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A high-efficiency 59- to 64-GHz TWT for intersatellite communications (1991)

Limburg, Helen C. ; Wilson, Jeffrey D. ; Force, Dale A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The design of a 75-W, 59- to 64- GHz TWT with a predicted overall efficiency in excess of 40 percent is described. This intersatellite communications TWT, designated Model 961HA, employs a coupled-cavity slow-wave structure with a two-step velocity taper and an isotropic graphite multistage depressed collector (MDC). Because the RF efficiency of this TWT is less than 8 percent, an MDC design providing a very high collector efficiency was necessary to achieve the overall efficiency goal of 40 percent.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: ; : Computational meth

Format: text

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2

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A high-efficiency ferruleless coupled-cavity traveling-wave tube with phase-adjusted taper (1990)

Wilson, Jeffrey D. ; Vaszari, John P. ; Tammaru, Ivo ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The design and performance of the first traveling-wave tube (TWT) to be built with a phase-adjusted taper (PAT) is discussed. By adjusting the phase of the electron bunch with respect to the RF wave for strong electron bunch formation at the beginning of the taper and strong power conversion at the end, the PAT achieves a high efficiency of power conversion from the electron beam to the RF wave. A PAT incorporated into the output section of a baseline 29-30 GHz ferruleless coupled-cavity TWT experimentally increased the peak RF power from 420 to 1000 W and the peak RF interaction efficiency from 9.6 to 22.6 percent.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: IEEE Transactions on Electron Devices (ISSN 0018-9383); 37; 2638-264

Format: text

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3

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VLSI corrector chip for space-borne mm-wave radiometer spectrometers (1990)

Pickett, H. ; Wilson, W. ; Chandra, K. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: JPL developed a 52-channel 150 MHz bandwidth autocorrelator spectrometer using specially designed ECL gate array correlator chips. The characteristics of the ECL chip and the 52-channel auto-correlator are described. These autocorrelator spectrometers will be used with space-borne mm-wave radiometers for remote sensing of the Earth's atmosphere and astrophysical observations.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: Idaho Univ., The 2nd 1990 NASA SERC Symposium on VLSI Design; 12 p

Format: application/pdf

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4

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Spent-beam refocusing analysis and multistage depressed collector design for a 75-W, 59- to 64-GHz coupled-cavity traveling-wave tube (1990)

Force, Dale A. ; Ramins, Peter ; Wilson, Jeffrey D.

In: CASI

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Publication Date: 2019-06-28

Description: A computational design technique for coupled-cavity tubes (TWTs) equipped with spent-beam refocusers (SBRs) and multistage depressed collectors (MDCs) is described. A large-signal multidimensional computer program was used to analyze the TWT-SBR performance and to generate the spent-beam models used for MDC design. The results of a design involving a 75-W, 59 to 64 GHz TWT are presented. The SBR and MDC designs are shown, and the computed TWT, SBR, and MDC performances are described. Collector efficiencies in excess of 94 percent led to projected overall TWT efficiencies in the 40-percent range.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA-TP-3039 , E-5455 , NAS 1.60:3039

Format: application/pdf

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5

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Ferruleless coupled-cavity traveling-wave tube cold-test characteristics simulated with micro-SOS (1993)

Schroeder, Dana L. ; Wilson, Jeffrey D.

In: CASI

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Publication Date: 2019-06-28

Description: The three-dimensional, electromagnetic circuit analysis code, Micro-SOS, can be used to reduce expensive and time consuming experimental 'cold-testing' of traveling-wave tube (TWT) circuits. The frequency-phase dispersion and beam interaction impedance characteristics of a ferruleless coupled-cavity traveling-wave tube slow-wave circuit were simulated using the code. Computer results agree closely with experimental data. Variations in the cavity geometry dimensions of period length and gap-to-period ratio were modeled. These variations can be used in velocity taper designs to reduce the radiofrequency (RF) phase velocity in synchronism with the decelerating electron beam. Such circuit designs can result in enhanced TWT power and efficiency.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA-TP-3306 , E-7411 , NAS 1.60:3306

Format: application/pdf

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6

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Simulation of TunneLadder traveling-wave tube cold-test characteristics: Implementation of the three-dimensional, electromagnetic circuit analysis code micro-SOS (1993)

Wilson, Jeffrey D. ; Kory, Carol L.

In: CASI

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Publication Date: 2019-06-28

Description: The three-dimensional, electromagnetic circuit analysis code, Micro-SOS, can be used to reduce expensive time-consuming experimental 'cold-testing' of traveling-wave tube (TWT) circuits. The frequency-phase dispersion characteristics and beam interaction impedance of a TunneLadder traveling-wave tube slow-wave structure were simulated using the code. When reasonable dimensional adjustments are made, computer results agree closely with experimental data. Modifications to the circuit geometry that would make the TunneLadder TWT easier to fabricate for higher frequency operation are explored.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA-TP-3294 , E-7008 , NAS 1.60:3294

Format: application/pdf

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7

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Spatially-varying IIR filter banks for image coding (1992)

Chung, Wilson C. ; Smith, Mark J. T.

In: CASI

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Publication Date: 2019-06-28

Description: This paper reports on the application of spatially variant infinite impulse response (IIR) filter banks to subband image coding. The new filter bank is based on computationally efficient recursive polyphase decompositions that dynamically change in response to the input signal. In the absence of quantization, reconstruction can be made exact. However, by proper choice of an adaptation scheme, we show that subband image coding based on time varying filter banks can yield improvement over the use of conventional filter banks.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA-CR-193727 , NAS 1.26:193727

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8

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Generalized three-dimensional simulation of ferruled coupled-cavity traveling-wave-tube dispersion and impedance characteristics (1993)

Kory, Carol L. ; Maruschek, Joseph W. ; Wilson, Jeffrey D.

In: CASI

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Publication Date: 2019-06-28

Description: The frequency-phase dispersion and Pierce on-axis interaction impedance of a ferruled, coupled-cavity, traveling-wave tube (TWT), slow-wave circuit were calculated using the three-dimensional simulation code Micro-SOS. The utilization of the code to reduce costly and time-consuming experimental cold tests is demonstrated by the accuracy achieved in calculating these parameters. A generalized input file was developed so that ferruled coupled-cavity TWT slow-wave circuits of arbitrary dimensions could be easily modeled. The practicality of the generalized input file was tested by applying it to the ferruled coupled-cavity slow-wave circuit of the Hughes Aircraft Company model 961HA TWT and by comparing the results with experimental results.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA-TP-3389 , E-7977 , NAS 1.60:3389

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9

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Novel high-gain, improved-bandwidth, finned-ladder V-band Traveling-Wave Tube slow-wave circuit design (1994)

Wilson, Jeffrey D. ; Kory, Carol L.

In: CASI

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Publication Date: 2019-07-13

Description: The V-band frequency range of 59-64 GHz is a region of the millimeter-wave spectrum that has been designated for inter-satellite communications. As a first effort to develop a high-efficiency V-band Traveling-Wave Tube (TWT), variations on a ring-plane slow-wave circuit were computationally investigated to develop an alternative to the more conventional ferruled coupled-cavity circuit. The ring-plane circuit was chosen because of its high interaction impedance, large beam aperture, and excellent thermal dissipation properties. Despite these advantages, however, low bandwidth and high voltage requirements have, until now, prevented its acceptance outside the laboratory. In this paper, the three-dimensional electrodynamic simulation code MAFIA (solution of MAxwell's Equation by the Finite-Integration-Algorithm) is used to investigate methods of increasing the bandwidth and lowering the operating voltage of the ring-plane circuit. Calculations of frequency-phase dispersion, beam on-axis interaction impedance, attenuation and small-signal gain per wavelength were performed for various geometric variations and loading distributions of the ring-plane TWT slow-wave circuit. Based on the results of the variations, a circuit termed the finned-ladder TWT slow-wave circuit was designed and is compared here to the scaled prototype ring-plane and a conventional ferruled coupled-cavity TWT circuit over the V-band frequency range. The simulation results indicate that this circuit has a much higher gain, significantly wider bandwidth, and a much lower voltage requirement than the scaled ring-plane prototype circuit, while retaining its excellent thermal dissipation properties. The finned-ladder circuit has a much larger small-signal gain per wavelength than the ferruled coupled-cavity circuit, but with a moderate sacrifice in bandwidth.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA-TM-111215 , NAS 1.15:111215 , IEEE-9413286 , NIPS-96-07286 , (ISSN 0018-9383)

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10

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A low-power, high-efficiency Ka-band TWTA (1991)

Tamashiro, R. N. ; Force, D. A. ; Dombro, L. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: A NASA-sponsored program is described for developing a high-efficiency low-power TWTA operating at 32 GHz and meeting the requirements for the Cassini Mission to study Saturn. The required RF output power of the helix TWT is 10 watts, while the dc power from the spacecraft is limited to about 30 watts. The performance level permits the transmission to earth of all mission data. Several novel technologies are incorporated into the TWT to achieve this efficiency including an advanced dynamic velocity taper characterized by a nonlinear reduction in pitch in the output helix section and a multistage depressed collector employing copper electrodes treated for secondary electron-emission suppression. Preliminary program results are encouraging: RF output power of 10.6 watts is obtained at 14-mA beam current and 5.2-kV helix voltage with overall TWT efficiency exceeding 40 percent.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: 1991 International Electron Devices Meeting; Dec 08, 1991 - Dec 11, 1991; Washington, DC; United States

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