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  • The 7548 Linear Amplifier is a high-output, low-noise solution engineered for precision and reliability in demanding environments.

    Key Features:

    • Up to 100 Ap / 195 Vp output
    • Delivers 12,000W peak power for 40 ms
    • Supports continuous 5,500W output into 1Ω load
    • Operates from DC to 100 kHz bandwidth
    • Field-selectable current or voltage mode
    • Ideal for MIL-STD-704F three-phase testing
    • Stackable for 800 Vp or 170 Ap system output
    • Built-in protection against over-voltage, over-temp, and overload
    • Intuitive LCD display and status indicators

     

  • 7796HC Linear Power Amplifier – High Current DC & AC Precision

    Key Features:

    • Output up to 85A continuous, 200A in-rush current
    • Frequency response: DC to 100+ kHz
    • Four-quadrant operation: source and sink
    • Field-selectable voltage or current modes
    • Stable with resistive, inductive, and capacitive loads
    • Multiple protections: Over/under voltage, current, and temperature
    • Supports DC ripple, surge, dropout, and ground noise simulations
    • Ideal for high-current DC Conducted Immunity testing
    • LCD with real-time voltage and current metrics
    • Supports both balanced and unbalanced inputs

     

  • Aetec 7794 High Current Industrial Amplifier

    Key Features:

    • Up to 200 Ap / 100 Vp; DC to 150 kHz bandwidth
    • Stable with resistive, inductive, or capacitive loads
    • Controlled-voltage or controlled-current operation
    • Switchable rail supply for optimized load impedance
    • 60A continuous output at 13.8V DC
    • ±95V DC and >35 V/µs slew rate
    • Four-quadrant operation: sourcing and sinking
    • Extensive protection against overvoltage, overcurrent, overtemperature
    • Rack-mountable chassis with LCD fault diagnostics

     

  • AETechron 7796 Amplifier – High-Current, Low-Impedance Industrial Power
    Ideal for precision testing, EMC simulations, and MRI systems.

    Key Features:

    • Delivers over 200 Ap peak current, up to ±180V
    • DC to 100 kHz bandwidth for versatile signal reproduction
    • Four-quadrant operation (source/sink modes)
    • Operates in both voltage and current-controlled modes
    • Handles in-rush currents up to 200A
    • Field-configurable rail supply modes for load optimization
    • Advanced protection against voltage, current, and thermal faults
    • Stackable for higher voltage or current (up to 800 Ap)

     

  • The DSR 400 Series Test System is a compact, high-performance simulator for rigorous AC and DC immunity testing. Built for DO 160 and MIL STD 704 compliance, it integrates a powerful waveform generator, cutting-edge power technology, and a vast standards library—making it an ideal solution for demanding EMC test labs.

    Key Features:

    • Complete Test Solution for DO 160 Sec. 16 and MIL STD 704
    • Built-In Standards Library with 3,400+ automotive and aviation test routines
    • 4-Quadrant Operation: Sources and sinks current for complex test needs
    • High Surge Capability: Delivers 5x rated power for 200 ms
    • Fast Rise Time: Less than 30 µs for real-time performance
    • Modular Output: 80A or 160A continuous current options available
    • Multiple Waveform Options: Includes sine, ripple, triangle, sawtooth, square, and DC
    • Remote Control Ready: LAN and GPIO integration for larger systems
    • Easy-to-Use Interface: Pre-configured or user-custom test sequences

     

  • Engineered for cutting-edge EV, automotive, and aerospace compliance, the HVR 1000 is a complete high-voltage ripple test system built to handle demanding lab environments with unmatched precision and safety.

    Key Features:

    • Wide Frequency Range: AC ripple from 10 Hz to 200 kHz
    • High Voltage Output: Up to 1000V DC and 60 kW power
    • Waveform Versatility: Generates sine, triangle, and custom signals
    • Robust Safety: Multi-layer overvoltage, overcurrent, and thermal protection
    • Zero Licensing Fees: Future test standard updates included
    • User-Centric Interface: Intuitive controls with HDMI and LAN support
    • Flexible Configuration: Available as HVR 1000RG (Ripple Generator only)
    • Space-Saving Design: Small footprint, ideal for compact lab setups

     

  • The HVR 1200RG Ripple Generator is a powerful, next-gen solution tailored for electric vehicle high-voltage testing. Designed for use with traction inverters and HIL test stands, this rugged system delivers unmatched ripple current and voltage capabilities across a wide frequency range.

    Key Features:

    • Ripple Current Output: Up to 600 A peak
    • Voltage Range: 0 – 150 Vp (300 Vp-p)
    • Wide Frequency Support: 150 Hz to 300 kHz
    • DC Voltage Compatibility: 0 – 1200 V (or up to 2000 V in bridged mode)
    • Data Monitoring: Real-time tracking of voltage, current, and impedance
    • Built-In Protections: Handles short circuits and noisy DUTs effortlessly
    • Modular & Expandable: Configurable for current and future EV standards
    • Noise-Resistant: Engineered to operate accurately in high-noise environments

     

    • Versatile Current Sensing: Accurately measure small and large currents, from sub-milliamp levels to thousands of amps.
    • High-Speed Pulse Monitoring: Patented distributed termination technology enables ultra-fast rise time measurement (as short as 2ns).
    • Enhanced Noise Immunity & Safety: Double shielding minimizes external noise, making these monitors ideal for high-voltage applications.
    • Robust Construction: Sealed models are suitable for high-voltage insulating oil or vacuum environments.
    • Broad Compatibility: Works with oscilloscopes, spectrum analyzers, power analyzers, digital voltmeters, ADCs, and more.

     

  • High-Precision Current Measurement with BNC Connectivity

    • Precision Current Sensing: ±1% accuracy ensures reliable real-time current monitoring.
    • BNC Connector for Seamless Connectivity: Works with oscilloscopes, ADCs, spectrum analyzers, and power analyzers.
    • Clamp-On Design for Non-Intrusive Measurement: Safely monitor live current flow without circuit disruption.
    • 50 Ohm Termination Compatible: Output reduces by half when using a 50Ω termination.
    • High-Voltage Safety Considerations: Conductive case requires adequate insulation for user safety.

     

  • High-Precision Current Sensing with BNC Connectivity

    • High-Precision Measurement: ±1% accuracy for reliable current sensing.
    • Customizable Configurations: Designed to meet specific user requirements for precision measurement.
    • BNC Connector for Easy Integration: Works with oscilloscopes, ADCs, spectrum analyzers, and power analyzers.
    • Non-Insulated Conductive Case: Proper insulation must be provided on the monitored conductor.
    • 50 Ohm Termination Compatibility: Using a 50Ω termination reduces the output to half.

     

  • High-Precision Voltage Measurement Up to 500kV

    • High-Voltage Measurement Capability: Supports up to 500kV in insulating oil and customizable calibration for air use.
    • Precision Division Ratios: Models with 5000:1, 10,000:1, and custom ratios, ensuring reliable voltage scaling.
    • Temperature-Compensated Accuracy: ±1% over 20°C to 80°C, providing stable voltage readings.
    • Robust Design for Harsh Environments: Sealed for high-voltage insulating oil use, with custom air calibration available.
    • Safe Operation with Ground Loop Control: The outer conductor is isolated from the case, allowing controlled grounding connections.

     

  • Precision Pulse Output Up to 500kV

    • Wide Voltage Range: Supports 100kV to 500kV pulse outputs for high-energy applications.
    • Fast Pulse Transmission: Pulse durations from 0.25 to 50 microseconds, ensuring efficient energy transfer.
    • Insulating Oil Immersion: Open-construction design for operation in high-voltage insulating oil, reducing breakdown risks.
    • Advanced Overvoltage Protection: Designed with built-in safety factors (50-100%) to prevent damage from overvoltages.
    • Reliable Flashover Protection: Corona ring-to-core insulation prevents damage from accidental flashovers.

     

  • Single-phase, 2U, industrial amplifier/battery simulator

    • Bench-sized
    • Powered from 120V/230VAC
    • Source and Sink (4 quadrant)
    • Rugged Design
    • 3-Year, No-Fault Warranty

    Key Performance Capabilities:

    • Drop outs and surges as fast as 1.2µs
    • Small signal response up to 1 MHz
    • 13.5 VDC at up to 28A
    • Field-selectable ±40V, 75V or 150V potential

     

  • The EME Guard Plus is a lightweight and robust personal protection monitor designed to ensure the safety of workers operating near electromagnetic field (EMF) emitters such as antennas, radars, and base stations. With a frequency range of 1 MHz to 40 GHz, this device continuously monitors and records EMF exposure levels while providing immediate audio, visual, and vibrating alerts when exposure exceeds predefined safety thresholds. Customizable alarm settings and a triaxial isotropic probe ensure accurate and reliable measurements.

     

  • The EME Guard XS Radar is a state-of-the-art RF safety monitor, specifically designed for workers operating near radar transmitters and antennas. With its isotropic tri-axis E-field sensors, this compact device provides continuous EMF monitoring over a frequency range of 1 MHz to 40 GHz, including short pulsed signal detection. Equipped with audio and visual alarms, it alerts users instantly when EMF exposure exceeds predefined safety thresholds, creating a safer working environment for military, aviation, and telecom personnel.

     

  • Solutions For:

    •  Accurate measurement with tri-axis sensors
    • Instant audio and visual alarm
    • Robust, reliable and user-friendly
    • Covers 5G / 6G bands, measuring up to 71 GHz

    User profile:

    • Persons working near antennas including installation and maintenance workers, broadcast, PMR and mobile phone operators or regulatory body employees

    Measurement capabilities:

    • Continuous monitoring of Electromagnetic Field levels with isotropic tri-axis E-field sensors
    • EMF Level indicated by a LED color scale
    • Audio and visual alarms triggered when EMF exceeds the reference level