TE0745-02-92I11-F

TE0745-02-92I11-F

Manufacturer No:

TE0745-02-92I11-F

Manufacturer:

Trenz Electronic GmbH

Description:

MOD SOM DDR3L 1GB

Datasheet:

Datasheet

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TE0745-02-92I11-F Specifications

  • Type
    Parameter
  • Operating Temperature
    -40°C ~ 85°C
  • Size / Dimension
    2.050" L x 2.990" W (52.00mm x 76.00mm)
  • Connector Type
    Board-to-Board (BTB) Socket - 480
  • RAM Size
    1GB
  • Flash Size
    64MB
  • Speed
    -
  • Co-Processor
    Zynq-7000 (Z-7045)
  • Core Processor
    ARM Cortex-A9
  • Module/Board Type
    MCU, FPGA
  • Packaging
    Bulk
  • Product Status
    Obsolete
  • Series
    TE0745
The TE0745-02-92I11-F integrated circuit chip, also known as a field-programmable gate array (FPGA), has several advantages and application scenarios. Here are some of them:Advantages: 1. High Flexibility: FPGAs can be reprogrammed to perform different functions, making them highly flexible compared to fixed-function integrated circuits. 2. Parallel Processing: FPGAs can perform multiple tasks simultaneously, enabling high-speed parallel processing. 3. Customization: These chips can be customized to meet specific application requirements, allowing for optimized performance. 4. Low Power Consumption: FPGAs are designed to be power-efficient, making them suitable for battery-powered devices or applications with strict power constraints. 5. Real-Time Processing: FPGAs can process data in real-time, making them suitable for applications that require immediate response and low latency.Application Scenarios: 1. Digital Signal Processing (DSP): FPGAs are commonly used in DSP applications such as audio and video processing, image recognition, and compression/decompression algorithms. 2. Communications and Networking: FPGAs are used in networking equipment like routers and switches to handle high-speed data processing, packet routing, and protocol conversion. 3. Industrial Automation: FPGAs are utilized in industrial control systems, robotics, and automation to perform real-time control, data acquisition, and sensor interfacing. 4. Aerospace and Defense: FPGAs are used in radar systems, avionics, and military applications for high-speed data processing, encryption/decryption, and signal analysis. 5. Internet of Things (IoT): FPGAs can be integrated into IoT devices to handle sensor data processing, edge computing, and connectivity protocols. 6. Medical Devices: FPGAs are used in medical imaging systems, patient monitoring devices, and diagnostic equipment for real-time data processing and analysis. 7. Automotive Electronics: FPGAs are employed in automotive applications like advanced driver-assistance systems (ADAS), infotainment systems, and engine control units (ECUs) for high-performance computing and real-time control.These are just a few examples, and the versatility of FPGAs allows them to be applied in various other domains where high-performance, flexibility, and real-time processing are required.