Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment
Broadband electro-optical differential probes for voltage measurements in an electromagnetically polluted environment are designed and characterized. The differential circuit topology is used because of its good immunity to noise. By separating the signal acquisition and signal processing part of th...
| Permalink: | http://skupni.nsk.hr/Record/fer.KOHA-OAI-FER:52196/Similar |
|---|---|
| Glavni autor: | Štimac, Hrvoje (-) |
| Ostali autori: | Barić, Adrijan (Thesis advisor) |
| Vrsta građe: | Knjiga |
| Jezik: | eng |
| Impresum: |
Zagreb :
H. Štimac; Faculty of electrical engineering and computing,
2020.
|
APA stil citiranja
Štimac, H., & Barić, A. (2020). Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment: Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment : doctoral thesis. Zagreb: H. Štimac; Faculty of electrical engineering and computing.
Chicago stil citiranjaŠtimac, Hrvoje, and Adrijan Barić. Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment: Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment : doctoral thesis. Zagreb: H. Štimac; Faculty of electrical engineering and computing, 2020.
MLA stil citiranjaŠtimac, Hrvoje, and Adrijan Barić. Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment: Design characterization of multiport electro-optical circuits for broadband voltage measurements in an electromagnetically polluted environment : doctoral thesis. Zagreb: H. Štimac; Faculty of electrical engineering and computing, 2020.