描述
SCANLAB INTELLISCANDE14-405NM技术工控解析:高精度激光位置检测器的性能与应用
一、产品概述
SCANLAB INTELLISCANDE14-405NM是一款专为激光扫描系统设计的模拟位置检测器,由德国SCANLAB AG开发,采用光学干涉测量技术,通过测量激光束与参考光束的相位差实现高精度位置反馈。其核心优势在于±0.1μm的定位精度和10 kHz的快速响应速度,适用于激光加工、3D打印、光学测量等高精度场景。
二、技术参数与特性
光学性能
孔径:14 mm,适配中小型激光系统。
激光波长:405 nm(蓝光),支持高功率密度应用。
分辨率:0.1μm,满足微米级加工需求。
电气与机械
输出信号:模拟电压,兼容主流控制卡(如RTC6、RTC5)。
尺寸与重量:50 mm×50 mm×25 mm,100 g,便于集成。
环境适应性:
工作温度:0°C至50°C;
存储温度:-20°C至70°C,抗环境波动能力强。
功能特性
动态响应:10 kHz带宽,支持高速扫描任务。
稳定性:采用光学干涉技术,抗电磁干扰,适合工业环境。
易用性:即插即用设计,快速接入激光扫描系统。
三、核心应用场景
激光加工
打标与焊接:实时反馈激光束位置,确保高精度打标和焊接质量。
切割与雕刻:动态调整焦点位置,适应不同材料表面。
3D打印
层间校准:通过高精度位置检测补偿打印误差,提升模型精度。
光学测量
干涉测量:结合激光扫描系统,实现微米级位移检测。
医疗设备
激光治疗定位:精确控制激光束作用位置,提升治疗安全性。
SCANLAB INTELLISCANDE14-405NM Technical Industrial Control Analysis:Performance and Application of High-Precision Laser Position Detector
1.Product Overview
SCANLAB INTELLISCANDE14-405NM is an analog position detector designed for laser scanning systems.It was developed by SCANLAB AG in Germany.It uses optical interferometry technology to achieve high-precision position feedback by measuring the phase difference between the laser beam and the reference beam.Its core advantage lies in its positioning accuracy of±0.1μm and its fast response speed of 10 kHz,which is suitable for high-precision scenarios such as laser processing,3D printing,and optical measurement.
2.Technical parameters and characteristics
Optical properties
Ore size:14 mm,suitable for small and medium-sized laser systems.
Laser wavelength:405 nm(blue light),supports high power density applications.
Resolution:0.1μm,meeting the micron-level processing needs.
Electrical and Mechanical
Output signal:analog voltage,compatible with mainstream control cards(such as RTC6,RTC5).
Dimensions and weight:50 mm×50 mm×25 mm,100 g for easy integration.
Environmental adaptability:
Operating temperature:0°C to 50°C;
Storage temperature:-20°C to 70°C,with strong resistance to environmental fluctuations.
Functional Features
Dynamic response:10 kHz bandwidth,supports high-speed scanning tasks.
Stability:Optical interference technology is adopted,which is anti-electromagnetic interference and is suitable for industrial environments.
Ease of use:Plug and play design,quick access to laser scanning system.
3.Core application scenarios
Laser processing
Marking and welding:Real-time feedback of the laser beam position to ensure high-precision marking and welding quality.
Cutting and engraving:Dynamically adjust the focus position to adapt to the surfaces of different materials.
3D printing
Inter-layer calibration:compensates for printing errors through high-precision position detection to improve model accuracy.
Optical measurement
Interferometry:Combined with a laser scanning system,micron-scale displacement detection is achieved.
Medical equipment
Laser therapy positioning:precisely control the position of the laser beam to improve treatment safety.
