Measuring the Invisible: Isotropic EMF Measurement Up to 8 GHz and What WiFi 6E Changed
WiFi 6E opened the 6 GHz band. Most existing isotropic EMF measurement systems stopped just below it. The R&S TS-EMF with the new TSEMF-B2E antenna extends coverage to 8 GHz...
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LISN + EMI Receiver + a Light Bulb: The Conducted Emissions Test That Every Product Needs
Three things: a LISN, a light bulb, and an EMI receiver measuring from 9 kHz to 30 MHz. This is the conducted emissions test that every electrical product sold in...
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EMC & REGULATORY TESTING OF DUT WITH RADIO FUNCTIONALITY
An AVM FRITZ!Box WiFi router as the device under test. An instrument rack worth six figures keeping its radio link alive while the EMC measurement runs. The R&S TS8996 solves...
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Testing Automotive Radar in an EMC Storm: What Happens When 77 GHz Meets Interference
A speedometer showing radar-detected velocity — in real time, under active EMC interference. The R&S automotive radar testing demo at Cologne closed the gap between functional radar validation and EMC...
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Compliance Testing Up to 44 GHz — And a Robot to Run It
A yellow robot arm positioning antennas in a miniature semi-anechoic chamber. Two ESW EMI receivers running in parallel to 44 GHz. 510 MHz FFT bandwidth for gapless CISPR band coverage....
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Differential Mode vs Common Mode: Why Splitting EMI at the Source Changes Everything
Differential mode and common mode EMI require different filters, different measurements, and different debug strategies. The R&S RTO G + ZES Zimmer LMG671 joint booth at Cologne showed what it...
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The Microwave Oven on the Test Bench: What 225 MHz Real-Time Bandwidth Is Actually For
A microwave oven generates multi-decade, multi-mechanism EMI — from TRIAC switching harmonics at 150 kHz through magnetron broadband emission at 2.45 GHz and beyond. The TDEMI G Series at 225...
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Synchronized, Automated, Multi-Band: The Keysight Approach to EMC and Wireless Coexistence Testing
869 MHz and 2.4 GHz monitored simultaneously, time-synchronized, with 100% probability of intercept and automated test sequencing. The Keysight multi-instrument coexistence demo at Cologne explained what it takes to validate...
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DC to 40 GHz in Real Time: What the TDEMI ULTRA Is Actually Claiming
A table lamp as the device under test. A spectrum from DC to 40 GHz captured in real time. The Gauss Instruments TDEMI ULTRA Series isn't modest about what it...
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1000 MHz Real-Time: When EMI Measurement Becomes a 3D Map of Electromagnetic Space
A 3D spectrogram shaped like a blue tornado: frequency vs rotation angle vs amplitude, captured simultaneously across 1000 MHz in a single turntable pass. The Gauss Instruments TDEMI Ultimate redefines...
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510 MHz Real-Time: How IQ Capture Changes the Logic of EMI Measurement
Traditional EMI testing produces a result. Real-time IQ capture produces a dataset. The Gauss Instruments TDEMI S — 510 MHz capture bandwidth, density display, full replay — explains what that...
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Bode Plot as a Design Tool: How Filter Characterization Predicts EMC Compliance
One curve, three frequency regions, one answer: does your EMI filter work — and where does it stop working? A breakdown of the Omicron Lab Bode 500 demo from a...
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