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Signal Analyzer Product List

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External transfer of I/Q data measured with a signal analyzer.

External transfer of I/Q data measured with a signal analyzer.

【Application Example】 I/Q data measured with the Signal Analyzer (MSA500 series) can be transferred to a PC or USB memory.

【Product Introduction】 ■ Signal Analyzer MSA538 *For more details, please refer to the PDF document or feel free to contact us. 【System Configuration】 ■ Signal Analyzer MSA538 ■ Lithium-ion Battery MB400 ■ USB Cable MI400 ■ PC Software MAS500 *For more details, please refer to the PDF document or feel free to contact us.

  • Other electronic measuring instruments
  • Signal Analyzer

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Application Examples | Interference Wave Detection with Signal Analyzers

Application Examples | Interference Wave Detection with Signal Analyzers

[Application Example] By using the power trigger function of the signal analyzer (MSA500 series), it is possible to detect and analyze interference waves.

【Product Introduction】 ■ Signal Analyzer MSA538 *For more details, please refer to the PDF document or feel free to contact us. 【System Configuration】 ■ Signal Analyzer MSA538 ■ Lithium-ion Battery MB400 ■ USB Cable MI400 ■ Logging Software MAS500 *For more details, please refer to the PDF document or feel free to contact us.

  • Other electronic measuring instruments
  • Signal Analyzer

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Visualization of modulated signals using a signal analyzer

Visualization of modulated signals using a signal analyzer

[Application Example] Various modulated signals can be visually observed using a handy real-time signal analyzer.

【Product Introduction】 ■ Signal Analyzer MSA538 *For more details, please refer to the PDF document or feel free to contact us. 【System Configuration】 ■ Signal Analyzer MSA538 ■ Lithium-ion Battery MB400 ■ SMA-SMA Cable 1.5m MC303 ■ Adapter N(P)/SMA(J) MA306 *For more details, please refer to the PDF document or feel free to contact us.

  • Other electronic measuring instruments
  • Signal Analyzer

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Method for estimating clock jitter from phase noise.

Method for estimating clock jitter from phase noise.

[Application Example] This introduces a method to determine the jitter of a clock signal from phase noise measured by a signal analyzer.

【Product Introduction】 ■Signal Analyzer MSA538 Equipped with both real-time method using Fast Fourier Transform (FFT) and traditional sweeping method, allowing the utilization of the advantages of each direction. The most popular model in the MSA500 series. - Measurement Frequency: 20kHz to 3.3GHz ■Clock jitter can be calculated from the phase noise level measured by the signal analyzer. ■Real-time acquisition allows for the measurement of instantaneous jitter. Additionally, averaging can be used to obtain long-term RMS jitter.

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  • Signal Analyzer

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I measured the radio waves of LoRa (920MHz band: LPWA).

I measured the radio waves of LoRa (920MHz band: LPWA).

The MSA500 series signal analyzer's real-time mode allows you to capture LoRa signals.

We received an inquiry about whether the MSA500 series can measure LoRa signals, and we conducted actual measurements. LoRa is one of the LPWA (Low Power Wide Area) technologies that uses the 920MHz band, and its name comes from "Long Range." It can communicate directly over distances of up to 10 km and is characterized by low power consumption.

  • Time-frequency measurements
  • Signal Analyzer

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How to operate the real-time trigger function and examples of its application

How to operate the real-time trigger function and examples of its application

Technical Data: MSA500 Series Signal Analyzer / Real-Time Mode

【Product Introduction】 ■Signal Analyzer MSA500 Series Equipped with both real-time mode using Fast Fourier Transform (FFT) and traditional sweeping mode, allowing for the utilization of the advantages of both methods. The real-time mode of the MSA500 series signal analyzer features a powerful triggering function. This document explains the operation methods and application examples of each triggering function.

  • Time-frequency measurements
  • Signal Analyzer

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The influence of antenna installation location on vehicle-mounted electric field strength measurement.

The influence of antenna installation location on vehicle-mounted electric field strength measurement.

[Technical Information] Where to Install the Antenna Inside the Vehicle

【Product Introduction】 - Signal Analyzer MSA538E Model equipped with EMI measurement function. Measurement frequency: 20kHz to 3.3GHz - Biconical Antenna MAN150/MAN150B A wideband, compact, and lightweight antenna. - Loop Antenna MAN120 A small loop antenna with a diameter of 40 cm suitable for low-frequency measurements. - Low Noise Amplifier MAP301/302 Ideal for measuring radiated noise. When measuring electric field strength with the Signal Analyzer MSA500 series or AM/FM electric measurement software MAS9501 installed in a vehicle, the value of electric field strength changes depending on where the antenna is placed. Here, we will examine where to optimally place the antenna inside the vehicle to measure the electric field strength of AM/FM waves.

  • Time-frequency measurements
  • Signal Analyzer

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Signal Analyzer MSA538TV, 558TV

Signal Analyzer MSA538TV, 558TV

4K8K broadcasting service / wireless LAN for smart TVs compatible signal analyzer for electric field strength measurement

- 4K8K broadcasting service (up to 3224MHz) field strength measurement compatible - Wireless LAN field strength measurement compatible for smart TVs ■MSA538TV Measurement frequency: 20kHz to 3.3GHz ■MSA558TV Measurement frequency: 20kHz to 8.5GHz *For more details, please refer to the PDF document or feel free to contact us.

  • Time-frequency measurements
  • Signal Analyzer

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Signal Analyzer "MSA500 Series"

Signal Analyzer "MSA500 Series"

For noise measurement, analysis of transient phenomena, and observations over a wide span! A handheld signal analyzer with real-time and sweeping methods.

The "MSA500 Series" is a handheld signal analyzer that combines real-time and sweeping methods. By incorporating both real-time processing using Fast Fourier Transform (FFT) and traditional sweeping methods, it allows for the advantages of both approaches to be utilized. 【Features】 ■ Real-time plus sweeping method ■ Comprehensive analysis functions ■ Time domain analysis that expands the capabilities of the analyzer ■ Does not miss unwanted spectra ■ Powerful triggering functions ■ Captures modulation signals from most wireless communications ■ Built-in large capacity memory of 16K frames and high-speed USB transfer ■ Average noise level of -162dBm/Hz ■ Compact and lightweight at 1.8kg ■ 4 hours of battery operation ■ Data storage on USB memory *For more details, please refer to the PDF document or feel free to contact us.

  • Time-frequency measurements
  • Signal Analyzer

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Application Example | In-vehicle Measurement of Electric Field Strength Using a Signal Analyzer

Application Example | In-vehicle Measurement of Electric Field Strength Using a Signal Analyzer

【Application Example】Continuous electric field strength measurement and recording on the road is possible.

By equipping a handheld real-time signal analyzer in the vehicle, continuous electric field strength measurements and recordings can be performed on the road. The loop antenna "MAN120" and the signal analyzer "MSA538" continuously display and save the received electric field strength. By connecting the vehicle speed pulse to the external trigger terminal of the "MSA538," the position of the electric field strength can be calculated. 【Solution】 ■ Continuously display and save the electric field strength received by the loop antenna and signal analyzer ■ By connecting the vehicle speed pulse to the external trigger terminal of the MSA538, the position of the electric field strength can be calculated ■ The MAS9501 software enables graphical display of electric field strength and mapping to a map (using GPS) *For more details, please refer to the PDF materials or feel free to contact us.

  • Other electronic measuring instruments
  • Signal Analyzer

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[Application Example] High-Accuracy Frequency Measurement with Signal Analyzer

[Application Example] High-Accuracy Frequency Measurement with Signal Analyzer

[Application Example] High-Accuracy Frequency Measurement with the Signal Analyzer MSA500 Series

For measuring the frequency of RF signals, a frequency counter is typically used as the measuring instrument. This document demonstrates a method for measuring frequency with the Signal Analyzer MSA500 series with an accuracy comparable to that of a frequency counter. 【Product Introduction】 ■ Signal Analyzer MSA500 Series *For more details, please refer to the PDF document or feel free to contact us. 【System Configuration】 ■ Signal Analyzer MSA500 Series *For more details, please refer to the PDF document or feel free to contact us.

  • Other electronic measuring instruments
  • Signal Analyzer

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[Application Example] Usage of Dual Waveform Display in Signal Analyzers

[Application Example] Usage of Dual Waveform Display in Signal Analyzers

[Application Example] Introducing the usage of dual waveform display of the MSA500 series signal analyzer.

In the real-time mode of the MSA500 series signal analyzer, it is possible to display two waveforms: one on the SUB screen (lower section) and one on the MAIN screen (upper section). In the two-waveform display, (1) set the waveform to be displayed on the SUB screen (lower section) and select "Measurement." → (2) While viewing the waveform on the SUB screen (lower section) of all captured frames, set the analysis frame and type of waveform to be displayed on the MAIN screen (upper section) and select "Analysis." These two steps are performed. 【Product Introduction】 ■ Signal Analyzer 500 Series *For more details, please refer to the PDF materials or feel free to contact us. 【System Configuration】 ■ Signal Analyzer 500 Series *For more details, please refer to the PDF materials or feel free to contact us.

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  • Signal Analyzer

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Example of using the real-time trigger function of a signal analyzer.

Example of using the real-time trigger function of a signal analyzer.

[Application Example] This introduces the use case of the real-time trigger function of the MSA500 series signal analyzer.

The MSA500 series signal analyzer features a powerful trigger function in its real-time mode. This trigger function allows you to measure the state just before and after a waveform fluctuation occurs. 【Product Introduction】 ■ Signal Analyzer MSA500 Series *For more details, please refer to the PDF document or feel free to contact us. We will explain the pre-trigger function using the example of frequency modulation where the carrier frequency fluctuates. An example of measurement is shown where the carrier frequency is set to the center frequency, and a trigger is applied with the channel power trigger set to a falling edge. 【System Configuration】 ■ Signal Analyzer MSA500 Series *For more details, please refer to the PDF document or feel free to contact us.

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  • Signal Analyzer

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Measurement example of ETC/ITS spots using a signal analyzer.

Measurement example of ETC/ITS spots using a signal analyzer.

[Application Example] By utilizing the trigger function and real-time mode measurement, reliably capture burst signals from ETC/ITS spots.

The burst signals of ETC/ITS spots that do not occur regularly cannot be measured well with a sweeping spectrum analyzer due to their very short interval. By measuring in real-time mode with the signal analyzer MSA500 series, it is possible to measure without missing the signal spectrum. 【Product Introduction】 ■ Signal Analyzer MSA558 *For more details, please refer to the PDF document or feel free to contact us. 【System Configuration】 ■ Signal Analyzer MSA558 *For more details, please refer to the PDF document or feel free to contact us.

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  • Signal Analyzer

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[Case Study] Basics of Spectrum Analyzers You Can't Ask About Now (2)

[Case Study] Basics of Spectrum Analyzers You Can't Ask About Now (2)

Resolving with the MSA500 series signal analyzer! Introducing application examples.

Let me introduce RBW (Resolution Bandwidth). Even with the same input signal, the peak frequency and power values can differ depending on the RBW settings, so it is necessary to consider the appropriate RBW settings based on the signal being measured and the test content. To address this issue, we have the MSA500 series signal analyzer. Once the maximum signal level is searched, it is possible to perform detailed analysis of the signal in real-time mode. 【Case Study】 ■Challenges - Changing the RBW bandwidth can lead to different measurement results even for signals with the same maximum power. - If there are two or more frequency components within the RBW bandwidth, the power values will be summed and integrated, resulting in different displayed outcomes. ■Solution - By pressing the "AUTO TUNE" key in sweep mode, the analyzer automatically searches for the maximum level signal within the measurable frequency range with optimal settings. - Detailed analysis of the signal can be performed in real-time mode. *For more details, please refer to the PDF document or feel free to contact us.

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  • Signal Analyzer

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Signal Analyzer 'N9030A/89601A'

Signal Analyzer 'N9030A/89601A'

Signal analyzer/vector signal analysis equipment suitable for transmission and reception analysis of mobile communications such as LTE.

We offer the signal analyzer 'N9030A/89601A', which can measure signal frequency, power, harmonic components, modulation, spurious signals, and noise from 3Hz to 26.5GHz. With a dynamic range of up to 75dB without spurious signals and a 40MHz analysis bandwidth, detailed spectrum measurements of signals are possible. Additionally, the vector signal analyzer software allows for detailed analysis of WLAN signals and the collection of necessary data for troubleshooting physical layer signals. 【Features】 ■ The comprehensive toolset provided by the vector signal analyzer enables detailed analysis of 802.11a/b/g/n signals. ■ Measurements of total harmonic distortion, occupied bandwidth, signal stability, output power, intermodulation distortion, power bandwidth, and carrier-to-noise ratio are also possible. *For more details, please download the PDF or feel free to contact us.

  • Signal Generator
  • Logic Analyzer
  • Signal Analyzer

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Signal Analyzer MSA538E

Signal Analyzer MSA538E

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.

  • Time-frequency measurements
  • Signal Analyzer

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Signal Analyzer MSA558E

Signal Analyzer MSA558E

Model equipped with EMI measurement function

- A handheld signal analyzer with real-time method plus sweeping method. - By incorporating both real-time method using Fast Fourier Transform (FFT) and the conventional sweeping method, it is possible to utilize the advantages of both approaches.

  • Time-frequency measurements
  • Signal Analyzer

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Signal Analyzer MSA538

Signal Analyzer MSA538

The most popular model in the MSA500 series.

- A handheld signal analyzer with real-time and sweep modes. - By incorporating both real-time mode using Fast Fourier Transform (FFT) and the traditional sweep 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 ■ Sweep Mode Minimum RBW 300Hz ■ Average Noise Level - Representative value: -162dBm/Hz - Real-time mode: -140dBm at cf 1GHz, span 20kHz - Sweep mode: -129dBm at cf 1GHz, RBW 300Hz

  • Time-frequency measurements
  • Signal Analyzer

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Signal Analyzer MSA558

Signal Analyzer MSA558

Covers most applications of wireless information communication in the 8.5GHz band.

- A handheld signal analyzer with real-time mode plus sweep mode. - By incorporating both real-time mode using Fast Fourier Transform (FFT) and traditional sweep mode, it is possible to utilize the advantages of both directions. ■ Real-Time Mode The real-time mode is optimal for capturing instantaneously occurring spectra, making it ideal for noise measurement and analyzing transient phenomena. ■ Measurement Frequency 20kHz to 8.5GHz With an expanded measurement frequency range, it is possible to measure spurious emissions more than three times for 5GHz band wireless LAN, 5.8GHz band DSRC, or 2.4GHz band devices. ■ Sweep Mode Minimum RBW 300Hz ■ Average Noise Level - Representative value: -157dBm/Hz - Real-time mode: -135dBm at cf 1GHz, span 20kHz - Sweep mode: -128dBm at cf 1GHz, RBW 300Hz

  • Time-frequency measurements
  • Signal Analyzer

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Signal Analyzer MSA538TG

Signal Analyzer MSA538TG

Model equipped with a tracking generator

- A handheld signal analyzer with real-time and sweep modes. - By incorporating both real-time mode using Fast Fourier Transform (FFT) and traditional sweep mode, it is possible to utilize the advantages of both directions. ■ Real-Time Mode The real-time mode is optimal for capturing instantaneous spectral events, making it ideal for noise measurement and analyzing transient phenomena. ■ Measurement Frequency 20kHz to 8.5GHz ■ Sweep Mode Minimum RBW 300Hz ■ Average Noise Level - Representative value: -162dBm/Hz - Real-time mode: -140dBm at cf 1GHz, span 20kHz - Sweep mode: -129dBm at cf 1GHz, RBW 300Hz

  • Time-frequency measurements
  • Signal Analyzer

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