Technology Front
High-Res Chipsets Expand 3D Printing, 3D Machine Vision and Lithography
Published: Nov 05,201433 Read
Texas Instruments (TI) announced the availability of two new high-resolution DLP chipsets for 3D printing, 3D machine vision and lithography applications. The new chipsets, consisting of the DLP9000 and DLP6500 digital micromirror devices (DMDs) and each programmable by the DLPC900 controller, offer developers higher resolution imaging, extended wavelength support and faster pattern rates compared to previous devices. The respective DLP LightCrafter evaluation modules, DLP LightCrafter 9000 and 6500, allow developers to quickly assess each chipset, which enables a fast product development cycle.
Smallest Data Converters Deliver High Integration and Performance
Texas Instruments (TI) introduced four tiny precision data converters, each the industry’s smallest in its class. The ...
TI Introduces a New Family of LED Drivers with 12-bit PWM, 29-kHz Dimming Frequency
First 12-bit, 29-kHz RGB LED Driver Family Enables Vivid Color and Seamless Animation with Zero Audible Noise Texas I...
The DLP9000 offers four million pixels, or a 2560-by-1600 micromirror array, and is the highest resolution DMD in the TI DLP portfolio available to the broad market. The DLP9000 can be used to build large, advanced resolution objects in 3D printing and scan larger objects at longer throw[2] distances. For cost-sensitive applications, the DLP6500 offers up to two million pixels, or a 1920-by-1080 (1080p) micromirror array.
The DLPC900 controller provides a convenient interface for reliable, high-speed control of the micromirrors. By using a single controller to support multiple DMDs, customers have the flexibility to design multiple high-performance systems using just one design iteration.
Features:
- A scalable portfolio that enables the flexibility to choose the right performance and price point.
- Programmable pattern rates up to 9,500 Hz for fast 3D measurements and product builds.
- Optimized for wavelengths from 400 nm to 700 nm and compatible with widely available resins for 3D printing and resists for lithography applications.
- Standard USB, HDMI and I2C interfaces allow developers to easily create designs for a variety of applications.
- Simple-to-use GUI allows for efficient real-time chipset programming.