High Speed DLP Sub-system for Industrial 3D Printing and Digital Lithography Reference Design

(ACTIVE) TIDA-00570

Description & Features

Technical Documents

Support & Training

Order Now


View the Important Notice for TI Designs covering authorized use, intellectual property matters and disclaimers.


Description

The High Speed DLP® Sub-system Reference Design provides system-level DLP development board designs for industrial Digital Lithography and 3D Printing applications that require high resolution, superior speed and production reliability. The system design offers maximum throughput by integrating the highest resolution DLP digital micromirror device, DLP9000X, and the fastest digital controller, DLPC910. With more than 4 million micromirrors (WQXGA resolution), this combination enables continual streaming data rates greater than 60 Giga-bits per second (Gbps). The DLPC910 digital controller also offers designers advanced pixel control with random row addressing in addition to full frame input. This added flexibility enables diverse architectures for industrial, medical, security, telecom, and instrumentation applications.

Features
  • Up to 14,989 Hz binary pattern display rate
  • Data streaming rates >60 Gbps
  • 64-Bit LVDS Data Bus into the DLPC910 Controller
  • Reliable High Speed DDR LVDS DMD Data Bus
  • Large 0.9” diagonal micromirror array switches more light
  • DLP9000X DMD internal mirror control circuits require fewer parts

View the Important Notice for TI Designs covering authorized use, intellectual property matters and disclaimers.


  




TI Devices (13)

Order samples, get tools and find more information on the TI products in this reference design.

Part Number Name Product Family Sample & Buy Design Kits & Evaluation Modules
DLP9000X  DLP® 0.90 High Speed WQXGA Type A DMD  Advanced Light Control  Sample & Buy Not Available
DLPC910  DLPC910 Digital Controller for the DLP9000X DMD   Advanced Light Control  Sample & Buy Not Available
DLPR910  DLPR910 Configuration PROM for DLPC910   Advanced Light Control  Sample & Buy Not Available
INA210  26V, Bi-Directional, Zero-Drift, Low-/High-Side, Voltage Output Current Sense Amplifier  Current Sense Amplifiers  Sample & Buy View Design Kits & Evaluation Modules
SN74AUP1G00  Low-Power Single Two-Input Positive-NAND Gate  Gate  Sample & Buy Not Available
SN74AUP1G06  Low-Power Single Inverter Buffer/Driver with Open-Drain Outputs  Buffer/Driver  Sample & Buy Not Available
SN74AUP1G07  Low-Power Single Buffer/Driver with Open-Drain Outputs  Buffer/Driver  Sample & Buy View Design Kits & Evaluation Modules
SN74AVC4T774  4-Bit Dual-Supply Bus Transceiver With Configurable Voltage-Level Shifting and 3-State Outputs  Voltage Level Translation  Sample & Buy View Design Kits & Evaluation Modules
TL7712A  Single SVS For 12V Systems W/Pgmmable Time Delay  Power Management  Sample & Buy View Design Kits & Evaluation Modules
TPD2E2U06  Dual-Channel High-Speed ESD Protection  Circuit Protection  Sample & Buy View Design Kits & Evaluation Modules
TPS3838  NanoPower Supervisory Circuits  Power Management  Sample & Buy Not Available
TPS54521  17V Input, 5A Synchronous Step-Down Converter  Step-Down (Buck)  Sample & Buy View Design Kits & Evaluation Modules
TPS65145  4-CH LCD Bias w/ Fully Int. Pos. Charge Pump, 3.3V LDO Contr., 0.96A Min. Boost Ilim & Fault Detect  Power Management  Sample & Buy View Design Kits & Evaluation Modules

Technical Documents

View the Important Notice for TI Designs covering authorized use, intellectual property matters and disclaimers.

User guides (1)
Title Abstract Type Size (KB) Date Views
PDF 722 01 Aug 2017 223
Design files (7)
Title Abstract Type Size (KB) Date Views
ZIP 1389 28 Sep 2015 63
ZIP 571 28 Sep 2015 63
ZIP 3065 28 Sep 2015 67
ZIP 1596 28 Sep 2015 44
ZIP 544 28 Sep 2015 60
ZIP 403 28 Sep 2015 185
ZIP 363 28 Sep 2015 295

Support & Training

Try our support forums.
Search expert answers for this part Ask a new question

Content is provided 'AS IS' by the respective TI and Community contributors and does not constitute TI specifications.
See terms of use.

Blogs