Products

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

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.

• Dual inputs allows Differential or Phaseto-Phase voltage measurement
• High speed DSP provides up to 60 filtered readings per second
• True RMS AC measurement from 0.01Hz to 600Hz—covering VLF to aviation frequencies
• AC noise rejection 78dB—for rock solid, six digit DC Measurements
• Optional battery pack goes up to 11 hours between charges
• G Series—high input impedance probes for electrostatic applications
• CE mark Certified to EN61010
• Available ISO 17025 accredited calibration
• Three year extended warranty (one year standard warranty)

• The S type Channel card provides economical, high-performance power measurement with a basic 0.1% accuracy and enough bandwidth to handle waveforms up to 1.25 MHz.
• The A-type ultra-precision Channel card offers a 2-year accuracy rating of 0.03% of reading and bandwidth up to 1.25 MHz.
• The W type Wideband Channel card performs precision power measurements on the toughest real-world waveforms, with sampling speed fast enough to tame waveforms up to 5Mhz

• The S type Channel card provides economical, high-performance power measurement with a basic 0.1% accuracy and enough bandwidth to handle waveforms up to 1.25 MHz.
• The A-type ultra-precision Channel card offers a 2-year accuracy rating of 0.03% of reading and bandwidth up to 1.25 MHz.
• The W type Wideband Channel card performs precision power measurements on the toughest real-world waveforms, with sampling speed fast enough to tame waveforms up to 5Mhz

• The S type Channel card provides economical, high-performance power measurement with a basic 0.1% accuracy and enough bandwidth to handle waveforms up to 1.25 MHz.
• The A-type ultra-precision Channel card offers a 2-year accuracy rating of 0.03% of reading and bandwidth up to 1.25 MHz.
• The W type Wideband Channel card performs precision power measurements on the toughest real-world waveforms, with sampling speed fast enough to tame waveforms up to 5Mhz

• High Power Accuracy of 0.045% For All Channels
• Improved Voltage and Current Self-Heating Adders
• Faster Sampling Rates & Bandwidth Performance
• Greater Harmonic Frequencies

• Ultra High Power Accuracy of 0.024% For All Channels
• Improved Voltage and Current Self-Heating Adders
• Faster Sampling Rates & Bandwidth Performance
• Greater Harmonic Frequencies

• 3″ Color Touch Display – Easy To Use Intuitive User Interface
• 6 Functions Choose From – AC/DC Hipot, IR, Ground Bond, Continuity & Built-in Switching
• Made in the USA – Designed & Built in San Diego CA
• Compact, Lightweight, Rugged, Fan Free, Fast (100mS min test time) & Accurate
• 5KV AC/DC Hipot, 20mA max source current
• Ground Bond 1-30A RMS (42 A peak), 100µΩ Resolution
• 100 nano-Amp Leakage Current Resolution
• Low Cost of Ownership – 2 Year Calibration Interval

• compact and completely modular design
• high effectiveness in all operation modes, few requirements on building infrastructure
• ability to use an existing liquid cooling system directly
• optional matched liquid-to-air cooling unit TC.LAE available
• possibility of upgrading to systems of up to 1 MVA
• high level of system dynamics, ≤ 5 kHz modulation bandwidth
• non-restrictive capability of refeeding in the Q4 operation mode
• possibility of operating as an autonomous 4-Q and 3-phase quasi-analogue amplifier
• possibility of “Hardware-in-the loop”-operation (HIL mode)
• user friendly application software with pre-configured test patterns
• possibility of integrating into a complete SAS simulation and test system
• galvanic isolation available as an option without derating the simulator port data

Bidirectional (source & sink), Regenerative 0…65VDC to 0…1500VDC, 20kW up to 1.5 MW 

• cell system nominal voltage and type of chemistry
• number of cells
• internal resistance and associated parameters
• cell temperature progression
• allowed current
• charge efficiency
• energy computing and management facilities
• time-dependent and functional dependent parameters

• Setting of operational parameters for each output phase: (frequency, phase, voltage, basic waveform)
• Defining functional blocks enabling a wide variety of modulation capabilities
• Defining, editing and storing of even complex and long test sequences
• Preview window for output voltage waveforms
• LC load mode, definition of complex equivalent circuits
• Hand drawing curve tool and FOURIER tool (harmonics synthesis)
• TC.ACS provides an extensive safety concept in order to detect unwanted or off-limit conditions very quickly and to initiate controlled limiting or even a shutdown.

• compact and completely modular design
• high effectiveness in all operation modes, few requirements on building infrastructure
• ability to use an existing liquid cooling system directly
• optional matched liquid-to-air cooling unit TC.LAE available
• possibility of upgrading to systems of up to 1 MVA
• high level of system dynamics, ≤ 5 kHz modulation bandwidth
• non-restrictive capability of refeeding in the Q4 operation mode
• possibility of operating as an autonomous 4-Q and 3-phase quasi-analogue amplifier
• possibility of “Hardware-in-the loop”-operation (HIL mode)
• user friendly application software with pre-configured test patterns
• possibility of integrating into a complete SAS simulation and test system
• galvanic isolation available as an option without derating the simulator port data

• Highest Range of IR Test Voltage
• Fast IR Readings
• High Resistance Measurement Range
• Expansive Test Sequence Memory
• Multi-Dwell Functionality
• Ethernet, RS232, Digital I/O, & Scanner Control
• Pico-Amp Leakage Measurement
• Test Specific Fixture & Cable
• Measure IR on Grounded Loads
• Continuously Variable IR Test Voltage
• Multi-Mode IR
• Light Weight Design