Distributed Torsional Vibration Monitoring System
Distributed torsional vibration monitoring system for rotating shafts, supporting analog and digital pulse sensors, instantaneous angular velocity, average angular velocity, torsional angular velocity, torsional angle analysis, Ethernet expansion, optional PoE, and IEEE 1588 synchronization.

System Category
DL-DAQ
Signal Type
Torsional vibration
Communication
Ethernet with IEEE 1588 synchronization
Application Fit
Typical applications for this product
Industrial Equipment Monitoring
Monitor rotating machinery and industrial equipment condition including vibration, torque, shaft power, rotational speed, shaft torsional vibration, and operational condition trends.
Typical configuration reference
Cultural Heritage Monitoring System
Monitor crack evolution, structural vibration response, tilt, displacement, long-term deformation, rock-mass fissure evolution, weathering-related structural degradation, stability trends, and environmental or human-activity impact for protected heritage assets.
Typical configuration reference
Civil Infrastructure Structural Monitoring
Monitor civil infrastructure deformation, strain, vibration, displacement, tilt, cracks, settlement, GNSS movement, cable force, seismic response, and construction-stage structural behavior.
Typical configuration reference
Research & Engineering Testing
Capture modal response, vibration response, dynamic strain, torque, speed, temperature, pressure, force, displacement, and synchronized multi-channel data for engineering verification.
Typical configuration reference
Product Image and Application Context
Visual reference for Distributed Torsional Vibration Monitoring System
Product images are used when available for RFQ evaluation and product recognition.
Primary Product Image

Product image configured for this product.
Industrial
Typical distributed shaft monitoring module deployment for project configuration.
Energy
Typical distributed shaft monitoring module deployment for project configuration.
Mechanical
Typical distributed shaft monitoring module deployment for project configuration.
Software Platform
Software Platform & Analysis System
Structural health monitoring software for dynamic signal analysis, modal testing, fatigue evaluation, and multi-view engineering visualization in complete DAQ and monitoring systems.

Signal Processing Engine
FFT analysis, time-domain waveform processing, IIR/FIR filtering, wavelet analysis, and cepstrum tools.

Structural Dynamics Analysis
Modal analysis for EMA, OMA, and GVT workflows with FRF, ODS, and structural prediction support.

Data Analytics Engine
Rainflow counting, fatigue life evaluation, statistical analysis, integration, and signal preprocessing.

Visualization System
Real-time waveform, FFT spectrum, 2D/3D visualization, dashboards, meters, charts, and synchronized views.
Technical Specifications
Category
DL-DAQ
Measurement Range
0 to 10 deg torsional-angle range
Sampling Rate
0.1 Hz to 5 kHz torsional-frequency range
Communication Protocol
Ethernet with IEEE 1588 synchronization
Protection Level
Industrial installation enclosure
Power Supply
Ethernet / optional PoE
Application Tags
Industrial, Energy, Mechanical, Marine
Installation Type
Distributed shaft monitoring module
Engineering Applications
Where this DL product is applied
Designed for rotating shaft torsional vibration, speed, and shaft-power measurement workflows.
Supports eddy-current, Hall, magnetoelectric, and other pulse-type speed sensors.
IEEE 1588 synchronization supports distributed multi-module monitoring.
Provides torsional angle, angular velocity, torsional frequency, and speed analysis.
Typical Use Cases
Typical monitoring use cases
Rotating shaft torsional vibration monitoring in mechanical, automotive, marine, and energy equipment.
Distributed shaft monitoring where synchronized Ethernet modules are required.
System Integration Context
Sensor, DAQ, and software context
Confirm sensor type, pulse count, speed range, torsional angle range, synchronization, and power mode.
Plan sensor mounting, shaft reference marks, cable protection, and network topology.
Retain IEEE 1588 as a synchronization standard reference.
