Picoprojectors & Light Engine 2008 2008
Content Executive summary Light engines Definition The applications Overview of the technologies Microdisplays Lighting Packaging Description of the different lighting technologies Applications overview Market forecast Pico projectors (module & standalone) Head Mounted Displays (HMDs) Head Up Displays (HUDs) Rear Projection TV (RPTV) Barcode readers Microspectrometers Conclusions Appendices The MEMS & MOEMS market forecast 2007 2012 MEMS markets (in MUS$ & Munits) TOP30 MEMS players The MOEMS markets Company profiles: Axsun Barco BI microparts btendo EpiCrystals Explay Hiperscan Ion Optics LedEngin Light Blue Optics Luminus Devices Microvision Miradia Nippon Signal Novalux Nuvision Osram Polychromix QPC Lasers Scanlight Imaging SMIC Texas Instruments Upstream TSMC Vaisala 2008 2
Introduction to light engines Today, the need for thinner TVs, portable electronics devices and more compact optical devices requires innovative optical technologies to shrink the light management module at the heart of many applications (such as RPTVs). Mixing MOEMS technology (MEMS based micro mirrors) with solid state lighting (LEDs, HBLEDs and/or laser diodes) is a new, unique solution to achieve a potential low cost and compact light engine. The successful development of a compact & low cost light engine will improve existing products (DLP RPTV) and drive new market such as picoprojectors or smaller head up. Although the RPTV market is decreasing, some players are developing laser based RPTV to get thinner and better quality (resolution) images it could led to a rebirth of the RPTV market. A tiny colour display projector suitable for use in a mobile phone has been demonstrated by US firm Microvision at the Globalpress Summit Conference in San Francisco in April 2008. Source Samsung Source Microvision Source TI 2008 3
Introduction to light engines (ctned) But mixing solid state lighting and MOEMS require innovative solutions mixing optics, thermal management, electrical power conversion, electronic drive circuitry. Today, a system engineering approach is thus required! There are however open technical issues to be solved regarding packaging, thermal management, cost/performance ratio, green laser lifetime. and market access. The new Yole report Light engines and picoprojectors markets is an update of our 2007 version and will give a market description for every application requiring a mixed approach with MEMS and Solid State Lighting: RPTV, pico projectors, HUDs, HMDs, barcode readers, micro spectrometers. Pico-projector examples from CES2008 Source Miradia 2008 4
Example of light engine applications HMD RPTV Module picoprojector µmirrors + SSL Barcode reader Handheld picoprojector 2008 5 Spectrometer HUD
Advantages and drawbacks of each microdisplay technology Scanning mirrors DLP LCoS LCD 2008 6 Advantages - Electronics less complex than for arrays -Small size system -Good contrast -Good brightness -Large diagonal available -Works with all kind of light source -Electronics directly integrated under liquid crystals -Smooth pixels -Works with all kind of light source -Good resolution can be reached -Works with all kind of light source -Not susceptible to burn-in Drawbacks -Scanning principle -Only works with laser light source - Expensive technology - Rainbow effect -Screen door effect -Low response time -Four beam splitters are needed -Difficult to manufacture -Bulky and heavy -Bad black level -Difficulties to go down to low resolution if necessary -Low response time -Limited view angle -Prone to screen-burning -Screen door effect
Advantages and drawbacks of each light source technology LEDs Lasers Hybrid technology (blue LED with red & green LDs) Advantages - No speckle effect - Robustness - Small size of the final device - Low cost - High resolution - High brightness - Low power consumption - Unidirectional light beam - Almost the same advantages as lasers with lower cost Drawbacks - Focus to do for sharp picture - High power consumption - Poor brightness (<10 lumens) - No association with micromirrors - Important speckle effect - Safety issue - Not every color is available at low cost - Not a standard fabrication - Big size - Complex optical system needed - Not a long term solution (not a standard) 2008 7
Motivations for pico projectors Using pico projection, "you can make an image larger than the size of the device you carry," says research scientist Ramesh Raskar of the Mitsubishi Electric Research Laboratories in Cambridge, MA. The Pico Projector enables large sized projections from the mobile phone device onto any logical surface. Other than the usual applications of video and TV streaming (Mobile TV is growing fast more than 50 000 Mobile TV users in Korea), Pocket Projectors open up several other possibilities for social interactions, personal sharing, and group activity. The first pocket sized projectors, available in volume within the next two years, will probably be stand alone accessories priced at $300 to $900 (consumer price and professional price), the companies predict, but the ultimate goal is to fit them inside handhelds. And with camera phone owners snapping photos by the thousands manufacturers will ship an estimated 1 billion camera phones by 2008 a built in projector that displays photos in larger formats could be a big draw for cellular customers. (source MIT Technology Review) 2008 8
Definition of pico projector A handheld (or companion) picoprojector is a compact projector with no other functionalities Picoprojector from Microvision Picoprojector module from 3M A picoprojector module is integrated into another electronic portable device: Mobile Digital camera (DCS) Portable media player (PMP) Gaming Laptops HUD (head up displays) HMD (head mounted displays) Source: Explay website 2008 9
Pico projectors per supplier 3M Iview Texas Intrument Young Optics Microvision SCRAM Light Blue Optics Explay 2008 10
The picoprojector market forecast in value 2008 11
Company Profile EpiCrystals (FIN) EpiCrystals Hermiankatu 8 D 33720 Tampere FINLAND Phone : +358 3 316 5900 www.epicrystals.com Key Manager Tomi Jouhti tomi.jouhti@epicrystals.com Chief executive Officer Company overview Formed in 2003 as a spin-off of Tampere University of Technology s Optoelectronics Research Center - Employees: 10 EpiCrystals Inc. develops advanced light sources for the next generation projection display applications Turnover 05 : NA Light source activities. Main Products Patented DeCIBELTM laser platform with frequency-doubled semiconductor diode lasers (GaAs) Currently in development : ultra-compact and cost-efficient projectors with superior image quality and long lifetime (2008-2009). Tom Jouhti (left), CEO of EpiCrystals, is pictured after winning the 2006 European Venture contest 2008 12
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