Design Considerations for RF Power Amplifiers for Driving Acousto Optical Tunable Filters

Pallab Kr Gogoi; Jurgen Vanhamel; Jerôme Loic

doi:10.20944/preprints202407.1608.v1

Design Considerations for RF Power Amplifiers for Driving Acousto Optical Tunable Filters

Pallab Kr Gogoi^*, Jurgen Vanhamel, Jerôme Loic

^*Corresponding author for this work

Research output: Working paper/Preprint › Preprint

Abstract

Acousto-Optical Tunable Filters (AOTFs) are a promising technology, exceptionally suited for advanced applications in spectroscopy and imaging across various scientific fields, including space exploration. This is due to their flexibility and high-speed functionality for precise wavelength selection via periodic modulation of the crystal’s refractive index using sound waves. These AOTFs are in turn driven by Radio Frequency (RF) signals through a transducer creating sound waves inside the crystal. This work presents a detailed comparison of three distinct topologies of Radio Frequency Power Amplifiers (RFPAs) for driving these AOTFs within the 30 to 300 MHz frequency range. The analysis focuses on three critical parameters: efficiency, bandwidth, and linearity, which are essential for optimizing the performance of AOTFs. By evaluating the trade-offs among these parameters, this research aims to identify the most effective design approach for RFPAs in this application context.

Original language	English
Publisher	MDPI
Number of pages	16
DOIs	https://doi.org/10.20944/preprints202407.1608.v1
Publication status	Published - 2024

Keywords

AOTF
RFPA
Class E
efficiency
harmonics suppression
linearity

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10.20944/preprints202407.1608.v1

Cite this

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title = "Design Considerations for RF Power Amplifiers for Driving Acousto Optical Tunable Filters",

abstract = "Acousto-Optical Tunable Filters (AOTFs) are a promising technology, exceptionally suited for advanced applications in spectroscopy and imaging across various scientific fields, including space exploration. This is due to their flexibility and high-speed functionality for precise wavelength selection via periodic modulation of the crystal{\textquoteright}s refractive index using sound waves. These AOTFs are in turn driven by Radio Frequency (RF) signals through a transducer creating sound waves inside the crystal. This work presents a detailed comparison of three distinct topologies of Radio Frequency Power Amplifiers (RFPAs) for driving these AOTFs within the 30 to 300 MHz frequency range. The analysis focuses on three critical parameters: efficiency, bandwidth, and linearity, which are essential for optimizing the performance of AOTFs. By evaluating the trade-offs among these parameters, this research aims to identify the most effective design approach for RFPAs in this application context.",

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AU - Gogoi, Pallab Kr

AU - Vanhamel, Jurgen

AU - Loic, Jerôme

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Y1 - 2024

N2 - Acousto-Optical Tunable Filters (AOTFs) are a promising technology, exceptionally suited for advanced applications in spectroscopy and imaging across various scientific fields, including space exploration. This is due to their flexibility and high-speed functionality for precise wavelength selection via periodic modulation of the crystal’s refractive index using sound waves. These AOTFs are in turn driven by Radio Frequency (RF) signals through a transducer creating sound waves inside the crystal. This work presents a detailed comparison of three distinct topologies of Radio Frequency Power Amplifiers (RFPAs) for driving these AOTFs within the 30 to 300 MHz frequency range. The analysis focuses on three critical parameters: efficiency, bandwidth, and linearity, which are essential for optimizing the performance of AOTFs. By evaluating the trade-offs among these parameters, this research aims to identify the most effective design approach for RFPAs in this application context.

AB - Acousto-Optical Tunable Filters (AOTFs) are a promising technology, exceptionally suited for advanced applications in spectroscopy and imaging across various scientific fields, including space exploration. This is due to their flexibility and high-speed functionality for precise wavelength selection via periodic modulation of the crystal’s refractive index using sound waves. These AOTFs are in turn driven by Radio Frequency (RF) signals through a transducer creating sound waves inside the crystal. This work presents a detailed comparison of three distinct topologies of Radio Frequency Power Amplifiers (RFPAs) for driving these AOTFs within the 30 to 300 MHz frequency range. The analysis focuses on three critical parameters: efficiency, bandwidth, and linearity, which are essential for optimizing the performance of AOTFs. By evaluating the trade-offs among these parameters, this research aims to identify the most effective design approach for RFPAs in this application context.

KW - AOTF

KW - RFPA

KW - Class E

KW - efficiency

KW - harmonics suppression

KW - linearity

U2 - 10.20944/preprints202407.1608.v1

DO - 10.20944/preprints202407.1608.v1

M3 - Preprint

BT - Design Considerations for RF Power Amplifiers for Driving Acousto Optical Tunable Filters

PB - MDPI

ER -

Design Considerations for RF Power Amplifiers for Driving Acousto Optical Tunable Filters

Abstract

Keywords

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