Acceleration Sensor Product List and Ranking from 16 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Jan 28, 2026~Feb 24, 2026
This ranking is based on the number of page views on our site.

Acceleration Sensor Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 28, 2026~Feb 24, 2026
This ranking is based on the number of page views on our site.

  1. ソナス Tokyo//Building materials, supplies and fixtures manufacturers
  2. 中部精機 Aichi//others
  3. 東京測器研究所 Tokyo//Other construction industries
  4. 4 共和電業 Tokyo//Building materials, supplies and fixtures manufacturers
  5. 4 モノワイヤレス 本社 Kanagawa//Information and Communications
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Acceleration Sensor Product ranking

Last Updated: Aggregation Period:Jan 28, 2026~Feb 24, 2026
This ranking is based on the number of page views on our site.

  1. For investigating the vibration characteristics of ground and structures! Wireless microseismometer (NETIS) ソナス
  2. Elevator Earthquake Detector "SEB Type" 中部精機
  3. Epson manufactured wireless micro-vibration meter with built-in accelerometer! (NETIS) ソナス
  4. 4 Small high-response low-capacity single-axis accelerometer 【ARGL-A】 東京測器研究所
  5. 4 Accelerometer 共和電業

Acceleration Sensor Product List

1~28 item / All 28 items

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Elevator Earthquake Detector "SEB Type"

Elevator Earthquake Detector "SEB Type"

High reliability in distinguishing seismic vibrations and noise from waveforms for P, S, and PS waves!

The "SEB type" is an earthquake detector for elevators suitable for control operation during earthquakes. It uses a semiconductor-type acceleration sensor. It boasts high reliability in distinguishing between vibrations caused by earthquakes and random vibrations from waveforms. The P-wave (vertical direction) can be switched between 5/10 Gal, while the S-wave (horizontal direction) can be set to any of three levels ranging from 20 Gal to 400 Gal. 【Features】 ■ The sensor's detection mechanism can be tested ■ Compact and slim wall-mounted type (non-waterproof) ■ An abnormality detection circuit activates when the self-diagnosis function detects an anomaly ■ P-wave (vertical direction) can be switched between 5/10 Gal ■ S-wave (horizontal direction) can be set to any of three levels ranging from 20 Gal to 400 Gal *For more details, please refer to the PDF document or feel free to contact us.

  • Other analytical equipment
  • Acceleration Sensor

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New products: Vibration sensor, Oscilloscope vibration sensor, Acceleration sensor.

New products: Vibration sensor, Oscilloscope vibration sensor, Acceleration sensor.

Your oscilloscope becomes a vibration meter! Bolt it onto your oscilloscope! A product that combines a vibration sensor and a preamplifier.

Your oscilloscope becomes a vibration meter! Bolt-on to the oscilloscope, this product comes with a piezoelectric accelerometer probe and preamplifier. It outputs 100mV per 1m/s² of acceleration, allowing for sufficient measurement even with an 8-bit oscilloscope. ■Features - Adjustable sensitivity: 0.1mV/m/s² to 100mV/m/s² - Wide frequency response: 2 to 20kHz - Battery operation supported: 006P battery ■Applications: Vibration measurement, inspection, etc., using oscilloscopes, data recorders, and FFT analyzers.

  • Vibration and Sound Level Meter
  • maintenance
  • Acceleration Sensor

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Tibbit No. #36 3-axis accelerometer

Tibbit No. #36 3-axis accelerometer

Are you having trouble aggregating various sensor information? With "Tibbo-Pi," you can create industrial boards just by rearranging blocks!

■This is a 3-axis accelerometer sensor block. It can be obtained in G (standard gravity acceleration unit). *#00-3 is required for use, please combine it for use. ■What is Tibbo-Pi? It is an amazing IoT device that modularizes over 60 types of I/O, sensors, connectors, and more into block modules, allowing you to develop a circuit board just by combining these blocks. Moreover, since you can operate the block modules with a "Raspberry Pi," you can quickly develop IoT edge and gateway devices using the visual programming tool Node-RED. (Development is also possible in Python.)

  • Other Software
  • Acceleration Sensor

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Small high-response high-capacity single-axis accelerometer 【ARGH-A】

Small high-response high-capacity single-axis accelerometer 【ARGH-A】

MEMS accelerometers usable with a DC-type dynamic strain gauge.

It is a small, high-response, high-capacity accelerometer. It is robust with an allowable overload of 20 times its capacity. It does not require an external power supply and can be easily used by simply connecting it to our DC-type dynamic strain gauge. It can be used for measurements in a wide range of fields, including machinery, vehicles, ships, and civil engineering and construction.

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  • Acceleration Sensor

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Small high-response low-capacity single-axis accelerometer 【ARGL-A】

Small high-response low-capacity single-axis accelerometer 【ARGL-A】

MEMS accelerometer (low capacity) usable with a DC type dynamic strain gauge.

This is a compact and high-response accelerometer equipped with a MEMS accelerometer. It is small, lightweight, and robust, making it suitable for measurement in a wide range of fields such as machinery, vehicles, ships, and civil engineering and construction. It does not require an external power source and can be easily used by simply connecting it to our DC-type dynamic strain gauge.

  • Other measuring instruments
  • Acceleration Sensor

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For structural health monitoring! Wireless 3-axis accelerometer (NETIS)

For structural health monitoring! Wireless 3-axis accelerometer (NETIS)

High-precision time synchronization, wireless, battery-operated - significant reduction in introduction costs!

The installation work, which has been difficult until now, takes only 5 minutes! Our unique IoT wireless technology enables extensive measurements! The 'sonas x series' is a wireless vibration measurement system that allows for structural monitoring comparable to wired systems. (NETIS registration number: KT-230117-A) There is no need to prepare power sources or wiring at the measurement locations. Its palm-sized design makes installation easy, resulting in total costs that are less than half compared to wired systems. Additionally, it features a long battery life of over one year and is energy-efficient. There is no measurement loss thanks to the built-in SD card. 【Features】 ■ Easy installation ■ High maintainability ■ Compact device at low cost ■ Time synchronization between sensors in microseconds ■ Installation of sub-devices completed in just 2 steps *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments
  • Acceleration Sensor

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Technical Data: Characteristics of Acceleration Sensors Using PVDF Piezoelectric Materials

Technical Data: Characteristics of Acceleration Sensors Using PVDF Piezoelectric Materials

It explains the conceptual structure of push-pull type accelerometers using diagrams!

This document introduces the characteristics of an accelerometer using PVDF piezoelectric materials. It includes sensitivity of the push-pull structure accelerometer and specifications of the push-pull type accelerometer, presented with diagrams and photographs. Technical materials are available for distribution. Please feel free to download and review them. 【Contents】 ■ Introduction ■ Sensitivity of the Push-Pull Structure Accelerometer ■ Specifications of the Push-Pull Type Accelerometer ■ Results ■ Conclusion *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments
  • Acceleration Sensor

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Technical Data: Characteristics of Acceleration Sensors Using Polymer Piezoelectric Materials

Technical Data: Characteristics of Acceleration Sensors Using Polymer Piezoelectric Materials

Explaining the conceptual structure of acceleration sensors and the dependence of PVDF acceleration sensitivity on mass using diagrams!

This document introduces the characteristics of an acceleration sensor using polymer piezoelectric materials. It includes information on the sensitivity of acceleration sensors using piezoelectric materials, as well as the design concept for thin acceleration sensors. Explanations are provided using diagrams and charts. We are offering technical materials, so please feel free to download and take a look. [Contents] ■ Introduction ■ Sensitivity of acceleration sensors using piezoelectric materials ■ Design concept for thin acceleration sensors ■ Results ■ Conclusion *For more details, please refer to the PDF document or feel free to contact us.

  • Measurement and analysis equipment leasing and rental
  • Acceleration Sensor

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Accelerometer

Accelerometer

Compact and lightweight! The impact of the converter installation on the vibration mode of the measured object is minimal.

The "accelerometer" converts the acceleration of a moving vehicle, vibrations of the body, machinery, etc., into electrical output (microvoltage) using strain gauges. Depending on the measurement purpose, it can be connected to various measuring instruments to measure acceleration and vibrations. It is compact and lightweight, with excellent static and dynamic characteristics, and there is also a three-axis type that can simultaneously detect in the X, Y, and Z directions, offering a wide range of applications. 【Features】 ■ Compact and lightweight ■ Minimal impact on the vibration mode of the measured object due to the installation of the converter ■ Wide response frequency range, capable of accurately detecting shock acceleration ■ The three-axis accelerometer has minimal mutual interference between axes *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments
  • Acceleration Sensor

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[Use Case] Visualization of Motor Bearing Deterioration [Failure Prediction Detection]

[Use Case] Visualization of Motor Bearing Deterioration [Failure Prediction Detection]

Prevention of failures (seizures) is now possible! Here are examples of planned responses that have become feasible.

We would like to introduce a case where the 6-axis motion sensor of "ParaRecolectar" was used to visualize the deterioration of bearings. In motor bearings, abnormal conditions due to insufficient lubrication often occur, leading to production stoppages for parts replacement and incurring costs for replacing the entire motor. As a result of the implementation, it became possible to detect insufficient lubrication of the bearings by measuring vibration data, allowing for planned responses before the motor locks or stops. [Case Overview (Partial)] ■ Issues - Abnormal conditions due to insufficient lubrication in motor bearings frequently occur. - Production stoppages and costs for replacing the entire motor due to parts replacement were incurred. *For more details, please download the PDF or feel free to contact us.

  • Measurement and Inspection
  • Acceleration Sensor

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General-purpose accelerometer "SA6200A"

General-purpose accelerometer "SA6200A"

Compatible with various devices! High-level low impedance output is possible.

The "SA6200A" is an ideal vibration sensor that supports a wide range of vibration frequencies and is used in various machines. It is composed of a piezoelectric sensor and amplifier that are not affected by changes in ambient temperature. It is electrically isolated from the detection circuit. Additionally, the built-in amplifier can provide a high-level, low-impedance output in accordance with industrial standards. 【Features】 ■ High precision and high reproducibility ■ Prevents polarity mistakes during wiring with METRIX independent polarity terminals IPT ■ Eliminates ski slope effects to prevent high-frequency noise from being misrepresented as low-frequency *For more details, please refer to the PDF document or feel free to contact us.

  • Parts and Materials
  • Acceleration Sensor

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Waterproof high durability 3-axis accelerometer / Model number M3515TA-3G

Waterproof high durability 3-axis accelerometer / Model number M3515TA-3G

The circuit board and wiring, which include the sensor IC, are seamlessly molded with materials that excel in environmental durability up to the terminals.

The circuit board and wiring, which include the sensor IC, are seamlessly molded and guarded with materials that excel in environmental performance, preventing the intrusion of water and foreign substances into the sensor tip, as well as failures and deterioration caused by unintended short circuits with surrounding metals. They are also resistant to environmental changes and impacts from drops, making them very easy to handle both indoors and outdoors.

  • Other measuring instruments
  • Acceleration Sensor

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AI-based bearing abnormal vibration detection demo

AI-based bearing abnormal vibration detection demo

Display the FFT results by inferring AI learning from the acceleration data of the bearings.

Data collected from the bearing's acceleration sensor is processed through AI learning inference using the Solist-AI TM simulator, which displays the level of abnormality. The Solist-AI TM simulator is software that simulates the AI accelerator function of Solist-AI TMIC (ML63Q2557) on Windows. Demo content: 1. Collect and input data from the acceleration sensor of a normal bearing, perform FFT processing with DT-EBML63Q2557, and conduct AI learning. 2. Switch to the acceleration sensor of an abnormal bearing. 3. Collect and input data from the acceleration sensor of the abnormal bearing, perform FFT processing with DT-EBML63Q2557, and conduct AI inference. 4. Display the inference results (level of abnormality) on the LCD of DT-EBML63Q2557. 5. Display the FFT results of vibration data for both normal and abnormal bearings on the PC showing the vibration data waveform.

  • Other Software
  • Acceleration Sensor

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Broad motion sensor

Broad motion sensor

Covers everything from low-frequency vibrations to mechanical vibrations in one.

This is an original IMV sensor that outputs a DC component including tilt and acceleration from 0.1 gal to 6G at frequencies from 0.1 Hz to 1000 Hz in three axes.

  • Crane and others
  • others
  • Acceleration Sensor

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Seismic sensor

Seismic sensor

When an earthquake occurs, this device quickly detects the P-wave (primary wave).

This product automatically activates and turns on the electrical circuit when it detects seismic motion (P-wave or S-wave) exceeding the set acceleration (in gal), and is designed to work in conjunction with control circuits for elevators, general equipment, and commercial facilities to automatically operate during an earthquake, controlling the shutdown of equipment and alarms. ● Low false activation due to earthquake judgment by microcontroller ● Equipped with a built-in battery for power outage support ● Resetting and operation confirmation can be remotely controlled via contact signals ● Settable acceleration in any of three levels *For details, please check by requesting materials or downloading the catalog.

  • Other elevators and transport systems
  • Acceleration Sensor

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[Data] Structural Analysis of MEMS Components

[Data] Structural Analysis of MEMS Components

Comprehensive analysis of the structure of MEMS components using a combination of non-destructive and destructive methods!

This document introduces the structural analysis of MEMS components. It includes "non-destructive observation of accelerometers" using X-ray tomography to observe the internal structure of the package, as well as "optical microscope and SEM observation after mechanical polishing of accelerometers" and "cross-sectional observation of microphones (CROSS BEAM FIB/SEM)." Please feel free to download and take a look. [Contents] ■ Non-destructive observation of accelerometers ■ Optical microscope and SEM observation after mechanical polishing of accelerometers ■ Cross-sectional observation of microphones (CROSS BEAM FIB/SEM) *For more details, please refer to the PDF document or feel free to contact us.

  • Analysis and prediction system
  • Acceleration Sensor

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Technical Data: NaruHodo Series 6 "About Shock Measurement"

Technical Data: NaruHodo Series 6 "About Shock Measurement"

Shock force (acceleration) measurement method, outline estimation method for collision acceleration! If you know just this, you should be almost fine.

This document provides an easy-to-understand explanation to deepen your understanding of shock measurement. It addresses questions such as "What is the difference between vibration and shock?" and "Are there differences in the measurement methods for shock and vibration?" using graphs and diagrams for clarification. Please take a moment to read it. 【Contents】 ■ What is the difference between vibration and shock? ■ Are there differences in the measurement methods for shock and vibration? ■ When measuring shock acceleration, it is necessary to predict the duration of the shock and the level of acceleration when selecting an accelerometer. How should this estimation be made? ■ What exactly is a shock response spectrum? *For more details, please refer to the PDF document and feel free to contact us.

  • Other measuring instruments
  • Acceleration Sensor

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[Data] SENSE PAL Series "Motion Sensor PAL"

[Data] SENSE PAL Series "Motion Sensor PAL"

This is the data sheet for the "Motion Sensor PAL," including an overview, main features, and supported versions!

This document is the data sheet for the SENSE PAL series "Motion Sensor PAL." It includes the product's "Overview," as well as "Key Features," "Supported Versions," "Used Sensors," and "Connection with BLUE PAL/RED PAL." The "Motion Sensor PAL" is equipped with an accelerometer, allowing you to detect the movement of objects when combined with BLUE PAL or RED PAL. [Contents] ■ Overview ■ Key Features ■ Supported Versions ■ Used Sensors ■ Connection with BLUE PAL/RED PAL *For more details, please refer to the PDF document or feel free to contact us.

  • Radios, walkie-talkies, and intercoms
  • Acceleration Sensor

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[Case Study] Demonstration Experiment of Earthquake Monitoring for Nagoya Bridge

[Case Study] Demonstration Experiment of Earthquake Monitoring for Nagoya Bridge

It was trial-introduced for the understanding of complex behavior during large-scale earthquakes and the refinement of response analysis techniques.

This is an introduction to a case where 'sonas x01' was adopted for a demonstration experiment aimed at clarifying the damage mechanisms of infrastructure structures, such as bridges, by measuring their vibrations during earthquakes and translating that knowledge into reinforcement and design methods. In constructing this monitoring system, there were no locations available for a fixed power supply, so it was required that all nodes, including the master unit and nodes for internet connection, be battery-operated, and that they have a data upload function to confirm acceleration data during an earthquake without needing to go on-site. Such requirements, which are considered difficult with general sensor network technology, were achieved with this product without the need for additional special implementations or settings. 【Case Study】 ■ Installation Site: Yokohama National University ■ Challenges Before Installation - Earthquake monitoring was necessary to clarify the damage mechanisms of structures. ■ Reason for Selection - The power-saving capability that enables continuous monitoring outdoors without a power supply was a key point. *For more details, please refer to the PDF document or feel free to contact us.

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  • Acceleration Sensor

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[Use Case] FFT Vibration Measurement of Ball Screws [Failure Prediction Detection and Predictive Maintenance]

[Use Case] FFT Vibration Measurement of Ball Screws [Failure Prediction Detection and Predictive Maintenance]

Alert before defective products occur! Introducing examples of reduced production equipment failures.

We will introduce a case where the 3-axis accelerometer of "ParaRecolectar" was used to predict failures through vibration measurement of a ball screw. In the scroll processing of the workpiece, there was a challenge in not knowing the degree of deterioration of the ball screw, which led to bearing failures and a decline in product quality. As a result of the implementation, the annual replacement costs were reduced by 85%, and line downtime improved from 128 hours to 0, with defective products decreasing from 4,000 units to 0. [Case Overview (Partial)] ■Challenges - Eliminate product quality defects - Implement planned maintenance ■Implementation Method - Installed accelerometers near the bearings of the shaft *For more details, please download the PDF or feel free to contact us.

  • Measurement and Inspection
  • Acceleration Sensor

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[Use Case] Early Detection of Bearing Abnormalities [Failure Prediction Detection and Predictive Maintenance]

[Use Case] Early Detection of Bearing Abnormalities [Failure Prediction Detection and Predictive Maintenance]

From Sudden Failures to Planned Maintenance! Introducing Cases of Early Detection with FFT.

We would like to introduce a case where bearing abnormalities were detected early using a 3-axis accelerometer from "ParaRecolectar" through FFT. In the process of molding powdered raw materials, equipment stoppage due to bearing failure was a significant issue. As a result of the implementation, we were able to monitor the vibrations of the bearings and detect signs of failure (abnormal sounds caused by damage to the bearing case). 【Case Overview (Partial)】 ■Issues - Equipment stoppage occurred due to bearing failure in the process of molding powdered raw materials. - Replacing the bearing after failure incurs significant damage. *For more details, please download the PDF or feel free to contact us.

  • Measurement and Inspection
  • Acceleration Sensor

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For microtremor array exploration! Wireless microtremor meter (NETIS registered)

For microtremor array exploration! Wireless microtremor meter (NETIS registered)

Realizing vibration measurement and remote monitoring with multi-point, wide-range, and high-precision time synchronization.

Equipped with a high-precision accelerometer sensor M-A352 from Seiko Epson! 【Features】 ■ Time synchronization between sensors in microsecond units ■ Sensor unit is palm-sized. ■ No need for power supply preparation or wiring work at measurement locations, making installation easy. ■ Easy to move the sensor unit ■ Battery operation available ■ Monitoring and remote surveillance possible via computer ■ Can also record on the built-in SD card *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments
  • Acceleration Sensor

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Wireless Micro Displacement Meter Multi-Point Measurement and High-Precision Time Synchronization

Wireless Micro Displacement Meter Multi-Point Measurement and High-Precision Time Synchronization

No GPS synchronization required; high-precision time synchronization between devices; low-noise measurements using crystal accelerometers.

◆Features Wireless micro-motion measurement over a wide area and multiple points (no wiring work is required for measurement points). Achieves high-precision time synchronization (within 80μs) and highly reliable measurements completely wirelessly. The communication distance between terminals is approximately 2 km in line of sight. By using relay devices, it can reach approximately 20 km in line of sight. It can be installed in complex locations within buildings and across a wide range of measurement points.

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  • Acceleration Sensor

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Wireless micro-displacement meter for exploration of soft ground (NETIS)

Wireless micro-displacement meter for exploration of soft ground (NETIS)

Achieving wireless multi-point, wide-range, and high-precision time synchronization measurements.

Equipped with the high-precision accelerometer "M-A352" manufactured by Seiko Epson! 【Features】 - Synchronizes the time between sensors in microsecond units - The sensor body is compact and palm-sized - No need for power supply or wiring work at the measurement location, easy to install - Designed for easy movement of the sensor - Can operate on battery power - Supports monitoring and remote surveillance using a PC - Data can also be recorded on the built-in SD card *For more details, please refer to the PDF document or feel free to contact us. #1

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For investigating the vibration characteristics of ground and structures! Wireless microseismometer (NETIS)

For investigating the vibration characteristics of ground and structures! Wireless microseismometer (NETIS)

Realizing vibration measurement and remote monitoring with multi-point, wide-range, and high-precision time synchronization.

Equipped with a high-precision accelerometer sensor M-A352 from Seiko Epson! - The sensor unit is palm-sized. - No need for power supply preparation or wiring work at the measurement location, making installation easy. - Moving the sensor unit is also simple. - Battery operation is possible. - Monitoring and remote surveillance via computer is available. - Recording is possible on the built-in SD card. 【Features】 ■ Easy installation work ■ High maintainability ■ Compact device at low cost ■ Time synchronization between sensors in microsecond units ■ Installation of sub-units can be completed in just 2 steps *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments
  • Acceleration Sensor

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Epson manufactured wireless micro-vibration meter with built-in accelerometer! (NETIS)

Epson manufactured wireless micro-vibration meter with built-in accelerometer! (NETIS)

Wireless micro-movement measurement system equipped with Epson M-A352, wireless and battery-operated.

Features of the Sonas Wireless Vibration Measurement System 'sonas x Series' ● Wireless & Battery-Powered Units: Easy installation and relocation without the need for wiring or power preparation. Significantly reduces implementation costs compared to traditional wired systems. ● Easy Multi-Point Measurement: Allows for simple measurements at multiple locations. ● High-Precision Time Synchronization: Time synchronization between sensors is achieved at the microsecond level. ● Long-Life Battery Design: Capable of continuous operation for over a year due to high energy-saving performance. *For the standard model. ● Data Storage Function: Equipped with an internal memory card to prevent loss of measurement data. ● Cloud Compatibility: Enables real-time monitoring and data collection from remote locations. *For detailed information, please refer to the PDF document or contact us directly.

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  • Acceleration Sensor

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