Products
In accordance with the pulse verification requirements given in Annex C of ISO 7637-2:2011 and Annex A of ISO 16750-2:2012, test pulses generated by automotive transient generators need to be verified both under no-load (open circuit verification) and loaded conditions with specified loads.
The High-Voltage Pulse Generator IPG 255 is designed for testing of impulse dielectric strength of components, insulation, air-and surface flash-over gaps of watt-hour meters, static relays etc. according to IEC 60255, EN 61036, VDE 0435 part 303. Picture: incl. Option PA 503
High-Voltage Pulse Generators IPG 1218 / 1012 / 605 generate standard impulse voltages with waveform 1.2 / 50 µs acc. to IEC 60060. They are designed for testing impulse dielectric strength of components, insulations, air- and surface flash-over gaps acc. to IEC. The peak value of the test voltage is continuously adjustable from 0.2 - 6.25 / 10 / 12 kV. Positive or negative polarity of the output voltage can be selected. A built-in voltage divider 1000:1 allows monitoring of the impulse output waveform during testing.
High-Voltage Pulse Generator PG 12-400 generates standard impulse voltages with waveform 1.2 / 50 µs acc. to IEC 60060. It is designed for testing impulse dielectric strength of components, insulations, air- and surface flash-over gaps acc. to IEC.
The broadband horn antenna BBHA 9120 B is a linear polarized double ridged horn antenna
- 1 GHz to 10 (12) GHz
- Type N (Female)
The broadband horn antenna BBHA 9120 A is a linear polarized double ridged horn antenna.
- 800 MHz to 5 (10) GHz
- Type N (Female)
The alternating voltage testing set ACT ESTER 6 is suitable for the execution of the high- voltage test from isolations to VDE 0113, VDE 0700 part of 500, VDE of 0551 etc. IEC 60335, IEC 60204, IEC 60598, IEC 60745 The device essentially consists of a regulating transformer with a motor drive, a high voltage transformer, and a control unit. The output voltage can be adjusted by 0 - 10 kV.
- 30 MHz - 6 GHz, 40dB Gain, 2.5dB N.F.
- Compensation long cable loss for EMI Measurement
- Improve system noise floor flatness
- High EMI performance
- High linearity LNA for EMI measurement
- High dynamic range
- Unconditionally Stable
- State-of-the-Art Technology
The front-chopped-wave generator IPG 506 is used for measuring dc spark-over voltage and impulse spark-over voltage of over-voltage protectors according to CCITT / ITU-T, K12. Dc spark-over voltage: A linearly rising voltage, rate of rise 100 V/s up to 640 V, is connected to the device under test. The spark-over voltage measured is shown in the display. Impulse spark-over voltage: A linearly rising impulse voltage, rate of rise 100 V/µs up to 5000 V/µs, open loop amplitude 5000 V, is connected to the device under test. The spark-over voltage is measured by use of a peak detector. The result is shown in the display. A built-in impulse voltage divider allows measurement of the spark-over voltage by use of an externally connected scope. Picture: incl. Option PA 503
Transverse ElectroMagnetic (TEM) cell or Crawford cell (named after its inventor) is used to generate accurate electromagnetic waves over a wide frequency range: DC (0 Hz) to GHz. EM waves generated in the cell propagate in transverse mode and have the same characteristics as a plane wave. It can be used to calibrate E-field broadband probes for testing radiated E-field immunity as well as for measuring radiated emission from a product with a spectrum analyzer/EMI receiver.
