B. S. YARMAN Et Al. , "A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models," First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul , Turkey, 2000
YARMAN, B. S. Et Al. 2000. A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models. First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul , (Turkey).
YARMAN, B. S., SERTBAŞ, A., & Aksen, A., (2000). A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models . First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul, Turkey
YARMAN, Bekir, Ahmet SERTBAŞ, And A Aksen. "A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models," First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul, Turkey, 2000
YARMAN, Bekir S. Et Al. "A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models." First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul , Turkey, 2000
YARMAN, B. S. SERTBAŞ, A. And Aksen, A. (2000) . "A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models." First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul , Turkey.
@conferencepaper{conferencepaper, author={Bekir Sıddık Binboğa YARMAN Et Al. }, title={A Computer-aided Design Technique for Analog RF Circuits with Lumped and Distributed Element Interconnect Models}, congress name={First IEEE Balkan Conference on Signal Process, Communications, Circuits and Sys. Işık Univ. Campus, Maslak-İstanbul}, city={}, country={Turkey}, year={2000}}