Product details

Illumination wavelength (Min) (nm) 363 Illumination wavelength (Max) (nm) 420 Micromirror array size 1920 x 1080 Chipset family DLP9500UV, DLPC410, DLPR410, DLPA200, DLPLCR95UVEVM, DLPLCRC410EVM Pattern rate, binary (Max) (Hz) 23148 Pixel data rate (Max) (Gbps) 48 Micromirror pitch (um) 10.8 Component type DMD Display resolution (Max) 1920 x 1080 (1080p) Pattern rate, 8-bit (Max) (Hz) 2893 Micromirror array orientation Orthogonal Micromirror driver support External Thermal dissipation (°C/W) 0.5
Illumination wavelength (Min) (nm) 363 Illumination wavelength (Max) (nm) 420 Micromirror array size 1920 x 1080 Chipset family DLP9500UV, DLPC410, DLPR410, DLPA200, DLPLCR95UVEVM, DLPLCRC410EVM Pattern rate, binary (Max) (Hz) 23148 Pixel data rate (Max) (Gbps) 48 Micromirror pitch (um) 10.8 Component type DMD Display resolution (Max) 1920 x 1080 (1080p) Pattern rate, 8-bit (Max) (Hz) 2893 Micromirror array orientation Orthogonal Micromirror driver support External Thermal dissipation (°C/W) 0.5
CLGA (FLN) 355 1777 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 UV Light
    (363 to 420 nm):
    • Window Transmission 98% (Single Pass, Through Two Window Surfaces) (Nominal)
    • Micromirror Reflectivity 88% (Nominal)
    • Array Diffraction Efficiency 85% (Nominal)
    • Array Fill Factor 92% (Nominal)
  • 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 UV Light
    (363 to 420 nm):
    • Window Transmission 98% (Single Pass, Through Two Window Surfaces) (Nominal)
    • Micromirror Reflectivity 88% (Nominal)
    • Array Diffraction Efficiency 85% (Nominal)
    • Array Fill Factor 92% (Nominal)
  • 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

DLP9500UV is a digitally controlled micro-electromechanical system (MEMS) spatial light modulator (SLM). When coupled to an appropriate optical system, the DLP9500UV can be used to modulate the amplitude, direction, and/or phase of incoming light.

The DLP95000UV chipset is a new digital micromirror device (DMD) addition to the DLP® Discovery™ 4100 platform, which enables high resolution and high performance spatial light modulation beyond the visible spectrum into the UVA spectrum (363 nm to 420 nm). The DLP9500UV DMD is designed with a special window that is optimized for UV transmission.

The DLP9500UV is the 0.95 1080p DMD, with a hermetic package, that is sold with a dedicated DLPC410 controller required for high speed pattern rates of >23000 Hz (1-bit binary) and >1700 Hz (8-bit gray), one unit DLPR410 (DLP Discovery 4100 Configuration PROM), and two units DLPA200 (DMD micromirror drivers). Refer to DLPC410, DLPA200, DLPR410, and DLP9500UV Functional Block Diagram.

Reliable function and operation of the DLP9500UV 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.

DLP9500UV is a digitally controlled micro-electromechanical system (MEMS) spatial light modulator (SLM). When coupled to an appropriate optical system, the DLP9500UV can be used to modulate the amplitude, direction, and/or phase of incoming light.

Electrically, the DLP9500UV consists of a two-dimensional array of 1-bit CMOS memory cells, organized in a grid of 1920 memory cell columns by 1080 memory cell rows. The CMOS memory array is addressed on a row-by-row basis, over four 16-bit LVDS DDR buses. Addressing is handled by a serial control bus. The specific CMOS memory access protocol is handled by the DLPC410 digital controller.

DLP9500UV is a digitally controlled micro-electromechanical system (MEMS) spatial light modulator (SLM). When coupled to an appropriate optical system, the DLP9500UV can be used to modulate the amplitude, direction, and/or phase of incoming light.

The DLP95000UV chipset is a new digital micromirror device (DMD) addition to the DLP® Discovery™ 4100 platform, which enables high resolution and high performance spatial light modulation beyond the visible spectrum into the UVA spectrum (363 nm to 420 nm). The DLP9500UV DMD is designed with a special window that is optimized for UV transmission.

The DLP9500UV is the 0.95 1080p DMD, with a hermetic package, that is sold with a dedicated DLPC410 controller required for high speed pattern rates of >23000 Hz (1-bit binary) and >1700 Hz (8-bit gray), one unit DLPR410 (DLP Discovery 4100 Configuration PROM), and two units DLPA200 (DMD micromirror drivers). Refer to DLPC410, DLPA200, DLPR410, and DLP9500UV Functional Block Diagram.

Reliable function and operation of the DLP9500UV 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.

DLP9500UV is a digitally controlled micro-electromechanical system (MEMS) spatial light modulator (SLM). When coupled to an appropriate optical system, the DLP9500UV can be used to modulate the amplitude, direction, and/or phase of incoming light.

Electrically, the DLP9500UV consists of a two-dimensional array of 1-bit CMOS memory cells, organized in a grid of 1920 memory cell columns by 1080 memory cell rows. The CMOS memory array is addressed on a row-by-row basis, over four 16-bit LVDS DDR buses. Addressing is handled by a serial control bus. The specific CMOS memory access protocol is handled by the DLPC410 digital controller.

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Technical documentation

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

DLPLCR95UVEVM — DLP9500UV DMD evaluation board

This DLP evaluation module (EVM) houses DLP9500UV, a 0.95 UV 1080p 2x LVDS Type A DMD intended for applications using 363 – 420 nm ultraviolet (UV) illumination sources. Containing over two million micromirrors, DLPLCR95UVEVM is a convenient high resolution system design option for (...)
In stock
Limit: 5
Evaluation board

DLPLCRC410EVM — DLPLCRC410 Evaluation Module

The DLPLCRC410EVM, paired with one of five other DMD-based EVMs, is an evaluation platform exhibiting advanced light control for applications like lithography, 3D Printing (SLS and SLA), Machine Vision, and Marking and Coding. This EVM enables evaluations of new customer illumination sources (...)
In stock
Limit: 5
Evaluation board

DLI-3P-DLI41XX — DLi D4100, D4120, D4130 Development Kits for DLP Discovery chipsets

DLi kits for DLP® Discovery™ chipsets (DLPC410 with DLP7000, DLP7000UV, DLP9500 or DLP9500UV DMDs) support custom interface development for industrial and medical systems and instrumentation. Choose among kit options based on desired hardware and software support. DLi4120 kits include (...)
From: Digital Light Innovations
Evaluation board

VIALUX-3P-SUPER-410 — ViALUX SuperSpeed V-Modules for DLPC410

ViALUX’ SuperSpeed V-Modules provide complete subsystems containing a controller board for DLPC410, a digital micromirror device (DLP650LNIR, DLP7000, DLP7000UV, DLP9500, DLP9500UV or .96 WUXGA DMD) and ALP-4 controller suite software. The industrial grade modules support high-performance (...)
From: ViALUX
Evaluation board

VISI-3P-LRS-HD-UV — Visitech LUXBEAM rapid system HD UV

The LUXBEAM® Rapid System LRS-HD is a DLP® technology based stereolithography sub-system, specifically designed for single head scrolling motion 3D printing and Additive Manufacturing systems. With the robust and reliable high resolution DLP9500 chip, the LRS-HD variants UV, Hybrid (HY), and (...)

From: VISITECH
Evaluation board

VISI-3P-LRS-MCX-HD-UV — Visitech LUXBEAM rapid system MCx HD UV

Offering the same performance as the LRS-HD light engines, the LUXBEAM® Rapid System LRS-MCx offers stackability of modules for stitched images down to 50 micron pixel pitch in image. This allows for highest manufacturing throughput for 3D printing with single pass linear motion systems. Special (...)

From: VISITECH
Evaluation board

WDST-3P-W4100 — Wintech W4100 High Speed Development Kit

The Wintech W4100 development kit provides users with an alternative to Texas Instruments DLP® Discovery™ 4100 development platform. It utilizes the same FPGA platform and same data interfaces for frame rates up to 32,552 Hz and grayscale operation. The W4100 is compatible with the (...)
From: Wintech Digital Systems Technology
Optical module

DLP-OMM-SEARCH — DLP® Products third-party search tools

To best meet your design needs and accelerate your time-to-market, DLP® Products works with a variety of third parties to help with everything from optical modules and hardware design to specialty software and other production services. Download one or both search tools listed below to quickly (...)

Optical module

VISI-3P-LITHOGRAPHY — VISITECH LUXBEAM Lithography System

LUXBEAM LITHOGRAPHY SYTEMS (LLS) is a sub system for direct imaging lithography machines including fully automated in-line machines for 24/7 manufacturing. The system comes with a documented interface and on-site support for easy hardware and software integration. Several photo head options are (...)
From: VISITECH
Optical module

VISI-3P-LUXBEAM-RAPID — Visitech Luxbeam® Rapid System LRS

The LUXBEAM RAPID SYSTEM LRS-UV/HY/VIS is a 3D printer subsystem with flexible build area and high throughput, high resolution manufacturing. It enables smart functions such as sub-pixelation (SPX) for resolution enhancement, and pixel power control (PPC) to equalize energy per pixel.  It also (...)
From: VISITECH
Optical module

VISI-3P-LUXBEAM4600 — VISITECH LUXBEAM 4600 DLP formatter board

The LUXBEAM 4600 serves high-speed industrial applications requiring high resolution, fast frame rates, and single pixel control. It includes a DMD board connected with a flex cable and VISITECH’s LUXWARE firmware for memory management, sequencing and I/O signaling. The board also has a (...)
From: VISITECH
Application software & framework

VIALUX-3P-ALP-4 — ViALUX ALP-4.1 Controller Software Suite for DLPLCRC410 Evaluation Module

ViALUX’ ALP-4.1 is an accessory software package compatible with the DLPLCRC410 evaluation module from Texas Instruments. It supports the built-in hardware components and contains the corresponding driver and controller firmware as well as ViALUX’ FPGA logic design for the EVM board. The (...)
From: ViALUX
Simulation model

DLP9500 IBIS Model

DLPC063.ZIP (35 KB) - IBIS Model
Simulation tool

DLPR410-IBIS — DLPR410 IBIS Model

IBIS file for the DLPR410 PROM device which supports the DLPC410, DLP650LNIR, DLP7000, DLP7000UV, DLP9500 and DLP9500UV.
From: Xilinx
Design tool

DLI-3P-ACCESSORIES — DLi Accessories and Assemblies for DLP® Products

Digital Light Innovations (DLi) offers accessories, boards, and assemblies for development and production with DLP® Products. Examples include DMD controller boards, DMD board assemblies, flex cables, DMD mounting hardware assemblies, LED driver boards, and LED & fiber illumination assemblies.
  • (...)
From: Digital Light Innovations
Package Pins Download
CLGA (FLN) 355 View options

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