Interpolation of Microcontroller ADC by Self Induced Dithering

[1]Domanska, A.,” The signal-to-noise ratio and the resolution of dither signal A-D conversion systems”, Metr. Meas. Syst., vol X, no 4, 2003, pp. 353-65. Search in Google Scholar

[2]Hauser, M. W., “Principles of Oversampling A/D Conversion”, J. Audio Engin. Soc., vol 39, no 1(2), 1991, pp. 3-26. Search in Google Scholar

[3]Schuchman, L., “Dither Signals and Their Effect on Quantization Noise”, IEEE Trans. Comm. Techn., vol 12, no 4, 1964, pp. 162-165.10.1109/TCOM.1964.1088973 Search in Google Scholar

[4]Jarman D., “A Brief Introduction to Sigma Delta Conversion”, Intersil Application Note AN9504, May 1995. [online] (Updated November 1, 2002). Available at <http://www.intersil.com/data/an/an9504.pdf> (Accessed April 21 2011). Search in Google Scholar

[5]Kester W., 2009. “ADC Architectures III: Sigma-Delta ADC Basics”. Analog Devices, Application note MT22, Rev. A, 10/08, 2008. [online] (Updated February 10, 2009). Available at <http://www.analog.com/static/imported-files/tutorials/MT-022.pdf> [Accessed May 1, 2011]. Search in Google Scholar

[6]Unknown, “Improving ADC Resolution by Oversampling and Averaging”, Silicon Laboratories, Application note 118, Rev. 1.2(12/03), 2003. [online] (Updated December 19, 2003). Available at <http://www.silabs.ru/pubs/an118.pdf> [Accessed December 25, 2012]. Search in Google Scholar

[7]Bartz, M., “Large-Scale Dithering Enhances ADC Dynamic Range”, Microwaves &RF, May 1993, pp. 192-4. Search in Google Scholar

[8]Carbone, P. and Petri, D., “Effect of additive dither on the resolution of ideal quantizers”, IEEE Transactions on Instrumentation and Measurement, vol 43, no 3, June 1994, pp. 389-396.10.1109/19.293456 Search in Google Scholar

[9]Lipshitz, S. P., Wannamaker, R. A. and Vanderkooy, J., “A Theoretical Survey of Quantization and Dither”, J. Audio Eng. Soc. vol 40, no 4, May 1992, pp. 355-74. Search in Google Scholar

[10]Kamensky M. and Kovac, K., “Correction of ADC Errors by Additive Iterative Method with Dithering”, Measurement Science Review, vol 11, no 1, 2011, pp. 11-18.10.2478/v10048-011-0004-3 Search in Google Scholar

[11]Zhao J., Zhang, Y. and Zhang, G., “Design and FPGA implementation of Digital Noise Generator Based on Superposition of Gaussian Process”, Proceedings of 2011 IEEE 13^th International conference on Communication Technology, Jinan, China, 25-28 September 2011, pp. 277-280. Search in Google Scholar

[12]Bucci, M., Germani, L., Lucci, R., Trifiletti, A. and Varanonuovo, M., “A High-Speed Oscillator-Based Truly Random Number Source for Cryptographic Applications on a Smart Card IC”, IEEE Transactions on Computers, vol 52, no 4, April 2003, pp. 403-9.10.1109/TC.2003.1190581 Search in Google Scholar

[13]Rahnama, B., Elci, A., Bakhshi, R., Malek, A. and Ahmadi, A., “Microcontroller-based AWGNG for Security Enhancement of Embedded Real-time Web Services”, Proceedings of 2009 33^rd Annual IEEE International Computer Software and Applications Conference, July 2024, Seattle, USA, pp.110-115. doi 10.1109/COMPSAC.2009.123.10.1109/COMPSAC.2009.123 Search in Google Scholar

[14]Kester, W., “ADC Input Noise: The Good, The Bad, and The Ugly. Is No Noise Good Noise?”, Analog Dialogue, 40(02), February, 2006, pp. 1-5. Search in Google Scholar

[15]Badzmirowski, K. and Jackiewicz, B., “Effects of Noise Dither Signals on Differential Linearity and Effective Resolution of Sigma-Delta A/C Converters in Measuring Applications”, Proceedings of IEEE Instrumentation and Measurement Technology Conference, St. Paul, Minnesota, USA, May 18-21, 1998, pp. 1229-32. Search in Google Scholar

[16]Domanska, A., “A-D Conversion with Dither Signal-Possibilities and Limitations”, Meas. Sci. Rev., vol 1, no 1, 2001, pp. 75-8. Search in Google Scholar

[17]Peretz, M. M. and Ben-Yaakov, S., “Digital Control of Resonant Converters: Enhancing Frequency Resolution by Dithering”, Proceedings of the 24th Annual IEEE Applied Power Electronics Conference and Exposition (APEC), 2009, pp. 1202-7.10.1109/APEC.2009.4802816 Search in Google Scholar

[18]Petri, D., “Dither signals and quantization”, Measurement, vol 19, no 3/4, 1996, pp. 147-57.10.1016/S0263-2241(97)00010-9 Search in Google Scholar

[19]Jedrzejewski, K. and Platonov, A. A., “Reduction of Influence of Finite Resolution of Feedback DAC on Intelligent Cyclic ADC Performance Using Digital Dither”, Proceedings of ICSES 2006, International Conference on Signals and Electronic Systems, September 17-20, Lodz, Poland, 2006, pp. 319-22. Search in Google Scholar

[20]Papoulis, A.,”Probability, Random Variables and Stochastic Processes”, McGraw-Hill Int. Ed., ISBN 0-07-100870-5, New York, 1991. Search in Google Scholar

[21]Kay, S. M., “Fundamentals of Statistical Signal Processing – Estimation Theory”, Prentice Hall Int. Ed., ISBN 0-13-042268-1, Kingston, USA, 1993. Search in Google Scholar

[22]Horowitz, P and Hill, W, “The Art of Electronics”, Cambridge University Press, 2nd ed., ISBN 0-521-37095, Cambridge, England, 1994, p. 185. Search in Google Scholar

[23]Abdipour, A., Moradi, G. and Saboktakin, S., “Design and implementation of a noise generator”, In 2008 IEEE International RF and Microwave Conference Proceedings, December 2-4, Kuala Lumpur, Malaysia, 2008, pp. 472-74.10.1109/RFM.2008.4897418 Search in Google Scholar

[24]Sarpshkar, R., Delbruck, T and Mead, C. A., “White noise in MOS transistors and resistors”, Circuits and Devices Magazine, IEEE 9(6), 1993, pp 23-29.10.1109/101.261888 Search in Google Scholar

[25]Eather, D., “Random Number Generation with a Simple Transistor Junction Noise Source”, [online] (Updated June 3, 2008), available at <http://imotp.sourceforge.net/noise.pdf>. [Accessed January 12, 2013] Search in Google Scholar

[26]Roon, v. T., “Practical Transistor Circuits”, [online] (Updated December 18, 2009), available at <http://www.sentex.ca/~mec1995/tutorial/xtor/xtor6/xtor6.html>. [Accessed November 23, 2012] Search in Google Scholar

[27]Henry, T., “Build a Tunable Noise Generator”, Nuts and Volts Magazine, November 1999, pp 25-27. Search in Google Scholar

[28]Unknown., “Building a Low-Cost White-Noise Generator”, Maxim Integrated, Application Note 3469, Mars 14, 2005. Search in Google Scholar

[29]Somlo, P.I., “Zener-Diode Noise Generators” Electronic Letters, vol. 11(14), July 10, 1975, p 290.10.1049/el:19750219 Search in Google Scholar

[30]Lukyanchikova, N.B., Garbar, N.P. and Petrichuk, M.V., “Excess white noise in bipolar junction transistors”, Solid-State Electronics, vol 35, No 8, 1992, pp 1179-84.10.1016/0038-1101(92)90019-9 Search in Google Scholar

[31]Microchip Technology Inc., “IC18FXX8 Data Sheet”, [online] (Updated October 18, 2004). Available at <http://ww1.microchip.com/downloads/en/devicedoc/41159d.pdf>, [Accessed January 4, 2012]. Search in Google Scholar

[32]FTDI, “TTL to USB Converter Data Sheet” [online] (Updated May 14, 2012). Available at <http://www.ftdichip.com/Support/Documents/DataSheets/Cables/DS_TTL- 232R_CABLES.pdf>, [Accessed November 16, 2012]. Search in Google Scholar

[33]Bhattacharyya, P., Verma, D. and Banerjee, D., “Microcontroller based Power Efficient Signal Conditioning Unit for Detection of a Single Gas using MEMS based Sensor”, Int. J. on Smart Sensing and Intelligent Systems, vol 3, no 4, December 2010, pp 771-81.10.21307/ijssis-2017-420 Search in Google Scholar

[34]Mahajan, A., Oesch, C., Padmanaban, H., Utterback, L., Chitikeshi, S. and Figueroa, F., “Physical and Virtual Intelligent Sensor for Integrated Health Management Systems”, Int. J. on Smart Sensing and Intelligent Systems, vol 5, no 3, September 2012, pp 559-75.10.21307/ijssis-2017-495 Search in Google Scholar

[35]Haifeng, D. and Xiaolong, Z., “A Smart Current and Voltage Acquisition System with High Accurracy foe EV Applications”, Int. J. on Smart Sensing and Intelligent Systems, vol 5, no 4, December 2012, pp 824-842.10.21307/ijssis-2017-509Search in Google Scholar