VMIVME-7807RC 能检测微弱的震动波

VMIVME-7807RC 能检测微弱的震动波

VMIVME-7807RC 能检测微弱的震动波

概述

VMIVME-7807RC 是一款高性能的震动监测模块，由 Vibrant Corporation 开发和制造，部件号为 VMIVME-7807RC。它适用于 PXI 机箱，可用于检测和分析微弱的震动波。VMIVME-7807RC 具有以下特点：

高灵敏度： VMIVME-7807RC 采用高灵敏度的三轴加速度传感器，可检测微弱的震动波，最小可检测加速度为 0.00001 g。

宽频率范围： VMIVME-7807RC 的频率范围为 0 Hz 至 10 kHz，可满足各种应用需求。

高采样率： VMIVME-7807RC 的最高采样率为 250 kHz，可实现高精度的数据采集。

多种分析功能： VMIVME-7807RC 提供多种分析功能，包括 FFT 分析、峰值检测、RMS 计算等，可帮助用户深入分析震动数据。

易于使用： VMIVME-7807RC 提供直观的软件界面，易于使用。

应用

VMIVME-7807RC 广泛应用于各种震动监测和分析应用中，包括：

结构健康监测： 监测建筑物、桥梁、风力涡轮机等结构的健康状况，及时发现潜在的结构损坏。

机械设备监测： 监测电机、轴承、齿轮等机械设备的运行状况，及时发现故障隐患。

地震监测： 监测地震活动，评估地震强度和震源位置。

声学检测： 检测和分析声波，用于噪声控制、声学成像等。

科研实验： 用于各种震动相关的研究实验。

VMIVME-7807RC 能检测微弱的震动波

summarize

The VMIVME-7807RC is a high-performance vibration monitoring module developed and manufactured by Vibrant Corporation under the part number VMIVME-7807RC. It is suitable for PXI chassis and can be used to detect and analyze weak vibration waves. The VMIVME-7807RC has the following features:

High sensitivity: The VMIVME-7807RC uses a highly sensitive three-axis acceleration sensor to detect weak vibration waves with a minimum detectable acceleration of 0.00001 g.

Wide frequency range: The VMIVME-7807RC has a frequency range of 0 Hz to 10 kHz to meet a variety of application requirements.

High sampling rate: The VMIVME-7807RC has a maximum sampling rate of 250 kHz for high-precision data acquisition.

Multiple analysis functions: The VMIVME-7807RC provides a variety of analysis functions, including FFT analysis, peak detection, RMS calculation, and more, to help users in-depth analysis of vibration data.

Easy to use: The VMIVME-7807RC provides an intuitive software interface and is easy to use.

Apply

The VMIVME-7807RC is used in a wide range of vibration monitoring and analysis applications, including:

Structural Health monitoring: Monitoring the health of buildings, Bridges, wind turbines and other structures to detect potential structural damage.

Mechanical equipment monitoring: monitoring the operation of motor, bearing, gear and other mechanical equipment, timely detection of hidden trouble.

Seismic monitoring: Monitoring seismic activity, assessing earthquake intensity and focal location.

Acoustic detection: Detection and analysis of sound waves for noise control, acoustic imaging, etc.

Scientific research experiments: Used for various vibration-related research experiments.