Abstract
The design of modern radiofrequency integrated circuits on silicon operating at microwave and millimeter-waves requires the integration of several spiral inductors, transformers and transmission lines, which are commonly not available in the process design-kits of the technologies. Moreover, the design and simulation of such devices are not addressed adequately by means of systematic techniques and automation.
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Zito, D.: On exploiting new circuit topologies for the next-generation wireless transceivers at the μ- and mm-waves. In: IEEE Int. Conf. NEWCAS-TAISA, pp. 380–383 (2008)
Alimenti, F., Stopponi, G., et al.: Numerical FDTD Modeling of Silicon Integrated Spiral Inductors. Microw. J. 46(8), 68–87 (2003)
Niknejad, A.M., Meyer, R.G.: Analysis, design, and optimization of spiral inductors and transformers for Si RF ICs. IEEE J. of Solid-State Circuits 33(10), 1470–1481 (1998)
Dickson, T.O., La Croix, M.A.: 30-100GHz inductors and transformers for millimeter-wave (Bi)CMOS integrated circuits. IEEE Trans. on Microw. Theory and Tech. 53(1) (2005)
Kraemer, M., Dragomirescu, D., Plana, L.: Accurate electromagnetic simulation and measurement of millimeter-wave inductors in bulk CMOS technology. Top. Meet. on Silicon Monolithic Integr. Circuits in RF Syst. (SiRF) (2010)
http://www.helic.com/velocerf (accessed July 19, 201)
Koutsoyannopoulos, Y.K., Papananos, Y.: Systematic analysis and modeling of integrated inductors and transformers in RF IC design. IEEE Trans. on Circuits and Systems II: Analog and Digital Signal Processing 47(8), s:699–s:713 (2000)
De Ranter, C.R.C., Van der Plas, G., Steyaert, M.S.J., Gielen, G.G.E., Sansen, W.M.C.: CYCLONE: automated design and layout of RF LC-oscillators. IEEE Trans. on Computer-Aided Design of Integrated Circuits and Systems 21(10), 1161–1170 (2002)
http://www.midas-project.org (accessed July 17, 2012)
http://www.cadence.com (accessed July 17, 2012)
http://bwrc.eecs.berkeley.edu/classes/icbook/spice (accessed July 17, 2012 )
http://www.mentor.com (accessed July 17, 2012)
http://www.synopsys.com (accessed July 17, 2012)
Cheng, Q.S., Bandler, J.W., et al.: The State of the Art of Microwave CAD: EM-Based Optimization and Modeling. Int. J. of RF and Microw. Computer-Aided Eng. 20(5) (2010)
Radonic, V., Crnojevic-Bengin, V., Zivanov, L.: Comparison of Commercially Available Full-Wave EM Simulation Tools for Microwave Passive Devices. In: Int. Conf. on Computer as a Tool (EUROCON), vol. 2, pp. 1699–1702 (2005)
Nieuwoudt, M., McCorquodale, M.S., et al.: Accurate Analytical Spiral Inductor Modeling Techniques for Efficient Design Space Exploration. IEEE Electron. Device Lett. 27(12), 998–1001 (2006)
Zito, D., Pepe, D., Neri, B.: Wide-Band Frequency-Independent Equivalent Circuit Model for Integrated Spiral Inductors in (Bi)CMOS Technology. In: IEEE Int. Conf. on Electronics Circuits and Syst. (ICECS), pp. 478–481 (2006)
Ahn, Y.G., Kim, S.K., et al.: Efficient Scalable Modeling of Double-Equivalent Circuit for On-Chip Spiral Inductors. IEEE Trans. on Microw. Theory and Tech. 57(10), 2289–2300 (2009)
Talwalkar, N.A., Yue, C.P., Wong, S.S.: Analysis and synthesis of on-chip spiral inductors. IEEE Trans. on Electron. Devices 52(2), 176–182 (2005)
Rotella, F., Bhattacharya, B.K., Blaschke, V.: A broadband lumped element analytic model incorporating skin effect and substrate loss for inductors and inductor like components for silicon technology performance assessment and RFIC design. IEEE Trans. on Electron. Devices 52(7), 1429–1441 (2005)
Gao, W., Yu, Z.: Scalable compact circuit model and synthesis for RF CMOS spiral inductors. IEEE Trans. on Microwave Theory and Techniques 54(3), 1055–1064 (2006)
Chen, J., Liou, J.J.: Improved and physics-based model for symmetrical spiral inductors. IEEE Trans. on Microw. Theory and Tech. 53(6), 1300–1309 (2006)
Lai, I.C.H., Fujishima, M.: A new on-chip substrate-coupled inductor model implemented with scalable expressions. IEEE J. of Solid-State Circuits 41(11), 2491–2499 (2006)
Huo, X., Chan, P.C.H., et al.: A physical model for on-chip spiral inductors with accurate substrate modeling. IEEE Trans. on Electron. Devices 53(12), 176–182 (2006)
Wang, C., Liao, H., et al.: A wideband predictive double-pi equivalent-circuit model for on-chip spiral inductors. IEEE Trans. on Electron. Devices 56(4) (2009)
Mohan, S.S., Hershenson, M.M., et al.: Simple accurate expressions for planar spiral inductances. IEEE J. of Solid-State Circuits 34(10), 1419–1424 (1999)
Choi, Y.S., Yoon, J.B.: Experimental analysis of the effect of metal thickness on the quality factor in integrated spiral inductors for RF ICs. IEEE Electron. Device Lett. 25(29), 76–79 (2004)
Yue, C.P., Wong, S.S.: Design strategy of on-chip inductors for highly integrated RF systems. In: Proc. of Design Automation Conf., pp. 982–987 (1999)
http://www.ansoft.com/products/hf/hfss/ (accessed July 17, 2012)
Mounet, C., Siligaris, A.: Employing 65nm CMOS for WPAN Applications Partner Companies (2010), http://www.ansoft.com/firstpass/pdf/Employing_65nm_CMOS_for_WPAN_Applications.pdf (accessed July 17, 2012)
Aluigi, L., Alimenti, F., Roselli, L.: Automatic Design and 3D Electromagnetic Simulation of Sub-nH Spiral Inductors. In: Proc. of Prog. in Electromagn. Res. Symp. (PIERS), pp. 1719–1722 (2011)
Koolen, M.C.A.M., Geelen, J.A.M., et al.: An improved de-embedding technique for on-wafer high-frequency characterization. IEEE Proc. of Bipolar Circuits and Technol. Meet., 188–191 (1991)
Voinigescu, S.P.: HF Integrated Circuit. Short Course at the Univ. of Pisa, Pisa, Italy (2008)
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Aluigi, L., Alimenti, F., Roselli, L., Pepe, D., Zito, D. (2013). MIDAS: Microwave Inductor Design Automation on Silicon. In: Fakhfakh, M., Tlelo-Cuautle, E., Castro-Lopez, R. (eds) Analog/RF and Mixed-Signal Circuit Systematic Design. Lecture Notes in Electrical Engineering, vol 233. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-36329-0_15
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DOI: https://doi.org/10.1007/978-3-642-36329-0_15
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