WSM-type AC/DC current-Viewing resistors are designed for precise measurement of pulsed ac- and dc currents, for instance in industrial drives, pulsed welders and plasma physics apparatuses. Moreover, they are employed in short-circuit test facilities, measurement of start currents of fuel engines etc.
Current-viewing-resistors Series ISM allows precise measurement of peak value and waveform of fast rise time current pulses. They excel by high bandwidth, low rise time and high accuracy of resistance value. Below their upper-frequency limit (-3 dB), the current-viewing-resistors ISM behave like pure dc resistors with frequency-independent resistance value. Because of their double coaxial design current-viewing-resistors, ISM are not susceptible to noise and electromagnetic interference.
The high-voltage measurement instruments HVM 2015 consist of a measuring amplifier for universal use with a digital touch display, a built-in high-voltage divider for direct measurement up to 10 kV / optional 20 kV and an external input for an external high-voltage divider, HVT***RCR, measurement, and display of voltages up to 300 kV. The HVM 2015 is designed for measuring ac- and dc- voltages and allows in addition measurement of the peak value of lightning and switching pulse voltages.
The Broadband high-voltage dividers series HVT...RCR are state-of-the-art measuring equipment with excellent high-frequency transmission characteristics. The high-voltage impedance consists of a precise metal film resistor and a high-voltage capacitor with a series damping resistor in parallel. The measuring cable with the termination network is an essential part of the divider. The termination network can be adjusted for an oscilloscope input impedance of 1 M? // 10 - 30 pF.
The Pulse Voltage Divider PVD 10-2 & PVD 10-3 have been designed to measure the pulse output of surge generators, e.g. a combination wave generators. It consists of the divider and a double-shielded coaxial cable. The measuring cable with the termination network is an essential part of the divider. The termination network can be adjusted for an oscilloscope input impedance of 1 M? // 10 - 30 pF.
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.
HV - Impulse generator PG 4-641 creates standard voltage and current pulses with a waveform 10 / 160 µs. The output voltage is adjustable up to 3600 V, the maximum short circuit current amplitude is 480 A peak. Positive or negative polarity of output voltage can be selected. A built-in voltage divider 1000:1 allows monitoring of the impulse output waveform during testing. The short circuit current wave can be monitored by the use of the built-in shunt.
The safety test cabinets PA 50* are designed for high-voltage testing of components and PCB's etc.
For high-voltage testing of components, DUTs are available for various pulse generators. The use of these DUTs significantly reduces placement times and significantly increases throughput.
The High-Voltage Pulse Generator Type PG 6-401 is designed for dielectric testing of X- and Y-capacitors with standard impulse voltages 1.6/47 µs up to 6 kV acc. to IEC 384-14, etc. The generator has the same principle of operation as the IPG 809 but allows testing capacitance values of 33 nF - 470 nF. Picture: incl. Option PA 503
The pulse generator IPG 250 is designed for measuring the step response of high-impedance networks, for instance voltage dividers, oscilloscope probes etc. The generator excels by calibrated adjustment of output amplitude, short rise time and flat pulse top. The output pulse amplitude can be adjusted by use of a 10-turn potentiometer from 0 to 250 V. Positive and negative polarity can be selected.
The Capacitor Calibration Kit CCK has been designed to measure the pulse output voltage of surge generators PG10-200, PG12-360 and PG20-100. IEC 61730-1/2, IEC 60060-2