Publications
A. Chenakin, S. Ojha and N. Shtin, “Phase Noise Suppression in PLL Synthesizers,” in Anritsu Technical Review, No. 31, September 2023, pp. 38-41.
A. Chenakin, “Microwave Frequency Synthesizers,” IEEE Microwave Magazine, July 2023, pp. 29-40.
N. Shtin, S. Ojha and A. Chenakin, “Residual Noise Characterization Using Interferometric Measurement Technique,” in Anritsu Technical Review, No. 30, September 2022, pp. 73-77.
A. Chenakin, S. Ojha and S. Phadnis, “RubidiumTM Signal Generators Redefine Industry Standards for Spectral Purity and Stability,” Microwave Journal, November 2021, pp. 40-42.
N. Shtin, S. Ojha and A. Chenakin “Characterization of Residual Phase Noise in Commercial MMIC Amplifiers,” in Anritsu Technical Review, No. 28, September 2020, pp. 52-56.
A. Chenakin, S. Ojha and N. Shtin, “An Overview of Today’s Microwave Signal Generators Market and Technologies,” in Anritsu Technical Bulletin, No. 94, March 2019, pp. 44-47.
A. Chenakin, V. Kochemasov and A. Pestryakov, “Current State and Development Trends of Microwave Frequency Synthesizers,” in Synchroinfo Conf. Proc., Minsk, Belarus, July 2018.
A. Chenakin, “Frequency Synthesis: Current Status and Future Projections,” Microwave Journal, April 2017, pp. 22-36.
A. Chenakin, “Synthesizers: Looking Beyond the Basics,” Microwave Journal, April 2014, pp. 84-94.
A. Chenakin, “From a Russian Source - Oscillator and Synthesizer Developments in Russia,” Microwave Journal, May 2013, pp. 27-46.
A. Chenakin, et. al., “A 26.5 GHz PLL Synthesizer with Low Phase Noise Characteristics,” in Asia-Pacific Microwave Conference Proc., Melbourne, Australia, December 2011, pp. 1210-1213.
A. Chenakin, “Implementing Modulation Functions in Microwave Frequency Synthesizers,” High Frequency Electronics, October 2011, pp. 20-27.
A. Chenakin, et. al., “Broadband PXI Local Oscillator Modules with Low Phase Noise and Fast Switching Speed,” in IEEE Autotestcon Proc., Baltimore, MD, USA, September 2011, pp. 297-302.
A. Chenakin, “Select a VCO or YIG for a PLL Synthesizer?,” Microwaves & RF, April 2011, pp. 72-80.
A. Chenakin, “Control Interfaces for RF and Microwave Frequency Synthesizers,” High Frequency Electronics, February 2011, pp. 18-28.
A. Chenakin, “A Compact Synthesizer Module Offers Instrument-grade Performance and Functionality,” Microwave Journal, February 2011, pp. 34-38.
A. Chenakin, “A Compact, Agile, Low-phase-noise Frequency Source with AM, FM and Pulse Modulation Capabilities,” in ARMMS Meeting Proc., Corby, UK, November 2009, pp. 1-7.
A. Chenakin, “Phase Noise Reduction in Microwave Oscillators,” Microwave Journal, October 2009, pp. 124-140.
A. Chenakin, et. al., “An Innovative Approach in the Design of Fast-Switching Microwave Synthesizers,” in IEEE Autotestcon Proc., Anaheim, CA, USA, September 2009, pp. 60-63.
A. Chenakin, “Novel Approach Yields Fast, Clean Synthesizers,” Microwaves & RF, October 2008, pp. 101-110.
A. Chenakin, et. al., “A PXI Fast Switching LO Synthesizer Enables 26.5 GHz Synthetic Instruments,” in IEEE Autotestcon Proc., Salt Lake City, UT, USA, September 2008, pp. 133-137.
A. Chenakin, “A Broadband, Low Phase Noise, Fast Switching PLL Frequency Synthesizer,” in Proc. 2008 Frequency Control Symposium, Honolulu, HI, USA, May 2008, pp. 758-761.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 1: Getting Started,” High Frequency Electronics, May 2008, pp. 58-67.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 2: Component Selection,” High Frequency Electronics, June 2008, pp. 18-26.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 3: From Sketch to Product,” High Frequency Electronics, July 2008, pp. 18-26.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 4: Improving Performance,” High Frequency Electronics, August 2008, pp. 44-51.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 5: Advanced Techniques,” High Frequency Electronics, September 2008, pp. 50-57.
A. Chenakin and S. Ojha, “A Small Form Factor 3-9 GHz Synthesizer Module for Use in Synthetic Instrumentation Applications,” Microwave Product Digest, April 2008, pp. 58-71.
A. Chenakin, “A Broadband High-Isolation Electronic Switch Covers 30 kHz to 22 GHz,” High Frequency Electronics, November 2007, pp. 44-47.
A. Chenakin, “Frequency Synthesis: Current Solutions and New Trends,” Microwave Journal, May 2007, pp. 256-266.
A. Chenakin and AP.S. “Paul” Khanna, “2-22 GHz Continuously Variable Attenuator Has Low IMD and Flat Response,” High Frequency Electronics, July 2006, pp. 16-20.
A. Chenakin, et. al., “An Integrated Frequency Doubler,” in Proc. 2002 Asia-Pacific Microwave Conference, Kyoto, Japan, Nov. 2002, vol. 1, pp. 63-65.
A. Chenakin, “Measurement of Millimeter Wave Transistor Parameters,” in Dig. Conference on Precision Electromagnetic Measurements, Braunschweig, Germany, June 1996, pp. 596-597.
A. Chenakin, “Realization of Millimeter-wave Low-noise Transistor Opportunities,” in Dig. 20th Workshop on Compound Semiconductor Devices and Integrated Circuits, Vilnius, Lithuania, May 1996, pp. 124-125.
V. Skachko and A. Chenakin, “Measuring the Parameters of Chip Field-effect Transistors,” Radioelectronics and Communications Systems, Allerton Press Inc., vol. 38, November 1995, pp. 44-46.
A. Chenakin and V. Skachko, “Waveguide Transistor Amplifiers,” in Proc. 5th International Symposium on Recent Advances in Microwave Technology, Kiev, Ukraine, Sept. 1995, vol. 1, pp. 337-340.
A. Chenakin, “A New Measurement Method for Determination of Transistor Parameters,” in Dig. 45th Automatic RF Techniques Group Conference, Orlando, FL, USA, May 1995, pp. 12-18.
in Swedish
A . Chenakin, “VCO eller YIG för högpresterande PLL?” Elektronik I Norden, augusti 2011.
in Russian
Ченакин А.В., Кочемасов В.Н., Архитектурные решения в проектировании синтезаторов частот СВЧ с фазовой автоподстройкой частоты. // T-Comm – Телекоммуникации и Транспорт, № 10, 2020 г., с. 17-25.
Ченакин А.В., Кочемасов В.Н., Пестряков А.В., Состояние и перспективы развития синтезаторов частот СВЧ-диапазона. // Системы синхронизации, формирования и обработки сигналов, № 4, 2018 г., с. 132-139.
А. Ченакин, ГУН или ЖИГ? Проблема выбора при проектировании высококачественного синтезатора с ФАПЧ. // Электроника: Наука, Технология, Бизнес, 2012, № 6, с. 122-126.
А. Ченакин, Малогабаритный синтезатор частот с высокой скоростью перестройки и "чистым" сигналом. // Компоненты и технологии, 2011, № 7, с. 114-116.
А. Ченакин, Фазовые шумы в СВЧ-генераторах. Методы решения проблемы. // Электроника: Наука, Технология, Бизнес, 2011, № 4, с. 52-61.
А. Ченакин, Частотный синтез: текущие решения и новые тенденции. // Электроника: Наука, Технология, Бизнес, 2008, № 1, с. 92-97.
in German
A. Chenakin, et. al., “Rubidium-Signalgeneratoren definieren neue Industriestandards
für spektrale Reinheit und Stabilität,” hf-praxis, Februar 2022, pp. 8-9.
in French
A. Chenakin, et. al., “Les générateurs de signaux Rubidium redéfinissent les normes industrielles en termes de pureté et stabilité du signal,” ECI Electronique, fevrier 2022.
in Spanish
A. Chenakin, et. al., “Los generadores de señal Rubidium establecen nuevas referencias en el mercado para la pureza espectral y la estabilidad,” Revista Espanola de Electronica, Noviembre 2022.
A. Chenakin, “Microwave Frequency Synthesizers,” IEEE Microwave Magazine, July 2023, pp. 29-40.
N. Shtin, S. Ojha and A. Chenakin, “Residual Noise Characterization Using Interferometric Measurement Technique,” in Anritsu Technical Review, No. 30, September 2022, pp. 73-77.
A. Chenakin, S. Ojha and S. Phadnis, “RubidiumTM Signal Generators Redefine Industry Standards for Spectral Purity and Stability,” Microwave Journal, November 2021, pp. 40-42.
N. Shtin, S. Ojha and A. Chenakin “Characterization of Residual Phase Noise in Commercial MMIC Amplifiers,” in Anritsu Technical Review, No. 28, September 2020, pp. 52-56.
A. Chenakin, S. Ojha and N. Shtin, “An Overview of Today’s Microwave Signal Generators Market and Technologies,” in Anritsu Technical Bulletin, No. 94, March 2019, pp. 44-47.
A. Chenakin, V. Kochemasov and A. Pestryakov, “Current State and Development Trends of Microwave Frequency Synthesizers,” in Synchroinfo Conf. Proc., Minsk, Belarus, July 2018.
A. Chenakin, “Frequency Synthesis: Current Status and Future Projections,” Microwave Journal, April 2017, pp. 22-36.
A. Chenakin, “Synthesizers: Looking Beyond the Basics,” Microwave Journal, April 2014, pp. 84-94.
A. Chenakin, “From a Russian Source - Oscillator and Synthesizer Developments in Russia,” Microwave Journal, May 2013, pp. 27-46.
A. Chenakin, et. al., “A 26.5 GHz PLL Synthesizer with Low Phase Noise Characteristics,” in Asia-Pacific Microwave Conference Proc., Melbourne, Australia, December 2011, pp. 1210-1213.
A. Chenakin, “Implementing Modulation Functions in Microwave Frequency Synthesizers,” High Frequency Electronics, October 2011, pp. 20-27.
A. Chenakin, et. al., “Broadband PXI Local Oscillator Modules with Low Phase Noise and Fast Switching Speed,” in IEEE Autotestcon Proc., Baltimore, MD, USA, September 2011, pp. 297-302.
A. Chenakin, “Select a VCO or YIG for a PLL Synthesizer?,” Microwaves & RF, April 2011, pp. 72-80.
A. Chenakin, “Control Interfaces for RF and Microwave Frequency Synthesizers,” High Frequency Electronics, February 2011, pp. 18-28.
A. Chenakin, “A Compact Synthesizer Module Offers Instrument-grade Performance and Functionality,” Microwave Journal, February 2011, pp. 34-38.
A. Chenakin, “A Compact, Agile, Low-phase-noise Frequency Source with AM, FM and Pulse Modulation Capabilities,” in ARMMS Meeting Proc., Corby, UK, November 2009, pp. 1-7.
A. Chenakin, “Phase Noise Reduction in Microwave Oscillators,” Microwave Journal, October 2009, pp. 124-140.
A. Chenakin, et. al., “An Innovative Approach in the Design of Fast-Switching Microwave Synthesizers,” in IEEE Autotestcon Proc., Anaheim, CA, USA, September 2009, pp. 60-63.
A. Chenakin, “Novel Approach Yields Fast, Clean Synthesizers,” Microwaves & RF, October 2008, pp. 101-110.
A. Chenakin, et. al., “A PXI Fast Switching LO Synthesizer Enables 26.5 GHz Synthetic Instruments,” in IEEE Autotestcon Proc., Salt Lake City, UT, USA, September 2008, pp. 133-137.
A. Chenakin, “A Broadband, Low Phase Noise, Fast Switching PLL Frequency Synthesizer,” in Proc. 2008 Frequency Control Symposium, Honolulu, HI, USA, May 2008, pp. 758-761.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 1: Getting Started,” High Frequency Electronics, May 2008, pp. 58-67.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 2: Component Selection,” High Frequency Electronics, June 2008, pp. 18-26.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 3: From Sketch to Product,” High Frequency Electronics, July 2008, pp. 18-26.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 4: Improving Performance,” High Frequency Electronics, August 2008, pp. 44-51.
A. Chenakin, “Building a Microwave Frequency Synthesizer - Part 5: Advanced Techniques,” High Frequency Electronics, September 2008, pp. 50-57.
A. Chenakin and S. Ojha, “A Small Form Factor 3-9 GHz Synthesizer Module for Use in Synthetic Instrumentation Applications,” Microwave Product Digest, April 2008, pp. 58-71.
A. Chenakin, “A Broadband High-Isolation Electronic Switch Covers 30 kHz to 22 GHz,” High Frequency Electronics, November 2007, pp. 44-47.
A. Chenakin, “Frequency Synthesis: Current Solutions and New Trends,” Microwave Journal, May 2007, pp. 256-266.
A. Chenakin and AP.S. “Paul” Khanna, “2-22 GHz Continuously Variable Attenuator Has Low IMD and Flat Response,” High Frequency Electronics, July 2006, pp. 16-20.
A. Chenakin, et. al., “An Integrated Frequency Doubler,” in Proc. 2002 Asia-Pacific Microwave Conference, Kyoto, Japan, Nov. 2002, vol. 1, pp. 63-65.
A. Chenakin, “Measurement of Millimeter Wave Transistor Parameters,” in Dig. Conference on Precision Electromagnetic Measurements, Braunschweig, Germany, June 1996, pp. 596-597.
A. Chenakin, “Realization of Millimeter-wave Low-noise Transistor Opportunities,” in Dig. 20th Workshop on Compound Semiconductor Devices and Integrated Circuits, Vilnius, Lithuania, May 1996, pp. 124-125.
V. Skachko and A. Chenakin, “Measuring the Parameters of Chip Field-effect Transistors,” Radioelectronics and Communications Systems, Allerton Press Inc., vol. 38, November 1995, pp. 44-46.
A. Chenakin and V. Skachko, “Waveguide Transistor Amplifiers,” in Proc. 5th International Symposium on Recent Advances in Microwave Technology, Kiev, Ukraine, Sept. 1995, vol. 1, pp. 337-340.
A. Chenakin, “A New Measurement Method for Determination of Transistor Parameters,” in Dig. 45th Automatic RF Techniques Group Conference, Orlando, FL, USA, May 1995, pp. 12-18.
in Swedish
A . Chenakin, “VCO eller YIG för högpresterande PLL?” Elektronik I Norden, augusti 2011.
in Russian
Ченакин А.В., Кочемасов В.Н., Архитектурные решения в проектировании синтезаторов частот СВЧ с фазовой автоподстройкой частоты. // T-Comm – Телекоммуникации и Транспорт, № 10, 2020 г., с. 17-25.
Ченакин А.В., Кочемасов В.Н., Пестряков А.В., Состояние и перспективы развития синтезаторов частот СВЧ-диапазона. // Системы синхронизации, формирования и обработки сигналов, № 4, 2018 г., с. 132-139.
А. Ченакин, ГУН или ЖИГ? Проблема выбора при проектировании высококачественного синтезатора с ФАПЧ. // Электроника: Наука, Технология, Бизнес, 2012, № 6, с. 122-126.
А. Ченакин, Малогабаритный синтезатор частот с высокой скоростью перестройки и "чистым" сигналом. // Компоненты и технологии, 2011, № 7, с. 114-116.
А. Ченакин, Фазовые шумы в СВЧ-генераторах. Методы решения проблемы. // Электроника: Наука, Технология, Бизнес, 2011, № 4, с. 52-61.
А. Ченакин, Частотный синтез: текущие решения и новые тенденции. // Электроника: Наука, Технология, Бизнес, 2008, № 1, с. 92-97.
in German
A. Chenakin, et. al., “Rubidium-Signalgeneratoren definieren neue Industriestandards
für spektrale Reinheit und Stabilität,” hf-praxis, Februar 2022, pp. 8-9.
in French
A. Chenakin, et. al., “Les générateurs de signaux Rubidium redéfinissent les normes industrielles en termes de pureté et stabilité du signal,” ECI Electronique, fevrier 2022.
in Spanish
A. Chenakin, et. al., “Los generadores de señal Rubidium establecen nuevas referencias en el mercado para la pureza espectral y la estabilidad,” Revista Espanola de Electronica, Noviembre 2022.