F. Francisco scite author profile

F. Francisco

5Publications

0Citation Statements Received

23Citation Statements Given

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Triton Systems (United States)

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Integrated Design of a Compact and Lightweight S-Band Traveling-Wave Tube Amplifier for a New Class of Microwave Power Module

Song¹,

Tekamp²,

Francisco³

et al. 2013

JEMAA

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A new class of compact and lightweight S-band 1 kW traveling-wave tube (TWT) is being developed for a microwave power module (MPM) that will be used for phased antenna array radar applications. The proposed S-band MPM provides a tenfold peak power increase compared to state-of-the-art S-band MPMs. In this paper, the design of the vacuum power booster TWT part of the MPM is presented. The compact and lightweight S-band TWT is driven by a 6 kV, 0.9 A electron beam. The amplifier is predicted by large-signal simulations to generate over 1 kW at S-band with 25 dB saturated gain and over 40% efficiency. The stability from unwanted oscillations has been investigated. To suppress the oscillations, the helix circuit has been coated with carbon composite material. The coaxial input and output antennas have been fabricated. For efficiency enhancement, a multi-stage depressed collector (MDC) has been designed using a 3D particle-in-cell (PIC) simulator, VORPAL. The collector design makes use of a current loop based on a feedback mechanism for effective design process. The integrated designs of a helix circuit, an electron gun, a periodic permanent magnet (PPM), antennas, and a collector are presented.

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Electron Optical System for a Magnet-Less Miniature Klystrode

Song

Francisco

Steidle

2008

Journal of Electromagnetic Waves and Applications

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A medium power (∼ 1 kW) miniature klystrode is required for applications including radar, microwave heating, and plasma processing. An electron gun optical system for a miniature and magnet-less klystrode that operates in the X-band is presented. The electron gun consists of two grids that focus and control the beam optics. The characteristics of the electron beam including the cutoff and current values are predicted with electron gun code. Analysis results for multi-hole type grid structure are reported.

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7.4: Development of a compact and lightweight S-band traveling-wave tube for microwave power module

Song

Tekamp

Francisco

et al. 2010

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Optimization of a dynamic velocity taper for a wide-band TWT design using Christine1D

Harper

Holstein

Francisco

et al.

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Development of a power combined V-band millimeter-wave power module (MMPM)

Song

Francisco

Steidle

2008

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F. Francisco

Integrated Design of a Compact and Lightweight S-Band Traveling-Wave Tube Amplifier for a New Class of Microwave Power Module

Electron Optical System for a Magnet-Less Miniature Klystrode

7.4: Development of a compact and lightweight S-band traveling-wave tube for microwave power module

Optimization of a dynamic velocity taper for a wide-band TWT design using Christine1D

Development of a power combined V-band millimeter-wave power module (MMPM)

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