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Electric power lines and telecommunication lines often occupy parallel routes as a result of the utilisation of joint facilities or sharing a common right-of-way. Direct contact with electrical mains power can occur through networks line cable faults. The contact may not cause opening of a power system circuit breaker. A.C. current resulting from direct contact may make effective protection difficult. EMC Partner have a range of products designed to meet the ITU-T K44, ITU-T K20 and ITU-T K21 requirements for both power CONTACT and power INDUCTION testing.
MIG-ITU-K44 is a stand alone system that delivers up to 1,600V for enhanced level testing. NW-K44PC can provide up to 600V to meet basic levels.
Additional accessories enable power contact testing at 230V up to 20A per line.
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EMC Partner offer a range of test equipment to cover the indirect lightning effect tests as defined in documents; RTCA/DO160 and EUROCAE/ED14.
The MIG0600SS, MIG0600MS, MIG0618SS and MIG-OS-MB generators are designed to carry out Pin injection(PIN), Single Stroke(SS), Multiple Stroke(MS) and Multiple Burst(MB) with five different waveforms;
6,4/70 µs (WF1), 0,1/6,4 µs (WF2), 1MHz & 10MHz damped sine (WF3), 6,4/70 µs (WF4), 40/120 µs (WF5A) and 50/500 µs (WF5B).
Multiple Stroke patterns are available with fixed or randon spacing to meet all current requirements including Airbus ABD0100-1-2, Boeing D6-16050-5C and many more.
Voltage spike testers are available to meet Airbus AMD-24C standards for the A400M and A350XWB, DO160 sections 17 and 19 and the EFA4 pulses for the Eurofighter typhoon II.
All systems are complete and include couplers for PIN injection, Cable induction and Ground injection.
Additional waveforms such as 6H or customer specific waveforms can also be included.
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MIG2000-6 is a versatile generator capable of delivering impulses to meet MIL-STD-461F including the CS115 impulse excitation, CS116 damped sinusoidal transients and CS106 power lead transient requirements. Further modules are available which extend the system to include MIL-STD-1275B for military vehicles. This module includes an integrated impulse geenrator and coupling network for 28Vdc.
MIG1212EMP delivers fast risetime impulses to three phase power lines for testing of civil defense and military installations against NEMP events.
MIG-OS-OM-EXT complies with the IEC61000-4-18 requirement for HEMP testing of elctrical and electronic equipment within buildings. Frequencies up to 30MHz have been selected as representative of a ringing effect caused by field coupling into short cable lengths.
All systems are complete and include necessary couplers to perform testing on cable bundles.
A reliable and flexible test system, MIG2000-6 is in use at many facilities worldwide.
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Full Compliance CE Mark test equipment and ANSI transient test solutions. Choice of 4kV or 6kV SURGE generators with Combination, 100 kHz Ring, and 10/700 waves plus your choice of ESD, EFT, and voltage DIPS and Interrupts as needed. Integrated, automated, single phase CDN.
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Testers for lightning tests on telecommunication equipment based on the following standards or recommendations: ITU-T, IEC, Bellcore and FCC.
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Damped oscillatory waves are phenomena associated with the opening and closing of High Voltage (HV) busbars in power transmission stations and High Altitude Electromagnetic Pulses (HEMP).
The IEC61000-4-18 standard extends to existing 100kHz and 1MHz frencies with additional fast damped oscillatory waves at frequencies of 3MHz, 10MHz and 30MHz.
EMC PARTNER designed the MIG-OS-OM-EXT to add fast oscillatory wave capability to existing EMC PARTNER generators.
MIG-OS-OS1 and MIG0603OSI generators deliver 100kHz and 1MHz slow damped oscillatory waves that were specified in the IEC61000-4-12 Ed1 standard.
For power applications, the equipment to be tested is generally connected to 3-Phase power lines. CDN3000A-06-25 enables coupling of both fast and slow oscillatory waves.
HEMP applications require capacitive coupling. CN-EFT1000 enables coupling into unshielded wires.
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The test and measurement methods for "Testing the Immunity to Conducted disturbances induced by an RF Field" are defined by the International standard IEC/EN61000-4-6.
This test can be done by individual components, or by one compact unit like the CIT10 which includes all the necessary components for IEC/EN61000-4-6 testing in one easy to use system.
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