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  • Teledyne Flat Panel Display Inspection

    Manufacturing flat panel displays involves precise layering of materials including glass, semiconductors, metals, and polarizing films and subjecting them to many sophisticated etching and electrochemical processing steps. As consumers demand bigger, better displays at lower prices, manufacturers must make continual improvement in quality and yield. Optical inspection is the most effective, efficient approach, and manufacturers are moving to 100% inspection of each panel after every major processing step. Once again, the goal is to inspect more often, with greater precision, and still reduce the overall time of inspection.

  • Teledyne Food and Packaging

    Food and packaging inspection, including inspection, measurement, or counting of bottles, cans, containers, labels, foods, pills, and more, offers different challenges than electronics or semiconductor inspection. It is important to find all the dead pixels in a flat panel television, but it is vital that the labels on your prescription medicine are accurate and legible, and that food containers are free of contaminants before filling and properly sealed afterwards. Industrial machine vision plays an important role in quality control for many foods and pharmaceuticals. Color imaging, which is not necessary for many industrial applications, can become very important in food inspection; near-infrared and infrared wavelengths can further extend the ability to judge ripeness or "doneness."

  • Teledyne Product and Part Identification

    Identification encompasses a range of machine vision applications that involve reading printed characters and decoding 1D or 2D symbols on products. For traceability of production parts, verification of product lots or grading of print codes, Teledyne's Identification tools are designed for accurate results in the toughest of manufacturing environments.

  • Teledyne Flaw Detection

    Flaw detection is perhaps the most fundamental machine vision task. Vital to quality control, machine vision allows manufacturers to find contamination, scratches, cracks, blemishes, discoloration, gaps, pits, etc., and is used extensively across a wide range of industries from semiconductors to pharmaceuticals and automotive manufacturing.

  • Teledyne Semiconductor Wafer and Mask Inspection for Quality Control

    In semiconductor manufacturing, yield drives costs, so manufacturers inspect products at many points between bare wafers and packaged ICs, seeking to identify defects as soon as possible. As lithography geometries shrink, inspection systems need to be able to resolve defects on progressively deeper sub-micron scales (eg. 45 nm, 32 nm, 22 nm...). In the highest-performance situations, the features are so small that visible light can no longer resolve them, and inspection systems must use deep ultraviolet (DUV) wavelengths for illumination.

  • Teledyne Continuous Web Inspection

    Materials produced in a continuous roll or sheet, such as paper, textiles, film, foil, plastics, metals, glass, or coatings, are best inspected by line scan systems. Line scanning offers unlimited pixels in the in the direction of a web's motion with zero smear even at high speeds, higher dynamic range, greater processing efficiency and much lower price/pixel.

  • Teledyne Verification

    Machine vision systems are widely used for the verification of parts, assemblies and packaged goods. The range of verification applications are generally so broad, they utilize the same tools for positioning, measurement, identification and flaw detection. Verification is often combined with other tasks, such as measurement of part dimensions or reading of product barcode, to render 100% product inspection.

  • Teledyne General Manufacturing Verification and Quality Control

    Teledyne's world-leading vision components help manufacturers around the world apply vision technology to improve quality control, increase throughput, and automate tasks. Our products serve demanding applications in a wide variety of manufacturing systems--guiding robots, tracking parts and verifying every step of thousands of diverse assembly/production processes.

  • Camera Field Of View

    The area across which your camera can image is known as the field of view or FOV, the larger the FOV the more of your sample you can see. Having a large FOV allows you to take more efficient images containing more data, and take fewer images in order to capture the entire sample.

  • CMOS 进步能否替代生物医学应用中的 sCMOS 传感器?

    补充医学的金属氧化物半导体 (CMOS) 技术现如今具备了许多生物医学应用所需的高级成像能力,但它可以代替昂贵得多的 sCMOS(科学 CMOS)传感器吗?CMOS 与 sCMOS 传感器为数个行业中机器视觉的性能及价值建立了基准,本文将分别阐释这两种技术在极为严苛的生物医学和生命科学成像应用中的优势和成本。

  • 确保为智能交通系统成功选择相机的七种方式

    为 ITS 找到合适的相机可能令人望而却步,但集成商和 OEM 可以遵循以下指南来做到这一点。

  • AWM Frictionless——使用 机器视觉摄像头可以完成自动结账

    通过 Teledyne FLIR Blackfly S GigE 机器视觉摄像头,AWM Frictionless 使客户可以在挑选商品后,离店时自动结账,无需排队、扫码或亲自支付。