A collection of papers:

Files in pdf format or external links.

• A. C. M. de Queiroz and L. P. Calôba, Physically symmetrical and antimetrical ladder filters with finite transmission zeros, 30th. MWSCAS, Syracuse, USA, August 1987.
• A. C. M. de Queiroz, L. P. Calôba, and E. Sanchez-Sinencio, Signal flow graph OTA-C integrated filters, 1988 IEEE ISCAS, Espoo, Finland, pp. 2165-2168, June 1988. 
• A. C. M. de Queiroz and L. P. Calôba, Some practical problems in OTA-C filters related with parasitic capacitances, 1990 IEEE ISCAS, New Orleans, USA, pp. 2279-2282, May 1990.
• A. C. M. de Queiroz and L. P. Calôba, Optimal filter overdesign, 36th MWSCAS, Detroit, USA, pp. 1388-1391, August 1993.
• J. Schechtman, A. C. M. de Queiroz, and L. P. Calôba A high performance balanced MOS transconductor, 36th MWSCAS, Detroit, USA, pp. 1378-1381, August 1993.
• J. Schechtman, A. C. M. de Queiroz, and L. P. Calôba, Switched-current filters using component simulation, 1994 IEEE ISCAS, London, U. K., pp. 569-572, May 1994.
• A. C. M. de Queiroz and P. M. Pinheiro, Switched-current ladder band-pass filters, 1994 IEEE ISCAS, London, U. K., pp. 309-312, May 1994.
• J. Schechtman, A. C. M. de Queiroz, and L. P. Calôba, A practical implementation scheme for component simulation SI filters, 38th MWSCAS, Rio de Janeiro, Brazil, pp. 174-177, August 1995. 
• A. C. M. de Queiroz and L. P. Calôba, Reactive loop elimination and the use of special approximations in the design of OTA-C filters, 38th MWSCAS, Rio de Janeiro, Brazil, pp. 1341-1344, August 1995. 
• A. C. M. de Queiroz, Compact nodal analysis with controlled sources modeled by ideal operational amplifiers, 38th MWSCAS, Rio de Janeiro, Brazil, pp. 1205-1208, August 1995.
• A. C. M. de Queiroz and L. P. Calôba, Statistical prediction of errors in the localization of poles and zeros by sensitivity analysis, 1996 IEEE ISCAS, Atlanta, USA, pp. IV/608-IV/611, May 1996.
• A. C. M. de Queiroz and R. R. Martins, Experimental bipolar realization of a switched-current filter, 39th MWSCAS, Ames, Iowa, USA, pp. 907-910, August 1996.
• A. C. M. de Queiroz and J. Schechtman, Elimination of nonlinear clock feedthrough in component-simulation switched-current circuits, by , 1998 IEEE ISCAS, Monterey, USA, Vol. I, pp. 325-328, May 1998.
• A. C. M. de Queiroz and J. Schechtman, Sensitivity and error reduction by component swapping in switched-current filters, 1999 IEEE ISCAS, Orlando, USA, Vol. 2, pp. 480-483, May 1999.
• A. C. M. de Queiroz, Synthesis of multiple resonance networks, 2000 IEEE ISCAS, Geneva, Switzerland, Vol. V, pp. 413-416, May 2000.
• A. C. M. de Queiroz, Considerations about frequency spectrum and signal feedthrough in the design of switched-current filters, 6th SMACD, Lisbon, Portugal, pp. 163-166, October 2000.
• A. C. M. de Queiroz, Unbalanced lattice switched-current filters, 2001 IEEE ISCAS, Sydney, Australia, Vol I, pp. 1-4, May 2001.
• A. S. de la Vega, A. C. M. de Queiroz, and P. S. R. Diniz, Adaptive filter implementation using switched-current technique, 2001 IEEE ISCAS, Sydney, Australia, Vol I, pp. 17-20, May 2001.
• A. C. M. de Queiroz, A simple design technique for multiple resonance networks, ICECS 2001, Malta, Vol I, pp. 169-172, September 2001.
• A. C. M. de Queiroz, Generalized multiple resonance networks, 2002 IEEE ISCAS, Scottsdale, USA, Vol. III, pp. 519-522, May 2002.
• A. C. M. de Queiroz Capacitively coupled multiple resonance networks, 2003 IEEE ISCAS, Bangkok, Thailand, Vol. I, pp. 181-184, May 2003.
• A. C. M. de Queiroz, Cálculo de indutâncias e indutâncias mútuas pelo método de Maxwell, Semana da Eletrônica 2003, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil, September 2003.
• A. C. M. de Queiroz, Automatic adjustment of the output impedance of a balanced transconductor using a charged capacitor, 46th MWSCAS, Cairo, Egypt, Vol. I, pp. 21-24, December 2003.
• A. C. M. de Queiroz, Band-pass multiple resonance networks, 47th MWSCAS, Hiroshima, Japan, July 2004, Vol. III, pp. 275-278.
• A. C. M. de Queiroz, Multiple resonance networks with incomplete energy transfer and operating with zero-state response, 2005 IEEE ISCAS, Kobe, Japan, Vol. I, pp. 236-239, May 2005.
• A. C. M. de Queiroz, Component simulation switched-current filters using backward Euler transformation, 49th MWSCAS, San Juan, Puerto Rico, pp. 245-248, August 2006.
  
• A. C. M. de Queiroz, Doublers of Electricity, Physics Education, 42, March 2007, pp. 156-162. Note.
• A. C. M. de Queiroz, The triple resonance network with sinusoidal excitation, ICECS 2007, Marrakech, Morocco, pp. 1143-1146, December 2007. Note.
• A. C. M. de Queiroz, Wideband asymmetrical bandpass LC-ladder matching networks for low-noise amplifiers,  ICECS 2008, St. Julians, Malta, pp. 974-977, September 2008.
• A. C. M. de Queiroz, Balanced transconductor-C ladder filters with improved linearity, 52nd MWSCAS, Cancún, Mexico, pp. 41-44, August 2009.
• A. C. M. de Queiroz, Electrostatic vibrational energy harvesting using a variation of Bennet’s doubler, 53th MWSCAS, Seattle, USA, pp. 404-407, August 2010.
• A. C. M. de Queiroz, Live demonstration: Electronic doubler of electricity, 2011 IEEE ISCAS, Rio de Janeiro, Brazil, p. 1991, May 2011.
• A. C. M. de Queiroz and M. Domingues, Electrostatic energy harvesting using doublers of electricity, 54th MWSCAS, Seoul, South Korea, pp. 1-4, August 2011.
• A. C. M. de Queiroz and M. Domingues, The doubler of electricity used as battery charger, IEEE Transactions on Circuits and Systems II, Vol. 58, 12, pp. 797-801, December 2011.
• A. C. M. de Queiroz and I. O. Gameleiro, Low-distortion balanced transconductor-C ladder filters without common-mode feedback, 55th MWSCAS, Boise, EUA, pp. 97-100, August 2012.
• A. C. M. de Queiroz, The electrostatic machines in the UFRJ Polytechnic School museum, XXXI Symposium of the Scientific Instrument Commission, Rio de Janeiro, Brazil, October 2012.
• A. C. M. de Queiroz, Electrostatic generators for vibrational energy harvesting, LASCAS 2013, Cusco, Peru, pp. 1-4, February 2013.
• M. Domingues and A. C. M. de Queiroz, Ultra-low-power control systems for electrostatic energy harvesters, ISCAS 2013, Beijing, China, pp. 2960-2963, May 2013.
• A. C. M. de Queiroz and M. Domingues, Analysis of the doubler of electricity considering a resistive load, 56th MWSCAS, Columbus, Ohio, USA, pp. 45-48, August 2013.
• A. C. M. de Queiroz, Electrostatic energy harvesting without active control circuits, LASCAS 2014, Santiago, Chile, February 2014.
• A. C. M. de Queiroz and M. S. de Souza, Batteryless electrostatic energy harvester and control system, ISCAS 2014, Melbourne, Australia, pp. 1977-1980, June 2014.
• A. C. M. de Queiroz and L. C. M de Oliveira Filho, Simulation of MEMS energy harvesting generators based on Bennet’s doubler, LASCAS 2015, Montevideo, Uruguay, pp. 1-4, February 2015.
• A. C. M. de Queiroz, Analysis of the operation of a regenerative electrostatic energy harvester, ISCAS 2015, Lisboa, Portugal, May 2015.
• A. C. M. de Queiroz, Electrostatic energy harvesting using capacitive generators without control circuits, Analog Integrated Circuits and Signal Processing, June 2015.
• A. C. M. de Queiroz and L. C. M. de Oliveira Filho, Energy harvesting with 3D-printed electrostatic generators, LASCAS 2016, Florianópolis, Brazil, pp. 127-130, February 2016.
• A. C. M. de Queiroz, Energy harvesting using symmetrical electrostatic generators, ISCAS 2016, Montreal, Canadá, pp. 650-653, May 2016.
• A. C. M. de Queiroz, Biased capacitive divider electrostatic generators for energy harvesting, LASCAS 2017, San Carlos de Bariloche, Argentina, pp. 29-32, February 2017.
• A. C. M. de Queiroz and L. C. M. de Oliveira Filho, Live demonstration: Unipolar symmetrical variable-capacitance generators for energy harvesting, ISCAS 2017, Baltimore, USA, p. 1739, May 2017.
• A. C. M. de Queiroz and L. C. M. de Oliveira Filho, Unipolar symmetrical variable-capacitance generators for energy harvesting, 60th MWSCAS, Boston, USA, August 2017.
• A. C. M. de Queiroz, Steady state analysis of electronic electrostatic generators, 2018 IEEE International Symposium on Circuits and Systems, Florence, Italy, pp. 1-5,May 2018.
• A. C. M. de Queiroz and N. Telles de Menezes, Energy harvesting with pairs of variable capacitors without control systems, Analog Integrated Circuits and Signal Processing, June 2018. Direct link.
• A. C. M. de Queiroz, Analysis of electronic electrostatic generators, IEEE Transactions on Circuits and Systems II, August 2018. Preprint.
• A. C. M. de Queiroz, Voltage measurement with pith balls, European Journal of Physics, November 2018. Preprint.
• A. C. M. de Queiroz, Variations of the doubler of electricity, Physics Education, Vol. 54, No. 3, p. 035019, April 2019.

Other documents:

• Mutual inductance and inductance calculations by Maxwell's method, by A. C. M. de Queiroz.
• Capacitance calculations, by A. C. M. de Queiroz.
• Switched-current circuits, synthesis and analysis techniques, by A. C. M. de Queiroz.
• The capacitance of a wire, by A. C. M. de Queiroz
• Wireless energy transfer, by A. C. M de Queiroz
  

Some references mentioned in the papers:

Multiple resonance networks:

• P. Drude, “Uber induktive Erregung zweier elektrischer Schwingungskreise mit Anwendung auf Perioden und Dampfungsmessung, Tesla transformatoren und drahtlose Telegraphie,” Annalen der Physik, pp. 512-561, vol. 13, 1904. Partial translation. Another translation.
• F. M. Bieniosek, “Triple resonance pulse transformer circuit,” Review of Scientific Instruments 61 (6) p. 1717, June 1990.
• F. M. Bieniosek, “Triple resonance high voltage pulse transformer circuit,” Proc. 6th IEEE Pulsed Power Conference, p. 700, 1987.

Bennet's doubler and similar devices:

• A. Bennet, “An Account of a Doubler of Electricity,” Philosophical Transactions, XLVII, pp. 288-296, May 1787.
• W. Wilson, “Description of a compound electrical instrument for condensing and doubling: with experiments,” Journal of Natural Philosophy, Chemistry and the Arts, Vol. IX, pp. 19-24, September 1804. Local copy.
• L. J. Giacoletto and I. Wolff, “Electrostatic generator,” U. S. patent 2567373, 11 September 1951.
• C. D. Curtis, “High voltage electric generator,” U. S. patent 3175104, 23 March 1965.
• C. D. Curtis, "Output power from a self-excited electrostatic generator," Symposium on Electrostatic Energy Conversion, 1963.

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Last update: 2 June 2020.