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  • 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.

     

    • 3GHz RF analog signal generator
    • AM, FM, PM, Sweep & Pulse Modulation
    • Exceptionally Low Phase Noise of -145dBc/Hz @100MHz and 10@kHz offset
    • Field ready, with 10” touch screen suited for day and night use and 2 hour battery operation
    • Remotely programmable via MATLAB, Python, LabVIEW and other software programming environments.
    • Removable uSD card for instrument security

     

    • 20 Amp Operation: Full performance with 20 amp service
    • Automatic Power Reduction: Reduces power usage during idle periods
    • Heat Only Mode: Reduces power usage when cold temperatures are not used
    • WhisperStream Technology: quieter, smooth-sounding operation, 56 dBA
    • Frost Free Test Environment: dry air purge for tester interface, prevents condensation:
      0.5 to 3scfm (0.25 to 1.5 l/s)
    • Heated Defrost: quickly removes moisture buildup from internal chiller
    • DUT Temperature Control : Proprietary control algorithm enables DUT temperature to be directly controlled
    • Transition Rate*
      -55 to +125°C, approx. 10 seconds
      125 to -55°C, approx. 10 seconds
    • System Airflow Output*
      4 to 18scfm (1.9 to 8.5 l/s) Continuous
    • Temperature Range*
      -80 to +225°C (60Hz) No LN2 or LCO2 Required

     

    • High reliability thermal cycling without thermoelectric modules
    • Temperature range: -65 to 175°C
    • Cooling power:
      • 40W at -40°C for lower power devices
      • 55W at -55°C and 120W at -40°C.
    • Transition rate: up to <35 sec over 25 to -40°C
    • Easy and secure thermal connection to in-circuit or test socked DUT
    • Touch-screen controller: user-programmable temperatures, graphing, data logging
    • Communications options: Ethernet, USB, IEEE, RS232

     

  • -60° to +200°C

    • Economy model with high thermal capacity
    • Precise temperatures with fast transitions from -60 to 200°C
    • No annual leak testing required per EU 517/2014 F-Gas Regulation
    • Effective testing and conditioning of electronic components, boards, and modules
    • Available for 50 and 60Hz operation
    • No need for Liquid Nitrogen (LN2) or Liquid Carbon Dioxide (LCO2)
    • Remote communications and set up and touch screen operation
    • User Defined Temperature Limits

     

     

    • High voltage output to 300Vp-p (±150V)
    • Output current to 150 mA
    • Full power bandwidth from DC to >500kHz
    • Slew rate to 200V/µs
    • Low distortion
    • Low cost
    • Custom Configuration of gain and signal Ground

     

    • Single channel
    • High voltage output to 400Vp-p (±200V)
    • Output current to 125 mA
    • Full power bandwidth from DC to >500kHz
    • Slew rate to 400V/µs
    • Monitor Output
    • Precise signal amplification for multiple applications
    • Compatible with any of the Tabor waveform generators

     

    • High voltage output to 300Vp-p (±150V)
    • Output current to 100 mA per channel
    • Full power bandwidth from DC to >500kHz
    • Slew rate to 200V/µs
    • Low distortion
    • Low cost
    • Custom Configuration of: Gain, Signal Ground

     

    • 12GHz RF Analog Signal Generator
    • Extremely fast switching speed of <100μs
    • AM, FM, PM Sweep & Pulse Modulation
    • Extra small, compact module platform
    • Exceptionally Low Phase Noise of -145dBc/Hz @100MHz and 10@kHz offset
    • SPI and micro-USB integrated interfaces
    • Remotely programmable via MATLAB, Python, LabVIEW
    • and other software programming environments.
    • Flixible modular platform for OEM and custom requirements
    • and applications, to satisfy specific customer demands.
    • Multi instrument synchronization capability

     

    • 6GHz RF Analog Signal Generator
    • Extremely fast switching speed of <100μs
    • AM, FM, PM Sweep & Pulse Modulation
    • Extra small, compact module platform
    • Exceptionally Low Phase Noise of -145dBc/Hz @100MHz and 10@kHz offset
    • SPI and micro-USB integrated interfaces
    • Remotely programmable via MATLAB, Python, LabVIEW
    • and other software programming environments.
    • Flixible modular platform for OEM and custom requirements
    • and applications, to satisfy specific customer demands.
    • Multi instrument synchronization capability

     

  • The new G5.RSS series features

    • High control dynamics
    • An exceptional accuracy
    • A nominal output voltage of up to 3000 VDC
    • A wide current-voltage range with an auto-ranging factor of 3.
    • You get the best value for your investment.

     

    • Dynamic set up: During a simple frame reading, users can define elements to be acquired, recorded, visualized and surveyed in real time.
    •  Macro-command: Users can write and execute complex test sequences thanks to macro-command functions.
    •  Local & Distant Integration: AT-DIAG can be driven and interrogated by external software. It can also be used with a computer through Ethernet.
    • Communication ports: Communication is done through RS232, NI CAN acq. Card, specific acquisition card or system.
    •  Protocols: FREERUNNING, KWP2000, CAN, LIN, FlexRay, ARINC, … Possibility to implement new protocols (customized protocol, …).
    •  Multi-product & Multi-protocol Communication: Communication can be set up with multiple addresses and protocols during a single test.

     

    • 1 software for all your equipment
    • 1 software for all standards
    • 1 software for your electrical and EMC tests
    • Advanced functions of monitoring and control
    • Automated reports
    • Team of specialists at your disposal

     

    • Fast: ACA compression and parallelization allow to speed up the calculation
    • Accurate: Fully validated with measurement results on real mock-up
    • Innovative: New method from research labs
    • Powerful: Compute very large models
    • Easy: Dedicated graphical user interface with modern layout

     

    • Fast: ACA compression and parallelization allow to speed up the calculation
    • Accurate: Fully validated with measurement results on real mock-up
    • Innovative: New method from research labs
    • Powerful: Compute very large models
    • Easy: Dedicated graphical user interface with modern layout

     


Showing 1–16 of 17 results