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DLP9500

ACTIVO

DMD tipo A 2xLVDS 1080p 0.95 DLP®

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DLP9500

ACTIVO
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Detalles del producto

Illumination wavelength (min) (nm) 400 Illumination wavelength (max) (nm) 700 Micromirror array size 1920 x 1080 Chipset family DLP9500, DLPA200, DLPC410, DLPLCR95EVM, DLPLCRC410EVM, DLPR410 Micromirror pitch (mm) 0.0108 Component type DMD Micromirror array orientation Orthogonal Pattern rate, binary (max) (Hz) 23148 Array diagonal (in) 0.95 Display resolution (max) 1920 x 1080 (1080p) Rating Catalog Operating temperature range (°C) 20 to 70 Pattern rate, 8-bit (max) (Hz) 2893 Micromirror driver support External Thermal dissipation (°C/W) 0.5
Illumination wavelength (min) (nm) 400 Illumination wavelength (max) (nm) 700 Micromirror array size 1920 x 1080 Chipset family DLP9500, DLPA200, DLPC410, DLPLCR95EVM, DLPLCRC410EVM, DLPR410 Micromirror pitch (mm) 0.0108 Component type DMD Micromirror array orientation Orthogonal Pattern rate, binary (max) (Hz) 23148 Array diagonal (in) 0.95 Display resolution (max) 1920 x 1080 (1080p) Rating Catalog Operating temperature range (°C) 20 to 70 Pattern rate, 8-bit (max) (Hz) 2893 Micromirror driver support External Thermal dissipation (°C/W) 0.5
DLP-TYPEA.9 (FLN) 355 1777.4656 mm² 42.16 x 42.16
  • 0.95-Inch diagonal micromirror array
    • 1920 × 1080 array of aluminum, micrometer-sized mirrors (1080p resolution)
    • 10.8-µm micromirror pitch
    • ±12° micromirror tilt angle (relative to flat state)
    • Designed for corner illumination
  • Designed for use with Visible light (400 nm to 700 nm):
    • Window transmission 96% (Single Pass, Through Two Window Surfaces)
    • Micromirror reflectivity 89%
    • Array diffraction efficiency 87%
    • Array fill factor 94%
  • Four 16-bit, low-voltage differential signaling (LVDS), double data rate (DDR) input data buses
  • Up to 400-MHz input data clock rate
  • 42.2-mm × 42.2-mm × 7-mm package footprint
  • Hermetic package
  • 0.95-Inch diagonal micromirror array
    • 1920 × 1080 array of aluminum, micrometer-sized mirrors (1080p resolution)
    • 10.8-µm micromirror pitch
    • ±12° micromirror tilt angle (relative to flat state)
    • Designed for corner illumination
  • Designed for use with Visible light (400 nm to 700 nm):
    • Window transmission 96% (Single Pass, Through Two Window Surfaces)
    • Micromirror reflectivity 89%
    • Array diffraction efficiency 87%
    • Array fill factor 94%
  • Four 16-bit, low-voltage differential signaling (LVDS), double data rate (DDR) input data buses
  • Up to 400-MHz input data clock rate
  • 42.2-mm × 42.2-mm × 7-mm package footprint
  • Hermetic package

The DLP9500 1080p chipset is part of the DLP Discovery™ 4100 platform, which enables high resolution and high performance spatial light modulation. The DLP9500 is the digital micromirror device (DMD) fundamental to the 0.95 1080p chipset. The DLP Discovery 4100 platform also provides the highest level of individual micromirror control with the option for random row addressing. Combined with a hermetic package, the unique capability and value offered by DLP9500 makes it well suited to support a wide variety of industrial, medical, and advanced display applications.

In addition to the DLP9500 DMD, the 0.95 1080p chipset includes a dedicated DLPC410 controller required for high speed pattern rates of 23,148 Hz (1-bit binary) and 2,893 Hz (8-bit gray), one unit DLPR410 (DLP Discovery 4100 Configuration PROM), and two units DLPA200 (DMD micromirror drivers).

Reliable function and operation of the DLP9500 requires that it be used in conjunction with the other components of the chipset. A dedicated chipset provides developers easier access to the DMD as well as high speed, independent micromirror control.

DLP9500 is a digitally controlled micro-electromechanical system (MEMS) spatial light modulator (SLM). When coupled to an appropriate optical system, the DLP9500 can be used to modulate the amplitude, direction, and/or phase of incoming light.

The DLP9500 1080p chipset is part of the DLP Discovery™ 4100 platform, which enables high resolution and high performance spatial light modulation. The DLP9500 is the digital micromirror device (DMD) fundamental to the 0.95 1080p chipset. The DLP Discovery 4100 platform also provides the highest level of individual micromirror control with the option for random row addressing. Combined with a hermetic package, the unique capability and value offered by DLP9500 makes it well suited to support a wide variety of industrial, medical, and advanced display applications.

In addition to the DLP9500 DMD, the 0.95 1080p chipset includes a dedicated DLPC410 controller required for high speed pattern rates of 23,148 Hz (1-bit binary) and 2,893 Hz (8-bit gray), one unit DLPR410 (DLP Discovery 4100 Configuration PROM), and two units DLPA200 (DMD micromirror drivers).

Reliable function and operation of the DLP9500 requires that it be used in conjunction with the other components of the chipset. A dedicated chipset provides developers easier access to the DMD as well as high speed, independent micromirror control.

DLP9500 is a digitally controlled micro-electromechanical system (MEMS) spatial light modulator (SLM). When coupled to an appropriate optical system, the DLP9500 can be used to modulate the amplitude, direction, and/or phase of incoming light.
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Documentación técnica

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Tipo Título Fecha
* Data sheet DLP9500 DLP 0.95 1080p Type A DMD datasheet (Rev. F) 30 mar 2023
* Errata DLP® Products Advisory for the DLPR410 and DLPR910 Devices PDF | HTML 16 feb 2023
Application note Digital Micromirror Device Thermal Considerations Including Pulsed Optical Sources (Rev. B) PDF | HTML 04 abr 2024
Application note DMD Optical Efficiency for Visible Wavelengths (Rev. B) PDF | HTML 10 abr 2023
Application note Wavelength Transmittance Considerations for DLP DMD Windows (Rev. E) 17 dic 2019
Application note Mounting Hardware and Quick Reference Guide for DLP® Advanced Light Control DMDs (Rev. A) 27 nov 2018
White paper High accuracy 3D scanning using Texas Instruments DLP® technology for structured (Rev. A) 25 sep 2018
Application note DMD 101: Introduction to Digital Micromirror Device (DMD) Technology (Rev. B) 23 feb 2018
Solution guide TI DLP Technology for 3D Printing (Rev. E) 08 abr 2016
More literature TI DLP Technology for Lithography (Rev. E) 16 mar 2016
Technical article Printing up the future of innovation with direct imaging lithography PDF | HTML 29 dic 2015
Technical article Three fast facts about our fastest, highest resolution chipset for industrial appl PDF | HTML 07 oct 2015
Application note System Design Considerations Using TI DLP Technology Down to 400 nm 12 nov 2014
Application note Geometric Optics for DLP® 05 dic 2013
White paper Using Lasers With DLP DMD Technology 13 jun 2013
Application note DLP System Optics Application Note 20 jul 2010

Diseño y desarrollo

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Pedidos y calidad

Información incluida:
  • RoHS
  • REACH
  • Marcado del dispositivo
  • Acabado de plomo/material de la bola
  • Clasificación de nivel de sensibilidad a la humedad (MSL) / reflujo máximo
  • Estimaciones de tiempo medio entre fallas (MTBF)/fallas en el tiempo (FIT)
  • Contenido del material
  • Resumen de calificaciones
  • Monitoreo continuo de confiabilidad
Información incluida:
  • Lugar de fabricación
  • Lugar de ensamblaje

Soporte y capacitación

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