TESEQ KEMZ 801 Series EM Clamp
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EM Clamp for IEC/EN 61000-4-6
- As specified in IEC/EN 61000-4-6
- Very efficient coupling
- Can be used on almost any cable
- Ruggedly designed
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Description
TESEQ KEMZ 801 Series EM Clamp
IEC 61000-4-6 (EN 61000-4-6) defines three basic types of transducer used for the injection of test signals into the equipment under test (EUT). The basic requirement is to inject a known level of RF signal onto the cable of the EUT at each test frequency and to determine whether the EUT continues to function correctly. In order to do this, it is necessary to decouple the auxiliary equipment (AE) from the test signal. If this is not achieved it is difficult to know whether any fault is due to a failure of the EUT or the AE. Whilst the coupling/decoupling network (CDN) is one of the best ways to achieve this test and indeed it is mandatory to use them under some circumstances, it is not always possible to use a CDN.
| Parameter | Value |
|---|---|
| Frequency range | 10 kHz to 1000 MHz |
| Nominal impedance | 50 Ω |
| Connector | N-type female |
| Maximum input level | 0.01 to 100 MHz: 100 W for 15 min100 to 230 MHz: 100 W for 3 min230 to 1000 MHz: 50 W for 3 min |
| Maximum correction factor | 0.15 to 400 MHz: 4 dB (50 Ω system), 13.5 dB (150 Ω system) |
Documents
TESEQ KEMZ 801 Series EM Clamp
KEMZ_801AOptions
TESEQ KEMZ 801 Series EM Clamp
KEMZ 801A KEMZ 801AS KEMZ 801AS50 KEMZ 801-TC CAL 801A CAL KEMZVideo
TESEQ KEMZ 801 Series EM Clamp
IEC 61000-4-6 (EN 61000-4-6) defines three basic types of transducer used for the injection of test signals into the equipment under test (EUT). The basic requirement is to inject a known level of RF signal onto the cable of the EUT at each test frequency and to determine whether the EUT continues to function correctly. In order to do this, it is necessary to decouple the auxiliary equipment (AE) from the test signal. If this is not achieved it is difficult to know whether any fault is due to a failure of the EUT or the AE. Whilst the coupling/decoupling network (CDN) is one of the best ways to achieve this test and indeed it is mandatory to use them under some circumstances, it is not always possible to use a CDN.
| Parameter | Value |
|---|---|
| Frequency range | 10 kHz to 1000 MHz |
| Nominal impedance | 50 Ω |
| Connector | N-type female |
| Maximum input level | 0.01 to 100 MHz: 100 W for 15 min100 to 230 MHz: 100 W for 3 min230 to 1000 MHz: 50 W for 3 min |
| Maximum correction factor | 0.15 to 400 MHz: 4 dB (50 Ω system), 13.5 dB (150 Ω system) |