DIN EN 60966-1 : 1999
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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RADIO FREQUENCY AND COAXIAL CABLE ASSEMBLIES - PART 1: GENERIC SPECIFICATION - GENERAL REQUIREMENTS AND TEST METHODS
Hardcopy
05-03-2020
German
01-01-1999
1 Scope
2 Normative References
3 Definitions
4 Design and Manufacturing Requirements
4.1 Cable design and construction
4.2 Connector design and construction
4.3 Outline and interface dimensions
5 Workmanship, marking and packaging
5.1 Workmanship
5.2 Marking
5.3 End caps
5.4 Packaging and labelling
6 Quality Assessment
7 Test Methods - General
7.1 Standard atmospheric conditions for testing
7.2 Visual inspection
7.3 Dimensions inspection
8 Electrical Tests
8.1 Reflection properties
8.2 Uniformity of impedance
8.3 Insertion loss
8.4 Insertion loss stability
8.5 Propagation time
8.6 Stability of electrical length
8.7 Phase difference
8.8 Phase variation with temperature
8.9 Screening effectiveness
8.10 Voltage proof
8.11 Insulation resistance
8.12 Inner and outer Conductor continuity
8.13 Void
8.14 Power rating
8.15 Intermodulation level measurement
9 Mechanical Robustness Tests
9.1 Tensile
9.2 Flexure
9.3 Flexing endurance
9.4 Cable assembly crushing
9.5 Torque
9.6 Multiple bending
9.7 Abrasion test of cable assembly
9.8 Vibrations, shocks and impact
9.9 Mechanical endurance
10 Environmental Tests
10.1 Recommended severities
10.2 Vibration, bumps and shock
10.3 Climatic sequence
10.4 Damp heat, steady state
10.5 Rapid change of temperature
10.6 Solvents and contaminating fluids
10.7 Water immersion
10.8 Salt mist and sulphur dioxide tests
10.9 Dust tests
10.10 Flammability
11 Specialized Test Methods
12 Test Schedules
Annex A (normative) Test Methods for Insertion Loss
Determination
A.1 - Purpose
A.2 - Test Methods
A.2.1 - Test Method 1
A.2.2 - Test Method 2
A.2.3 - Test Method 3
A.3 - Correction for Characteristic Impedance
Differences
Annex B (informative) Measuring Methods for Propagation Time
B.1 - Resonance Method for Propagation Time Measurement
B.2 - Time Domain Method for Propagation Time Measurement
Annex C (informative) Measurement Method for Screening
Effectiveness
C.1 - Introduction
C.2 - Test Method
Annex D (informative) Recommended Severities for Environmental
Tests
D.1 - Introduction to the Relationship between
Environmental Conditions and Test Severities
D.1.1 - General
D.1.2 - Environmental Conditions
D.1.3 - Environmental Testing
D.2 - Severities for Environmental Testing
D.2.1 - Vibration
D.2.2 - Bump
D.2.3 - Shock
D.2.4 - Climatic Sequence
D.2.5 - Damp Heat, Steady State
D.2.6 - Rapid Change of Temperature
D.2.7 - Salt Mist
D.2.8 - Sulphur Dioxide Test
D.2.9 - Dust Test
Annex E (normative) Quality Assessment
E.1 - Object
E.2 - General
E.2.1 - Related Documents
E.2.2 - Standards and Preferred Values
E.2.3 - Marking of the Cable Assembly and
Packaging
E.2.4 - Terminology
E.3 - Quality Assessment Procedures
E.3.1 - Procedures for Qualification Approval
E.3.2 - Procedures for Capability Approval
E.3.3 - Quality Conformance Inspection
E.4 - Capability Manual and Approval
E.4.1 - Responsibilities
E.4.2 - Contents of the Capability Manual
E.4.3 - Criteria for Capability Limits
Annex ZA (normative) Normative References to International
Publications with their corresponding
European Publications
Table D.1 - Relationship between Displacement and Acceleration
Table D.2 - Relationship between Peak Acceleration and Velocity
Change
Table E.1 - Example of Capability Limits for Cable Assemblies
Table E.2 - Example of Capability Limits for Flexible Cables
Table E.3 - Example of Capability Limits for Connectors
Table E.4 - Example of Flow Chart
Figure 1 - Bending Test: U Shape Assembly
Figure 2 - Bending Test: Straight Assembly
Figure 3 - Twisting Test: U Shape Assembly
Figure 4 - Fixture for Cable Assembly Flexure Test
Figure 5 - Apparatus for Cable Assembly Flexing Endurance Test
Figure 6 - Fixture for Cable Crushing Test
Figure 7 - Multiple Bending Test
Figure 8 - Dust Measuring Device
Figure A.1 - Circuit for the Determination of Insertion Loss
Figure A.2 - Circuit for the Determination of Insertion Loss
Figure A.3 - Alternative Circuit for the Determination of
Insertion Loss
Figure A.4 - Double-Pass Circuit for the Determination of
Insertion Loss
Figure B.1 - Arrangement of Test Equipment
Figure C.1 - Line Injection Test Circuit for Coaxial Cable
Assemblies
Figure C.2 - Schematic Transfer Functions of a Coaxial Cable
Assembly
Figure C.3 - Complete Installation for Practical Screening
Effectiveness Measurements
Figure D.1 - Description of Action Needed for the Preparation
of the Environmental Test Specification
Defines the criteria for radio frequency coaxial cable assemblies which operate in the transverse electromagnetic mode (TEM) and identifies requirements for testing mechanical, electrical and environmental properties of radio frequency coaxial cable assemblies made up of connectors and cables. Other requirements which relate to particular families of cable assemblies are provided in the relevant specifications.
DevelopmentNote |
Supersedes DIN IEC 46A-308-CDV. (02/2000) DRAFT 2014 issued in May 2014. (05/2014)
|
DocumentType |
Standard
|
Pages |
33
|
PublisherName |
Verband Deutscher Elektrotechniker
|
Status |
Superseded
|
SupersededBy |
Standards | Relationship |
EN 60966-1:1999 | Identical |
I.S. EN 60966-1:1993 | Identical |
NBN EN 60966-1 : 2000 | Identical |
SN EN 60966-1 : 1999 | Identical |
IEC 60966-1:1999 | Identical |
NF EN 60966-1 : 1999 | Identical |
BS EN 60966-1:1999 | Identical |
VDI/VDE/DGQ/DKD 2622 Blatt 19:2015-06 | Calibration of measuring equipment for electrical quantities - Characterisation of HF-measuring cables |
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