Packaging information
| Package | Pins BGA (ZPC) | 516 |
| Operating temperature range (°C) 0 to 55 |
| Package qty | Carrier 1 | TUBE |
Features for the DLPC900
- Scalable controller supporting DLP500YX, DLP5500, DLP6500, DLP670S, and DLP9000 digital micromirror devices (DMDs) for high-resolution industrial and display applications
- Supports multiple high-speed pattern rates up
to:
- 16129Hz (DLP500YX, 1-bit pre-stored pattern mode)
- 2016Hz (DLP500YX, 8-bit pre-stored pattern mode with illumination modulation)
- 1008Hz (DLP500YX, 16-bit pre-stored pattern mode with illumination modulation)
- Internal DRAM: 128 megabytes
- External flash capability: 128-megabyte external flash capability
- 1-to-1 input mapping to micromirrors
- Easy synchronization with cameras and sensors
- Two configurable input and output triggers
- Fully programmable GPIO and PWM signals
- Multiple control interfaces
- One USB 1.1 target port and three I2C ports
- LED enable and PWM generators
- Video mode
- Dual 24-bit RGB inputs up to 120Hz
- YUV, YCrCb, or RGB data format
- Standard video from XGA to WQXGA
- DLP9000 (WQXGA), DLP500YX (2048 × 1200), and DLP670S (2716 × 1600) require two DLPC900 controllers
Description for the DLPC900
The DLP DLPC900 is a scalable digital micromirror device (DMD) controller that supports reliable operation of DLP500YX, DLP5500, DLP6500, DLP670S, and DLP9000 DMDs. This high-performance DMD controller enables programmable, high-speed pattern rates for advanced light control, especially in industrial applications. DLPC900 pattern rates enable fast and accurate 3D scanning and 3D printing, as well as support high-resolution and intelligent imaging applications. DLPC900 offers 128 megabytes of embedded internal DRAM for convenient buffering of between 400 to 1024 1-bit patterns depending on DMD. Input and output triggers offer easy connection and synchronization with a variety of cameras, sensors, and other peripherals.
Go to the TI DLP® light-control technology page to learn how to get started. DLP advanced light control resources include evaluation modules, reference designs, optical module manufacturers, and DLP design network partners.