IEEE 128-1976

$30.33

IEEE Guide for Aircraft Electric Systems

Published By	Publication Date	Number of Pages
IEEE	1976	114

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Description

New IEEE Standard – Inactive-Withdrawn. Withdrawn Standard. Withdrawn Date: Dec 06, 1990. Material comprising this report is directed primarily at the attainment of improved applicatin technique – the attainment of the highest possible quality of performance from a combination of particular devices to perform a given function. The performance qualities exhibited by a composite system composed of numerous devices will be influenced by the character of devices which are interconnected or correlated. The extent to which such composite systems may be benefited by proper application techniques is great.

PDF Catalog

PDF Pages	PDF Title
11	Introduction General Quality Attainment Scope
12	Criteria for the Electric System Basic Factor Generator Capacity System Capacity Characteristics of Alternating-Current Generators Affecting Their Application
27	Symmetrical Components
32	Quality
41	Electric System Reliability Definition of Reliability Generating and Distribution System Reliability Electric System Safety Principal Subdivisions of The Electric System Generat ion
42	Distribution Utilization
43	Selection of the System Voltage and Frequency
44	Emergency Systems
45	Primary System Emergency Procedure Auxiliary and Ground Power Systems Guide to Protection Direct-Current System Protection
46	Isolated Alternating-Current System Protection
47	Parallel Alternating-Current System Protection
48	Parallel versus Non-Parallel Operation Advantages of Parallel Operation
49	Advantages of Non-Parallel Operation Direct-Current Systems Alternating-Current Systems Grounded versus Ungrounded Operation Direct-Current System Advantages of Structurally Grounded Systems Advantages of Ungrounded Systems
51	Alternating-Current Systems 1 l5/200-Volt Three-phase Advantages of Grounded System Advantages of Ungrounded System Electric System Requirements Installation Practices System Arrangement Organization Utilization and Simplification Integration of Source Centers Integration of Distribution Centers Organization of Control Systems and Panel Layout
52	Accessibility Identification Practices Cable Identification ent Identification 430 Wire Connections and Terminations Function Individual Conductor Splices Connectors
53	Strip Terminal Block Wire Terminations Current-Carrying Capacity
54	Aluminum Terminal Lugs Wiring Installation Practices General Intent Installation Methods
55	Wiring Installation Control Methods Special Precautions
56	Electrical Diagrams Purpose Types of Electrical Diagrams Insulation Installation Problems Phase Voltage Unbalance
57	Power Factor Problems Electromagnetic Interference (EMI) Control General
58	EM1 Sources and the Nature of the Interference Field the Receiver
59	the Receiver Equipment Design for Inherent Suppression Audio-Frequency Interference
60	Safety to Operating Personnel Equipment Characteristics Flight Vehicle Generators Mechanical Considerations Mounting
61	Natural Frequency Drive Shaft Bearings
62	Cooling Methods Fan Cooling Blast Cooling
63	Cooled Air Expendable Coolant liquid Cooling Rating Factors Limiting the Rating Altitude Rating
64	Overload Capacity Overload Requirements Thermal Limits ‘olt-Ampere Limit
65	Operation Under Subnormal Conditions
66	Transients and Fault Clearing Direct-Current Generator Transient and Fault Current Performance Performance Direct-Current Generators Generator Field Design
67	Alternating-Current Generators Regulating Field Design Performance Data Direct-Current Generators
68	Alternating-Current Generators Prime Movers and Constant-Speed Drives Main Propulsion Engines Reciprocating Engines
69	Turbo-Jet Engines Turbo-Propeller Engines Auxiliary Power Units Reciprocating Power Plants
70	Turbine Power Plants Transmissions Constant-Speed Transmissions
72	Constant-Ratio Transmissions Speed Governing
73	Vibration Torsional Vibration Translation Vibration Continuous High-speed Operation Voltage Regulation and Load Division Voltage Regulation
74	Voltage Regulators
75	Carbon-Pile Voltage Regulatori for Direct-Current Systems
78	Voltage Regulators for Alternating-Current Systems Power Output Stage Reference Circuit Sensing Circuit
79	Reactive Load Division
80	Real Load Division Variable-Speed Constant-Frequency Systems Generator Converter Load Division Protection and Control
81	Motor and Actuators Aircraft Engine Starters Piston-Engine Starting-Direct Cranking
82	Turbo-Prop and Turbo-Jet Engine Electric Starters Motors General Applications Basis of Rating Characteristic Curves of Typical Motors
85	Overload Ability Characteristic Curves and Load Starting Conditions
88	Special Motor Loads-Electrical Characteristics Special Problems
90	Conversion Equipment Direct-Current to Alternating-Current Conversion Equipment Alternating-Current to Direct-Current Conversion Equipment
91	Alternating-Current to Alternating-Current Conversion Equipment Direct-Current to Direct-Current Conversion Equipment Application of Conversion Equipment Electrical Consideration
92	Physical Considerations of Conversion Equipment Transformers Power Transformers
93	Autotransformers Potential Transformers Current Transformers
94	Rectifiers Selenium Rectifiers Silicon Rectifiers
95	Germanium Rectifiers Transformer-Rectifiers General Regulated
96	Unregulated Batteries Control and Protective Equipment Characteristics Relays and Contractors General Types and Construction Rating
99	Adverse Operating Conditions 571.4 Calibrated Relays
100	571.5 Dry Circuit Operation 572 Circuit Breakers Variety of Types and Construction 572.2 Method of Operation 572.3 Remote Circuit Breakers 572.4 Rating
101	572.5 Nature of Reclosure 572.6 Contact Pressure Means of Indicating Operation or Position 572.8 Adverse Operating Conditions
102	5 73 Fuses Definitions Principles and General Recommendations 573.2 Application of Fuses 573.3 Fuse Materials 573.4 Connections for Fuses 5 74 Limiters Definitions Principles and General Recommendations Cable Protection with Limiters System Protection with Limiters 574.4 Application 574.5 Types of Limiters 575 Switches 575.1 General
104	57S.2 Basic Switch Types 575.3 Environmental Conditions
105	Current and Voltage Ratings Examples of Special Switches
106	580 Utilization Equipment-Miscellaneous 581 Electronic Equipment 581.1 Types Electronic Equipment Circuit Features
107	581.3 Power Types 581.4 Supply Variations 581.5 Harmonic Content 582 Electric Heaters 582.1 Space Heaters 582.2 Direct Thermal Transfer Heaters 582.3 Other Heaters
108	Electric System Design Procedures Methods of Analyzing Electric Loads 811 General 812 Operating Conditions 813 Power Requirements 813.1 Tabular Analysis 813.2 Additional Factors
109	813.3 Load Analysis Value