DLP9000XFLS

Product Overview

Category

The DLP9000XFLS belongs to the category of Digital Light Processing (DLP) technology-based microdisplay devices.

Use

It is primarily used in applications that require high-resolution and high-speed image projection, such as digital cinema projectors, industrial 3D printers, and augmented reality (AR) headsets.

Characteristics

• High resolution: The DLP9000XFLS offers a resolution of XGA (1024x768 pixels), ensuring sharp and detailed images.
• High speed: With a fast switching speed, it enables smooth video playback and reduces motion blur.
• Compact package: The device comes in a compact form factor, making it suitable for integration into various products.
• High reliability: It is designed to operate reliably under demanding conditions, ensuring consistent performance.

Packaging/Quantity

The DLP9000XFLS is typically packaged as a single microdisplay unit. The exact packaging and quantity may vary depending on the manufacturer's specifications.

Specifications

• Resolution: XGA (1024x768 pixels)
• Pixel pitch: 7.6 μm
• Micromirror array size: 0.9-inch diagonal
• Micromirror array tilt angle: ±12 degrees
• Micromirror array switching speed: Up to 32,000 Hz
• Power consumption: Varies based on application and usage

Detailed Pin Configuration

The DLP9000XFLS features a specific pin configuration that facilitates its integration into various systems. The detailed pin configuration can be found in the product datasheet provided by the manufacturer.

Functional Features

• High-resolution projection: The DLP9000XFLS enables the projection of high-quality images with excellent color reproduction and contrast.
• Fast response time: Its high-speed switching capability ensures smooth video playback and reduces motion blur.
• Scalability: The device can be used in combination with other DLP microdisplay devices to create larger and more complex projection systems.
• Flexible integration: It can be easily integrated into different optical setups, allowing for versatile applications.

Advantages

• High resolution and image quality
• Fast switching speed for smooth video playback
• Compact form factor for easy integration
• Reliable performance under demanding conditions

Disadvantages

• Higher cost compared to some alternative display technologies
• Limited availability of alternative models with similar specifications

Working Principles

The DLP9000XFLS utilizes Digital Micromirror Device (DMD) technology, where an array of microscopic mirrors is used to reflect light and create images. These mirrors can tilt rapidly, modulating the amount of light that reaches the projection lens. By controlling the mirror tilt, the device can generate precise grayscale patterns, resulting in high-resolution images.

Detailed Application Field Plans

The DLP9000XFLS finds applications in various fields, including: 1. Digital cinema projectors: It enables the projection of high-quality movies with vibrant colors and sharp details. 2. Industrial 3D printers: The device facilitates the creation of highly accurate and detailed 3D prints. 3. Augmented reality headsets: It provides a high-resolution display for immersive AR experiences.

Detailed and Complete Alternative Models

While the DLP9000XFLS offers unique features, there are alternative models available in the market that cater to similar requirements. Some notable alternatives include: - DLP9500XFLS: A higher-resolution variant with WUXGA (1920x1200 pixels) resolution. - DLP660TE: A compact microdisplay suitable for portable devices with HD (1280x720 pixels) resolution.

These alternative models provide options for different resolution needs and form factors, allowing users to choose the most suitable microdisplay for their specific applications.

In conclusion, the DLP9000XFLS is a high-resolution microdisplay device based on DLP technology. It offers excellent image quality, fast switching speed, and reliable performance. While it may have a higher cost compared to some alternatives, its unique features make it well-suited for various applications in digital cinema, industrial 3D printing, and augmented reality.