Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu
Proje Grubu: EEEAG Sayfa Sayısı: 50 Proje No: 108E242 Proje Bitiş Tarihi: 01.08.2011 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022
Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu
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- Anon. Companding. http://en.wikipedia.org/wiki/Companding.
- Belega, D., and D. Dallet. 2007. A/D Converters Testing Based on Beat Frequency Method. In Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, 2005. IDAACS 2005. IEEE, 13–17.
- Bozbey, A., S. Miyajima, H. Akaike, and A. Fujimaki. 2009. “Single-Flux-Quantum Circuit Based Readout System for Detector Arrays by Using Time to Digital Conversion.” Applied Superconductivity, IEEE Transactions on 19 (3): 509–513.
- Bozbey, A., S. Miyajima, T. Ortlepp, and A. Fujimaki. 2010. “Design and circuit analysis of quasi one junction SQUID comparators for low temperature detector array read-ou. In . Bozbey, A., S. Miyajima, T. Ortlepp, and A. Fujimaki. 2011. “Design and Circuit Analysis of Quasi-one Junction SQUID Comparators for Low Temperature Detector Array Read-out.” Journal of Superconductivity and Novel Magnetism 24: 1065-1069.
- Brock, D. K. 2001. “RSFQ technology: Circuits and systems.” High-speed integrated circuit technology: towards 100 GHz logic 11 (1): 307–362.
- Brock, D. K, S. S. Martinet, M. F. Bocko, and J. X. Przybysz. 2005. “Design and testing of QOS comparators for an RSFQ based analog to digital converter.” Applied Superconductivity, IEEE Transactions on 5 (2): 2244–2247.
- Clarke, J., and A. I Braginski. 2004. The SQUID Handbook: Vol. 1: Fundamentals and Technology of SQUIDs and SQUID Systems. Wiley-VCH.
- Dotsenko, V. V, J. Delmas, R. J Webber, T. V Filippov, D. E Kirichenko, S. Sarwana, D.
- Gupta, A. M Kadin, and E. K Track. 2009. “Integration of a 4-Stage 4 K Pulse Tube Cryocooler Prototype With a Superconducting Integrated Circuit.” Applied Superconductivity, IEEE Transactions on 19 (3): 1003–1007.
- Duuren, M. J. 1998. “Advanced Relaxation Oscillation SQUIDs.” Van Duzer, T., and C. W Turner. 1999. Principles of superconductive devices and circuits. Prentice Hall.
- Fang, E. S, and T. Van Duzer. 1989. “A Josephson integrated circuit simulator (JSIM) for superconductive electronics application.” Ext. Abstr. 2nd ISEC, Tokyo, Japan: 407– 410.
- Fujimaki, A., M. Tanaka, T. Yamada, Y. Yamanashi, H. Park, and N. Yoshikawa. 2008. “Bit-serial single flux quantum microprocessor CORE.” IEICE Transactions on Electronics 91 (3): 342.
- G.L. Matthaei. 1966. “Short-Step Chebyshev Impedance Transformers.” IEEE Transactions on Microwave Theory and Techniques 14: 372-383.
- Gerritsma, G. J, A. J. Verhoeven, R. J Wiegerink, and H. Rogalla. 2002. “A high-Tc 4-bit periodic threshold analog-to-digital converter.” Applied Superconductivity, IEEE Transactions on 7 (2): 2987–2992.
- Gupta, D., T. V Filippov, A. F Kirichenko, D. E Kirichenko, I. V Vernik, A. Sahu, S. Sarwana, P. Shevchenko, A. Talalaevskii, and O. A Mukhanov. 2007. “Digital channelizing radio frequency receiver.” IEEE Transactions on Applied Superconductivity 17 (2): 430– 437.
- Hypres. 2010. Hypres Niobium Integrated Circuit Fabrication Process #03-10-45 Design Rules. http://www.hypres.com/pages/download/designrules/DesignRules.pdf.
- IRTS. 2004. International Technology Roadmap for Semiconductors 2004 - Emerging Research Devices.
- ITRS. 2005. International Technology Roadmap for Semiconductors 2005 - Emerging Research Devices.
- ITRS. 2007. International Technology Roadmap for Semiconductors 2007 - Emerging Research Devices.
- ITRS. 2009. 2009 Emerging Research Devices Chapter. In .
- Kadin, A. M, R. J Webber, and D. Gupta. 2007. “Current leads and optimized thermal packaging for superconducting systems on multistage cryocoolers.” Applied Superconductivity, IEEE Transactions on 17 (2): 975–978.
- Kameda, Y., Y. Hashimoto, and S. Yorozu. 2008. “Design and Demonstration of a 4 x4 SFQ Network Switch Prototype System and 10-Gbps Bit-Error-Rate Measurement.” IEICE Transactions on Electronics 91 (3): 333.
- Kushino, A., M. Ohkubo, and K. Fujioka. 2005. “Thermal conduction measurement of miniature coaxial cables between 0.3 and 4.5 K for the wiring of superconducting detectors.” Cryogenics 45 (9): 637–640.
- Kushino, A., M. Ohkubo, Y. E. Chen, M. Ukibe, S. Kasai, and K. Fujioka. 2006. “Cryogen-free cryostat for large-scale arrays of superconducting tunnel junction ion detectors in time-of-flight mass spectrometry.” Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 559 (2): 654–656.
- Lakeshore. Cryogenic Coaxial Cable. http://www.lakeshore.com/temp/acc/am_cablets.html. http://www.lakeshore.com/temp/acc/am_cablets.html.
- Luryi, S., J. Xu, and A. Zaslavsky. 2010. Future trends in microelectronics: from nanophotonics to sensors to energy. Wiley-IEEE Press.
- M. Maezawa, M. Ochiai, H. Kimura, F. Hirayama, and M. Suzuki. 2007. “Design and operation of RSFQ cell library fabricated by using a 10-kA/cm(2) Nb technology.” IEEE Transactions on Applied Superconductivity 17.
- Maruyama, M., H. Suzuki, Y. Hashimoto, and M. Hidaka. 2009. “A Flash A/D Converter Using Complementarily Combined SQUIDs.” Applied Superconductivity, IEEE Transactions on 19 (3): 680–684.
- Maxim. Understanding Flash ADCs - Maxim. http://www.maxim-ic.com/app-notes/index.mvp/id/810.
- Mukhanov, O. A, D. Gupta, A. M Kadin, and V. K Semenov. 2004. “Superconductor analog-to-digital converters.” Proceedings of the IEEE 92 (10): 1564–1584.
- Nakamura, S., H. Numabe, A. Bozbey, and A. Fujimaki. 2009. “Current Resolution of a Single-Flux-Quantum Readout Circuit Based on Current-to-Time Conversion Toward a Flux Qubit System.” Applied Superconductivity, IEEE Transactions on 19 (3): 973– 976.
- NSA. 2005. SUPERCONDUCTING TECHNOLOGY ASSESSMENT. Amerikan Ulusal Güvenlik kurumu (NSA). http://www.nitrd.gov/pubs/nsa/sta.pdf.
- Ortlepp, Thomas, and Coenrad Fourie. 2008. Cyrocooler-cooled RSFQ circuits. In .
- Ortlepp, Thomas, and F. H Uhlmann. 2009. “Impedance Matching of Microstrip Inductors in Digital Superconductive Electronics.” IEEE Transactions on Applied Superconductivity 19: 644-648.
- P.W. Vanderwalt. 1986. “Short-Step-Stub Chebyshev Impedance Transformers.” IEEE Transactions on Microwave Theory and Techniques 34: 863-868.
- R. Levy. 1972. “Synthesis of Mixed Lumped and Distributed Impedance-Transforming Filters.” IEEE Transactions on Microwave Theory and Techniques 20: 223-233.
- Sekiya, A., K. Okada, Y. Nishido, A. Fujimaki, and H. Hayakawa. 2005. “Demonstration of the multi-bit sigma-delta A/D converter with the decimation filter.” IEEE Transactions on Applied Superconductivity 15 (2): 340–343.
- Suleiman, B. M., I. Ul-Haq, E. Karawacki, A. Maqsood, and S. E. Gustafsson. 1993. “Thermal conductivity and electrical resistivity of the Y-and Er-substituted 1: 2: 3 superconducting compounds in the vicinity of the transition temperature.” Physical review B 48 (6): 4095–4102.
- Tomaru, T., T. Suzuki, T. Haruyama, T. Shintomi, A. Yamamoto, T. Koyama, and R. Li. 2004. “Vibration analysis of cryocoolers* 1.” Cryogenics 44 (5): 309–317.
- Webber, R. J., V. V. Dotsenko, J. Delmas, A. M. Kadin, and E. K. Track. 2009. Evaluation of a 4 K 4-stage Pulse Tube Cryocooler for Superconducting Electronics. In Cryocoolers 15th International Cryocooler Conference, CO, USA, 657–664.
- Yorozu, S., Y. Kameda, H. Terai, A. Fujimaki, T. Yamada, and S. Tahara. 2002. “A single flux quantum standard logic cell library.” Physica C: Superconductivity 378: 1471–1474.
| APA | BOZBEY A, TUNÇ C (2011). Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. , 1 - 50. |
| Chicago | BOZBEY Ali,TUNÇ Celal Alp Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. (2011): 1 - 50. |
| MLA | BOZBEY Ali,TUNÇ Celal Alp Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. , 2011, ss.1 - 50. |
| AMA | BOZBEY A,TUNÇ C Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. . 2011; 1 - 50. |
| Vancouver | BOZBEY A,TUNÇ C Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. . 2011; 1 - 50. |
| IEEE | BOZBEY A,TUNÇ C "Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu." , ss.1 - 50, 2011. |
| ISNAD | BOZBEY, Ali - TUNÇ, Celal Alp. "Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu". (2011), 1-50. |
| APA | BOZBEY A, TUNÇ C (2011). Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. , 1 - 50. |
| Chicago | BOZBEY Ali,TUNÇ Celal Alp Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. (2011): 1 - 50. |
| MLA | BOZBEY Ali,TUNÇ Celal Alp Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. , 2011, ss.1 - 50. |
| AMA | BOZBEY A,TUNÇ C Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. . 2011; 1 - 50. |
| Vancouver | BOZBEY A,TUNÇ C Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu. . 2011; 1 - 50. |
| IEEE | BOZBEY A,TUNÇ C "Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu." , ss.1 - 50, 2011. |
| ISNAD | BOZBEY, Ali - TUNÇ, Celal Alp. "Hızlı tek akı kuantumu (RSFQ) tabanlı analog-dijital dönüştürücü (ADC) tasarım ve karakterizasyonu". (2011), 1-50. |
