The Combination Wave Generator PG 10-504 is a combined impulse-current-/impulse-voltage generator which, for high-impedance loads, RL > 100?, delivers a standard impulse voltage with waveform 1.2/50µs and, for short-circuited output, a standard impulse current with waveform 8/20µs. The generator allows surge testing of components and devices, the galvanic coupling of surges to cable shields, shielded enclosures and cabinets as well as testing electromagnetic compatibility, EMC, of electronic devices and systems against pulsed and conducted interference.
The Combination Wave Generator PG 12-804 is a combined impulse-current-/impulse-voltage generator which, for high-impedance loads, RL > 100?, delivers a standard impulse voltage with waveform 1.2/50µs and, for short-circuited output, a standard impulse current with waveform 8/20µs. The generator allows surge testing of components and devices, galvanic coupling of surges to cable shields, shielded enclosures and cabinets as well as testing electromagnetic compatibility, EMC, of electronic devices and systems against pulsed and conducted interference.
The Surge Test Generator PG 24-2500 is a combined impulse current-/impulse-voltage generator which, for high-impedance loads, RL > 100?, delivers a standard impulse voltage with waveform 1.2/50µs and, for short-circuited output, a standard impulse current with waveform 8/20µs, as defined by IEC 60. The peak value of the pulse output voltage can be adjusted from 0.5 kV to 24 kV. The peak short circuit current amplitude is 12 kA.
The capacitive Coupling-/Decoupling Networks CDN 54200/ 74200/ 104200/ 12420 are used in combination with the Multi-CE5 / Multi-CE7 or the Surge generators PG 7-250, PG 10-504, PG 12-804 and allow superimposition of surge and burst test pulses to the 3-phase mains voltage of the device under test.
Designed for applying the impulse output voltage of the Combination Wave Generator to interconnection lines of the equipment under test, acc. to IEC 61000-4-5, Fig10.
Designed for applying the impulse output voltage of the Combination wave/ Ring wave generator to interconnection lines of the equipment under test, acc. to IEC 61000-4-5, Fig9/ IEC 61000-4-12, Fig. 8.
The coupling/decoupling network CDN 504/ 508 U essentially consists of a current compensated decoupling inductor, L1 – L4/L8, and a set of coupling impedances to be inserted in the coupling path.
The impulse generator system EMC 2015 has been designed for dielectric testing of electric components, over-voltage protectors and electronic circuits acc. IEC, VDE etc. The basic version generates impulse currents with waveform 8/20 µs and a peak value of up to 25 kA. In addition, various other plug-ins are also available.
The capacitive Coupling-/Decoupling Network CDN 10216 & 12216 is used in combination with the Surge generators PG 7-250, PG 10-504 or PG 12-804 and allows superimposition of surge test pulses to the single-phase power supply voltage of the device under test. The test set-up is suitable for immunity testing of electronic systems and devices according to IEC 61000-4-4, IEC 61000-4-5 and IEEE 587.
The capacitive Coupling-/Decoupling Networks CDN 2402/2410 are used in combination with the Multi-CE5 and allows superimposition of surge and burst test pulses to up to four I/O signal lines. The test set-up is suitable for surge immunity testing of electronic systems and devices according to IEC 61000-4-4, IEC 61000-4-5 and IEEE 587.
The capacitive Coupling-/Decoupling Network CDN 2802 is used in combination with the Multi-CE5 & Multi-CE7 and allows superimposition of surge and burst test pulses to up to eight I/O signal lines.
The Surge Sense has been developed with EMC test laboratories in mind to enable a “go / no-go” verification of the surge generator output prior to test.