analyzer Product List and Ranking from 43 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.

analyzer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.

  1. 共栄システム産業 Osaka//Trading company/Wholesale
  2. マイクロニクス Tokyo//others
  3. 東洋メディック 環境事業部 Tokyo//Medical and Welfare
  4. 4 GOODMAN Kanagawa//others
  5. 4 メイクリーン Kanagawa//Other construction industries

analyzer Product ranking

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.

  1. Digital TV Spectrum Analyzer "DS2831 Series" 共栄システム産業
  2. Goodman Product Catalog for Electrical and Communication GOODMAN
  3. Spectrum Analyzer "SRM-3006 Selective Meter" 東洋メディック 環境事業部
  4. [Measurement Instrument Rental Service] DSX-5000 Cable Analyzer メイクリーン
  5. 4 Handheld Spectrum Analyzer 9KHz to 44GHz Max 4024 ウェーブクレスト

analyzer Product List

136~150 item / All 247 items

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[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 MSA500 series signal analyzer, achieving 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.

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[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 document or feel free to contact us. 【System Configuration】 ■ Signal Analyzer 500 Series *For more details, please refer to the PDF document or feel free to contact us.

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

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

The real-time mode of the MSA500 series signal analyzer is equipped with a powerful trigger function. This trigger function allows you to measure the state just before and after a waveform fluctuation. 【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. We will show a measurement example where the carrier frequency is set to the center frequency, and a trigger is applied with the trigger slope set to falling edge using channel power trigger. 【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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Measurement example of ETC/ITS spots using a signal analyzer.

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

The burst signals from ETC/ITS spots that do not occur regularly cannot be measured well with a sweep-type spectrum analyzer due to their very short signal intervals. By measuring with the real-time mode of 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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[Application Example] Easy Radio Wave Experiments with a Spectrum Analyzer

[Application Example] A Simple Method for Conducting Radio Wave Experiments

Electromagnetic waves are now everywhere around us, but conducting experiments with them requires expensive and complex experimental equipment. With the handheld spectrum analyzer MSA300 series, along with the optional whip antenna and wireless transmitter, radio wave experiments can be easily conducted. 【Product Introduction】 ■ Spectrum Analyzer MSA338 ■ Whip Antenna M305 *For more details, please refer to the PDF document or feel free to contact us. ■ Features of the MSA300 Series - Compact and lightweight, making it ideal for outdoor observations. - Various settings can be made without complex button operations. - Settings can be saved in the device's memory, allowing experiments to be conducted without needing to set them each time. 【System Configuration】 ■ Spectrum Analyzer MSA338 ■ Ni-MH Battery MB300 ■ Whip Antenna M305 *For more details, please refer to the PDF document or feel free to contact us.

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Simple display of limit lines on the spare display screen (MSA400 series)

[Application Example] It will be possible to visually determine the standard of spectrum analyzer measurement results immediately after measurement.

Spectrum analyzers were previously used only by specialized technicians with knowledge of high-frequency measurements for laboratory and experimental purposes. However, due to the recent proliferation of information wireless communication devices, as well as the use of wireless communication in consumer electronics, automotive fields, and medical devices, spectrum analyzers have started to be used for service applications as well. Additionally, spectrum analyzers are also used in the production lines of these devices and products. When using spectrum analyzers for service applications or production lines, it is often the case that measurement results are evaluated against predefined setting parameters. In such cases, we will introduce a method that allows anyone to easily measure and visually assess the compliance of the measurement results immediately. 【Product Introduction】 ■ Spectrum Analyzer MSA400 Series *For more details, please refer to the PDF document or feel free to contact us.

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[Application Example] Utilization of PC Logging Software for Spectrum Analyzers

[Application Example] We will introduce how to convert log data recorded by the logging software (MAS510) into a CSV file.

Logging software is a PC application that controls a spectrum analyzer (MSA500 series) via USB communication and allows for long-term recording of spectral data. It is ideal for monitoring abnormal signals, interference, and radio waves over day and night, as well as for long-term unmanned data recording. The log (spectrum) data is recorded in binary format, which can be converted to CSV files for use in Excel and other tools. 【Product Introduction】 ■ Signal Analyzer MSA500 Series *For more details, please refer to the PDF materials or feel free to contact us. 【System Configuration】 ■ Signal Analyzer MSA400 Series ■ Lithium-ion Battery MB400 ■ Wireless LAN Band Antenna M404 ■ Logging Software MAS510 ■ USB Cable MI400 *For more details, please refer to the PDF materials or feel free to contact us.

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[Application Example] Spectrum Analyzer Customization Case

[Application Example] We would like to introduce a customization example of our handheld spectrum analyzer!

【Product Introduction】 ■Spectrum Analyzer MSA458 ■Signal Analyzer MSA558 *For more details, please refer to the PDF document or feel free to contact us. 【System Configuration】 ■Spectrum Analyzer MSA458 ■Signal Analyzer MSA558 *For more details, please refer to the PDF document or feel free to contact us.

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Field measurement and maintenance support for smart network wireless systems.

[Application Example] Smart Network Wireless System (920MHz Band and 2.4GHz Band) is optimal for field measurement, maintenance, and troubleshooting.

● When installing the concentrator, it is necessary to measure and investigate the radio wave environment at the installation site. A spectrum analyzer is used for measuring electric field strength. It is also useful for measuring the occupied bandwidth and transmission power level of access points on poles. ● When identifying the causes of communication quality deterioration, it is necessary to investigate other radio waves and noise that may cause interference. Intermittently occurring interference waves can be captured more efficiently using a real-time spectrum analyzer. ● Our handheld signal analyzer (real-time spectrum analyzer) MSA500 series is compact, lightweight, and battery-operated, allowing measurements in various fields such as densely built areas and high altitudes. For electric field strength measurements only, the spectrum analyzer MSA400 series is also available. ● Various measurement functions, such as time domain analysis and electric field strength measurement, help in the early resolution of maintenance issues and faults in the field. 【Product Introduction】 ■ Signal Analyzer MSA538 ■ Portable Antenna ■ Log-Periodic Antenna * For more details, please refer to the PDF document or feel free to contact us.

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[Application Example] A Method to Determine Power Loss from Return Loss Measurement

[Application Example] We measure return loss using a handheld spectrum analyzer with a tracking generator to determine power loss due to reflection.

With the MSA438TG and VSWR bridge, you can measure the return loss of the DUT. This return loss allows you to determine the extent of power loss that occurs. 【Product Introduction】 ■ Spectrum Analyzer MSA438TG ■ VSWR Bridge * For more details, please refer to the PDF document or feel free to contact us. ■ It can be realized at a low cost as a tool to easily measure return loss-related measurements at hand. 【System Configuration】 ■ Spectrum Analyzer MSA438TG ■ MSA438 Calibration Set ■ VSWR Bridge MVS300B ■ SMA Cable 3m MC202 ■ N-SAM Conversion Adapter MA306 * For more details, please refer to the PDF document or feel free to contact us.

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

Resolved 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 setting, so it is necessary to appropriately consider the RBW setting 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 results. ■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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The relationship between the noise floor of the spectrum analyzer and the internal ATT.

[Application Example] This explains the relationship between the noise floor of the spectrum analyzer and the internal attenuator (ATT).

**Product Introduction** ■ Signal Analyzer MSA500 Series Equipped with both real-time method using Fast Fourier Transform (FFT) and traditional sweeping method. It allows for the utilization of the advantages of both methods. ■ Spectrum Analyzer MSA400 Series Compact and lightweight. A full-fledged spectrum analyzer with performance and functionality that rivals large bench-type models. When a signal above an appropriate level is applied to the mixer input, saturation can cause harmonic distortion and spurious signals, making accurate measurements impossible. To prevent this, an internal ATT is inserted before the mixer.

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Simple radioactive noise evaluation method for EMI calculation

[Application Example] Low-Cost and Simple EMI Estimation Using Spectrum/Signal Analyzer

【Product Introduction】 ■Signal Analyzer MSA538E Equipped with both real-time method using Fast Fourier Transform (FFT) and traditional sweep method, allowing the utilization of the advantages of both approaches. Model with EMI measurement function. - Measurement frequency: 20kHz to 3.3GHz ■Low Noise Amplifier MAP301/302 Ideal for measuring radiated noise. For low-cost pre-compliance EMI testing, the MR2300, which uses a spectrum/signal analyzer (MSA338E/438E/538E/558E) and a shielded room, is useful. Depending on the conditions, there may also be a possibility to estimate EMI in a very simple and even lower-cost manner.

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Example: Management of measurement results, method of registration to the main unit - Numbering procedure -

[Application Example] Making it easier to manage measurement results

For more details, please refer to the PDF document or feel free to contact us.

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About electric field strength and antenna factor.

[Application Example] I will briefly explain the relationship between electric field strength and antenna factor.

【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 both approaches. The most popular model in the MSA500 series. - Measurement frequency: 20kHz to 3.3GHz ■ Biconical Antenna MAN150/MAN150B A wideband, compact, and lightweight antenna. The antenna converts radio waves in the air into electrical signals flowing through a cable (or converts electrical signals flowing through a cable into radio waves in the air). The conversion factor at this time is called the antenna factor. The relationship between electric field strength and voltage can be expressed using the antenna factor as follows: 1. Electric field strength (V/m) = Voltage (V) × Antenna factor (1/m) 2. Electric field strength (μV/m) = Voltage (μV) × Antenna factor (1/m)

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