DMD con UV (<420 nm)

Enable precise, high-throughput light control for additive manufacturing and lithography

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Our ultraviolet digital micromirror devices (DMDs) deliver high-resolution, high-throughput light control for industrial processes that demand precision and repeatability. Optimized for wavelengths down to the deep-UV spectrum, these devices support applications such as direct imaging, 3D printing and semiconductor lithography. By combining optical efficiency with scalable design, our devices help engineers achieve faster workflows, sharper features and long-term reliability in production environments.

Featured ultraviolet (<420nm) DMDs

Nuevos productos

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DLP78TUV
NEW
DMD con UV (<420 nm)
DLP78TUV ACTIVO

DMD HEP UV de 0.78 para impresión 3D

Precio aprox. (USD) 1ku | 270

DLP991UUV
NEW
DMD con UV (<420 nm)
DLP991UUV ACTIVO

Dispositivo digital de microespejos (DMD) DLP® UV tipo A 0.99 in de alta velocidad y 2176 x 4096

Precio aprox. (USD) 1ku | 10235

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Why choose TI DLP ultraviolet DMDs?

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High speed & throughput

Print or expose up to millions of pixels at once. These products are designed with flexible data loading, high efficiency, and fast update speeds.

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Accuracy & precision

Precise pixel control, multi-bit exposure, and focused optics allow for repeatable, highly accurate exposure down to the sub-micron level.

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Reliable MEMS technology

Operate reliably at UV (<420nm) wavelengths, with no replacements required.

DLP technology for industrial innovation

Driving innovation in digital manufacturing

Digital imaging with DLP technology provides an alternative to mask-based approaches. Acting as a programmable photomask, the DMD delivers fast, high-resolution, scalable, and precise printing, directing light patterns to expose photosensitive materials. Eliminating masks reduces material costs, shortens mask fabrication time, removes mask inventory management, and accelerates development.

High resolution and speed support rapid pattern changes and immediate corrections. These advantages scale effectively, improving yield and enabling panel-level production. DLP direct imaging supports PCB manufacturing, flat-panel display repair, laser marking, advanced packaging, and other light exposure applications.

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Application brief
How DLP Technology Enables Panel-level Advanced Packaging
This application brief covers trends in advanced packaging and how DLP technology unlocks the potential of this manufacturing process.
PDF | HTML
Recurso
TI DLP® Technology Delivers High-Precision Digital Lithography for Advanced Packaging
New digital micromirror device with real-time correction enables equipment manufacturers to achieve high-resolution printing at scale, maximizing throughput and yield
Featured products for digital imaging
Nuevo DLP991UUV ACTIVO Dispositivo digital de microespejos (DMD) DLP® UV tipo A 0.99 in de alta velocidad y 2176 x 4096
DLP991U ACTIVO Dispositivo de microespejo digital (DMD) DLP® de alta velocidad 4K de 0.99 in
DLP9000XUV ACTIVO Dispositivo digital de microespejos (DMD) DLP® UV de alta velocidad WQXGA de 0.9 pulgadas

High-resolution, high-speed 3D printing powered by DLP technology 

TI DLP technology for 3D printing applications projects 2D structured light patterns with a digital micromirror device (DMD) to cure photosensitive resins or fuse powdered materials. By exposing an entire layer in parallel, DLP technology delivers faster print speeds and higher resolution than point-by-point methods such as lasers.

With programmable light control across a broad spectrum, DLP solutions offer flexibility for a variety of additive manufacturing processes. High optical efficiency, precise pixel placement, and repeatable accuracy enable fine feature resolution, smooth surface finishes, and reliable scaling from rapid prototyping to production-level 3D printing.

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Application note
Wavelength Transmittance Considerations for DLP DMD Windows (Rev. E)
This report provides information on the transmittance of DMD windows across different regions of the wavelength spectrum. Understanding transmittance is important to understand overall optical efficiency of DMD systems.
PDF
Application note
System Design Considerations Using TI DLP® Technology in UVA (363 – 420 nm) (Rev. B)
Examine the design considerations for thermal, duty cycle, general optical, coherency, and high demagnification using a DMD designed to operate in the UVA region of the UV spectrum.
PDF | HTML

Descubra aplicaciones destacadas

Desktop resin
diseño de impresoras 3D DLP de resina de escritorio rápidas, precisas y fiables
Industrial 3D printing and additive manufacturing
Tecnología de impresión 3D con DLP para la fabricación aditiva industrial con DLP, SLA y SLS
Direct imaging
imágenes directas con tecnología DLP

diseño de impresoras 3D DLP de resina de escritorio rápidas, precisas y fiables

La tecnología de prevención de pérdida de datos (DLP) proporciona la mejor combinación de velocidad de impresión rápida, rendimiento de resolución y fiabilidad y ahora está disponible en piezas dimensionadas y diseñadas para aplicaciones de escritorio asequibles.

Las impresoras 3D DLP se utilizan ampliamente en la creación rápida de prototipos, aplicaciones dentales, fundición, productos personalizados, accesorios y aplicaciones de consumo. 

Beneficios de la tecnología de impresión en 3D con DLP:

  • Alta resolución
  • exposición de capa completa
  • proyección enfocada y con precisión de píxeles
  • Tecnología MEMS confiable

Recursos destacados

Equipo final/subsistema
Productos
  • DLP301S – Dispositivo digital de microespejos (DMD) DLP® cercano a UV de alta potencia WQHD de 0.3 pulgadas
  • DLP6500FYE – Dispositivo digital de microespejos (DMD) DLP® s600 1080p de 0.65 pulgadas
Recursos técnicos

Tecnología de impresión 3D con DLP para la fabricación aditiva industrial con DLP, SLA y SLS

La tecnología de prevención de pérdida de datos (DLP) para la fabricación aditiva permite a los fabricantes acelerar los ciclos de diseño, hacer ajustes de prototipos más rápidos e imprimir piezas de producción.

Para las impresoras de estereolitografía (SLA) con DLP, las resinas líquidas se endurecen mediante la exposición a la luz y para los sistemas de sinterización láser selectiva (SLS) de impresoras 3D con DLP, los polvos finos se fusionan mediante energía térmica láser.

  • La matriz de microespejos de alta resolución permite una resolución inferior a 1 μm.
  • Soporte de longitud de onda ampliada (355 - 2500 nm)
  • Compatible con una amplia gama de polímeros, resinas, polvos de sinterización y otros materiales de construcción

Recursos destacados

Productos
  • DLP9000 – Dispositivo digital de microespejos (DMD) DLP® WQXGA de 0.9 in
  • DLP6500FLQ – Dispositivo digital de microespejos (DMD) DLP® de tipo A 1080p de 0.65 pulgadas
  • DLP9500 – Dispositivo digital de microespejos (DMD) DLP® 1080p de 0.95 pulgadas
Desarrollo de hardware
  • DLPLCR90EVM – Módulo de evaluación del dispositivo de microespejo digital (DMD) DLP® tipo A, WQXGA y 0.90 pulga
  • DLPLCR95EVM – Placa de evaluación DLP9500 de DMD
Recursos técnicos

imágenes directas con tecnología DLP

La tecnología de prevención de pérdida de datos (DLP) proporciona patrones de luz de alta velocidad y alta resolución para exponer películas fotorresistencia y otros materiales fotosensibles sin usar máscaras de contacto. Esto reduce el costo del material, mejora las tasas de producción y permite cambios rápidos de patrones y correcciones sobre la marcha. La imagen directa DLP permite la fabricación de la placa de circuito impreso (PCB), la reparación de pantallas planas, el marcado láser y otros sistemas de exposición a la luz.

Ventajas de la tecnología DLP para la imagen digital directa:

  • soporte de longitud de onda ampliada (355 - 2500 nm)
  • compatible con una amplia gama de fotorresistencias y revestimientos

Recursos destacados

Productos
  • DLP9500 – Dispositivo digital de microespejos (DMD) DLP® 1080p de 0.95 pulgadas
  • DLP9500UV – Dispositivo digital de microespejos (DMD) DLP® UV 1080p de 0.96 pulgadas
  • DLP9000X – Dispositivo digital de microespejos (DMD) DLP® de alta velocidad WQXGA de 0.9 pulgadas
Desarrollo de hardware
  • DLPLCR90EVM – Módulo de evaluación del dispositivo de microespejo digital (DMD) DLP® tipo A, WQXGA y 0.90 pulga
  • DLPLCR95UVEVM – Placa de evaluación DLP9500UV de DMD
Recursos técnicos

DMD con UV (<420 nm) diseño y desarrollo

Investigate the right chipset for your application, quickly prototype your design with an evaluation module, download the latest available software, select an optical module maker, solve your design issues with online engineering support and use a design and development ecosystem third-party to accelerate deployment of your solution to the market.

Empiece

Hardware

Start an assessment of a digital micromirror device (DMD) and controller for your application with these robust evaluation modules (EVMs) with technical documentation arrow-right

Software

Download the appropriate firmware (FW) for your DLP controller, software development kit (SDK), graphical user interface (GUI) or application programming interface (API) arrow-right

Módulos ópticos

Accelerate your time to market by choosing a manufacturer of an off-the-shelf optical module, including the digital micromirror device (DMD) arrow-right

Recursos educacionales

Receive fast and reliable technical support from our engineers, who will answer your technical questions and share their knowledge to solve your design issues arrow-right

Socios

Works with a variety of design and development ecosystem third parties to provide optical modules, deliver design services, supply specialty software or provide specialized components arrow-right

30 SEP 2025 | COMPANY BLOG
Beyond the mask: How DLP® technology is enabling new computing solutions with advanced packaging
The movement toward advanced packaging within the semiconductor industry requires a parallel evolution in lithography — and DLP technology is the key to achieving it.
Más información

Recursos técnicos

Serie de videos
Serie de videos
DLP Labs: Light control
This training starts with the basics of DLP® technology and mechanical considerations. From there, it covers application-specific topics specifically created to help you move through the design process quickly and easily.
Product overview
Product overview
TI DLP Technology For 3D Printing (Rev. F)
This application brief describes how DLP technology is used in 3D printing applications and provides a comparison of the different DLP 3D printing products currently available.
document-pdfAcrobat PDF
Application note
Application note
System Design Considerations Using TI DLP® Technology in UVA (363 – 420 nm) (Rev. B)
Learn about how to best operate compatible DMDs in the UVA region including thermal, duty cycle, optical, coherency, and other design considerations.
document-pdfAcrobat PDF