Get Quote
Contact us now to receive a detailed quotation.
Overview
Manual Video Measuring System LMVMS-B103 supports 500 x 400 mm X, Y-axis travel distance. It features 1/3 colourful CCD camera with high-resolution video system. It has laser pointer to assists in pinpointing the exact area. Equipped with automatic calculations for geometric tolerances and robust measurement. Our Manual Video Measuring System LMVMS-B103 integrates various sensors for precise measurements.
Features :
Powerful Measuring Software
Automatic Calculation
Sub-pixel Segmentation Technology
Cold Light Source
Stable Granite Workbench
User friendly interface
Integrated sensors for measurements
Diversified Data reporting and export
High-resolution Video System
Robust geometric measurement
Renishaw 3D probe
Laser Pointer
Specifications :
| Image Sensor | 1/3 Colourful CCD Camera |
| Objective Lens | Manual Position Zoom Lens |
| Video Magnification | 0.7 ~ 4.5x, Objective Lens: 20 ~ 148x |
| Resolution | 0.5 µm |
| 3D Model | Yes |
| Object View | 8.1 mm – 1.3 mm |
| Working Distance (Standard) | 92 mm |
| Movement System | X, Y-axis: Polish Rod, Z-axis: T-type Screw Rod |
| X, Y-axis Travel Distance (mm) | 500x400 |
| Z-axis Travel Distance (mm) | 200 |
| X, Y-axis Accuracy (µm) | ≤ 3 + L/200 |
| Data Processor | RS-100 |
| Illumination | Surface: 8-division LED Cold Light, Contour: Adjustable 256-grades LED Cold illumination |
| Measuring Software | Yes |
| Working Environment | Temperature: 20℃ ± 2℃, Temperature Variation < 2℃/hr, Humidity: 30~80% |
| Power Source | AC 100~220V, 50/60Hz, 10A |
| Dimensions (mm) | 1100x950x1660 |
| Net Weight (kg) | 360 |
| Loading Weight of Working Stage | 25 kg |
Applications :
Manual Video Measuring System LMVMS-B103 is applicable in research and development, semiconductor fabrication, precision tooling, optical manufacturing, in quality control, product development, and ensuring optimal performance in high-tech industries.
Selection Guide :
When selecting Manual Video Measuring System LMVMS-B103, customers should consider their specific research and inspection requirements, particularly in precision engineering, electronics, and component measurement tasks. This system is perfect for applications that demand high-resolution image capture and detailed dimensional analysis. It is frequently used in research studies involving tool calibration, part verification, and micro-structure observation. The system is certified for use in quality assurance and metrology labs, meeting standards relevant to ISO-compliant processes. Its advanced manual video optics, fine-tuned zoom capabilities, and accurate stage movement make it a reliable choice for experiments requiring meticulous measurements and repeatability.