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flcos 面板

Real-World-Tested for Superior Performance
With more than 22 million of our microdisplays already built into an array of consumer applications, our panels are market-proven to achieve exceptional performance and reliability.

flcos sequential color pixelsThe Foundation of Brilliant Color

A great display device starts with a great display panel.Designed and built using superior ferroelectric liquid crystal on silicon (FLCOS) technology refined by our scientists and engineers over the last 25 years, our panels use fast pixel-switching speeds and superior optical qualities to create crisp, full-color video images, free of motion smearing.They are the ideal solution for miniature projectors and other mobile displays.

Microdisplay Panel Part Catalog and Documentation

Our microdisplay panels cater to demanding applications with these key advantages:
  • Color fidelity and saturation:Full-color, field-sequential pixels produce brighter, more true-to-life 24-bit colors.
  • Image clarity:Fine pixel borders and high resolution (as high as SVGA, 800 x 600) make for truly high-quality displays that show text clearly.
  • Seamless video:FLCOS pixel-switching technology is up to 100 times faster than typical LCOS, making it a superior imaging technique.
  • Power-efficient:With power consumption of less than 100mW, systems employing our microdisplay chips can operate for hours in battery-powered, handheld devices.
  • All-weather reliability:Our panels can take the heat—or the cold (as low as –10°C)—providing reliable performance across a wide range of temperatures for go-anywhere consumer applications.
  • Small, single-chip footprint:Built on a CMOS process, the display panel, image processing, memory, and LED controllers are all included on a single chip, allowing for innovative end-product designs.
以卓越的技术为依托
Our multi-patented microdisplay technology is built on nearly 25 years of FLCOS research and development—experience we leverage to design, build, and integrate our microdisplays.Incorporating decades of DRAM process expertise into our microdisplay products also allows us to integrate more functionality into our panels, driving new standards for microprojection.

Consumer-Product Proven
Our microdisplay technology is already designed into millions of consumer products.Unlike many of our competitors, we also have a global sales and support structure and years of experience delivering complex, high-volume products.

分辨率 WQVGA-2 VGA WVGA SVGA qHD QVGA
显示格式 392 x 224 640 x 480 852 x 480 800 x 600 960 x 540 300 x 224
颜色 24-bit YCbCr; millions of colors 24-bit RGB 24-bit RGB 24-bit RGB 24-bit RGB 18-bit (6-bit RGB)
标称能耗 85mW 75mW 85mW 90mW 160mW 65mW
封装体积 13.7 x 11.4 x 3.4mm 23.4 x 9.8 x 3.6mm 23.4 x 9.8 x 3.6mm 23.4 x 9.8 x 3.6mm 27 x 5.8 x 2.6mm 15.6 x 11 x 5.5mm
摄像机接口 Digital CCIR 601/656, 8-bit RGB serial data 24 位数字 RGB,24 位 YCrCb 4:4:4,16 位 YCrCb 4:2:2 24 位数字 RGB,24 位 YCrCb 4:4:4,16 位 YCrCb 4:2:2 24 位数字 RGB,24 位 YCrCb 4:4:4,16 位 YCrCb 4:2:2 24 位数字 RGB,24 位 YCrCb 4:4:4,16 位 YCrCb 4:2:2 Digital CCIR 601/656, 8-bit RGB serial data

类型 安全 标题和描述 编号 更新日期 文件大小
Thermal Applications: 定义了测量和确保美光零件和模块不超过允许的最高温度的一般方法和标准 TN-00-08 2010/05 252.18 KB
PCN/EOL Systems: 介绍了美光产品的变更通知和寿命终结系统。 CSN-12 2012/04 79.21 KB
Wafer Packaging and Packaging Materials: 提供了有关装运美光产品时使用的各种材料的完整装运和回收信息。 CSN-20 2011/09 776.24 KB
Bare Die SiPs and MCMs: 描述了 Bare Die SiP 和 MCM 的设计考虑因素。 CSN-18 2009/04 151.06 KB
Shipping Quantities: 提供了料件数量表格。 CSN-04 2012/04 472.27 KB
Micron KGD Definitions: 描述了美光 KGD-C1 和 KGD-C2 DRAM 芯片的测试规格和参数 CSN-22 2009/07 65.52 KB
Micron Component and Module Packaging: 解释了美光的封装标签和程序。 CSN-16 2012/02 887.13 KB
ESD Precautions for Die/Wafer Handling and Assembly: 介绍了在工作场所中控制 ESD 的好处,包括提高产量和改善质量与可靠性,最终可以缩减制造成本。 CSN-24 2010/08 119.08 KB
Electronic Data Interchange: 描述了 EDI 传输的装置、协议和联系方式。 CSN-06 2005/09 53.5 KB
RMA Procedures for Packaged Product and Bare Die Devices: 概括介绍了标准的退货授权 (RMA) 程序,以及与 bare die RMA 的对比。 CSN-07 2010/10 82.64 KB
ISO System Management Standards: 描述了 ISO 系统管理标准。 CSN-08 2004/04 39.18 KB
Moisture Absorption in Plastic Packages: Describes shipping procedures for preventing memory devices from absorbing moisture and recommendations for baking devices exposed to excessive moisture TN-00-01 2010/02 87.26 KB
Ferroelectric-liquid-crystal/silicon-integrated-circuits spatial light modulator: Cotter, Opt. Lett.Vol. 15 2009/12 438.66 KB
Ferroelectric liquid-crystal spatial light modulators for projection display: Banas, Proc.SPIE 2650 2009/12 507.99 KB
2D SiliconIFerroelectric Liquid Crystal Spatial Light Modulators: Drabik, Appl.Opt. vol.29 2009/12 1.73 MB
Improvement of spatial light modulator optical input/output performance using microlens arrays: Chase, Opt. Lett.Vol. 20 2009/12 379.81 KB
Diffractive ferroelectric liquid-crystal shutters for unpolarized light: O'Callaghan, Opt. Lett.16 2009/12 477.27 KB
Proper Handling Procedures for WQVGA Display Panels: Micron WQVGA display panels must be handled according to specific procedures at all times.Maintaining proper conditions, and using proper precautions, handling techniques, and cleaning methods will help ensure prolonged, reliable operation of your WQVGA display panel products. CSN-32 2011/06 657.79 KB
Proper Handling Procedures for qHD Display Panels: Micron qHD display panels must be handled according to specific procedures at all times.Maintaining proper conditions, and using proper precautions, handling techniques, and cleaning methods will help ensure prolonged, reliable operation of your qHD display panel products. CSN-31 2011/06 2.97 MB
Micron BGA Manufacturer's User Guide: 提供相关信息,帮助顾客轻松将最前沿的和传统的美光球栅阵列 (BGA) 封装整合到制造流程中。此指南旨在提供一系列高水平指导,并附有参考手册,其中介绍了封装相关和制造工艺流程的典型做法。 CSN-33 2011/07 353.32 KB
Microdisplay RMA Policy and Procedures: Explains the RMA policy and procedures for Micron's Microdisplay products. CSN-29 2011/10 68.33 KB
Photonics Achromatic Rotator Flyer 产品宣传页 2011/10 309.27 KB
Product Marks/Product and Packaging Labels: 介绍了产品料件的标记,以及产品和封装的标签。 CSN-11 2012/04 724.89 KB
Proper Handling Procedures for Micron E330 Projection Engines: MicronE330 Projection Engines must be handled according to specific procedures at all times.Maintaining proper conditions, and using proper precautions, handling techniques, and cleaning methods will help ensure prolonged, reliable operation of your E330 projection engines. CSN-35 2012/03 456.26 KB
Selecting a Light Engine Volume-Calculation Method (E330 qHD): This technical brief uses the E330 qHD light engine to explain three methodologies for measuring light engine volume--linear volume, displaced volume, and block volume--and provides a summary of the advantages and disadvantages of each. Technical Marketing Brief 2011/07 597.69 KB
Photonics Housing Flyer 产品宣传页 2011/10 159.54 KB
Laser Engines and Laser Speckle: This technical marketing brief provides a high-level overview of laser engine technologies and describes laser speckle and its affect on laser-based engine designs. Technical Marketing Brief 2011/08 622.49 KB
Pupil Lumen and Scotopic to Photopic Ratio (S/R): The purpose of this technical marketing brief is to explain the human vision system and how the perceived brightness is evaluated as pupil lumen. Technical Marketing Brief 2011/08 576.68 KB
Photonics Shutters Flyer 产品宣传页 2011/10 223.95 KB
Thermal Design Considerations of the Micron V100 WQVGA Engine: Provides system design engineers with the thermal basics of the V100 engine, including describing methods for dissipating heat and calculating heat dissipation. TN-07-07 2011/05 138.21 KB
Video Data Processing in the Micron V100 WQVGA Engine: Describes the video data processing so customers can experiment with font size and color to find the desired level of performance. TN-07-08 2011/05 92.15 KB
Photonics Video Shutters Flyer 产品宣传页 2011/10 247.27 KB

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Why is a single chip solution for projection a good idea?
Enabled by a CMOS process, our single chip solution integrates the display panel, image processing, memory, and LED controllers—greatly simplifying projection designs.These products have a small footprint and draw less than 100mW of power.
Why is FLCOS better for sequential color projection?
FLCOS technology allows the liquid crystal to switch pixels on and off much faster than typical LCOS displays—as much as 100 times faster, at a switching speed of 1/10,000 of a second.This high speed provides higher optical throughput and wider operating temperature ranges than sequential color LCOS using nematic liquid crystals.It also allows FLCOS to operate at the industry’s highest color field rate and thus avoid the color breakup evident in typical LCOS and DLP solutions.
Why is sequential color better for projection?
Sequential color creates color by quickly cycling each individual pixel through shades of red, green and blue (instead of placing red, green, and blue pixels closely together as spatial color systems do).This method generates individual, full color pixels that provide the viewer with increased image quality and color fidelity.Sequential color also provides much higher optical throughput, achieving better efficiency than LCOS solutions using color filters.
What kinds of applications do your projection products support?
Our FLCOS microdisplays have shipped in more than 20 million consumer applications.As panels or modules, they are ideal for mobile applications like camera viewfinders and heads-up displays.They’re also an excellent choice for pico projectors for cell phones and handhelds.
What advantages do your hexagonal shaped pixels provide?
Our WQVGA panel is built with hexagonal pixels where each row is offset by a half pixel (much like a honeycomb).This pixel arrangement greatly improves the perceived resolution and smoothes diagonal lines.Along with the improved image quality provided by our sequential color displays, these hexagonal pixels produce DVD quality results from a WQVGA resolution panel, perfect for applications that project video.
What does FLCOS stand for?
FLCOS stands for ferroelectric liquid crystal on silicon.Ferroelectric describes how the liquid crystal is chemically organized and activated.For more detail on why FLCOS is a compelling choice for microdisplay technologies, please visit our FLCOS Innovations page.

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