Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer

Jbari Atman; Larbi Bellarbi; Abdelhamid Errachid

doi:10.18100/ijamec.36094

Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer

Year 2016, , - , 16.12.2016

Jbari Atman , Larbi Bellarbi Abdelhamid Errachid

https://doi.org/10.18100/ijamec.36094

Abstract

Envelope detection and measurement has important applications in many domains such as instrumentation, sensors characterization, analog and digital communications. Instead of other envelope detection methods that use analog circuits or digital filters, we propose an electronic circuit that operates measurement in coherent mode. After reproduction of the input wave frequency using direct digital synthesizers, we place the envelope on a new low reference frequency signal followed by an analog measurement block based on analog multipliers and low-pass filters. Design circuit, simulation and experimental results are presented to validate the measurement for different values of input and reference frequencies.

References

Jbari. A. Bellarbi L., Zine N. Mills C.A., Samitier J. and Errachid A. Multiplexed Frequency Spectrum Analyzer Instrumentation for the Characterization of Multiple QCM-Based Biosensors, International Conference on Sensor Technologies and Applications (SENSORCOMM 2007), Valencia, Spain , pp. 436-440, 2007 .
Puteri Nor Aznie Fahsyar, S.M.; Soin, N. Performance comparison of envelope detector for RFID applications, Technical Postgraduates (TECHPOS), 2009 International Conference for , vol., no., pp.1,3, 14-15 Dec. 2009
Xiao-li Yin , Jing-jing Han , Can Xu , Ji Hao , Xiang-jun Xin ,Li Li, Photonic envelope detection and fiber transmission of 24 GHz IR-UWB signal based on phase modulation, Optoelectronics Letters, January 2015, Volume 11, Issue 1, pp 57-60.
Otani, A., Tsuda, Y., Hirabayashi, F. and Igawa, K., Advanced envelope detection method with novel optical PLL for optical sampling trigger, Electronics Letters , vol.41, no.18, pp.1019,1021, 1 Sept. 2005.
Nilsson, E. and Svensson, C. Envelope detector sensitivity and blocking characteristics, Circuit Theory and Design (ECCTD), 2011 20th European Conference on , vol., no., pp.773,776, 29-31 Aug. 2011.
Tierney. J., Rader. C. M. and Gold. B. A digital frequency synthesizer, IEEE Transactions on Audio and Electroacoustics, vol. 19, pp. 4857, 1971.
Jbari. A. Bellarbi L., Zine N. Mills C.A., Samitier J. and Errachid A. Multiplexed Frequency Spectrum Analyzer Instrumentation for the Characterization of Multiple QCM-Based Biosensors, International Conference on Sensor Technologies and Applications (SENSORCOMM 2007), Valencia, Spain , pp. 436-440, 2007 .
Puteri Nor Aznie Fahsyar, S.M.; Soin, N. Performance comparison of envelope detector for RFID applications, Technical Postgraduates (TECHPOS), 2009 International Conference for , vol., no., pp.1,3, 14-15 Dec. 2009
Xiao-li Yin , Jing-jing Han , Can Xu , Ji Hao , Xiang-jun Xin ,Li Li, Photonic envelope detection and fiber transmission of 24 GHz IR-UWB signal based on phase modulation, Optoelectronics Letters, January 2015, Volume 11, Issue 1, pp 57-60.
Otani, A., Tsuda, Y., Hirabayashi, F. and Igawa, K., Advanced envelope detection method with novel optical PLL for optical sampling trigger, Electronics Letters , vol.41, no.18, pp.1019,1021, 1 Sept. 2005.
Nilsson, E. and Svensson, C. Envelope detector sensitivity and blocking characteristics, Circuit Theory and Design (ECCTD), 2011 20th European Conference on , vol., no., pp.773,776, 29-31 Aug. 2011.
Tierney. J., Rader. C. M. and Gold. B. A digital frequency synthesizer, IEEE Transactions on Audio and Electroacoustics, vol. 19, pp. 4857, 1971.

Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer

Year 2016, , - , 16.12.2016

Jbari Atman , Larbi Bellarbi Abdelhamid Errachid

https://doi.org/10.18100/ijamec.36094

Abstract

Envelope detection and measurement has important applications in many domains such as instrumentation, sensors characterization, analog and digital communications. Instead of other envelope detection methods that use analog circuits or digital filters, we propose an electronic circuit that operates measurement in coherent mode. After reproduction of the input wave frequency using direct digital synthesizers, we place the envelope on a new low reference frequency signal followed by an analog measurement block based on analog multipliers and low-pass filters. Design circuit, simulation and experimental results are presented to validate the measurement for different values of input and reference frequencies.

References

Jbari. A. Bellarbi L., Zine N. Mills C.A., Samitier J. and Errachid A. Multiplexed Frequency Spectrum Analyzer Instrumentation for the Characterization of Multiple QCM-Based Biosensors, International Conference on Sensor Technologies and Applications (SENSORCOMM 2007), Valencia, Spain , pp. 436-440, 2007 .
Puteri Nor Aznie Fahsyar, S.M.; Soin, N. Performance comparison of envelope detector for RFID applications, Technical Postgraduates (TECHPOS), 2009 International Conference for , vol., no., pp.1,3, 14-15 Dec. 2009
Xiao-li Yin , Jing-jing Han , Can Xu , Ji Hao , Xiang-jun Xin ,Li Li, Photonic envelope detection and fiber transmission of 24 GHz IR-UWB signal based on phase modulation, Optoelectronics Letters, January 2015, Volume 11, Issue 1, pp 57-60.
Otani, A., Tsuda, Y., Hirabayashi, F. and Igawa, K., Advanced envelope detection method with novel optical PLL for optical sampling trigger, Electronics Letters , vol.41, no.18, pp.1019,1021, 1 Sept. 2005.
Nilsson, E. and Svensson, C. Envelope detector sensitivity and blocking characteristics, Circuit Theory and Design (ECCTD), 2011 20th European Conference on , vol., no., pp.773,776, 29-31 Aug. 2011.
Tierney. J., Rader. C. M. and Gold. B. A digital frequency synthesizer, IEEE Transactions on Audio and Electroacoustics, vol. 19, pp. 4857, 1971.
Jbari. A. Bellarbi L., Zine N. Mills C.A., Samitier J. and Errachid A. Multiplexed Frequency Spectrum Analyzer Instrumentation for the Characterization of Multiple QCM-Based Biosensors, International Conference on Sensor Technologies and Applications (SENSORCOMM 2007), Valencia, Spain , pp. 436-440, 2007 .
Puteri Nor Aznie Fahsyar, S.M.; Soin, N. Performance comparison of envelope detector for RFID applications, Technical Postgraduates (TECHPOS), 2009 International Conference for , vol., no., pp.1,3, 14-15 Dec. 2009
Xiao-li Yin , Jing-jing Han , Can Xu , Ji Hao , Xiang-jun Xin ,Li Li, Photonic envelope detection and fiber transmission of 24 GHz IR-UWB signal based on phase modulation, Optoelectronics Letters, January 2015, Volume 11, Issue 1, pp 57-60.
Otani, A., Tsuda, Y., Hirabayashi, F. and Igawa, K., Advanced envelope detection method with novel optical PLL for optical sampling trigger, Electronics Letters , vol.41, no.18, pp.1019,1021, 1 Sept. 2005.
Nilsson, E. and Svensson, C. Envelope detector sensitivity and blocking characteristics, Circuit Theory and Design (ECCTD), 2011 20th European Conference on , vol., no., pp.773,776, 29-31 Aug. 2011.
Tierney. J., Rader. C. M. and Gold. B. A digital frequency synthesizer, IEEE Transactions on Audio and Electroacoustics, vol. 19, pp. 4857, 1971.

There are 12 citations in total.

Details

Journal Section	RV
Authors	Jbari Atman Larbi Bellarbi This is me Abdelhamid Errachid This is me
Publication Date	December 16, 2016
Published in Issue	Year 2016

Cite

APA	Atman, J., Bellarbi, L., & Errachid, A. (2016). Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer. International Journal of Applied Mathematics Electronics and Computers, 4(4). https://doi.org/10.18100/ijamec.36094
AMA	Atman J, Bellarbi L, Errachid A. Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer. International Journal of Applied Mathematics Electronics and Computers. March 2016;4(4). doi:10.18100/ijamec.36094
Chicago	Atman, Jbari, Larbi Bellarbi, and Abdelhamid Errachid. “Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer”. International Journal of Applied Mathematics Electronics and Computers 4, no. 4 (March 2016). https://doi.org/10.18100/ijamec.36094.
EndNote	Atman J, Bellarbi L, Errachid A (March 1, 2016) Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer. International Journal of Applied Mathematics Electronics and Computers 4 4
IEEE	J. Atman, L. Bellarbi, and A. Errachid, “Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer”, International Journal of Applied Mathematics Electronics and Computers, vol. 4, no. 4, 2016, doi: 10.18100/ijamec.36094.
ISNAD	Atman, Jbari et al. “Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer”. International Journal of Applied Mathematics Electronics and Computers 4/4 (March 2016). https://doi.org/10.18100/ijamec.36094.
JAMA	Atman J, Bellarbi L, Errachid A. Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer. International Journal of Applied Mathematics Electronics and Computers. 2016;4. doi:10.18100/ijamec.36094.
MLA	Atman, Jbari et al. “Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer”. International Journal of Applied Mathematics Electronics and Computers, vol. 4, no. 4, 2016, doi:10.18100/ijamec.36094.
Vancouver	Atman J, Bellarbi L, Errachid A. Design of Coherent Envelope Measurement Circuit Based on Direct Digital Frequency Synthesizer. International Journal of Applied Mathematics Electronics and Computers. 2016;4(4).