What is DLP™ technology and how is it used in various products?

In summary, DLP technology is a revolutionary display solution that uses an optical semiconductor to manipulate light digitally. It is a highly reliable, all-digital display chip that delivers the best picture across a broad range of products, including large screen digital TVs, and projectors for business, home, professional venue and digital cinema (DLP Cinema™). It is also a dependable technology used by leading display electronics companies worldwide, with more than 5 million systems shipped to more than 75 manufacturers since 1996.
  • #1
cronodragon
11
0
Does someone know a device that can reflect a laser beam in order to project an image? I remember years ago I saw a microchip that had an array of small mirrors, and was able to modify the angle of those mirrors... I think it was from Texas Instruments.
 
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  • #2
An acoustic optical deflector device or rotating mirrors.
 
  • #3
Thanks! Could you give me a link?
 
  • #4
cronodragon said:
Thanks! Could you give me a link?
Here's a link to lots of resources on laser beam deflection.

http://www.optics.net/directory/search.php?q=beam+deflection

For generating a simple vector image, you can use two solenoid driven mirrors. For generating more complex raster images, you'll use one solenoid driven mirror for the y deflection, and a rotating multifacet mirror for the x deflection. In both cases, you need to be able to modulate the intensity of the beam at whatever your target video bandwidth is.
 
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  • #5
cronodragon said:
...I think it was from Texas Instruments.

The device is alive and well and is used in projection TV's. The technology compares well to plasma and LCD displays.

http://www.dlp.com/dlp_technology/dlp_technology_overview.asp

"DLP™ technology is a revolutionary display solution that uses an optical semiconductor to manipulate light digitally. It is a highly reliable, all-digital display chip that delivers the best picture across a broad range of products, including large screen digital TVs, and projectors for business, home, professional venue and digital cinema (DLP Cinema™). It's also a dependable technology used by leading display electronics companies worldwide, with more than 5 million systems shipped to more than 75 manufacturers since 1996.

DLP™ technology is in use wherever visual excellence is in demand. It is also a highly versatile display technology. It is the only display technology on the market that can enable the world's smallest projectors under 2-lbs., and light up the largest movie screens up to 75 feet.

The result is maximum fidelity: a picture whose clarity, brilliance and color must be seen to be believed. "
 

FAQ: What is DLP™ technology and how is it used in various products?

What is controlled laser reflection?

Controlled laser reflection is a technique used in optics to manipulate the direction and intensity of laser beams. It involves using various materials and devices to control the reflection of a laser light, allowing for precise control and adjustments.

How is controlled laser reflection used in scientific research?

Controlled laser reflection is used in a variety of scientific research fields, including optics, materials science, and chemistry. It is often used to manipulate and study the properties of materials at a microscopic level, as well as to create and control reactions in chemical experiments.

What are some practical applications of controlled laser reflection?

Controlled laser reflection has numerous practical applications, including in telecommunications, laser printing, and laser cutting. It is also used in medical procedures such as laser eye surgery and in manufacturing processes for precise cutting and welding.

What are the main components of a controlled laser reflection system?

A controlled laser reflection system typically consists of a laser source, a beam splitter, mirrors, lenses, and other optical elements. It may also include control devices such as polarizers, modulators, and detectors to manipulate and measure the laser beam's properties.

What are the advantages of using controlled laser reflection over other techniques?

Controlled laser reflection offers several advantages over other techniques, including its precision, flexibility, and non-invasive nature. It also allows for real-time adjustments and measurements, making it a valuable tool in scientific research and various practical applications.

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