Precision Image Dimension Measuring Instrument is a non-contact measurement device based on advanced optical imaging and digital image processing technologies. It captures images of target objects through high-resolution image sensors, combined with precision optical systems and intelligent analysis software, to achieve high-precision quantitative analysis of geometric parameters such as object dimensions, shape, and position. Integrating multidisciplinary technologies including optical engineering, precision mechanics, computer vision, and algorithm processing, this equipment has become a critical component in modern industrial quality control systems.

Core Application Scenarios for High-Precision Image Dimension Measurement Instruments

Electronics and Semiconductor Industry

• Micro-component dimensional inspection: Length, width, and height measurement of micro-electronic components such as chips, resistors, and capacitors

• PCB board quality inspection: Precision measurement of trace width, spacing, and pad dimensions

• Connector accuracy verification: Inspection of critical dimensions including pin pitch and coplanarity

Precision Manufacturing and Mold Industry

• Mold Dimension Verification: Cavity dimension measurement for tooling molds such as stamping dies and injection molds

• Precision Component Inspection: High-accuracy dimensional measurement for mechanical parts, watch components, medical devices, etc.

• First Article Inspection and Process Control: Real-time dimensional monitoring and quality feedback on production lines

Research and Laboratory Applications

• Materials Science Research: Microstructure dimension analysis, surface topography measurement

• Biomedical Testing: Cell size analysis, tissue section measurement

• Product Quality Analysis: Failure analysis, dimensional tolerance studies

Automated Production Integration

• In-line Inspection Systems: Real-time measurement solutions integrated with robots and automated production lines

• Intelligent Sorting Systems: Automated classification and screening based on dimensional precision

Measurement Accuracy: Technological Breakthroughs from Micrometers to Submicrometers

Typical accuracy range: ±1 micrometers

Key Technical Factors Affecting Accuracy:

1. Optical System Quality: Lens resolution, distortion control, depth-of-field performance

2. Image Sensor Performance: Pixel size, sensor size, dynamic range

3. Illumination System Design: Uniformity, stability, multi-angle illumination solutions

4. Algorithm Processing Capability: Edge extraction precision, sub-pixel processing technology

5. Mechanical Stability: Platform vibration damping, temperature compensation, rigid structure

In the field of precision measurement, POMEAS has evolved into a specialized manufacturer and solutions provider of high-precision image dimension measuring instruments through its deep technical expertise and continuous investment in innovation.