NEMP110-G - GTEM RS105 Test System   >50kV/m 

MIL-STD-461 RS105 NEMP Test System with GTEM Cell

Key Features:

• High Voltage Pulse Generation:

  • Coaxial pulse generator delivers double exponential waveforms of up to 50 kV/m (-0 dB, +6 dB).
  • Nanosecond-range rise time for accurate simulation of NEMP conditions.

• GTEM Cell Design:

  • Specially adapted for high-voltage pulses to ensure reliable performance during tests.
  • Accommodates equipment with a maximum septum height of 110 cm, suitable for small to medium-sized devices.

• Testing Benefits:

  • No Disturbance to Surroundings: Ensures safe operation without affecting nearby systems or environments.
  • Automated Operation: Simplifies testing with automated control, data recording, and test report generation.
  • Adaptability: Existing GTEM cells can be retrofitted for NEMP testing, maximizing investment efficiency.

Whether you need to ensure the resilience of critical electronic systems or validate compliance with military standards, the NEMP110-G provides a reliable and efficient solution for NEMP radiated susceptibility testing.

Basic RS105 Setup Diagram

Applications of the NEMP110-G Radiated Susceptibility Test System

The NEMP110-G is a versatile tool designed to ensure the electromagnetic pulse (NEMP) immunity of various electronic components and systems. Its robust capabilities make it ideal for a wide range of applications across multiple industries:

• Defense and Military Equipment Testing

  • Purpose: Validate the resilience of military-grade electronics against electromagnetic pulses.
  • Use Case: Ensuring that communication systems, navigation units, and weapon control systems remain operational during and after EMP events.

• Aerospace Systems

  • Purpose: Assess the susceptibility of aerospace electronics to electromagnetic interference.
  • Use Case: Testing avionics, satellite components, and unmanned aerial vehicle (UAV) systems to guarantee performance integrity in harsh electromagnetic environments.

• Automotive Electronics

  • Purpose: Evaluate the EMP immunity of automotive control units and electronic subsystems.
  • Use Case: Enhancing the reliability of electric vehicle (EV) components, advanced driver-assistance systems (ADAS), and infotainment systems against electromagnetic disturbances.

• Communication Devices

  • Purpose: Ensure the durability of communication infrastructure and portable devices against EMP threats.
  • Use Case: Testing radios, satellite phones, and networking equipment used in critical communication networks for military and emergency services.

• Industrial Control Systems

  • Purpose: Protect industrial automation and control systems from electromagnetic disruptions.
  • Use Case: Verifying the immunity of programmable logic controllers (PLCs), sensors, and actuators used in manufacturing and critical infrastructure.

• Research and Development

  • Purpose: Facilitate the development of EMP-resistant technologies and materials.
  • Use Case: Assisting engineers and researchers in designing and validating new electronic components with enhanced electromagnetic immunity.

• Compliance and Certification

  • Purpose: Achieve regulatory compliance with military and industry standards.
  • Use Case: Conducting standardized NEMP tests to obtain certifications for products intended for use in sensitive and high-stakes environments.

The NEMP110-G Radiated Susceptibility Test System is essential for any organization seeking to enhance the reliability and durability of their electronic products against electromagnetic pulse threats. By integrating this system into your testing protocols, you can ensure that your components meet stringent military standards and perform reliably in demanding conditions.

Specifications

• Model: NEMP110-G
• Standards Supported:
  • MIL-STD-461 RS105
  • IEC 61000-4-25
  • AECTP 500
• Maximum Field Intensity: 50 kV/m (-0 dB, +6 dB)
• Waveform: Double exponential with nanosecond rise time
• Maximum Septum Height: 110 cm

ACCESSORIES
GMRL30	Material to build a temporary ground plane, consisting of a special metallic mesh and the related assembly material
SFE3-5G, SGE3-5G	D-dot sensor to measure the electric field pulse
SFM2G, SGM2G	B-dot sensors to measure the magnetic field pulse
BL3-5G	Balun for the free field sensors
MOL2000T2 or MOL3000	Shielded analog fiber optic link to connect the sensors to the measurement equipment
SB3G	Shielded enclosure for the protection of the oscilloscope
PULSELab	Pulse measurement software application
Setup diagram