Finansijski program : Instutute of Electrodynamics, Microwave and Circuit Engineering (EMCE), Faculty of Electrical Engineering and Information Technology, Vienna University of Technology (TUW).
Naziv [ENG] : An analog controllable CMOS constant power source for a thermally based sensor interface using a resistive mirror architecture
Naziv : Analogni kontrolabilni CMOS izvor konstantne snage za termički senzorski interfejs korišćenjem arhitekture otpornog ogledala
Početak : 01.01.2017.
Kraj : 31.12.2019.
Skraceni naziv :
Web site :
Tip projekta : naučno-istraživacki
Tematska oblast : projektovanje analognih integrisanih kola
Jedinica : Elektrotehnički fakultet
Budzet za jedinicu :
Ukupan budzet :
Rukovodilac :

Opis : Kontrolabilni izvor konstantne snage u 0.35 CMOS tehnologiji pogodan za primjene u termički baziranim senzorima predstavlja predmet ovog projekta. Ovaj uređaj generiše konstantnu snagu bez obzira na varijacije otpornog potrošača. Bazira se na metodu otpornog ogledala, sa održavanjem jednakosti otpornosti otpornog originala i otpornog lika. Stabilnost kontrolabilnog izvora konstantne snage ne zavisi ni od otpornog opterećenja ni od generisane snage. Test stabilnosti sproveden je korišćenjem otpornog opterećenja u impulsnom modu, potvrđujući predviđanja sprovedene analize.


A controllable constant power source in 0.35 um CMOS technology suitable for thermal-based sensor applications is the topic of this project. This device generates a constant power independent of the variations of the resistive load. It is based on the resistive mirror method by keeping the equality of the resistive original and the resistive image resistances. The stability of the controllable constant power source is not dependent on either the load resistance or the generated power. The stability test has been carried out using the resistive load in a pulse mode operation confirming the predictions of the analzsis performed.