EMC/EMI Training for Aerospace

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EMC/EMI Training for Aerospace Course Hands-on

EMC/EMI Training for Aerospace will help the attendees to develop and build EMC / EMI compliance systems that optimizes your system’s performance and reliability.

Electromagnetic Interference (EMI)/Electromagnetic Capability (EMC) for Aerospace Training Course will help you to cost-effectively identify EMC/EMI problems early in your product development cycle. EMC/EMI Training for Aerospace should also help you with capability of troubleshooting your design if you have compliance problems such as: shielding, filtering, bonding and grounding techniques, and associated materials.

Learn how to establish interface and associated verification requirements for the control of the electromagnetic interference (EMI) emission and susceptibility characteristics of electronic, electrical, and electromechanical equipment and subsystems designed or procured for use by Aerospace activities and agencies including items that have the following features: electronic enclosures, equipment racks, electrical interconnections that are discrete wiring harnesses between enclosures, and electrical power input derived from prime power sources.

EMC testing (emissions and immunity) to a variety of standards including:

● ANSI C63.4
● Bellcore GR-1089-Core (NEBS)
● EMC Directive for Europe (includes EN61000 series and EN550XX series of tests)
● EPRI TR-102323
● FCC Part 2, 15
● FCC Part 18 Electromagnetic Tests and Certification
● FCC Part 68 (Analog systems)
● Magnetic Field Interactions MIL-E-16400
● MIL-STD 461/462
● NASA Specification MSFC Spec. 521
● SAE J1211
● SAE J551/J1113
● TIA 631
● US Nuclear Regulatory Commission Guide 1.180
● VCCI Japan

Duration: 3 days

EMC/EMI Training for Aerospace Related Courses

Customize It!

● We can adapt this EMC/EMI Training for Aerospace course to your group’s background and work requirements at little to no added cost.
● If you are familiar with some aspects of this EMC/EMI Training for Aerospace course, we can omit or shorten their discussion.
● We can adjust the emphasis placed on the various topics or build the EMC/EMI Training for Aerospace course around the mix of technologies of interest to you (including technologies other than those included in this outline).
● If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the EMC/EMI Training for Aerospace course in manner understandable to lay audiences.

EMC/EMI Training for Aerospace - Course Content:

EMC/EMI Applied

Aviation Standards
Principals of Aerospace Shielding and Testing
Radiated Immunity Testing
Radiated Emissions
Electro-Magnetic emissions/compatibility
EMC Radiated Immunity/Susceptibility
Bulk Current Injection
Conducted Immunity/Susceptibility
Conducted Emissions
Multiple Stroke/Multiple Burst lightning
Induced lightning testing
Immunity Testing
EMI suppression components
Shielding effectiveness on enclosures, materials and components
Magnetic susceptibility testing
SWR measurement & insertion loss
UK Ministry Of Defense testing – Def-Stan 59-41
MIL STD 461 RS103 from 2MHz to 40 GHz and down to 10KHz
DO 160 section 20 from 100MHz to 18GHz
Capabilities to test equipment located in commercial aircraft category W and Y
DC Magnetic Field Susceptibility testing up to 1600A/m
MIL STD 1399 Section 070
HIRF & RS103 testing in excess of 200 V/m from 10kHz to 40GHz
FAA certification testing
RS105 High Energy Pulse testing

Measurement Tolerances

Shielded enclosures
Radio Frequency (RF) absorber material
Ambient electromagnetic level
Ground plane
Metallic ground plane
Composite ground plane
Power source impedance

General EMC/EMI tests for Aerospace

Accessory equipment
Excess personnel and equipment
Overload precautions
RF hazards
Shock hazard
Shock and vibration isolators
Safety grounds
Interconnecting leads and cables
Input (primary) power leads
Electrical and mechanical interfaces
Operating frequencies for tunable RF equipment
Operating frequencies for spread spectrum equipment
Susceptibility monitoring
Computer-controlled instrumentation
Emission testing
Emission identification
Frequency scanning
Emission data presentation
Susceptibility testing
Frequency scanning
Modulation of susceptibility signals
Thresholds of susceptibility
Calibration of measuring equipment
Measurement system test
Antenna factors

MIL-STD-461F Applied

EMI control requirements versus intended installations
Emission and susceptibility requirements, limits, and test procedures
CE101, conducted emissions, power leads, 30 Hz to 10 kHz
CE102, conducted emissions, power leads, 10 kHz to 10 MHz
CE106, conducted emissions, antenna terminal, 10 kHz to 40 GHz
CS101, conducted susceptibility, power leads, 30 Hz to 150 kHz
CS103, conducted susceptibility, antenna port, intermodulation, 15 kHz to
CS104, conducted susceptibility, antenna port, rejection of undesired signals,
CS105, conducted susceptibility, antenna port, cross modulation, 30 Hz to
CS106, conducted susceptibility, transients, power leads
CS109, conducted susceptibility, structure current, 60 Hz to 100 kHz
CS114, conducted susceptibility, bulk cable injection, 10 kHz to 200 MHz
CS115, Conducted susceptibility, bulk cable injection, impulse excitation
CS116, conducted susceptibility, damped sinusoidal transients, cables and
power leads, 10 kHz to 100 MHz
RE101, radiated emissions, magnetic field, 30 Hz to 100 kHz
RE102, radiated emissions, electric field, 10 kHz to 18 GHz
RE103, radiated emissions, antenna spurious and harmonic outputs, 10 kHz
to 40 GHz
RS101, radiated susceptibility, magnetic field, 30 Hz to 100 kHz
RS103, radiated susceptibility, electric field, 2 MHz to 40 GHz
RS105, radiated susceptibility, transient electromagnetic field

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Time Frame: 0-3 Months4-12 Months