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SEMINAR ON DIGITAL LIGHT
PROCESSING
PRESENTED BY
MOHIT RANA
INTRODUCTION
• Trademark owned by Texas Instruments, representing a technology used in video
projectors.
• Developed in 1987 by Dr. Larry Hornbeck of Texas Instruments.
• DLP is also one of the leading technologies used in digital cinema projection.
• It is named for its ability to process light digitally with the aid of an optical
semiconductor called a Digital Micromirror Device an micro electro mechanical
systems (MEMS) device .
• The DMD microchip is a fast, reflective digital light switch.
• When combined with image processing, memory, a light source, and optics the
DLP system is capable of projecting large, bright, high contrast colour images.
WHAT IS DLP TECHNOLOGY ?
• DLP devices come in either one or three-chip models.
• One-chip DLP systems use a projection lamp to pass white light through a color
wheel that sends red-green-blue colors to the DMD chip in a sequential order to
create an image on-screen.
• Three-chip DLP systems use a projection lamp to send white light through a prism,
which creates separate red, green, and blue light beams. Each beam is sent to their
respective red, green, and blue DMD chip to process the image for display on-
screen.
• One-chip models are said to produce a display of over 16-million colors. Three-chip
models can produce a display of over 35-trillion colors.
COMPONENTS OF DLP
• A DLP based projector system has the following components:
1. DMD Chip ( Digital Micromirror Device)
2. A light source
3. A color filter system
4. A cooling system
5. Illumination and projection optics
THE DMD CHIP
• Image is created by microscopically
small mirrors laid out in a matrix on a
semiconductor chip, known as a
Digital Micromirror Device (DMD).
• Matrix of micromirrors
1024 x 768 mirrors for example
• Size of the mirrors: 16 x 16 um
• Each mirror represents one or more
pixels in the projected image.
THE DMD ARCHITECTURE
• Fabricated over a CMOS .
• Rotation of the mirror is accomplished through
electrostatic attraction produced by voltage
differences developed between the mirror and
the underlying memory cell.
• In on state (1), the mirror rotates to +10
degrees. While in off state(0), the mirror rotates
to -10 degrees.
• The hinges allow the mirror to tilt between +10
degree or – 10 degree.
THE DMD CHIP
• To move the mirrors, the state is first loaded into an SRAM cell located beneath
each pixel.
• Once all the SRAM cells have been loaded, the bias voltage is removed, allowing
the charges from the SRAM cell to prevail, moving the mirror.
• When the bias is restored, the mirror is once again held in position, and the next
required movement can be loaded into the memory cell.
• The bias system is used to reduces the voltage levels required to address the pixels
such that they can be driven directly from the SRAM cell.
THE DMD CHIP
• When the mirror rotates to its on state (+10 degrees), light from a projection
source is directed into the pupil of a projection lens and the pixel appears bright
on a projection screen.
• When the mirror rotates to its off state (-10 degrees), light is directed out of the
pupil of the projection lens and the pixel appears dark. Thus, the optical switching
function is simply the rapid directing of light into or out of the pupil of the
projection lens.
HOW DLP SYSTEM WORKS ?
• Depending on the application, a DLP system will accept either a digital or an
analogue signal.
• Any interlaced video signal is converted into an entire picture frame video signal
through interpolative processing.
• From here, the signal goes through DLP video processing and becomes progressive
red, green and blue (RGB) data.
• The progressive RGB data is then formatted into entire binary bit planes of data.
• Once the video or graphic signal is in a digital format, it is sent to the DMD. Each
pixel of information is mapped directly to its own mirror in a 1:1 ratio, giving exact,
digital control.
HOW DLP SYSTEM WORKS ?
• By electrically addressing the memory cell below each mirror with the binary bit
plane signal, each mirror on the DMD array is electro statically tilted to the ‘on’ or
‘off’ positions. The technique that determines how long each mirror tilts in either
direction is called pulse width modulation (PWM).
• The mirrors are capable of switching on and off more than 1000 times a second.
This rapid speed allows digital gray-scale and colour reproduction.
• At this point, DLP becomes a Simple optical system.
THE ADDRESS SEQUENCE
• The DMD accepts electrical words representing gray levels of brightness at its
input and outputs optical words. The light modulation or switching technique is
called binary pulse width modulation.
• The address sequence to be performed once each bit time can be summarized as
follows:
1. Reset all mirrors in the array.
2. Turn off bias to allow mirrors to begin to rotate to flat state.
3. Turn bias on to enable mirrors to rotate to addressed states (+10/-10 degrees).
4. Keep bias on to latch mirrors (they will not respond to new address states).
5. Address SRAM array under the mirrors, one line at a time.
6. Repeat sequence beginning at step 1.
GRAY SCALE AND COLOR OPERATION
• The DMD accepts electrical words representing gray levels of brightness at its
input and outputs optical words, which are interpreted by the eye of the observer
as analog brightness levels.
• Grayscale is achieved by binary pulse width modulation of the incident light.
• Light intensities from the DMD are produced by pulse width modulating
the mirrors over the operating refresh time.
• Each bit in the word represents time duration
for light to be on or off (1 or 0).
• The time durations have relative values of 20,21,
22, 23. 1 being LSB and 8 being MSB.
• The video field time is divided into four time
durations of 1/15, 2/15, 4/15, and 8/15 of the
video field time.
• The possible gray levels produced by all
combinations of bits in the 4-bit word are 24 or
16 equally spaced gray levels (0, 1/15, 2/15 . . .
15/15).
• Current DLP systems are either 24-bit colour or
30-bit color .
ELECTRONIC OPERATION
• The DMD pixel is inherently digital because of the way it is electronically driven.
• Multiple data inputs and demultiplexers (1:16) are provided to match the
frequency capability of the on-chip CMOS with the required video data rates.
• The PWM scheme for the DMD requires that the video field time be divided into
binary time intervals or bit times.
• During each bit time, while the mirrors of the array are modulating light, the
underlying memory array is refreshed or updated for the next bit time.
• Once the memory array has been updated, all the mirrors in the array are released
simultaneously and allowed to move to their new address states.
LIGHT SOURCE
• In DLP projectors high-power LEDs or LASERs are used as a source of illumination.
LED-BASED DLPs:
• Advantages of LED illumination include instant-on operation and improved color,
with increased color saturation.
• Ordinary LED technology does not produce the intensity and high lumen output
characteristics required to replace arc lamps. The special patented LEDs used in all
of the Samsung DLP TVs are PhlatLight LEDs, designed and manufactured by US
based Luminus Devices. A single RGB PhlatLight LED chipset illuminates these
projection TVs.
LIGHT SOURCE
LASER-BASED DLPs:
• The first commercially-available LASER-based DLP HDTV was the Mitsubishi L65-
A90 LASERVUE in 2008, which also eliminated the use of a color wheel. Three
separate color LASERs illuminate the DMD in these projection TVs, producing a
richer, more vibrant color palette than other methods.
SINGLE CHIP PROJECTORS
• White light is focused down onto a
spinning color wheel system.
•The wheel spins illuminating the DMD
sequentially with RGB light.
•At the same time RGB video signal is being
sent to the DMD mirror-pixels.
•The mirrors are turned on depending
on how much of each color is needed.
•The eye integrates the sequential images
and a full color image is seen.
SINGLE CHIP PROJECTORS
• Colors are produced by placing a color wheel between the lamp and the DLP chip.
• Color wheel is divided into multiple sectors: the primary colors: red, green, and
blue, and in many cases secondary colors including cyan, magenta, yellow and
white.
• The use of the secondary colors is part of the new color performance system called
Brilliant Color which processes the primary colors along with the secondary colors
to create a broader spectrum of possible color combinations on the screen.
SINGLE CHIP PROJECTORS
• The DLP chip is synchronized with the rotating motion of the color wheel so that
the green component is displayed on the DMD when the green section of the color
wheel is in front of the lamp.
• The same is true for the red, blue and other sections.
• The colors are thus displayed sequentially at a sufficiently high rate that the
observer sees a composite "full color" image.
THREE CHIP PROJECTORS
• A prism splits light from the lamp, and
each primary color of light is then
routed to its own DLP chip, then
recombined and routed out through
the lens.
• Found in higher-end home theatre
projectors, large venue projectors .
THREE CHIP PROJECTORS
• For proper operation light must be directed at 20
degrees relative to the normal of the DMD chip .
• To eliminate interference between the
illuminating and projecting optics, a total internal
reflection prism is interposed between the
projection lens and the DMD color-splitting/-
combining prisms.
•The color-splitting/-combining prisms use dichroic
interference filters deposited on their surfaces to
split the light by reflection and transmission into
red, green, and blue components.
THREE CHIP PROJECTORS
•A dichroic filter is a very accurate color filter used
to selectively pass light of a small range of colors
while reflecting other colors.
•The red and blue prisms require an additional
reflection from a TIR surface of the prism in order
to direct the light at the correct angle to the red
and blue DMDs.
•Light reflected from the on-state mirrors of the
three DMDs is directed back through the prisms
and the color components are recombined.
ADVANTAGE OF DLP
• Brighter: DLP projectors are among the brightest available because DLP technology
brings more light from lamp to screen.
• Sharper: DLP projection’s unique reflective technology comes closest to producing
the exact mirror image of an incoming video or graphic signal, resulting in
projection that’s seamless at any resolution.
• Versatile: DLP technology allows projectors to be small and light, often weighing as
little as 1 kg.
• More reliable: Display systems using DLP technology are able to recreate their
incoming source material with each projection, ensuring a full-impact projection
experience that will not fade over time.
DISADVANTAGE OF DLP
• Some devices may have fan noise.
• Viewer may experience eye strain, headache and migrains.
FUTURE USE OF DLP
• High definition image creation
• 3-D visual displays
• Holographic storage
• Microscopes
• Medical Imaging
THESE TECHNOLOGIES ARE IN THE
DEVELOPMENTAL STATE….
THANK YOU..

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45187459-Seminar-on-Digital-Light-Processing.pptx

  • 1. SEMINAR ON DIGITAL LIGHT PROCESSING PRESENTED BY MOHIT RANA
  • 2. INTRODUCTION • Trademark owned by Texas Instruments, representing a technology used in video projectors. • Developed in 1987 by Dr. Larry Hornbeck of Texas Instruments. • DLP is also one of the leading technologies used in digital cinema projection. • It is named for its ability to process light digitally with the aid of an optical semiconductor called a Digital Micromirror Device an micro electro mechanical systems (MEMS) device . • The DMD microchip is a fast, reflective digital light switch. • When combined with image processing, memory, a light source, and optics the DLP system is capable of projecting large, bright, high contrast colour images.
  • 3. WHAT IS DLP TECHNOLOGY ? • DLP devices come in either one or three-chip models. • One-chip DLP systems use a projection lamp to pass white light through a color wheel that sends red-green-blue colors to the DMD chip in a sequential order to create an image on-screen. • Three-chip DLP systems use a projection lamp to send white light through a prism, which creates separate red, green, and blue light beams. Each beam is sent to their respective red, green, and blue DMD chip to process the image for display on- screen. • One-chip models are said to produce a display of over 16-million colors. Three-chip models can produce a display of over 35-trillion colors.
  • 4. COMPONENTS OF DLP • A DLP based projector system has the following components: 1. DMD Chip ( Digital Micromirror Device) 2. A light source 3. A color filter system 4. A cooling system 5. Illumination and projection optics
  • 5. THE DMD CHIP • Image is created by microscopically small mirrors laid out in a matrix on a semiconductor chip, known as a Digital Micromirror Device (DMD). • Matrix of micromirrors 1024 x 768 mirrors for example • Size of the mirrors: 16 x 16 um • Each mirror represents one or more pixels in the projected image.
  • 6. THE DMD ARCHITECTURE • Fabricated over a CMOS . • Rotation of the mirror is accomplished through electrostatic attraction produced by voltage differences developed between the mirror and the underlying memory cell. • In on state (1), the mirror rotates to +10 degrees. While in off state(0), the mirror rotates to -10 degrees. • The hinges allow the mirror to tilt between +10 degree or – 10 degree.
  • 7. THE DMD CHIP • To move the mirrors, the state is first loaded into an SRAM cell located beneath each pixel. • Once all the SRAM cells have been loaded, the bias voltage is removed, allowing the charges from the SRAM cell to prevail, moving the mirror. • When the bias is restored, the mirror is once again held in position, and the next required movement can be loaded into the memory cell. • The bias system is used to reduces the voltage levels required to address the pixels such that they can be driven directly from the SRAM cell.
  • 8. THE DMD CHIP • When the mirror rotates to its on state (+10 degrees), light from a projection source is directed into the pupil of a projection lens and the pixel appears bright on a projection screen. • When the mirror rotates to its off state (-10 degrees), light is directed out of the pupil of the projection lens and the pixel appears dark. Thus, the optical switching function is simply the rapid directing of light into or out of the pupil of the projection lens.
  • 9. HOW DLP SYSTEM WORKS ? • Depending on the application, a DLP system will accept either a digital or an analogue signal. • Any interlaced video signal is converted into an entire picture frame video signal through interpolative processing. • From here, the signal goes through DLP video processing and becomes progressive red, green and blue (RGB) data. • The progressive RGB data is then formatted into entire binary bit planes of data. • Once the video or graphic signal is in a digital format, it is sent to the DMD. Each pixel of information is mapped directly to its own mirror in a 1:1 ratio, giving exact, digital control.
  • 10. HOW DLP SYSTEM WORKS ? • By electrically addressing the memory cell below each mirror with the binary bit plane signal, each mirror on the DMD array is electro statically tilted to the ‘on’ or ‘off’ positions. The technique that determines how long each mirror tilts in either direction is called pulse width modulation (PWM). • The mirrors are capable of switching on and off more than 1000 times a second. This rapid speed allows digital gray-scale and colour reproduction. • At this point, DLP becomes a Simple optical system.
  • 11. THE ADDRESS SEQUENCE • The DMD accepts electrical words representing gray levels of brightness at its input and outputs optical words. The light modulation or switching technique is called binary pulse width modulation. • The address sequence to be performed once each bit time can be summarized as follows: 1. Reset all mirrors in the array. 2. Turn off bias to allow mirrors to begin to rotate to flat state. 3. Turn bias on to enable mirrors to rotate to addressed states (+10/-10 degrees). 4. Keep bias on to latch mirrors (they will not respond to new address states). 5. Address SRAM array under the mirrors, one line at a time. 6. Repeat sequence beginning at step 1.
  • 12. GRAY SCALE AND COLOR OPERATION • The DMD accepts electrical words representing gray levels of brightness at its input and outputs optical words, which are interpreted by the eye of the observer as analog brightness levels. • Grayscale is achieved by binary pulse width modulation of the incident light. • Light intensities from the DMD are produced by pulse width modulating the mirrors over the operating refresh time.
  • 13. • Each bit in the word represents time duration for light to be on or off (1 or 0). • The time durations have relative values of 20,21, 22, 23. 1 being LSB and 8 being MSB. • The video field time is divided into four time durations of 1/15, 2/15, 4/15, and 8/15 of the video field time. • The possible gray levels produced by all combinations of bits in the 4-bit word are 24 or 16 equally spaced gray levels (0, 1/15, 2/15 . . . 15/15). • Current DLP systems are either 24-bit colour or 30-bit color .
  • 14. ELECTRONIC OPERATION • The DMD pixel is inherently digital because of the way it is electronically driven. • Multiple data inputs and demultiplexers (1:16) are provided to match the frequency capability of the on-chip CMOS with the required video data rates. • The PWM scheme for the DMD requires that the video field time be divided into binary time intervals or bit times. • During each bit time, while the mirrors of the array are modulating light, the underlying memory array is refreshed or updated for the next bit time. • Once the memory array has been updated, all the mirrors in the array are released simultaneously and allowed to move to their new address states.
  • 15. LIGHT SOURCE • In DLP projectors high-power LEDs or LASERs are used as a source of illumination. LED-BASED DLPs: • Advantages of LED illumination include instant-on operation and improved color, with increased color saturation. • Ordinary LED technology does not produce the intensity and high lumen output characteristics required to replace arc lamps. The special patented LEDs used in all of the Samsung DLP TVs are PhlatLight LEDs, designed and manufactured by US based Luminus Devices. A single RGB PhlatLight LED chipset illuminates these projection TVs.
  • 16. LIGHT SOURCE LASER-BASED DLPs: • The first commercially-available LASER-based DLP HDTV was the Mitsubishi L65- A90 LASERVUE in 2008, which also eliminated the use of a color wheel. Three separate color LASERs illuminate the DMD in these projection TVs, producing a richer, more vibrant color palette than other methods.
  • 17. SINGLE CHIP PROJECTORS • White light is focused down onto a spinning color wheel system. •The wheel spins illuminating the DMD sequentially with RGB light. •At the same time RGB video signal is being sent to the DMD mirror-pixels. •The mirrors are turned on depending on how much of each color is needed. •The eye integrates the sequential images and a full color image is seen.
  • 18. SINGLE CHIP PROJECTORS • Colors are produced by placing a color wheel between the lamp and the DLP chip. • Color wheel is divided into multiple sectors: the primary colors: red, green, and blue, and in many cases secondary colors including cyan, magenta, yellow and white. • The use of the secondary colors is part of the new color performance system called Brilliant Color which processes the primary colors along with the secondary colors to create a broader spectrum of possible color combinations on the screen.
  • 19. SINGLE CHIP PROJECTORS • The DLP chip is synchronized with the rotating motion of the color wheel so that the green component is displayed on the DMD when the green section of the color wheel is in front of the lamp. • The same is true for the red, blue and other sections. • The colors are thus displayed sequentially at a sufficiently high rate that the observer sees a composite "full color" image.
  • 20. THREE CHIP PROJECTORS • A prism splits light from the lamp, and each primary color of light is then routed to its own DLP chip, then recombined and routed out through the lens. • Found in higher-end home theatre projectors, large venue projectors .
  • 21. THREE CHIP PROJECTORS • For proper operation light must be directed at 20 degrees relative to the normal of the DMD chip . • To eliminate interference between the illuminating and projecting optics, a total internal reflection prism is interposed between the projection lens and the DMD color-splitting/- combining prisms. •The color-splitting/-combining prisms use dichroic interference filters deposited on their surfaces to split the light by reflection and transmission into red, green, and blue components.
  • 22. THREE CHIP PROJECTORS •A dichroic filter is a very accurate color filter used to selectively pass light of a small range of colors while reflecting other colors. •The red and blue prisms require an additional reflection from a TIR surface of the prism in order to direct the light at the correct angle to the red and blue DMDs. •Light reflected from the on-state mirrors of the three DMDs is directed back through the prisms and the color components are recombined.
  • 23. ADVANTAGE OF DLP • Brighter: DLP projectors are among the brightest available because DLP technology brings more light from lamp to screen. • Sharper: DLP projection’s unique reflective technology comes closest to producing the exact mirror image of an incoming video or graphic signal, resulting in projection that’s seamless at any resolution. • Versatile: DLP technology allows projectors to be small and light, often weighing as little as 1 kg. • More reliable: Display systems using DLP technology are able to recreate their incoming source material with each projection, ensuring a full-impact projection experience that will not fade over time.
  • 24. DISADVANTAGE OF DLP • Some devices may have fan noise. • Viewer may experience eye strain, headache and migrains.
  • 25. FUTURE USE OF DLP • High definition image creation • 3-D visual displays • Holographic storage • Microscopes • Medical Imaging THESE TECHNOLOGIES ARE IN THE DEVELOPMENTAL STATE….