Laser beam measurement in electronics & semiconductor industry
Maintaining laser stability in electronics and semiconductor production
Lasers play a critical role in electronics and semiconductor manufacturing, but their performance can change over time, directly impacting process stability and product quality.
Laser output can drift, and optical parameters at the working plane are influenced by beam delivery components and environmental conditions, leading to variations that may go undetected.
Our guide explains how to monitor and measure laser parameters to ensure process repeatability, minimize defects, and maintain consistent, reliable manufacturing performance.
What’s Inside the Guide:
- Ensure consistent weld quality and process stability by continuously monitoring laser output at the point of application
- Detect power drift early and identify root causes in the optical path before defects impact production
- Reduce scrap, downtime, and production costs by preventing faulty parts and minimizing unplanned interruptions
- Improve productivity and throughput with reliable, repeatable laser performance across production lines
- Enable real-time monitoring and fast decision-making in automated manufacturing environments
- Strengthen quality control with both in-process and post-process laser power verification
- Support compliance with strict automotive standards and reduce the risk of costly recalls
- Increase confidence in production output by ensuring every part meets required specifications
Success story
Monitoring laser micromachining systems for semiconductor manufacturing
A semiconductor manufacturer developing laser micromachining systems needed a reliable way to monitor laser performance with high precision. By integrating Gentec-EO’s power measurement solutions directly into their systems, they were able to detect deviations in real time, reduce defects, and ensure consistent process quality.
This long-term collaboration has led to improved production reliability and the successful implementation of numerous customized solutions.
Download Our Guide: Laser beam measurement in electronics & semiconductor industry
Learn how to accurately measure laser beams in electronics and semiconductor manufacturing and optimize your development, production, and quality control processes. Our guide provides the essential insights to master laser performance in high-precision applications.
Instant access to your measurement guide
The Gentec-EO advantages
GOLD Calibration Standards
We use only GOLD Calibration Standards, guaranteeing our customers the lowest calibration uncertainty possible.
NIST TRACEABILITY
Our Personnal Wavelength CorrectionTM (PWC) data offers you NIST and/or NRC traceability over the entire range of the detector.
PROVEN STATISTICAL CALCULATION PROCESSES
Our uncertainty values are based on proven statistical calculation processes.
50 PARAMETERS COLLECTED AND LOGGED
For each detector that we calibrate, 50 parameters are collected and logged in our quality system.
CHECKED UP TO 3 TIMES
The calibration reference is checked 2 to 3 times during EACH calibration process.
TOTAL ACCURACY
Each of these steps contributes to the TOTAL ACCURACY of your detector.
Find a calibrated laser power or energy detector
Let us guide you in selecting the best laser power or energy detector for your application. You only need to answer 3 simple questions about your laser.
