C.L. PAYNE, M.G. WARFORD, D.C. NIPPER, J.P. SMITH, J.D. GILLETT, "Study of state-of-the-art static inverter design", final report, NASA-CR-92200, 6 Jan-6 Jun 1966.

C.L. PAYNE, M.G. WARFORD, D.C. NIPPER, J.P. SMITH, J.D. GILLETT, "Study of state-of-the-art static inverter design", final report, NASA-CR-92200, 6 Jan-6 Jun 1966. Copyright - [Précédente] [Première page] [Suivante] - Home

Article : [PAP185]

Info : ANSWER 261, le 29/01/2001.

Titre : C.L. PAYNE, M.G. WARFORD, D.C. NIPPER, J.P. SMITH, J.D. GILLETT, Study of state-of-the-art static inverter design, final report, NASA-CR-92200, 6 Jan-6 Jun 1966.

Cité dans : [DIV175]  Recherche sur les mots clés DESIGN et STATIC et CONVERTER.

Auteur : Payne, C.L.
Auteur : Warford, M.G.
Auteur : Nipper, D.C.
Auteur : Smith, J.P.
Auteur : Gillett, J.D.

Info : organization : Biometrics Instrument Corp., Plano, TX, USA
Number : of Report : NASA-CR-92200
Number : of Contract : NAS9-5580
Date : 16 June 1966
Pages : 1 187
Info : Availability: CFSTI, Springfield, VA 22151, USA - Document_Type : Report - Country of Publication : United States
Language : English
Stockage : Thierry LEQUEU, le 11 mai 2001.

Abstract :
Current static inverter designs are reviewed in order to develop an
advanced design for a multiple-purpose inverter. Ten basic inverter
design circuits are assessed: the parallel inverter, chopper
regulated parallel inverter, series connected parallel inverter,
bridge inverter, high frequency step-wave inverter, high frequency
dc-ac converter-inverter, pulse-width modulated inverter, and
phase-demodulated inverter. The phase-demodulated high frequency
inverter type is selected since it offers a maximum weight reduction
with a minimum of power and control circuitry among other
advantages. The selected design is explained in detail. The circuit
is analysed and basic circuit components are selected. The
preliminary circuit diagram and a proposed bill of materials is
developed. System performance and physical characteristics are
established by a detailed loss, or efficiency-and-weight, study.

Accession_Number : 1969:68650 INSPEC

I : SUMMARY 1
I : INTRODUCTION 2
II : STATE-OF-THE-ART STUDY 4
II-A : INTRODUCTION 4
II-B : DISCUSSION 5
II-C : DESIGN SELECTION 27
III : ELECTRICAL DISCUSSION 30
III-A : GENERAL CIRCUIT DESCRIPTION 30
III-B : DETAILED CIRCUIT DESCRIPTION 37
III-C : THREE-PHASE AND PARALLEL OPERATION 74
IV : DESIGN ANALYSIS AND CONSIDERATIONS 81
IV-A : BASIC DESIGN CONSIDERATION 82
IV-B : PULSE-WIDTH MODULATION ANALYSIS
IV-C : DEMODULATOR STAGE AND DRIVE 98
IV-D : POWER STAGE AND DRIVE 114
IV-E : FILTERING 115
IV-F : CONTROL FUNCTIONS 130
V : MECHANICAL DESIGN 131
VI : RELIABILITY ANALYSIS 137
VI-A : PRELIMINARY RELIABILITY ANALYSIS 137
VI-B : RELIABILITY DISCUSSION 137
VII : DESIGN RECOMMENDATIONS 141
Appendices :
A : BIBLIOGRAPHY
B : PHASE-DEMODULATED HIGH-FREQUENCY INVERTER DESIGNS

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