ti dlp products - 21dianyuan.com
TRANSCRIPT
DLP FAE
Jeremy Wu
June 2019
TI DLP® Products Enabling Innovations in Industrial Applications
DLP MEMS technology for industrial
The DMD is a fast, efficient, and reliable spatial light modulator (SLM) offering: 1) High Speed Switching – Switching of the full array at up to 32 kHz
2) Extended Wavelength – Supporting UV to near-infrared (NIR) and extended visual spectrum
3) Pixel Accurate Control – Direct pixel mapping combined with accurate timing and triggers
Works with lamps, LEDs, and Lasers
Visible Ultra-Violet Deep UV Near-Infrared Infrared
DLP Capabilities (Today)
363 nm 420 nm 700 nm 2500 nm
DLP Industrial innovations
Factory Automation PCB Lithography Vein Viewer FPD Lithography
3D Biometric Hyperspectral Image Optical inspection Optical Networking 3D Printing
Marking & Coding 3D Fingerprint Dental Scan Quality Inspection Stage Lighting
PCB/PCA AOI
DLP Industrial fast growing markets
3D Machine Vision Spectral Sensing
Lithography 3D Printing
3D Machine Vision with DLP technology
Why choose DLP technology? 3D Sensing: Look in-3D
Industrial/Metrology Dental/Medical Scanners
Factory Automation
DLP® chipset
End Equipment Examples
1. DMD projects light patterns
2. Object distorts the light patterns
4. Image processing and triangulation algorithms determine 3D structure of object
Triangulation base
Is PCB defect-free? (Pre-IC placement)
DLP Feature Design Benefit
Optical MEMS device
Generating reliable and precise
structured light patterns with superior
image quality
High speed pattern rates up to
32 kHz with ~2 µs optical
switching
Real-time light processing and/or display
for instant information
External triggers Enables easy synchronization to
external cameras and sensors
High bit-depth Higher accuracy and resolution
Extended wavelength support
363-2500 nm
Enabling applications that require UV,
visible, or NIR light sources or light
detection
Small form factor
Portable, lower cost solutions when
combined with TI's embedded
processors
Strong DLP ecosystem Quicker time-to-market with lower
investment 3D Biometric
3. Camera captures the distorted images
DLP 3D Machine Vision market opportunities
3D Camera Prosumer 3D
Scanner
Industrial/Metrology
Scanner Medical 3D Scanner
Use Cases
• Facial Recognition
• Mixed Reality
• AR/VR
• Gaming
• Drone & Robots
Use Cases
• 3D Modeling
• Scan-to-Print
• 3D Animation
• E-commerce
Use Cases
• Quality Control
• Factory Automation
• Tool Inspection
• In-Process Inspection
• Reverse Engineering
Use Cases
• Implant Surgery
• Mouth Rehabilitation
• Bridge and Crowns
• Hearing Aid
• Live Cell Imaging
Inline Automated
Optical Inspection
image © Zividlabs image © Tomocube
image © Carestream
image © Shining3D
image © eSun
Use Cases
• PCB Solder Paste & assembly Inspection
• Advanced IC Packaging
• Machined Parts Inspection
3D Machine Vision | inline and offline
7
bin picking & sorting
3D robotic heads
industrial 3D inspection
image © Keyence
Enabling
BGAs to Flat Panels
Enabling
Hand Held to Factory Floor
image © Shining3D
DLP 3D Machine Vision leveraging the ecosystem Optical engine
manufacturers
System integrators
/ ODMs
Chip maker Design support Integration support
Controller &
PMIC
DMD Variety of sizes, resolutions
and light source options
OEM’s / Brands
Business facilitator
Digital Lithography with DLP technology Enabling high-speed and high-throughput solutions
Why choose DLP technology?
DLP Feature Design Benefit
High speed digital pattern rates
>32 kHz
Pixel rate > 61 Gpps
Improve throughput and eliminate
the need for masks or print plates
Micromirror size
7.6,10.8, and 13.6 µm
Achieve micron-level features for
high accuracy and demanding
applications
Extended wavelength support
363-2500nm
Cure a variety of photosensitive
materials
End Equipment Examples
PCB LDI Lithography
FPD (Flat Panel Display)
Lithography
How it Works System Block Diagram
Digital Lithography market opportunities
FPD Patterning Semiconductor
3D Packaging PCB Solder Mask
Use Cases
• LCD
• OLED
• Quantum Dot
Use Cases
• Back end of Line
• Redistribution layers
• Through Silicon Via
• 3D packaging
• Copper Pilar
Use Cases CB Solder Mas
• PCB solder Mask
• Flexible cables
• Automotive harnesses
PCB Patterning
Use Cases
• PCB trace imaging
• Flexible roll to roll
• Advanced IC Packaging
image © Zividlabs image © Tomocube
Industrial Lithography | Direct Imaging
Enabling
BGAs to Flat Panels
image © Hans Laser
image © Adtec
image © DNK
image © Advantools image © ORC
image © Orbotech image © Chimeball
image © YSPhotech
Industrial Industrial
High power UV and 405 nm support for digital lithography, and
3D scanning
Family of flexible DMDs optimized for next
generation industrial factories
Digital Lithography
Light Source UV LED
Resolution 45/30 um L/S
Speed 240 panels per hour
Other
Features
Patterning and solder mask
all-in-one
Solder Paste Inspection
Light Source RGB LED
Resolution 10/15 um x 0.4 um
Scan Area 660 x 610 mm 200 cm2/sec
Other
Features
Measures; Height, Area,
Volume, and Offset in a
single scan
DLP Products: Lithography/3D scanning examples
Image © CBT
Image © TRI
3D Printing with DLP technology
.
SLA - Photo polymerization SLS - Powder Bed Fusion
• Photopolymer resins are cured one layer at a
time to build 3D objects
• Powder particles are sintered layer by layer to
build 3D objects
• DLP technology can be used with ultra-violet
light to cure a single layer in one shot to
provide faster print speeds
• DLP technology can be used with near-infrared
light to spatially sinter a layer of powder with
varying optical power
3D Printing with DLP technology Best-in-class combination of resolution and speed
Industrial Direct Manufacturing
Desktop 3D Printers
Why choose DLP technology?
DLP Feature Design Benefit
Micromirror array exposes an entire
layer in one shot
Faster build speed than point-by-point
technologies and constant build time
independent of layer complexity
Easily program high-resolution patterns Enables sub-50μm resolution on the image
plane and easily adjust layer thickness
Extended wavelength support
363-2500nm Compatible with a wide range of polymers
and resins
Reliable MEMS technology No expensive parts (e.g. ink jets) to replace
- translates to lower cost of ownership
End Equipment Examples
How it Works
Industrial Printing | 3D printers SLA (Stereo lithography)
Build Sizes Enabling
Desktop to Factory Floor
image © 3D Systems
image © 3D Systems
image © Prodways
image © Carbon
image © EnvisionTec
image © Carbon
Thermochromic Printing with DLP technology Digital inline printing for late stage product customization
Why choose DLP technology?
DLP Feature Design Benefit
High resolution micromirror array
exposes a 2D image in one shot
Faster print speed than point-by-point
technologies for complex images. Larger
print areas without trading off throughput.
Dynamically program complex
patterns and images
Select custom graphics in real-time on the
production line.
High power NIR wavelength support Compatible with thermally sensitive coatings,
including food-safe options. Can thermally
react substrates through transparent covers.
Digital controller with high bit depth Print high resolution grayscale images.
Reliable MEMS technology
Stable and clear prints over time and
temperature. Fewer parts to replace or
maintain for lower cost of ownership
How it Works
The print head delivers a dynamic 2D near-
infrared light pattern to thermally activate a
substrate or coating on a moving production line.
Thermally sensitive
coating
High
power NIR
print head
TI Information – Selective Disclosure
DLP Spectral Sensing market opportunities
How it works?
How much sugar?
1. Spread the wavelengths across the DMD columns
2. Sequentially select one wavelength (one column) at a time
3. One photodetector measures absorption of each wavelength
DMD Broadband
light
Sugar Absorbance Sugar Molecule in an apple
Detect 1440nm - where
sugar molecule absorb
1440nm light
Food Analysis
o Identification of food allergens – ex., Gluten in Food
o Food contamination - ex., Melamine in Milk
o Food consumption analysis – ex., Protein/Carb Content
Pharmaceutical
o Counterfeit drug detection – ex., Botox
o In-pharmacy ingredient testing – ex., Custom Drugs
o In-line quality control – ex., Drug Manufacturing
Agriculture / Petrochemical
o Soil Analysis – ex., Nitrogen level detection
o Crop Analysis – ex., Wheat Protein levels
o Oil contamination – ex., Kerosene levels in Gasoline
Competitive Advantage - Portable, low cost, flexibility
TI Information – Selective Disclosure
Optical Module
Manufacturers
CMs or ODMs
SW Partners OEMs / Brands
DLP technology Spectral Sensing supplier chain
Chip maker Optical design support HW, SW and system
integration support Business Facilitator
Controller & PMIC chips
DLP Pico DMD Variety of sizes, resolutions,
and brightness levels
TI’s Role:
Controller & PMIC chips shipped to CM or ODMs
Optics + DMD
+ DMD PCB
Chemometric
Software
TI Information – Selective Disclosure
DLP650LNIR 1280x800 high power NIR DMD
19
• High resolution WXGA NIR DMD - 1280 x 800 pixel resolution
• NIR window transmission (single pass, 2 surfaces):
• 950-1150nm: ≥ 98% (nominal); 850-2000 nm: ≥ 90%
• S450 ceramic package for efficient power handling:
• up to 160 W at 134 W/cm2 incident DMD illumination
• up to 80 W at 500 W/cm2 incident DMD illumination
• System level liquid cooling required:
• DMD package (TP1) ≤30°C and array temperatures ≤70°C
• High speed DLPC410 controller and DLPR410A PROM offers:
• Input data bus clock of 400 MHz
• Pixel-level control
• Robust ceramic package with low thermal resistance enables high
optical power applications.
• Increases speed vs direct laser, inkjet, and thermal contact printing
• 1-bit pattern rates up to 12.5 kHz, 8-bit up to 1563 Hz
• Dynamic, programmable patterns at pixel level enables advanced
imaging capabilities
• Compatible with common NIR lasers enabling easy accessibility for
system designs
Applications
• Selective Laser Sintering 3D printing (nylons, polycarbonates, metals)
• Dynamic Grayscale Laser Marking and Coding
• Industrial Digital Printing
• Repair and Ablation
• 3D Machine vision and 3D Biometrics
• High power NIR Scene projection
• Optical Network Switching and attenuation
Features Benefits
DLP650LNIR DMD solution DLPC410
DLP650LNIR
DLP Design Network & TI Designs
24 Independent 3rd Party Providers
59 Unique Design Solutions with • Electronics Optics
• Software Full System Integration
DLP Design Network is at
www.ti.com/dlpdesign
Refer to TI Designs to speed up your DLP design
time. Reference designs include schematics,
layouts, and BOM. • 3D Point Cloud Generation
• NIR Spectroscopy
• Stereolithographic 3D Printing
• High Res, Portable Light Steering
DLP Industrial Getting started: easy as 1, 2, 3
Educate
• Explore the DLP 3D Machine Vision system block diagram
• Watch the 3D Scanning TI Design Video
Evaluate
• Order Evaluation Modules from a TI distributor or eStore
• Get connected with the TI E2E community
Create
• Download the free TI Design: electronics, optics, and software
• Find a design services or module provider from the DLP Design Network
Global Segment expertise and support, anytime and anywhere
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& KITS
SUPPORT
TI DESIGNS TRAINING
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Ti.com
How Can We Help?
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Introduction of DLP Pico Light Controllers for 3D Scanning and 3D Printing Applications
Kevin Shi,
FAE,
DLP Products,
Texas Instruments
Agenda
Introduction
3D Scanning o DLP technology benefits
o Recommended Products
o Development platforms
3D Printing o DLP technology benefits
o Recommended Products
o Development platforms
Q&A
Pico projection – Technology leader
Smartphones
Camcorders
Tablets
Wearable Displays
DLP technology: Evolution
Cinema – Technology leader Top player in Industrial
3D Machine Vision, 3D Printing
3D Scanning, 3D Printing Roadmap Industrial performance in Pico form factors
TI DLP® technology brings industrial performance to mainstream 3D scanners and printers
Optimized precision and speed
Size and power versatility
New TI DLP®
Pico chipsets
bring precision
light control and
high image quality
into high volume
compact and
portable
applications
Bringing proven Pico display
technology to new applications
Precision light control and high image quality for portable applications
New TI DLPC347x Controllers
DLPC3470 controller
DLPC3470 controller
DLPC3478 controller
DLPC3479 controller
Smallest size Invisible light Optimized size/resolution Highest resolution
DLP2010 DMD DLP2010NIR DMD DLP3010 DMD DLP4710 DMD
Available now
DLPC347x Advantages
Pixel-accurate pattern projection
Flexible Triggers
Monochrome support
Extended wavelength support
Internal pattern streaming
Optimized for 3D capture, 3D printing
Real-time camera/system control
Single-color support
405nm, visible and NIR* (2010NIR)
>20% simpler system cost and size
Capture Create Imagine
Bringing 3D printers and scanners to consumers
Micron-level accuracy captures fine detail and enables smooth, high-quality
printed objects at speeds 5X faster than existing 3D printing technologies
Made by me
Precision pattern control in smaller form factors
Small form
factor
industrial
applications
Dental and
medical
applications
Enables a variety of portable 3D scanners and desktop 3D printers
Home
hobbyist,
artist,
inventor
Facial
recognition /
access
control
3D Scanning
Introduction to 3D Scanning
What is 3D scanning?
Typical Applications
3D scanning is a fast and accurate way of gathering physical measurements of an
object onto a computer in an organized manner, resulting in 3D scan data.
Once the scan data is on the computer, all of the dimensions of the object can be
taken, such as length, width, height, volume, feature size, feature location, surface
area, etc.
Location & Guidance Measure & Inspect Biometrics Automated Optical Inspection Medical Imaging
Many Methods for 3D Scanning
Use triangulation to determine the depth of an object, different methods include
Stereo Triangulation or
Photogrammetry
Single Line Laser Scan
Time of Flight
Structured Light
3D Scanning with DLP technology
Why choose DLP technology? 3D Scanning: Look in-3D
Industrial/Metrology Dental/Medical Scanners
Factory Automation
DLP® chipset
End Equipment Examples
1. DMD projects light patterns
2. Object distorts the light patterns
4. Image processing and triangulation algorithms determine 3D structure of object
Triangulation base
Is PCB defect-free? (Pre-IC placement)
DLP Technology Feature Design Benefit
Optical MEMS device
Generating reliable and precise
structured light patterns with superior
image quality
High speed pattern rates up to
32 kHz with ~2 µs optical
switching
Real-time light processing and/or display
for instant information
External triggers Enables easy synchronization to
external cameras and sensors
High bit-depth Higher accuracy and resolution
Extended wavelength support
363-2500 nm
Enabling applications that require UV,
visible, or NIR light sources or light
detection
Small form factor
Portable, lower cost solutions when
combined with TI's embedded
processors
Strong DLP ecosystem Quicker time-to-market with lower
investment 3D Biometric
3. Camera captures the distorted images
3D Scanning with Structured Light
• Patterns projected on an object inherently create identifiable features
• A camera triggered to each pattern captures these features
Triangulation Base
u
v
u
v
(x,y,z) (x,y,z) Projector Camera
Can easily identify all
points because of
projected pattern
DLP Technology Programmable Patterns
Programmable Patterns allow users to gain full control
over the Structured Light System
Multiple patterns • Binary Code
• Gray Code or N-ary Codes
• Phase Shift
Adaptive Patterns
• Varying Color/Light and Pattern depending on object
response and movement
Hybrid Patterns
• Combination of several patterns
Industrial performance in compact form factor
Resolution
Wavelength
Pattern rates
System level Careabouts
Typical 3D scanner block diagram
DLPC347x controller benefits
High accuracy 3D capture
3D Capture maximum information in X, Y and Z dimensions
3D Capture human teeth or a car
3D Capture any object in any room
One-to-one pixel accuracy
Dense 3D point clouds
Flexibility
Extended wavelength support
Capture
DLPC347x Feature – DLPC3478 Display and Light Controller for DLP3010 (.3 720p) TRP DMD
Display Features: • Supports Input Image Sizes Up to 720p
• Input Frame Rates to 120 Hz (2D and 3D)
• 24-Bit, Input Pixel Interface Support
• Parallel or BT656, Interface Protocols
• Pixel Clock Up to 150 MHz
• Image Processing - IntelliBright™ Algorithms, Image Resizing, 1D
Keystone, CCA, Programmable Degamma
Light Control Features: • Pattern Display Optimized for Machine Vision and Digital Exposure
• Flexible Internal (1D) and External (2D) Pattern Streaming Modes
o Programmable Exposure Times
o High Speed Pattern Rates Up to 2500 Hz(1-bit) and 360
Hz(8-bit)
• Programmable 2D Static Patterns via Splash
• Internal Pattern Streaming Mode Enables Simplified System Design
o Eliminates Video Interface Requirement
o Store >1000 Patterns in Flash Memory
• Flexible Trigger Signals for Camera/Sensor Synchronization
o One Configurable Input Trigger
o Two Configurable Output Triggers
System Features: • I2C Control of Device Configuration
• Programmable Splash Screens
• Programmable LED Current Control
• Auto DMD Parking at Power Down
Applications • Battery Powered Mobile Accessory HD Projectors
• Embedded Projection (Notebooks, Laptops, Tablets, Hot Spots)
• 3D Scanners: 3D Camera, 3D Reconstruction, AR/VR, Dental
Scanner
• 3D Machine Vision: Robotics, Metrology, In-line Inspection (AOI)
• 3D Biometrics: Facial and Finger Print Recognition
• Light Exposure: 3D Printers, Laser Marking
Typical DLPC347x system
Signal Name Description
TRIG_OUT_1 External Pattern Mode: Active during each input frame.
Internal Pattern Mode: Active during a predefined group of patterns.
TRIG_OUT_2 Active during display of each pattern. When operating in external pattern mode, one input frame can have multiple patterns.
TRIG_IN Active in Internal Pattern Display mode only. Trigger In signal is used to advance to next patterns in internal pattern mode.
Pattern Display Mode – External Pattern Mode
The DLPC3478 controller firmware allows for the following
user programmability.
• Exposure time (tExposure): Time during which a pattern
displayed and the illumination is ON.
• DarkPre time (tDarkPre): Dark time (before the pattern
exposure) during which no pattern displays and the
illumination is OFF.
• DarkPost time (tDarkPost): Dark time (after the pattern
exposure) during which no pattern displays and the
illumination is OFF.
• Number of 8-bit patterns within a frame: 1, 2, or 3 within
each Frame period
• Selection of Illuminator that is ON for each 8-bit pattern.
• TRIG_OUT_1 and TRIG_OUT_2 signal configuration
and delay
Pattern Display Mode – Internal Pattern Mode
Pattern Display Mode – Internal Pattern Mode
• The device displays multiple 1D patterns within an internally
generated VSYNC signal. tExposure (exposure time),
tDarkPre and tDarkPost (dark time) are equal for all the 1D
patterns within one internally generated VSYNC frame.
• Blue LED is configured to be ON for each pattern.
• TRIG_OUT_1 (Frame Trigger) is configured active high
polarity and will have a minimum pulse width of 20
microseconds. TRIG_OUT_1 delay (tD1) is configured with
respect to internally generated VSYNC.
• TRIG_OUT_2 (Pattern Trigger) is configured active high
polarity and stays active during the pattern exposure.
TRIG_OUT_2 delay (tD2) is configured with reference to the
start of each pattern.
• VSYNC is generated internally according to different sets of
patterns stored in the SPI flash memory.
• In free running mode the DLPC3478 controller generates an
internal synchronization signal to display pre-stored patterns
• User sends an I2C command to instruct DLPC3478 controller
to start download of the 1D patterns from flash memory into
DLPC3478 controller’s internal memory and displaying of the
1D patterns.
Pattern Display Mode – Internal Pattern Mode
• Trigger In mode provides higher level of control to the user
for displaying patterns.
• In this mode, user controls when to display the pattern by
sending an external trigger signal to the DLPC3478
controller.
• The DLPC3478 controller outputs a Pattern Ready signal
to let the user know when DLPC3478 controller is ready to
accept the external trigger signal.
• DLPC3478 controller sets the Pattern Ready signal high to
denote that the DLPC3478 controller is ready to accept Trigger
In signal.
• The user sends the external trigger input signal to the
DLPC3478 controller to begin the display of the next pattern
with tExposure (exposure time), tDarkPre and tDarkPost (dark
time).
• Blue LED is configured to be ON for each pattern.
• TRIG_OUT_1 (Pattern Set Trigger) is configured active high
polarity and will have a minimum pulse width of 20
microseconds. TRIG_OUT_1 delay (tD1) is configured with
respect to external trigger input(TRIG_IN).
• TRIG_OUT_2 (Pattern Trigger) is configured active high
polarity and stays active during the pattern exposure.
TRIG_OUT_2 delay (tD2) is configured with reference to the
start of each pattern exposure.
Use GUI to Control DLP347x EVM – External
Use GUI to Control DLP347x EVM - Internal
Use GUI to Control DLP347x EVM - Internal
Use GUI to Control DLP347x EVM - Internal
New EVMs + New GUI
DLP2010EVM-LC
$549
DLP3010EVM-LC
$799
New DLP Pico LC EVM GUI
DLP4710EVM-LC
$1299
Scalable Portfolio for 3D Scanning Feature Portability High resolution High speed
Digital
Micromirror
Device (DMD)
DLP2010
DLP2010NIR DLP3010
DLP4500
DLP4500NIR
DLP4710
DLP5500
DLP6500FYE
DLP6500FLQ DLP9000 DLP7000 DLP9500
Resolution 854 x 480 1280 x 720 912 x 1140 1920 x 1080 1024 x 768 1920 x 1080 2560 x 1600 1024 x 768 1920 x 1080
Controller DLPC3470 DLPC3478 DLPC350 DLPC3479
(qty 2) DLPC200 DLPC900
DLPC900
(qty 2) DLPC410 DLPC410
Max Pattern
Rate 2.5 kHz 2.5 kHz 4.2 kHz 2.5 kHz 5 kHz 9.5 kHz 15 kHz 32.5 kHz 23.1 kHz
Max Pixel
Data Rate
1.0 Gbps 2.3 Gbps 4.4 Gbps 5.2 Gbps 3.9 Gbps 19.7 Gbps 39 Gbps 25.2 Gbps 48 Gbps
Optimized
Wavelength
420-700 nm
700-2500 nm 420-700 nm
420-700 nm
700-2500 nm 420-700 nm
420-
700 nm 420-700 nm 400 - 700 nm 400 - 700 nm 400 - 700 nm
Evaluation
Module
DLP2010
Light Control
EVM
DLP3010
Light Control
EVM
DLP
LightCrafter
4500
DLP4710
Light Control
EVM
3rd Party
DLP
LightCrafter
6500
DLP
LightCrafter
9000
DLP
Discovery™
4100
DLP
Discovery
4100
3D Printing (Stereolithography)
Stereolithography (SLA)
• SLA : 3D printing employs photopolymer resin cured by light to solidify a 3D model layer
by layer.
• Light Source - UV or deep blue portion of the spectrum.
– LEDs and lasers are commonly used
• A layer can be exposed using a flying laser spot to address one voxel in at a time.
– Early SLA printers used this method to harden the voxels in a layer of the 3D model being printed.
• DLP digital micromirror devices (DMD) are used to expose all voxels in a given layer at
one time
– Since all voxels are exposed simultaneously, the time required to expose a layer is fixed
regardless of the complexity of the layer.
– The speed advantage becomes clear when there are many active voxels in a layer.
3D Printing DLP technology benefits Why choose DLP technology? How it works?
Direct Manufacturing (Dental or Jewelry) Prototyping
End Equipment Examples
DLP Feature Design Benefit
Layer-by-layer printing
Micromirror array exposes
an entire layer in one shot
Faster build speed than point-
by-point technologies and
constant build time independent
of layer complexity
Easily program high-
resolution patterns
Enables sub-50μm resolution on
the image plane and easily
adjust layer thickness
Extended wavelength
support (363-2500nm)
Compatible with a wide range of
polymers and resins
Reliable MEMS technology
No expensive parts (e.g. ink
jets) to replace - translates to
lower cost of ownership
3D Printing Market Opportunities
End Product Examples
Digital Dentistry
“From producing a few drill guides in a small surgical practice
up to round-the-clock production of models in a high-volume
lab” - Dental Wings
Fashion Jewelery
“Shoppers can completely customize their own design and
have the finished product delivered in 3 or 4 days.” – Forbes
Rapid Prototyping
“Our prototype turnaround time reduced from 3-6 months to 2-
3 weeks. Time-to-market for new products reduced by 40-
60%. 3D printing is viewed as an ‘enabler’ here for expanding
into new markets.” – UPS Research
3D Printing: Build in-3D
Competitive Advantage - Speed, resolution, Scalability
DLPC347x controller benefits
High accuracy 3D capture
3D Capture maximum information in X, Y and Z dimensions
3D Capture human teeth or a car
3D Capture any object in any room
One-to-one pixel accuracy
Dense 3D point clouds
Flexibility
Extended wavelength support
Capture Create
Build fine quality objects
Build faster
Build bigger
Supports a wide variety of materials
Micron level resolution
Layer based resin curing
Scalable resolution
405nm support
Scalable Portfolio for 3D Printing Feature Portability High resolution High speed
Digital
Micromirror
Device (DMD) DLP3010 DLP4500 DLP4710
DLP6500FYE
DLP6500FLQ DLP9000
DLP7000
DLP7000UV
DLP9500
DLP9500UV DLP9000X
Resolution 1280 x 720 912 x 1140 1920 x 1080 1920 x 1080 2560 x 1600 1024 x 768 1920 x 1080 2560 x 1600
Controller DLPC3478 DLPC350 DLPC3479
(qty 2) DLPC900
DLPC900
(qty 2) DLPC410 DLPC410 DLPC910
Max Pattern
Rate 2.5 kHz 4.2 kHz 2.5 kHz 9.5 kHz 9.5 kHz 32.5 kHz 23.1 kHz 15.0 kHz
Max Pixel
Data Rate 2.3 Gbps 4.4 Gbps 5.2 Gbps 19.7 Gbps 39 Gbps 25.2 Gbps 48.0 Gbps 61.1 Gbps
Optimized
Wavelength 420 - 700 nm 420 - 700 nm 420-700 nm
400 - 700 nm
400 - 700 nm 400 - 700 nm
420 - 700 nm
363 - 420 nm
400 - 700 nm
363 - 420 nm 400 - 700 nm
Evaluation
Module
DLP3010
Light Control
EVM
DLP
LightCrafter
4500
DLP4710
Light Control
EVM
DLP
LightCrafter
6500
DLP
LightCrafter
9000
DLP
Discovery
4100
DLP
Discovery
4100
no
Great products with great support structure
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