BS EN 61000-4-6:1996:2005 Edition
$167.15
Electromagnetic compatibility (EMC). Testing and measurement techniques – Immunity to conducted disturbances, induced by radio-frequency fields
| Published By | Publication Date | Number of Pages |
| BSI | 2005 | 44 |
This standard provides methods of measurement of the effects that conducted disturbance signals induced by electromagnetic radiation may have on the equipment concerned.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | BRITISH STANDARD |
| 2 | Committees responsible for this British�Standard |
| 6 | Foreword Foreword to amendment A1 Foreword to Interpretation Sheet 1 Contents |
| 9 | 1 Scope 2 Normative references 3 General |
| 10 | 4 Definitions artificial hand auxiliary equipment (AE) clamp injection common-mode impedance coupling factor coupling network decoupling network EUT test generator electromotive force (e.m.f.) |
| 11 | measurement result, voltage standing wave ratio (VSWR) 5 Test levels Test levels 6 Test equipment 6.1 Test generator |
| 12 | Characteristics of the test generator 6.2 Coupling and decoupling devices Main coupling and decoupling device parameter |
| 14 | 6.3 Verification of the common-mode impedance at the EUT port of coupling and decoupling devices 6.4 Setting of the test generator |
| 15 | 7 Test set-up for table-top and floor-standing equipment 7.1 Rules for selecting injection methods and test points |
| 16 | Rules for selecting the injection method |
| 17 | 7.2 Procedure for clamp injection application 7.3 Procedure for clamp injection when the common-mode impedance requirements cannot be met 7.4 EUT comprising a single unit |
| 18 | 7.5 EUT comprising several units 8 Test procedure |
| 19 | 9 Evaluation of test results 10 Test report |
| 20 | Diagram to show EM fields near the EUT due to common-mode currents�on�its�cables |
| 21 | Schematic set-up for immunity test to RF conducted disturbances Immunity test to RF conducted disturbances Test generator set-up |
| 22 | Unmodulated RF signal Modulated RF signal 80�% AM Definition of the wave shapes occurring at the output of the EUT port of a coupling device (e.m.f… |
| 23 | List of symbols used for the following set-up principles Principle of direct coupling to screened cables |
| 24 | Principle of coupling to unscreened (supply) cables Principle of decoupling Principles of coupling and decoupling |
| 25 | Principle of coupling and decoupling according to the clamp injection method |
| 26 | Example of the set-up geometry to verify the impedance characteristics of the coupling and decoup… Set-up principle to verify Z |
| 27 | Set-up principle for measuring the insertion loss of two 150 Circuit of the 150 Construction diagram of the 150� Details of set-ups and components to verify the essential characteristics of coupling and decoupl… |
| 28 | Definition of a common-mode point with unscreened cables Definition of a common-mode point with screened cables Set-up for level setting at the EUT port of coupling and decoupling devices Set-up for level setting |
| 29 | Example of test set-up with a single-unit system for class II safety equipment (see�IEC�536) |
| 30 | Example of a test set-up with a multi-unit system, considered as a single EUT for class II safety… |
| 31 | (normative) Additional information regarding clamp injection (normative) Additional information regarding clamp injection Current injection clamp EM clamp Test set-up |
| 32 | Circuit for level setting set-up in a 50 The 50 |
| 33 | Construction details of the EM-clamp |
| 34 | Concept of the EM-clamp (ElectroMagnetic clamp) Coupling factor of the EM-clamp |
| 35 | General principle of a test set-up using injection clamps Example of the test unit locations on the ground plane when using injection clamps (top view) |
| 36 | (informative) Selection criteria for the frequency range of application (informative) Selection criteria for the frequency range of application |
| 37 | Start frequency as function of cable length and equipment size |
| 38 | (informative) Guide for selecting test levels (informative) Guide for selecting test levels (informative) Information on coupling and decoupling networks (informative) Information on coupling and decoupling networks Basic features of the coupling and decoupling networks |
| 39 | Examples of coupling and decoupling networks Example of a simplified diagram for the circuit of CDN-S1 used with screened cables |
| 40 | Example of simplified diagram for the circuit of CDN-M1/-M2/-M3 used with unscreened supply (main… Example of a simplified diagram for the circuit of CDN-AF2 used with unscreened non-balanced lines |
| 41 | Example of a simplified diagram for the circuit of a CDN-T2, used with an unscreened balanced pair Example of a simplified diagram of the circuit of a CDN-T4 used with unscreened balanced pairs |
| 42 | Example of a simplified diagram of the circuit of a CDN-T8 used with unscreened balanced pairs (informative) Information for the test generator specification (informative) Information for the test generator specification Required power amplifier output power to obtain a test level of�10� |
| 43 | (normative) Normative references to international publications with their corresponding European … (normative) Normative references to international publications with their corresponding European … |
