi_3143 .

Menicanin, A., Damnjanovic, M., Zivanov, L.,& Maric, A.. (2015). Prototip RF induktora dobijenih korisćenjem nanočestičnog mastila na fleksibilnoj podlozi. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu
Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu., 1-9.
https://hdl.handle.net/21.15107/rcub_rimsi_3141

Menicanin A, Damnjanovic M, Zivanov L, Maric A. Prototip RF induktora dobijenih korisćenjem nanočestičnog mastila na fleksibilnoj podlozi. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu. 2015;:1-9.
https://hdl.handle.net/21.15107/rcub_rimsi_3141 .

Menicanin, Aleksandar, Damnjanovic, Mirjana, Zivanov, Ljiljana, Maric, Andrea, "Prototip RF induktora dobijenih korisćenjem nanočestičnog mastila na fleksibilnoj podlozi" in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu (2015):1-9,
https://hdl.handle.net/21.15107/rcub_rimsi_3141 .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Živanov, Ljiljana D
AU  - Žlebič, Č.
AU  - Kisić, M.
AU  - Blaz, Nelu V.
AU  - Damnjanović, M.
PY  - 2015
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/933
AB  - This paper presents continued research on CPW (coplanar waveguide) meander inductors. The inductors were made in inkjet printing technology. They were printed on polyethylene terephthalate (PET) based substrate (Novele IJ-220), 140 mu m thick. Water-based nanoparticle silver ink (Metalon (R) JS-B25HV) is used for printing. The fabricated inductors have a great value of quality factor (up to 4.2) and high frequency operating range between 1. GHz. 7. GHz for three turn, and 1. GHz -19 GHz for one turn structure. Those characteristics made them suitable for application in flexible electronics.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Fully Inkjet Printed CPW Meander Inductors on PET Flexible Substrate
EP  - 46
SP  - 43
VL  - 2015-September
DO  - 10.1109/ISSE.2015.7247959
ER  - 

@conference{
author = "Menicanin, Aleksandar and Živanov, Ljiljana D and Žlebič, Č. and Kisić, M. and Blaz, Nelu V. and Damnjanović, M.",
year = "2015",
abstract = "This paper presents continued research on CPW (coplanar waveguide) meander inductors. The inductors were made in inkjet printing technology. They were printed on polyethylene terephthalate (PET) based substrate (Novele IJ-220), 140 mu m thick. Water-based nanoparticle silver ink (Metalon (R) JS-B25HV) is used for printing. The fabricated inductors have a great value of quality factor (up to 4.2) and high frequency operating range between 1. GHz. 7. GHz for three turn, and 1. GHz -19 GHz for one turn structure. Those characteristics made them suitable for application in flexible electronics.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Fully Inkjet Printed CPW Meander Inductors on PET Flexible Substrate",
pages = "46-43",
volume = "2015-September",
doi = "10.1109/ISSE.2015.7247959"
}

Menicanin, A., Živanov, L. D., Žlebič, Č., Kisić, M., Blaz, N. V.,& Damnjanović, M.. (2015). Fully Inkjet Printed CPW Meander Inductors on PET Flexible Substrate. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society., 2015-September, 43-46.
https://doi.org/10.1109/ISSE.2015.7247959

Menicanin A, Živanov LD, Žlebič Č, Kisić M, Blaz NV, Damnjanović M. Fully Inkjet Printed CPW Meander Inductors on PET Flexible Substrate. in Proceedings of the International Spring Seminar on Electronics Technology. 2015;2015-September:43-46.
doi:10.1109/ISSE.2015.7247959 .

Menicanin, Aleksandar, Živanov, Ljiljana D, Žlebič, Č., Kisić, M., Blaz, Nelu V., Damnjanović, M., "Fully Inkjet Printed CPW Meander Inductors on PET Flexible Substrate" in Proceedings of the International Spring Seminar on Electronics Technology, 2015-September (2015):43-46,
https://doi.org/10.1109/ISSE.2015.7247959 . .

TY  - CONF
AU  - Žlebič, Č.
AU  - Živanov, Ljiljana D
AU  - Kisić, M.
AU  - Blaz, Nelu V.
AU  - Menicanin, Aleksandar
AU  - Randjelović, Danijela V
AU  - Damnjanović, M.
PY  - 2015
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/923
AB  - In this paper, electrical properties of inkjet printed graphene patterns on a PET-based (Novele (TM) IJ-220) substrate are presented. Water-soluble graphene conductive ink (Phene plus I3015) was used. Tested samples were printed with up to 12 layers. Desktop inkjet printer with 2000 dpi resolution was used for printing. After that, structures were sintered at 100 degrees C for 30 minutes. Printed patterns surface topography and profiles were observed using atomic force microscope (AFM) NTEGRA prima (NT-MDT). According to the results of AFM characterization, the thickness of 12 printed layers is similar to 750 nm. Measurements of electrical properties were performed with Hall effect measurement system at 0.37 T. Carrier mobility is 2330 cm(2)/Vs, while the conductivity is 389.11 1/Omega cm. All patterns are printed successfully with uniform structure and they are showing excellent compatibility with flexible PET-based substrate.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate
EP  - 417
SP  - 414
VL  - 2015-September
DO  - 10.1109/ISSE.2015.7248032
ER  - 

@conference{
author = "Žlebič, Č. and Živanov, Ljiljana D and Kisić, M. and Blaz, Nelu V. and Menicanin, Aleksandar and Randjelović, Danijela V and Damnjanović, M.",
year = "2015",
abstract = "In this paper, electrical properties of inkjet printed graphene patterns on a PET-based (Novele (TM) IJ-220) substrate are presented. Water-soluble graphene conductive ink (Phene plus I3015) was used. Tested samples were printed with up to 12 layers. Desktop inkjet printer with 2000 dpi resolution was used for printing. After that, structures were sintered at 100 degrees C for 30 minutes. Printed patterns surface topography and profiles were observed using atomic force microscope (AFM) NTEGRA prima (NT-MDT). According to the results of AFM characterization, the thickness of 12 printed layers is similar to 750 nm. Measurements of electrical properties were performed with Hall effect measurement system at 0.37 T. Carrier mobility is 2330 cm(2)/Vs, while the conductivity is 389.11 1/Omega cm. All patterns are printed successfully with uniform structure and they are showing excellent compatibility with flexible PET-based substrate.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate",
pages = "417-414",
volume = "2015-September",
doi = "10.1109/ISSE.2015.7248032"
}

Žlebič, Č., Živanov, L. D., Kisić, M., Blaz, N. V., Menicanin, A., Randjelović, D. V.,& Damnjanović, M.. (2015). Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society., 2015-September, 414-417.
https://doi.org/10.1109/ISSE.2015.7248032

Žlebič Č, Živanov LD, Kisić M, Blaz NV, Menicanin A, Randjelović DV, Damnjanović M. Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate. in Proceedings of the International Spring Seminar on Electronics Technology. 2015;2015-September:414-417.
doi:10.1109/ISSE.2015.7248032 .

Žlebič, Č., Živanov, Ljiljana D, Kisić, M., Blaz, Nelu V., Menicanin, Aleksandar, Randjelović, Danijela V, Damnjanović, M., "Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate" in Proceedings of the International Spring Seminar on Electronics Technology, 2015-September (2015):414-417,
https://doi.org/10.1109/ISSE.2015.7248032 . .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Živanov, Ljiljana D
AU  - Blaz, Nelu V.
AU  - Damnjanović, M.
AU  - Žlebič, Č.
AU  - Kisić, M.
PY  - 2015
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/914
AB  - This paper presents fully inkjet printed CPW (coplanar waveguide) octagonal inductor. The inductor was printed with water-based silver nanoparticle ink on flexible polyethylene terephthalate (PET) substrate. The fabricated structure has small outer dimension (8.5mm x 8.5mm), and value of effective inductance around 20 nH. Measured Q-factor is up to 1, and self-resonant frequency is slightly below 2 GHz.
PB  - IEEE Computer Society
C3  - Proceedings of the International Spring Seminar on Electronics Technology
T1  - Flexible Inkjet Printed CPW Octagonal Inductor on PET Substrate
EP  - 42
SP  - 40
VL  - 2015-September
DO  - 10.1109/ISSE.2015.7247958
ER  - 

@conference{
author = "Menicanin, Aleksandar and Živanov, Ljiljana D and Blaz, Nelu V. and Damnjanović, M. and Žlebič, Č. and Kisić, M.",
year = "2015",
abstract = "This paper presents fully inkjet printed CPW (coplanar waveguide) octagonal inductor. The inductor was printed with water-based silver nanoparticle ink on flexible polyethylene terephthalate (PET) substrate. The fabricated structure has small outer dimension (8.5mm x 8.5mm), and value of effective inductance around 20 nH. Measured Q-factor is up to 1, and self-resonant frequency is slightly below 2 GHz.",
publisher = "IEEE Computer Society",
journal = "Proceedings of the International Spring Seminar on Electronics Technology",
title = "Flexible Inkjet Printed CPW Octagonal Inductor on PET Substrate",
pages = "42-40",
volume = "2015-September",
doi = "10.1109/ISSE.2015.7247958"
}

Menicanin, A., Živanov, L. D., Blaz, N. V., Damnjanović, M., Žlebič, Č.,& Kisić, M.. (2015). Flexible Inkjet Printed CPW Octagonal Inductor on PET Substrate. in Proceedings of the International Spring Seminar on Electronics Technology
IEEE Computer Society., 2015-September, 40-42.
https://doi.org/10.1109/ISSE.2015.7247958

Menicanin A, Živanov LD, Blaz NV, Damnjanović M, Žlebič Č, Kisić M. Flexible Inkjet Printed CPW Octagonal Inductor on PET Substrate. in Proceedings of the International Spring Seminar on Electronics Technology. 2015;2015-September:40-42.
doi:10.1109/ISSE.2015.7247958 .

Menicanin, Aleksandar, Živanov, Ljiljana D, Blaz, Nelu V., Damnjanović, M., Žlebič, Č., Kisić, M., "Flexible Inkjet Printed CPW Octagonal Inductor on PET Substrate" in Proceedings of the International Spring Seminar on Electronics Technology, 2015-September (2015):40-42,
https://doi.org/10.1109/ISSE.2015.7247958 . .

TY  - JOUR
AU  - Zlebic, Cedo J.
AU  - Kljajic, Dragan R.
AU  - Blaz, Nelu V.
AU  - Živanov, Ljiljana D
AU  - Menicanin, Aleksandar
AU  - Damnjanović, Mirjana S.
PY  - 2015
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/839
AB  - As the dc bias flows through a ferrite chip surface mount device (SMD) inductor, it tends to premagnetize the core and reduce its inductance and impedance. It is observed that this drop is especially emphasized when the dc current exceeds the safety limit given by the manufacturer. Therefore, it is necessary to investigate and predict the degree of electrical characteristics degradation as well as the dependence of the core losses on core temperature. In this paper, a measurement technique for the investigation of the influence of dc bias on the electrical characteristics of SMD inductors (i.e., inductance, resistance, Q factor, and real and imaginary part of impedance) for printed circuit board applications is presented. Analysis is based on the model of the SMD inductor, which can be presented as a two-port equivalent circuit with intrinsic and extrinsic parameters. For calculation of the parameters of the SMD inductor, extracted from measured S-parameters using vector network analyzer, the in-house software tool IndCalc was used.
PB  - IEEE-Inst Electrical Electronics Engineers Inc, Piscataway
T2  - IEEE Transactions on Magnetics
T1  - Influence of DC Bias on the Electrical Characteristics of SMD Inductors
IS  - 1
VL  - 51
DO  - 10.1109/TMAG.2014.2356253
ER  - 

@article{
author = "Zlebic, Cedo J. and Kljajic, Dragan R. and Blaz, Nelu V. and Živanov, Ljiljana D and Menicanin, Aleksandar and Damnjanović, Mirjana S.",
year = "2015",
abstract = "As the dc bias flows through a ferrite chip surface mount device (SMD) inductor, it tends to premagnetize the core and reduce its inductance and impedance. It is observed that this drop is especially emphasized when the dc current exceeds the safety limit given by the manufacturer. Therefore, it is necessary to investigate and predict the degree of electrical characteristics degradation as well as the dependence of the core losses on core temperature. In this paper, a measurement technique for the investigation of the influence of dc bias on the electrical characteristics of SMD inductors (i.e., inductance, resistance, Q factor, and real and imaginary part of impedance) for printed circuit board applications is presented. Analysis is based on the model of the SMD inductor, which can be presented as a two-port equivalent circuit with intrinsic and extrinsic parameters. For calculation of the parameters of the SMD inductor, extracted from measured S-parameters using vector network analyzer, the in-house software tool IndCalc was used.",
publisher = "IEEE-Inst Electrical Electronics Engineers Inc, Piscataway",
journal = "IEEE Transactions on Magnetics",
title = "Influence of DC Bias on the Electrical Characteristics of SMD Inductors",
number = "1",
volume = "51",
doi = "10.1109/TMAG.2014.2356253"
}

Zlebic, C. J., Kljajic, D. R., Blaz, N. V., Živanov, L. D., Menicanin, A.,& Damnjanović, M. S.. (2015). Influence of DC Bias on the Electrical Characteristics of SMD Inductors. in IEEE Transactions on Magnetics
IEEE-Inst Electrical Electronics Engineers Inc, Piscataway., 51(1).
https://doi.org/10.1109/TMAG.2014.2356253

Zlebic CJ, Kljajic DR, Blaz NV, Živanov LD, Menicanin A, Damnjanović MS. Influence of DC Bias on the Electrical Characteristics of SMD Inductors. in IEEE Transactions on Magnetics. 2015;51(1).
doi:10.1109/TMAG.2014.2356253 .

Zlebic, Cedo J., Kljajic, Dragan R., Blaz, Nelu V., Živanov, Ljiljana D, Menicanin, Aleksandar, Damnjanović, Mirjana S., "Influence of DC Bias on the Electrical Characteristics of SMD Inductors" in IEEE Transactions on Magnetics, 51, no. 1 (2015),
https://doi.org/10.1109/TMAG.2014.2356253 . .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Ivanisevic, Nikola
AU  - Damnjanovic, Mirjana
AU  - Maric, Andrea
AU  - Zivanov, Ljiljana
PY  - 2014
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/3167
AB  - Advantages in ink-jet printable electronics have opened the door for the manufacturing of sensors and actuators, radio-frequency identification (RFID) tags, wireless modules, photovoltaic, and displays [1, 2]. 
In this paper, we present the modelling, fabrication, measurement technique and characterization of multilayer miniature coplanar waveguide (CPW) meander type inductors for high frequency applications. CPW inductors are fabricated in inkjet printed technology on a flexible plastic polyimide foil (50 μm thickness) with Dimatix material printer DMP-3000. Inductors are made with silver nanoparticle ink which contains 20% wt of silver.
PB  - IEEE International Magnetics Conference, INTERMAG Europe 2014
C3  - IEEE International Magnetics Conference, INTERMAG Europe 2014
T1  - Improved performance of high frequency multilayer CPW inductors on flexible substrates
SP  - GW-06
UR  - https://hdl.handle.net/21.15107/rcub_rimsi_3167
ER  - 

@conference{
author = "Menicanin, Aleksandar and Ivanisevic, Nikola and Damnjanovic, Mirjana and Maric, Andrea and Zivanov, Ljiljana",
year = "2014",
abstract = "Advantages in ink-jet printable electronics have opened the door for the manufacturing of sensors and actuators, radio-frequency identification (RFID) tags, wireless modules, photovoltaic, and displays [1, 2]. 
In this paper, we present the modelling, fabrication, measurement technique and characterization of multilayer miniature coplanar waveguide (CPW) meander type inductors for high frequency applications. CPW inductors are fabricated in inkjet printed technology on a flexible plastic polyimide foil (50 μm thickness) with Dimatix material printer DMP-3000. Inductors are made with silver nanoparticle ink which contains 20% wt of silver.",
publisher = "IEEE International Magnetics Conference, INTERMAG Europe 2014",
journal = "IEEE International Magnetics Conference, INTERMAG Europe 2014",
title = "Improved performance of high frequency multilayer CPW inductors on flexible substrates",
pages = "GW-06",
url = "https://hdl.handle.net/21.15107/rcub_rimsi_3167"
}

Menicanin, A., Ivanisevic, N., Damnjanovic, M., Maric, A.,& Zivanov, L.. (2014). Improved performance of high frequency multilayer CPW inductors on flexible substrates. in IEEE International Magnetics Conference, INTERMAG Europe 2014
IEEE International Magnetics Conference, INTERMAG Europe 2014., GW-06.
https://hdl.handle.net/21.15107/rcub_rimsi_3167

Menicanin A, Ivanisevic N, Damnjanovic M, Maric A, Zivanov L. Improved performance of high frequency multilayer CPW inductors on flexible substrates. in IEEE International Magnetics Conference, INTERMAG Europe 2014. 2014;:GW-06.
https://hdl.handle.net/21.15107/rcub_rimsi_3167 .

Menicanin, Aleksandar, Ivanisevic, Nikola, Damnjanovic, Mirjana, Maric, Andrea, Zivanov, Ljiljana, "Improved performance of high frequency multilayer CPW inductors on flexible substrates" in IEEE International Magnetics Conference, INTERMAG Europe 2014 (2014):GW-06,
https://hdl.handle.net/21.15107/rcub_rimsi_3167 .

TY  - CONF
AU  - Menicanin, Aleksandar
AU  - Ivanisevic, Nikola
AU  - Zivanov, Ljiljana
AU  - Damnjanovic, Mirjana
AU  - Maric, Andrea
PY  - 2014
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/3168
AB  - "In this paper, influence of flexible substrates’ thickness on coplanar waveguide (CPW) inductors for high frequency applications is presented.
The designed multilayer CPW inductors for high applications are two-port meanders with one turn and outer dimension 1.8 mm × 2.0 mm. The line paths in the presented structures have 200 μm widths. Around the CPW inductors is a ring-shaped ground plane, which is a replacement for a background metallization. In that manner, the structures are manufactured in a low-cost one-side fabrication process. 
CPW inductors was made in ink-jet printing technology on flexible substrate with nanoparticle ink which contain 20 wt% of silver. For the fabrication process is used DMP 3000 ink-jet printer. The goal of this work was to examine the influence of substrate thickness on inductor’s performance. Because of that, have are fabricated CPW inductors on four substrates with 25, 50, 75 and 125 μm thicknesses. 
The design, modeling and simulation of CPW inductors were obtained using the Microwave Office (MWO), an electromagnetic (EM) simulator provided by AWR Corp.
The printed structures were measured using the vector network analyser and RF probe station. The measurement results were obtained in the frequency range from 1 to 35 GHz. 
Increasing substrate thickness leads to greater values of quality factor of CPW inductors. Also, we get higher self-resonant frequency of proposed inductors. Changing substrates’ thicknesses, we can change the performance of CPW inductor. "
PB  - 10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Autrija
C3  - 10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Austria
T1  - Influence of flexible substrates’ thickness on the performance of ink-jet printed CPW inductors
SP  - WP43
UR  - https://hdl.handle.net/21.15107/rcub_rimsi_3168
ER  - 

@conference{
author = "Menicanin, Aleksandar and Ivanisevic, Nikola and Zivanov, Ljiljana and Damnjanovic, Mirjana and Maric, Andrea",
year = "2014",
abstract = ""In this paper, influence of flexible substrates’ thickness on coplanar waveguide (CPW) inductors for high frequency applications is presented.
The designed multilayer CPW inductors for high applications are two-port meanders with one turn and outer dimension 1.8 mm × 2.0 mm. The line paths in the presented structures have 200 μm widths. Around the CPW inductors is a ring-shaped ground plane, which is a replacement for a background metallization. In that manner, the structures are manufactured in a low-cost one-side fabrication process. 
CPW inductors was made in ink-jet printing technology on flexible substrate with nanoparticle ink which contain 20 wt% of silver. For the fabrication process is used DMP 3000 ink-jet printer. The goal of this work was to examine the influence of substrate thickness on inductor’s performance. Because of that, have are fabricated CPW inductors on four substrates with 25, 50, 75 and 125 μm thicknesses. 
The design, modeling and simulation of CPW inductors were obtained using the Microwave Office (MWO), an electromagnetic (EM) simulator provided by AWR Corp.
The printed structures were measured using the vector network analyser and RF probe station. The measurement results were obtained in the frequency range from 1 to 35 GHz. 
Increasing substrate thickness leads to greater values of quality factor of CPW inductors. Also, we get higher self-resonant frequency of proposed inductors. Changing substrates’ thicknesses, we can change the performance of CPW inductor. "",
publisher = "10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Autrija",
journal = "10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Austria",
title = "Influence of flexible substrates’ thickness on the performance of ink-jet printed CPW inductors",
pages = "WP43",
url = "https://hdl.handle.net/21.15107/rcub_rimsi_3168"
}

Menicanin, A., Ivanisevic, N., Zivanov, L., Damnjanovic, M.,& Maric, A.. (2014). Influence of flexible substrates’ thickness on the performance of ink-jet printed CPW inductors. in 10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Austria
10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Autrija., WP43.
https://hdl.handle.net/21.15107/rcub_rimsi_3168

Menicanin A, Ivanisevic N, Zivanov L, Damnjanovic M, Maric A. Influence of flexible substrates’ thickness on the performance of ink-jet printed CPW inductors. in 10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Austria. 2014;:WP43.
https://hdl.handle.net/21.15107/rcub_rimsi_3168 .

Menicanin, Aleksandar, Ivanisevic, Nikola, Zivanov, Ljiljana, Damnjanovic, Mirjana, Maric, Andrea, "Influence of flexible substrates’ thickness on the performance of ink-jet printed CPW inductors" in 10th European Conference on Magnetic Sensors and Actuators. TU Vienna, Austria (2014):WP43,
https://hdl.handle.net/21.15107/rcub_rimsi_3168 .

Zlebic, C. J., Kljajic, D. R., Blaz, N. V., Zivanov, L., Damnjanovic, M.,& Menicanin, A.. (2014). Metoda za određivanje uticaja DC struje na električne karakteristike SMD induktora. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu
Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu., 3-9.
https://hdl.handle.net/21.15107/rcub_rimsi_3162

Zlebic CJ, Kljajic DR, Blaz NV, Zivanov L, Damnjanovic M, Menicanin A. Metoda za određivanje uticaja DC struje na električne karakteristike SMD induktora. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu. 2014;:3-9.
https://hdl.handle.net/21.15107/rcub_rimsi_3162 .

Zlebic, Cedo J., Kljajic, Dragan R., Blaz, Nelu V., Zivanov, Ljiljana, Damnjanovic, Mirjana, Menicanin, Aleksandar, "Metoda za određivanje uticaja DC struje na električne karakteristike SMD induktora" in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu (2014):3-9,
https://hdl.handle.net/21.15107/rcub_rimsi_3162 .

Zlebic, C. J., Blaz, N. V., Zivanov, L., Damnjanovic, M.,& Menicanin, A.. (2014). Softverski alat za brzo određivanje električnih karakteristika induktora iz S-parametara. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu
Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu., 3-9.
https://hdl.handle.net/21.15107/rcub_rimsi_3151

Zlebic CJ, Blaz NV, Zivanov L, Damnjanovic M, Menicanin A. Softverski alat za brzo određivanje električnih karakteristika induktora iz S-parametara. in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu. 2014;:3-9.
https://hdl.handle.net/21.15107/rcub_rimsi_3151 .

Zlebic, Cedo J., Blaz, Nelu V., Zivanov, Ljiljana, Damnjanovic, Mirjana, Menicanin, Aleksandar, "Softverski alat za brzo određivanje električnih karakteristika induktora iz S-parametara" in Institut za multidisciplinarna istraživanja Univerzitet u Beogradu Fakultet tehničkih nauka Univerzitet u Novom Sadu (2014):3-9,
https://hdl.handle.net/21.15107/rcub_rimsi_3151 .

TY  - JOUR
AU  - Menicanin, Aleksandar
AU  - Ivanisević, Nikola P.
AU  - Živanov, Ljiljana D
AU  - Damnjanović, Mirjana S.
AU  - Marić, Andrea M
AU  - Randjelović, Danijela V
PY  - 2014
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/802
AB  - In this paper, we present the modeling, fabrication, measurement techniques, and characterization results of multilayer miniature coplanar waveguide (CPW) meander-type inductors for high-frequency applications. Detailed procedure of the fabrication process based on using ink-jet printing technology is given. Silver nanoparticle ink that contains 20 wt% of silver was printed on a flexible polyimide foil 50 mu m thick in one, two, and three layers. It is shown that multilayer CPW inductors have improved performance. Almost two times better Q-factor value was achieved. This is an encouraging result for multilayer printing in ink-jet technology.
PB  - IEEE-Inst Electrical Electronics Engineers Inc, Piscataway
T2  - IEEE Transactions on Magnetics
T1  - Improved Performance of Multilayer CPW Inductors on Flexible Substrate
IS  - 11
VL  - 50
DO  - 10.1109/TMAG.2014.2329720
ER  - 

@article{
author = "Menicanin, Aleksandar and Ivanisević, Nikola P. and Živanov, Ljiljana D and Damnjanović, Mirjana S. and Marić, Andrea M and Randjelović, Danijela V",
year = "2014",
abstract = "In this paper, we present the modeling, fabrication, measurement techniques, and characterization results of multilayer miniature coplanar waveguide (CPW) meander-type inductors for high-frequency applications. Detailed procedure of the fabrication process based on using ink-jet printing technology is given. Silver nanoparticle ink that contains 20 wt% of silver was printed on a flexible polyimide foil 50 mu m thick in one, two, and three layers. It is shown that multilayer CPW inductors have improved performance. Almost two times better Q-factor value was achieved. This is an encouraging result for multilayer printing in ink-jet technology.",
publisher = "IEEE-Inst Electrical Electronics Engineers Inc, Piscataway",
journal = "IEEE Transactions on Magnetics",
title = "Improved Performance of Multilayer CPW Inductors on Flexible Substrate",
number = "11",
volume = "50",
doi = "10.1109/TMAG.2014.2329720"
}

Menicanin, A., Ivanisević, N. P., Živanov, L. D., Damnjanović, M. S., Marić, A. M.,& Randjelović, D. V.. (2014). Improved Performance of Multilayer CPW Inductors on Flexible Substrate. in IEEE Transactions on Magnetics
IEEE-Inst Electrical Electronics Engineers Inc, Piscataway., 50(11).
https://doi.org/10.1109/TMAG.2014.2329720

Menicanin A, Ivanisević NP, Živanov LD, Damnjanović MS, Marić AM, Randjelović DV. Improved Performance of Multilayer CPW Inductors on Flexible Substrate. in IEEE Transactions on Magnetics. 2014;50(11).
doi:10.1109/TMAG.2014.2329720 .

Menicanin, Aleksandar, Ivanisević, Nikola P., Živanov, Ljiljana D, Damnjanović, Mirjana S., Marić, Andrea M, Randjelović, Danijela V, "Improved Performance of Multilayer CPW Inductors on Flexible Substrate" in IEEE Transactions on Magnetics, 50, no. 11 (2014),
https://doi.org/10.1109/TMAG.2014.2329720 . .

TY  - CONF
AU  - Zlebic, C.
AU  - Ivanisević, N.
AU  - Kisic, M.
AU  - Blaz, Nelu V.
AU  - Menicanin, Aleksandar
AU  - Živanov, Ljiljana D
AU  - Damnjanović, M.
PY  - 2014
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/746
AB  - In this paper we compared a resistive and capacitive strain gauge in terms of sensitivity and material cost, both printed with deposition material printer using silver nanoparticle ink on a flexible polyimide substrate. The resistive change due to strain was measured with a full Wheatstone bridge and a signal conditioning circuit, while the capacitance change was measured with the HP4194A impedance analyzer. Measured and derived strain gauge factor for resistive sensor was 1.10, and 0.91 for the capacitive sensor.
PB  - Institute of Electrical and Electronics Engineers Inc.
C3  - Proceedings of the International Conference on Microelectronics, ICM
T1  - Comparison of Resistive and Capacitive Strain Gauge Sensors Printed on Polyimide Substrate Using Ink-Jet Printing Technology
EP  - 144
SP  - 141
DO  - 10.1109/MIEL.2014.6842105
ER  - 

@conference{
author = "Zlebic, C. and Ivanisević, N. and Kisic, M. and Blaz, Nelu V. and Menicanin, Aleksandar and Živanov, Ljiljana D and Damnjanović, M.",
year = "2014",
abstract = "In this paper we compared a resistive and capacitive strain gauge in terms of sensitivity and material cost, both printed with deposition material printer using silver nanoparticle ink on a flexible polyimide substrate. The resistive change due to strain was measured with a full Wheatstone bridge and a signal conditioning circuit, while the capacitance change was measured with the HP4194A impedance analyzer. Measured and derived strain gauge factor for resistive sensor was 1.10, and 0.91 for the capacitive sensor.",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
journal = "Proceedings of the International Conference on Microelectronics, ICM",
title = "Comparison of Resistive and Capacitive Strain Gauge Sensors Printed on Polyimide Substrate Using Ink-Jet Printing Technology",
pages = "144-141",
doi = "10.1109/MIEL.2014.6842105"
}

Zlebic, C., Ivanisević, N., Kisic, M., Blaz, N. V., Menicanin, A., Živanov, L. D.,& Damnjanović, M.. (2014). Comparison of Resistive and Capacitive Strain Gauge Sensors Printed on Polyimide Substrate Using Ink-Jet Printing Technology. in Proceedings of the International Conference on Microelectronics, ICM
Institute of Electrical and Electronics Engineers Inc.., 141-144.
https://doi.org/10.1109/MIEL.2014.6842105

Zlebic C, Ivanisević N, Kisic M, Blaz NV, Menicanin A, Živanov LD, Damnjanović M. Comparison of Resistive and Capacitive Strain Gauge Sensors Printed on Polyimide Substrate Using Ink-Jet Printing Technology. in Proceedings of the International Conference on Microelectronics, ICM. 2014;:141-144.
doi:10.1109/MIEL.2014.6842105 .

Zlebic, C., Ivanisević, N., Kisic, M., Blaz, Nelu V., Menicanin, Aleksandar, Živanov, Ljiljana D, Damnjanović, M., "Comparison of Resistive and Capacitive Strain Gauge Sensors Printed on Polyimide Substrate Using Ink-Jet Printing Technology" in Proceedings of the International Conference on Microelectronics, ICM (2014):141-144,
https://doi.org/10.1109/MIEL.2014.6842105 . .