Shopping Cart

No products in the cart.

BS ISO 14302:2022

$198.66

Space systems. Electromagnetic compatibility requirements

Published By Publication Date Number of Pages
BSI 2022 56
Guaranteed Safe Checkout
Categories: ,

If you have any questions, feel free to reach out to our online customer service team by clicking on the bottom right corner. We’re here to assist you 24/7.
Email:[email protected]

PDF Catalog

PDF Pages PDF Title
2 National foreword
7 Foreword
8 Introduction
9 1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
3.1 Terms and definitions
11 3.2 Abbreviated terms
13 4 Requirements
4.1 General system requirements
4.1.1 General
4.1.2 System-level EMC programme
16 4.1.3 Equipment/subsystem criticality categories
4.1.4 Safety margins
4.2 Specific system requirements
4.2.1 External electromagnetic environment
4.2.2 Intrasystem EMC
4.2.3 EMI control
4.2.4 Grounding and wiring design
17 4.2.5 Electrical bonding
18 4.2.6 Antenna-to-antenna (RF) compatibility
4.2.7 Lightning
4.2.8 Spacecraft and electrostatic charging
20 4.2.9 Hazards of electromagnetic radiation
4.2.10 Life cycle considerations
4.2.11 External grounds
4.2.12 Spacecraft d.c. magnetic emissions
4.2.13 Electric propulsion systems
21 4.3 Equipment-level EMI requirements
4.3.1 General
4.3.2 Power bus conducted interference, time and frequency domain, source induced
4.3.3 Power bus conducted interference, load induced, frequency domain
22 4.3.4 Power bus load-induced switching transient emissions
23 4.3.5 Power bus load-induced time domain ripple
4.3.6 Signal cable conducted interference, frequency domain
4.3.7 Antenna connection port spurious emissions
4.3.8 Magnetic field radiated emissions
4.3.9 Radiated electric field emissions
4.3.10 Immunity to audio frequency power-line ripple
4.3.11 Immunity to power-line switching transients
24 4.3.12 Immunity to the conducted effects of radiated electromagnetic fields
4.3.13 Immunity to audio frequency radiated magnetic fields
4.3.14 Immunity to radiated electromagnetic fields
4.3.15 Immunity to magnetic fields induced signals to cabling
4.3.16 Control of antenna port immunity to out-of-band interference
4.3.17 Immunity to electrostatic discharge
4.3.18 Passive Intermodulation (PIM)
4.3.19 Multipaction
5 Verification
5.1 General system requirements
5.1.1 General
25 5.1.2 System-level electromagnetic effects verification plan (EMEVP)
5.1.3 Electromagnetic effects verification report (EMEVR)
5.1.4 Safety margin demonstration of critical/EED circuit
26 5.2 Specific system requirements
5.2.1 External electromagnetic environment
5.2.2 Intrasystem electromagnetic compatibility
5.2.3 Electromagnetic interference control
5.2.4 Grounding and wiring design
5.2.5 Electrical bonding
27 5.2.6 Antenna-to-antenna (RF) compatibility
5.2.7 Lightning
5.2.8 Spacecraft and static charging
28 5.2.9 Hazards of electromagnetic radiation
5.2.10 Life cycle
5.2.11 External grounds
5.2.12 Spacecraft d.c. magnetic emissions
5.3 Equipment-level EMI testing
5.3.1 General
29 5.3.2 Power bus conducted interference, time and frequency domain, source induced
5.3.3 Power bus conducted interference, load induced, frequency domain
5.3.4 Power bus load-induced switching transients
5.3.5 Power bus load-induced time domain ripple
5.3.6 Signal cable conducted interference, frequency domain
30 5.3.7 Antenna connection port spurious emissions
5.3.8 Magnetic field radiated emissions
5.3.9 Radiated electric field emissions
5.3.10 Immunity to audio frequency power-line ripple
5.3.11 Immunity to power-line switching transients
5.3.12 Immunity to the conducted effects of radiated electromagnetic fields
5.3.13 Immunity to audio frequency radiated magnetic fields
5.3.14 Immunity to radiated electromagnetic fields
5.3.15 Immunity to magnetic fields induced signals to cabling
5.3.16 Control of antenna port immunity to out-of-band interference
5.3.17 Immunity to electrostatic discharge
32 Annex A (informative) Rationale behind requirements and tests
54 Bibliography
BS ISO 14302:2022
$198.66