EMZER-EMSCOPE Dual mode EMI receiver for conducted emissions and modal measurements. 9 kHz - 30 MHz. Build-in LISN. Upgradable to 110 MHz.
Key Features and Functions
EMI Measurements:
- FFT-based dual-channel receiver
- Frequency Range: 9 kHz to 30 MHz Upgradeable to 110 MHz.
- Build-IN LISN network
- According to CISPR16-1-1
- Peak, Quasi-Peak and Average Detectors
- Resolution Bandwidth Filters of 200 Hz, 9 kHz and 120 kHz (CISPR), and 1 kHz and 10 kHz (MIL)
- The fastest receiver in the market: Line and Neutral measurements with the 3 detectors simultaneously (6 simultaneous measurements)
Modal Measurements:
- Real-time results (FFT)
- Common- and Differential-Mode measurements
- Speeds up RF filter design and problem solving
- Better device under test (DUT) characterization
- Ideal for R&D
Compact and Cost-effective
- Compact solution easy to move around
- Integrates all items inside one single box:
- 2 channel FFT receiver
- 2 channel 16A single phase LISN
- Pulse limiter 5W
- Software
- Fiber-optic communication
Documents and Software Solutions:
EMSCOPE is the new EMZERs instrument for EMI measurements that combines an EMI-Test Receiver With a 16-A single-phase dual-port V- network Line Imbalance Stabilization Network (LISN) and a Transient Limiter.
EMSCOPE integrates the peak, quasi-peak and average detectors according to CISPR 16-1-1, which can run in parallel and real time, considerably reducing the measurement time when compared to any other option. Additionally, it is possible to simultaneously measure the line and neutral emissions, or the common-mode and differential-mode emissions with the three detectors. Modal-emission measurements are fundamental to know the dominant mode and to implement the suitable power-line filter accordingly, using fewer components and getting a design.
EMSCOPE is the new EMZERs instrument for EMI measurements that combines an EMI-Test Receiver With a 16-A single-phase dual-port V- network Line Imbalance Stabilization Network (LISN) and a Transient Limiter.
EMSCOPE integrates the peak, quasi-peak and average detectors according to CISPR 16-1-1, which can run in parallel and real time, considerably reducing the measurement time when compared to any other option. Additionally, it is possible to simultaneously measure the line and neutral emissions, or the common-mode and differential-mode emissions with the three detectors. Modal-emission measurements are fundamental to know the dominant mode and to implement the suitable power-line filter accordingly, using fewer components and getting a design.