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DLP-FPGA

DLP-FPGA

Manufacturer No:

DLP-FPGA

Manufacturer:

DLP Design Inc.

Description:

IC MODULE SPARTAN-3E 70NS 128KB

Datasheet:

Datasheet

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DLP-FPGA Specifications

  • Type
    Parameter
  • Operating Temperature
    -
  • Size / Dimension
    2.800" L x 1.200" W (71.10mm x 30.50mm)
  • Connector Type
    USB - B, Pin Header
  • RAM Size
    128KB
  • Flash Size
    -
  • Speed
    70ns
  • Co-Processor
    FT2232D
  • Core Processor
    Spartan-3E, XC3S250E
  • Module/Board Type
    FPGA, USB Core
  • Packaging
    Bulk
  • Product Status
    Obsolete
  • Series
    FPGA
DLP-FPGA integrated circuit chips offer several advantages and can be applied in various scenarios:1. Flexibility: The integration of DLP (Digital Light Processing) and FPGA (Field-Programmable Gate Array) technologies provides a high degree of flexibility. FPGA allows for reprogramming and customization of the chip's functionality, while DLP enables precise control of light patterns. This flexibility makes DLP-FPGA chips suitable for a wide range of applications.2. High-speed processing: FPGA chips are known for their parallel processing capabilities, enabling high-speed data processing. When combined with DLP technology, it allows for real-time manipulation and control of light patterns, making it ideal for applications that require fast response times.3. Programmability: FPGA chips can be programmed to perform specific tasks, making them adaptable to different applications. By integrating DLP technology, the chip can be programmed to generate complex light patterns, enabling applications such as 3D printing, lithography, and structured light scanning.4. Precision and accuracy: DLP technology provides precise control over light patterns, allowing for high-resolution imaging and accurate light modulation. This precision, when combined with the programmability of FPGA, enables applications like digital signage, projection mapping, and holography.5. Energy efficiency: FPGA chips are known for their low power consumption compared to other processing units. By integrating DLP technology, the chip can efficiently control light patterns, resulting in energy-efficient applications such as display systems, projectors, and optical communication devices.Application scenarios for DLP-FPGA integrated circuit chips include:1. 3D printing: The combination of FPGA's high-speed processing and DLP's precise light modulation enables fast and accurate 3D printing, allowing for the creation of complex and detailed objects.2. Projection systems: DLP-FPGA chips can be used in projectors and display systems to generate high-resolution images and videos with precise control over brightness, contrast, and color.3. Optical communication: By integrating FPGA and DLP technologies, the chips can be used in optical communication devices to control light patterns, enabling high-speed data transmission and signal processing.4. Biomedical imaging: DLP-FPGA chips can be utilized in biomedical imaging systems to generate structured light patterns for applications like 3D scanning, microscopy, and fluorescence imaging.5. Lithography: The combination of FPGA's programmability and DLP's precise light control makes DLP-FPGA chips suitable for lithography applications, where precise patterning is required for manufacturing semiconductors and microdevices.Overall, DLP-FPGA integrated circuit chips offer a versatile and customizable solution for applications that require high-speed processing, precise light control, and flexibility.
DLP-FPGA Relevant information