Model equipped with EMI measurement function
- A handheld signal analyzer with real-time and sweeping modes. - By incorporating both real-time mode using Fast Fourier Transform (FFT) and traditional sweeping mode, it is possible to utilize the advantages of both directions. ■ Real-Time Mode The real-time mode is optimal for analyzing noise measurements and transient phenomena without missing the spectrum that occurs instantaneously. ■ Measurement Frequency 20kHz to 3.3GHz ■ Sweeping Mode Minimum RBW 300Hz ■ Average Noise Level - Representative value: -162dBm/Hz - Real-time mode: -140dBm @ cf 1GHz, span 20kHz - Sweeping mode: -129dBm @ cf 1GHz, RBW 300Hz ■ EMI Measurement Mode Measurement of radiated interference noise and conducted interference noise ■ Detection Mode PosPK (peak value), QP (quasi-peak value), AV (average value) ■ Resolution Bandwidth (6dB) 9kHz, 120kHz, 1MHz ■ Noise Measurement on Printed Circuit Boards Using the magnetic field probe CP-2SA, it is possible to measure the magnetic fields of patterns and device terminals on printed circuit boards.
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basic information
■Real-Time Mode The real-time method is optimal for capturing spectra that occur instantaneously and for analyzing noise measurements and transient phenomena. ■Measurement Frequency 20kHz to 3.3GHz ■Sweep Mode Minimum RBW 300Hz ■Average Noise Level - Representative value: -162dBm/Hz - Real-time mode: -140dBm @ cf 1GHz, span 20kHz - Sweep mode: -129dBm @ cf 1GHz, RBW 300Hz ■EMI Measurement Mode Measurement of radiated interference noise and conducted interference noise ■Detection Mode PosPK (peak value), QP (quasi-peak value), AV (average value) ■Resolution Bandwidth (6dB) 9kHz, 120kHz, 1MHz ■Noise Measurement on Printed Circuit Boards Using the magnetic field probe CP-2SA, it is possible to measure the magnetic fields of patterns and device terminals on printed circuit boards.
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Applications/Examples of results
- Spectral analysis of non-stationary signals such as transient signals, burst signals, or noise is possible. - Time domain analysis of power vs. time, frequency vs. time, phase vs. time, IQ vs. time, and Q vs. I is possible. - The trigger function is well-equipped, allowing for reliable observation of spectra that occur rarely. - Since the data is separated into I and Q, modulation analysis of complex signals such as phase-modulated waves is possible.
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Company information
● An independent, purely domestic advanced development company in the high-frequency (RF) field ● One-stop development, manufacturing, sales, and service business for electronic measuring instruments, information communication devices, and environmental-related equipment ● A worldwide sales network through 18 domestic agents and 19 overseas agents
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