Simulator to reproduce various transient surge phenomena which are generated in a vehicle and required in the international standard ISO-7637-2 (2004) Standard, and evaluate the immune resistibility of the equipped electronics devices against the surge. 

A real-time diagnostic tool supports EMC/EMI debugging.  Fast visualize EMC/EMI problems.  Enables easy comparison of countermeasures before and after.  Capable of measurement from entire products to single components.  Factor-editor function provides correction of antenna characteristics, cable loss and preamplifier.  User friendly compact design.  Customer supplied spectrum and probes acceptable (Please consult)

EMC test equipment to evaluate the resistibility of electronic devices and components when energy charged on a human body or object is discharged to the electronic devices and components. NoiseKen brand ESD simulator is available to see malfunctions or function declines of electronic equipment for appropriate evaluations compliant with IEC 61000-4-2 Ed.2 Test Standard, ISO 10605 Ed.2 Test Standard & ISO 10605 Ed.3 Test Standard. 

IEC 61000-4-4 Ed.3 standard compliance.  Pre-check function is installed. Inspection before testing is now easy.  Normal mode test support. Taking account of field troubles is possible. (option)  Utilize an outlet box that simplifies EUT connection. (option)  Compared with conventional products, the size has become compact. (Approximately 67% by volume)  Easy to understand Panel display reduces mistakes in connecting power cables.  Software control with Windows. (option)  Next calibration date can be notified. (Windows software only)  Employ LCD screen with multi-language support and enhanced operability. 

Reproduces transient voltage surge phenomena generated in a vehicle and evaluates the immune resistibility of DUT against the surge. The output waveforms are five as high-repeating pulse, giant pulse, field decay pulse, trapezoidal waveform + high-repeating pulse and high repeating pulse + giant pulse.

This model is for carrying out a high pressure noise test of individual automotive manufacturers' demands. It simulates representative high voltage noise of HV and EV. Single-phase 3 wire  AC85 - 240V16A  50/60Hz  DC125V16A  Pulse: ~ 500V 50kHz (option)

NoiseKen simulators to reproduce fast rise-up noises which are generated when switching ON / OFF electric current on the inductive load.  Since the pulse includes broadband frequency and its rise-up time is fast at 3ns or less, it can make the noise coupling dense and effective to reproduce the malfunctions of electronics equipment under the test.  It can realize performance evaluation of electronics equipment's upon reproduction of line noises which are intruded to the power supply lines or induced noises onto the telecommunication lines.

The TEM horn antenna is an antenna used for conducting close proximity radiation immunity evaluation test (near electromagnetic field immunity test) of electromagnetic waves radiated from various wireless transmitters such as mobile devices.  In the future, close proximity radiation immunity evaluation test using the TEM horn antenna is expected to expand to various product standards such as medical equipment (IEC 60601-1-2) and multimedia equipment (CISPR 35).NoiseKen's TEM horn antenna has a wide band, low VSWR, and wide electric field uniformity offering an ideal solution for an efficient close proximity radiation immunity test. 

Thin plate broadband antenna has been developed for efficient immunity testing against hand-held transmitters and cellular phones. Many pieces of spot frequency antennas had to be used in turn thus fur. This new Thin-plate Broadband Antenna is a single antenna solution eliminating the need for antenna changes and dramatically reducing the test time. Furthermore, this antenna with its small-size and lightweight properties and a flexible handle is suitable for testing in narrow spaces.

Precise programming of voltage and current slew rate for sensitive loads.  Industrial field bus interfaces (Modbus-TCP, Modbus-RTU, Ethernet) enable real-time digital control.  Built-in power quality monitoring detects and saves input voltage anomalies which can be saved for later diagnostic analysis.  Programmable analog interface scaling facilitates integrating the ASD FLX with existing systems easily.  Built-in energy meter calculates the delivered energy throughout a process or period.  Optional real-time clock enables accurate timestamping of events.

Three independent, isolated DC output power supply 600W channels  Total DC power density up to 1800W in a 1U chassis  5 autoranging output channel options  Intuitive color touch panel control  Multi-language display for global operation  Multi-channel programmable sequencing, ramps, and delays  Active power factor correction (PFC)  Standard LXI LAN, USB, and RS232 interfaces  Optional GPIB interface  Full remote control via Virtual Panels™

Three independent, isolated 1700W DC outputs, 5100W total  1U rack-mount chassis  9 output options  Multi-language, intuitive, color touch panel control  Global 3-Phase AC Input options for system phase balancing  Active power factor correction (PFC)  Multi-channel programmable sequencing, ramps, and delays  Full remote control via Virtual Panels™ GUI  Standard LXI Ethernet, USB, and RS232 control interfaces  Optional GPIB control interface or isolated analog programming