analyzer Product List and Ranking from 52 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Feb 18, 2026~Mar 17, 2026
This ranking is based on the number of page views on our site.

analyzer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Feb 18, 2026~Mar 17, 2026
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. 新栄電子計測器 Kanagawa//Electrical equipment construction business
  4. 4 ファラッド Tokyo//Trading company/Wholesale
  5. 4 ラインアイ Kyoto//Information and Communications
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analyzer Product ranking

Last Updated: Aggregation Period:Feb 18, 2026~Mar 17, 2026
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. Battery Analyzer "BTA-3000Plus" 新栄電子計測器
  3. Ultra-compact spectrum analyzer (10MHz to 3GHz) ファラッド
  4. Transport Stream Analyzer "TSReader" B7
  5. 5 Goodman Product Catalog for Electrical and Communication GOODMAN

analyzer Product List

31~60 item / All 251 items

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Checking television frequency channels using a handheld spectrum analyzer.

Checking television frequency channels using a handheld spectrum analyzer.

[Application Example] Understand the impact of mixed and airborne noise, check the reception level, and propose improvements to the viewing environment.

By understanding the reception status and keeping a record, we promote maintenance of TV viewing equipment within the apartment and proposals for replacing coaxial cables. Additionally, we select the antenna reception direction and fix the installation position when installing parabolic antennas and boosters. 【Product Introduction】 ■ Spectrum Analyzer MSA438 *For more details, please refer to the PDF document or feel free to contact us. We grasp the target TV frequency and use the [SAVE function] of the MSA400(300) series to record the current status of the relevant frequency band. 【System Configuration】 ■ Spectrum Analyzer MSA438 ■ Conversion Adapter MA308 N(P)/BNC(J) 50Ω/75Ω *For more details, please refer to the PDF document or feel free to contact us.

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Method for determining clock jitter from phase noise

Method for determining 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 sweep method, allowing the advantages of both approaches to be utilized. 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 instantaneous jitter measurement. Additionally, averaging can be used to obtain long-term RMS jitter.

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How to protect equipment from excessive input.

How to protect equipment from excessive input.

[Application Example] Protects equipment from unexpected excessive input during CATV line quality surveys and electric field strength surveys. Safe for measurement beginners.

【Product Introduction】 ■Spectrum Analyzer MSA438 Compact and lightweight. A full-fledged spectrum analyzer with performance and features that rival large bench-type models. The most popular model in the MSA400 series. - Measurement frequency: 50kHz to 3.3GHz ■Spectrum Analyzer MSA458 Covers most applications in wireless information communication with an 8.5GHz bandwidth. - Measurement frequency: 50kHz to 8.5GHz

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Example of measurement of pilot signals transmitted from a satellite.

Example of measurement of pilot signals transmitted from a satellite.

[Application Example] Observation of satellite waves, etc., in outdoor settings.

【Product Introduction】 ■Spectrum Analyzer MSA438 Compact and lightweight. A full-fledged spectrum analyzer with performance and features that rival large bench-type models. The most popular model in the MSA400 series. - Measurement Frequency: 50kHz to 3.3GHz By converting signals received in the 7.9 to 14.5GHz range with a parabolic antenna to low frequency using a downconverter attached to the parabolic antenna, it can measure signals in the 50kHz to 3.3GHz range with our handheld spectrum analyzers (MSA300, MSA400 series). This enables measurements while moving or observing specific satellite waves. Our handheld spectrum analyzer is compact, lightweight, and battery-operated, making it very advantageous for field measurements. In particular, the MSA400 series allows for easy management by directly writing images/received status during measurements to a USB memory stick. The product price is also reasonable, minimizing the introduction costs.

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Reference level unit at the time of measurement

Reference level unit at the time of measurement

[Application Examples] Overview of General Units and Calculation Method for Noise

【Product Introduction】 ■Spectrum Analyzer MSA400 Series Compact and lightweight. A full-fledged spectrum analyzer with performance and features that rival those of large bench-type models. When looking at documents related to radio waves or specifications of wireless communication equipment, various units appear. Here, we will explain the units that can be set on our spectrum analyzers (MSA300/400 series) and the units used during noise measurement.

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Ways to improve work efficiency at night.

Ways to improve work efficiency at night.

[Application Example] This addresses the issue of not being able to read the soft key text when using a spectrum analyzer in a dark environment.

【Product Introduction】 ■Spectrum Analyzer MSA400 Series Compact and lightweight. A full-fledged spectrum analyzer with performance and features that rival those of large bench-type models.

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The relationship between the amplitude of the oscilloscope and the spectrum analyzer.

The relationship between the amplitude of the oscilloscope and the spectrum analyzer.

[Application Example] The relationship of amplitude when measuring a sine wave signal with an oscilloscope and spectrum analyzer.

【Product Introduction】 ■ Signal Analyzer MSA500 Series Equipped with both real-time method using Fast Fourier Transform (FFT) and traditional sweeping method. Each method can utilize its respective advantages. ■ Spectrum Analyzer MSA400 Series Compact and lightweight. A full-fledged spectrum analyzer with performance and functionality that rivals large bench-type models. Both oscilloscopes and spectrum analyzers are devices that measure electrical signals. The measurement results of an oscilloscope are displayed on the screen with the horizontal axis representing time and the vertical axis representing amplitude. On the other hand, the measurement results of a spectrum analyzer are displayed with the horizontal axis representing frequency and the vertical axis representing amplitude. I will explain the relationship of amplitude when measuring a sine wave signal with both an oscilloscope and a spectrum analyzer.

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Spectrum Analyzer MSA438

Spectrum Analyzer MSA438

Compact, lightweight, low power consumption, low cost.

This is an announcement from Micronics Corporation regarding the "Spectrum Analyzer MSA438." Despite being a handheld type, it offers performance that rivals larger models. ■ Measurement Frequency: 50kHz to 3.3GHz ■ Application Fields: Mobile phones, 2.4GHz band wireless LAN, 2.5GHz band WiMAX, RF-ID, broadcasting ■ Measuring Functions: Channel power measurement, adjacent channel leakage power measurement, occupied bandwidth measurement, electric field strength measurement, magnetic field strength measurement ■ Average Noise Level ・Typical Value: -127dBm at 1GHz ・Sweep Mode: -117dBm at cf 1GHz, RBW 3kHz

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

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

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 sweep mode, allowing for the utilization of the advantages of both methods. The real-time mode of the MSA500 series signal analyzer features a powerful trigger function. This document explains the operation methods and application examples of each trigger function.

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

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

[Technical Information] Where to install the antenna inside the vehicle.

【Product Introduction】 - Signal Analyzer MSA538E Model equipped with EMI measurement capabilities. Measurement frequency: 20kHz to 3.3GHz - Biconical Antenna MAN150/MAN150B Wideband, compact, and lightweight antenna. - Loop Antenna MAN120 Compact 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 using the Signal Analyzer MSA500 series or AM/FM electric measurement software MAS9501 in a vehicle, the value of the electric field strength varies depending on where the antenna is installed. Here, we will examine where to optimally place the antenna inside the vehicle to measure the electric field strength of AM/FM waves.

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Signal Analyzer MSA538TV, 558TV

Signal Analyzer MSA538TV, 558TV

4K8K broadcasting service / Wireless LAN signal analyzer compatible with smart TVs for 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.

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Remote Control USB Spectrum Analyzer

Remote Control USB Spectrum Analyzer

The EMC Desktop Spectrum Analyzer X version solves all EMC issues with a very wide range and high precision.

"HF-6060 V4 X Main Specifications" ● Measurement Frequency Range: 10MHz to 6GHz ● Noise Level: -135dBm (-150dBm with preamp) ● Resolution (RBW): 3KHz to 50MHz ● Level Accuracy: ±2dB "HF-6080 V4 X Main Specifications" ● Measurement Frequency Range: 10MHz to 8GHz ● Noise Level: -145dBm (-165dBm with preamp) ● Resolution (RBW): 1KHz to 50MHz ● Level Accuracy: ±2dB "HF-60100 V4 X Main Specifications" ● Measurement Frequency Range: 1MHz to 9.4GHz ● Noise Level: -155dBm (-170dBm with preamp) ● Resolution (RBW): 200Hz to 50MHz ● Level Accuracy: ±1dB "Common Specifications" ● Input: 50Ohm SMA RF-input (f) ● Included Antenna: OmniLOG90200 ● Units: dBm, dBµV, V/m, A/m, W/m², dBµV/m, W/cm², etc. ● PC Interface: USB ● Main Unit Size (L/W/D), Main Unit Weight: 210x136x26 mm, 1600g

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Remote Control Spectrum Analyzer (19-inch)

Remote Control Spectrum Analyzer (19-inch)

Possesses an excellent track record for remote monitoring applications of RF signals.

It is a device referred to as a remote monitoring system for radio wave environments, going beyond the category of spectrum analyzers. It enables real-time display and measurement of mobile radio base station electric fields, digital television signals, wireless signals, and radar signals via LAN. It has a proven track record in monitoring airports and mobile base stations overseas. Radio wave monitoring can be conducted without the need for measurement personnel to visit the site. 【Main Features】 • Full remote control: Full remote control is possible from anywhere using devices such as PCs, PDAs, iPads, and smartphones. • RSA analysis: With the optional software "EMF Monitor," analysis can be freely conducted from a centralized location. • Remote control via LAN/WLAN or USB. • Fits standard 19-inch (approximately 48 cm) racks. • Slim and compact.

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Digital Spectrum Analyzer 9KHz to 7.5GHz

Digital Spectrum Analyzer 9KHz to 7.5GHz

High-performance spectrum analyzer that meets the demands of all RF applications.

The GA40XX series is a compact and lightweight portable spectrum analyzer that offers excellent cost performance, meeting the demands of various RF applications. It features an 8.5-inch TFT color LCD display, making settings and alerts very easy to read. The operation buttons are also clearly arranged for user convenience. The GA40XX series comes standard with USB, LAN, and RS232 communication interfaces, virtual terminal display, and control & remote network access. This spectrum analyzer is widely adaptable across many fields, including scientific education, development, and industrial production.

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Vector Network Analyzer SVA1015X with Spectrum Analyzer Function

Vector Network Analyzer SVA1015X with Spectrum Analyzer Function

A state-of-the-art vector network analyzer equipped with a spectrum analyzer function.

A powerful and flexible tool for testing broadcast and RF devices. It offers reliable automated measurements and a wealth of features, including a tracking generator and multiple operating modes.

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Spectrum Analyzer 9KHz to a maximum of 3.6GHz

Spectrum Analyzer 9KHz to a maximum of 3.6GHz

9KHz to a maximum of 3.6GHz

- Frequency range from 9 kHz to 3.6 GHz - Displays an average noise level of 150dBm - Phase noise -85dBc/Hz at 1GHz, offset at 10kHz - Overall amplitude accuracy <1.5dB - Minimum resolution bandwidth (RBW) of 10Hz - EMI pre-compliance test kit - 1.5 GHz tracking generator kit - 10.4-inch display

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Handheld Spectrum Analyzer HSA1000 Series

Handheld Spectrum Analyzer HSA1000 Series

Frequency range of 9 kHz to 3.6 GHz. The 8-inch LCD automatically adjusts the screen backlight according to ambient light, making it convenient and efficient for field testing.

- Frequency range from 9 kHz to 1.6 GHz / 3.6 GHz - -160 dBm DANL (Displayed Average Noise Level) - Phase noise -80 dBc / Hz @ 1GHz @ 10 kHz offset - Minimum resolution bandwidth (RBW) of 10Hz - Total amplitude accuracy of 1.5dB - EMI pre-compliance test capability, with optional EMC test software available - Standard pass/fail onsite test alert function - Lithium-ion battery with a maximum operating life of 4 to 6 hours - Optional 1.6GHz / 3.6GHz tracking generator, 3.6GHz signal generator - Standard GPS receiver, optional antenna, capable of recording latitude/longitude information and test information - 8-inch (1024 * 768) IPS LCD touchscreen with wider viewing angles and an integrated light sensor that adjusts the screen backlight according to ambient light.

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Vector Network Analyzer 9kHz to a maximum of 8.5GHz

Vector Network Analyzer 9kHz to a maximum of 8.5GHz

Frequency range: 9kHz ~ up to 8.5GHz, available in 4 models of 2CH/4CH.

Achieving accurate measurements with a low noise floor and wide dynamic range.

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Spectrum Analyzer 9kHz - Maximum 1.5GHz OWON

Spectrum Analyzer 9kHz - Maximum 1.5GHz OWON

Effectively identifies nearby signals with a minimum resolution bandwidth (PBW) of 1Hz. Offers multiple extended function modes.

XSA800 Series: Frequency range 9kHz-1.5GHz (maximum), -160 dBm displayed average noise level (DANL)

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RF Handheld Multifunction Analyzer 9kHz to 6.5GHz

RF Handheld Multifunction Analyzer 9kHz to 6.5GHz

A device that integrates 2-port vector network analysis, cable/antenna analyzer, vector voltmeter, spectrum analysis, electric field strength measurement, and more.

This is a newly upgraded comprehensive radio frequency tester. The frequency range is from 9 kHz to 6.5 GHz. Compared to previous products in the same frequency band, the 4957B comprehensive radio frequency tester not only has significantly improved indicators but also enhanced various testing functions.

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Microwave Analyzer 100kHz/30kHz to a maximum of 40GHz

Microwave Analyzer 100kHz/30kHz to a maximum of 40GHz

Offers a frequency range of up to 40GHz, providing users with powerful and comprehensive analysis capabilities.

The 4957D / E / F microwave analyzer has a frequency range of up to 18 GHz / 26.5 GHz / 40 GHz and provides users with powerful and comprehensive analysis capabilities through dual-port vector network analysis, cable and antenna analysis, vector voltage measurement, spectrum analysis (channel power, adjacent channel power, occupied bandwidth, interference analysis, and frequency counting), electric field strength measurement, and power measurement. Dual-port vector network analysis features fast and accurate measurement capabilities for RF network parameters, offering logarithmic, linearity, phase, group delay, impedance circle diagrams, polar coordinates, standing wave ratio, and other display formats, as well as time domain measurement options. In cable and antenna analysis, it can measure standing wave ratio, reflection loss, impedance, cable loss, and other parameters of microwave networks such as antennas, transmission lines, and cables. Additionally, the distance to fault (DTF) function allows for easy measurement of discontinuities in the impedance of cable antenna feeders and cables.

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Cable & Antenna Analyzer 1MHz to a maximum of 8GHz

Cable & Antenna Analyzer 1MHz to a maximum of 8GHz

Adoption of advanced technologies such as hybrid integrated design of RF and digital circuits, broadband fundamental wave mixing, digital IF processing, and intelligent power management.

By adopting advanced technologies such as hybrid integrated design of RF circuits and digital circuits, broadband fundamental wave mixing, digital IF processing, and intelligent power management, the 3680A/B Cable & Antenna Analyzer offers advantages of high speed, high precision, compactness, lightweight, battery operation, touch screen control, and automatic adjustment of backlight brightness. In addition to testing VSWR, reflection attenuation, characteristic impedance, and phase, it can also accurately identify fault points. The 3680A/B Cable & Antenna Analyzer is developed for on-site testing, primarily for trunking, GSM, PCS/DCS, CDMA, GPRS, WCDMA, CDMA2000, TD-SCDMA, LTE, and paging systems. During the installation, calibration, and regular maintenance of cable and antenna systems, the Cable & Antenna Analyzer helps users quickly estimate the status of transmission lines and antenna systems, improve the maintenance efficiency of operational base stations, and accelerate the installation and calibration of new base stations.

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Vector Network Analyzer 100KHz to a maximum of 20GHz

Vector Network Analyzer 100KHz to a maximum of 20GHz

Can be used for performance measurement of RF components such as filters, amplifiers, antennas, cables, and cable TV sub-connectors.

The 3656A / B / D vector network analyzer can be applied in fields such as wireless communication, cable TV, education, and automotive electronics. It can be used to measure the performance of RF components such as filters, amplifiers, antennas, cables, and cable TV sub-connectors. It adopts the Windows operating system and is equipped with features such as error calibration, time domain, and fixture simulator. It supports multiple display formats including logarithmic amplitude, linear amplitude, standing wave, phase, group delay, Smith chart, and polar coordinates. It offers multiple calibration types including frequency response, single port, response separation, extended response, full dual port, fast SOLT calibration, and electrical calibration. It supports multi-channel and multi-window display. It is designed with USB interface, LAN interface, GPIB interface, and VGA interface. With its efficient and powerful error correction capabilities, it can quickly and accurately measure the amplitude, phase, and group delay characteristics of DUT S-parameters.

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Vector Network Analyzer 10MHz to a maximum of 67GHz

Vector Network Analyzer 10MHz to a maximum of 67GHz

Equipment essential for scientific research and manufacturing processes of radar, communication, and navigation systems.

The 3672 series vector network analyzers include the 3672A, 3672B, 3672C, 3672D, and 3672E. The 3672 analyzers offer multiple calibration types, including frequency response, single port, response separation, extended response, full dual port, and electronic calibration, providing various display formats such as logarithmic amplitude, linear amplitude, standing wave, phase, group delay, Smith charts, and polar coordinates. They are designed with several standard interfaces, including USB, LAN, GPIB, and VGA. In addition to all the measurement functions of traditional vector network analyzers, the configuration of functional options allows for accurate measurements of amplitude frequency characteristics, phase frequency characteristics, and group delay in fields such as transmission/reception (T/R) module measurements, dielectric property measurements, microwave pulse property measurements, and optoelectronic property measurements. The 3672 analyzers also enable multifunctional and comprehensive parameter testing of mixers/converters, two-dimensional sweeps of gain compression, and pulse S-parameters. They are essential equipment for scientific research and manufacturing processes in radar, communication, and navigation systems.

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Compact and lightweight spectrum analyzer 9KHz to a maximum of 44GHz

Compact and lightweight spectrum analyzer 9KHz to a maximum of 44GHz

Adopts a compact portable box structure that is small, lightweight, low power consumption, and convenient for carrying.

It adopts a compact portable box structure that is small, lightweight, low power consumption, and convenient for carrying. It utilizes miniaturized integrated design technology for wideband millimeter-wave receivers, full-phase synchronization technology based on wideband VCO, full digital intermediate frequency design technology, and microwave composite multilayer circuit board design technology, achieving high-performance indicators and ensuring the economic efficiency of the product. The 4041 series consists of four models. Since all products are equipped with a preamplifier across the entire spectrum, very high reception sensitivity can be obtained at any frequency point. Furthermore, the integrated design of a 12.1-inch high-brightness LCD and a capacitive touchscreen, along with a combination design of large buttons and virtual buttons, enhances operational convenience. Regarding performance indicators, it features excellent average noise level and phase noise indicators, as well as high-speed scanning. The measurement functions include optional modes such as interference analyzer channel scanner, AM/FM/PM analyzer, power meter, and various measurement functions such as channel power, occupied bandwidth, adjacent channel power, audio demodulation, emission mask, and carrier-to-noise ratio.

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Signal Spectrum Analyzer 3Hz to a maximum of 26.5GHz

Signal Spectrum Analyzer 3Hz to a maximum of 26.5GHz

The Signal/Spectrum Analyzer 4051-S series supports unparalleled spectrum measurement services at a high price-performance ratio.

The 4051-S series signal/spectrum analyzer supports unparalleled spectral measurement services at a high price-performance ratio. The analyzer features excellent dynamic range, phase noise, amplitude accuracy, and measurement speed, offering a total of 10 measurement functions, including high-performance spectrum analysis and standard power measurement modules compliant with relevant standards. The capabilities of the analyzer can be significantly enhanced. Multiple practical options are available, such as preamplifiers, phase noise measurement, and random IF output. The 4051-S series can be widely applied to the testing of signals and equipment related to aerospace, communications, EMC, radar detection, navigation, and other fields.

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Signal Spectrum Analyzer 3Hz to a maximum of 67GHz

Signal Spectrum Analyzer 3Hz to a maximum of 67GHz

Exhibits excellent performance in dynamic range, phase noise, amplitude accuracy, and measurement speed.

The 4051 series signal/spectrum analyzers demonstrate excellent performance in dynamic range, phase noise, amplitude accuracy, and measurement speed. The 4051 series includes high-sensitivity spectrum analyzers, standard power measurement components, IQ analyzers, vector signal analyzers, real-time spectrum analyzers, transient analyzers, pulse signal analyzers, audio analyzers, analog demodulation measurements, phase noise measurements, and noise figure measurements, providing reliable high-performance measurement services. The 4051 series is equipped with excellent expandability. By flexibly configuring various options, performance can be further enhanced. It is possible to establish measurement systems using the spectrum analyzer through various digital and analog signal output interfaces or to conduct secondary development. It can be widely used in fields such as aviation, aerospace, radar detection, communications, electronic countermeasures, and navigation for measuring signals and equipment.

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Impedance Analyzer 10Hz to a maximum of 130MHz

Impedance Analyzer 10Hz to a maximum of 130MHz

A new generation of impedance testers successfully developed using advanced automatic balance bridge principles.

The TH2851 series impedance analyzer completely surpasses the 120MHz frequency bottleneck of similar devices from other companies and resolves the defect of being able to analyze only without the ability to test individually. The two interfaces for testing and analysis make testing easier. Thanks to advanced automatic balance bridge technology, it guarantees a basic accuracy of 0.08% over a frequency range of 10Hz to 130MHz. With a fast testing speed of 5ms and an impedance testing range of 1GΩ, it can meet the measurement requirements for components and materials. This is particularly useful for measuring low-loss (D) capacitors and high-quality factor (Q) inductors. The 4-terminal pair port configuration effectively eliminates the effects of electromagnetic coupling in the test lines, and the lower limit of low impedance testing functionality has been extended to ten times lower compared to conventional 5-terminal configuration devices.

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Spectrum Analyzer 9kHz to a maximum of 26.5GHz

Spectrum Analyzer 9kHz to a maximum of 26.5GHz

The Siglent SSA5000A series is a powerful and flexible tool for complex RF spectrum and signal analysis.

High-speed spectrum analysis from 9 kHz to 13.6 or 26.5 GHz, with a DANL of -165 dBm/Hz and low phase noise of 105 dBc/Hz, consists of two models equipped with a large 12-inch touchscreen, making it ideal for use in communications and the IoT industry. The SSA5000A is also suitable for evaluating RF components and transmitters. With the AMA/DMA option, it enables demodulation and analysis of common analog (AM, FM) and digital (ASK, FSK, PSK, MSK, QAM) signals. It allows for intuitive measurement of EVM and other transmission quality factors, and includes modes for eye diagrams and constellation graphs. Additionally, using the optional real-time mode, it can capture intermittent signals. This feature is built to facilitate transmission analysis of common protocols such as Bluetooth and WLAN testing in IoT devices, with a maximum analysis bandwidth of 40 MHz. The optional EMI function enables efficient interference and electromagnetic pre-compliance measurements. Furthermore, the platform is designed with scalability in mind, allowing for upgrades in bandwidth and functionality even after purchase.

  • Other measuring instruments
  • analyzer

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Battery Monitoring System & Battery Analyzer

Battery Monitoring System & Battery Analyzer

We prevent battery accidents through high-precision battery degradation diagnosis using the conductance method!

The battery deterioration diagnosis device using the conductance method is recommended for the following individuals: A. Those who want to prevent accidents caused by battery deterioration → The conductance method detects battery deterioration early, preventing battery-related accidents. B. Those who want to reduce battery replacement costs → By assessing the state of battery deterioration, you can avoid premature battery replacements and achieve cost savings. C. Those who do not want to stop equipment operation during inspections → You can diagnose battery deterioration without stopping the battery that is currently in operation. D. Those who want to reduce the hassle and cost of battery inspections → Anyone can easily perform reproducible measurements in a short time, making battery inspections possible. E. Those who feel uncertain about the reliability of their current battery management methods → We use the conductance method, which has a high reliability with a correlation of over 90% with actual discharge capacity (actual performance).

  • Electrical Equipment Testing
  • analyzer

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