See "Specifications & Details" tab for more information. 

DC - 200 kHz bandwidth DC MHz (small signal -3 dB) Output voltage ±75 Vpk Rise / fall time 100 V/µs USB interface standard, LAN optional Analog control input 0 ... ±10 V for control of voltage and current Monitor outputs for measured voltage and current values (not all models) Modularly extensible via master-slave mode Parallel and Series Connections for two or more units

Protocol reports Generation of waveforms with synchronous data acquisition Modular Expandable Individual Waveform Generation Standard Libraries included Unlimited Waveform size 2 different Waveforms synchronously DLL's for LabView, Vector CANoe / CAPL, C#, C++, ANSI C, Python, etc. Simulation of imported oscilloscope waveform

Multi Tester with 16AMP CDN EFT/Burst 5kV IEC 61000-4-4 Surge, Combination Wave 7kV IEC 61000-4-5 Surge Magnetic field IEC 61000-4-9 (MSURGE-A loop antenna required) Ring Wave, 7kV IEC 61000-4-12 & ANSI Telicomm Wave, 7kV IEC 61000-4-5 & ITU AC Dips/Drops IEC 61000-4-11 (DIP 116 dips transformer required) DC Dips/Drops IEC 61000-4-29 (2x DC supplies required)

The EMC test system is designed for testing electromagnetic immunity of the electrical installation of vehicles and components against supply line transients. EMC - Test Equipment for the electrical installation of vehicles. Pulse #1 1-5/2000us, 600 V #1 1-5/1000us, 600 V Pulse #2a 1 / 50us, 600 V Pulse #3 5/100 ns, 800 V

Automatic calibration for the whole test frequency range  Application of all test frequencies automatically. The level can be selected or automatic.  NO need to manually configure the measurement equipment  NO need to manually integrate the transfer function of probes and attenuators  Generation of test reports: NO need to record all values read from the measurement equipment  Generation of calibration reports: NO need to record all calibration setting parameters  Rack together and add CS101, CS109, and RS101 (sections 18, 19, and 20 of the RTCA DO-160G are also available.)

Compliance: Meets MIL-STD-461 RS105 standards for NEMP testing. High Precision: Generates a minimum electric field of 50 kV/m, with higher fields available for smaller devices. Portable Design: Easy-to-move frame and compact setup for versatile placement. User-Friendly: Controlled via computer with RS232 and USB interfaces. Versatile Testing: Ideal for assessing EUTs up to appox. 5.5m x 3m x 1.5m.             Robust Specifications: Quick rise time of 2.3 ns and pulse length of 23 ns, ensuring accurate and reliable results.

The Precision Omnidirectional Dipoles POD 16 and POD 618 are fully compliant to CISPR 16-1-4 for site validation above 1 GHz. The POD 16 and POD 618 are precision broadband dipole antennas with conically shaped radiation elements covered by an RF-transparent radome. This rugged construction enables an excellent dipole-like radiation pattern up to 18 GHz.