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10M08DAF256C8G

10M08DAF256C8G

Product Overview

  • Category: Integrated Circuit (IC)
  • Use: Digital Logic Device
  • Characteristics: Low-power, High-performance, Programmable
  • Package: 256-ball FineLine BGA (Ball Grid Array)
  • Essence: Field-Programmable Gate Array (FPGA)
  • Packaging/Quantity: Single unit per package

Specifications

  • Manufacturer: Intel Corporation
  • Family: MAX® 10
  • Device Type: FPGA - Field Programmable Gate Array
  • Number of Logic Elements/Cells: 8,000
  • Number of LABs/CLBs: 416
  • Number of I/O Pins: 202
  • Operating Voltage: 1.2V
  • Operating Temperature: -40°C to +100°C
  • Speed Grade: 8
  • Configuration Style: SRAM-based

Detailed Pin Configuration

The 10M08DAF256C8G has a total of 202 I/O pins. The pin configuration is as follows:

  • Pin 1: VCCIO
  • Pin 2: GND
  • Pin 3: IOL1PCCLK_0
  • Pin 4: IOL1NCCLK_0
  • ...
  • Pin 201: IOL202PGCLK_0
  • Pin 202: IOL202NGCLK_0

Please refer to the datasheet for the complete pin configuration details.

Functional Features

  • Low-power consumption
  • High-performance digital logic processing
  • Reconfigurable and programmable design
  • Support for various communication protocols
  • On-chip memory blocks for data storage
  • Built-in clock management resources
  • Flexible I/O capabilities

Advantages and Disadvantages

Advantages

  • Versatile and adaptable for various applications
  • Lower development costs compared to custom ASICs (Application-Specific Integrated Circuits)
  • Faster time-to-market due to reprogrammability
  • High-performance computing capabilities
  • Low-power operation for energy-efficient designs

Disadvantages

  • Limited resources compared to larger FPGAs
  • Higher power consumption compared to specialized ASICs
  • Complexity in design and programming for inexperienced users
  • Higher cost per unit compared to mass-produced ASICs

Working Principles

The 10M08DAF256C8G is based on the Field-Programmable Gate Array (FPGA) technology. It consists of programmable logic elements, memory blocks, I/O pins, and other supporting components. The device can be configured and reconfigured to implement various digital logic functions and algorithms.

The FPGA operates by using a configuration bitstream that defines the desired functionality. This bitstream is loaded into the internal memory of the FPGA, which then configures the logic elements and interconnections accordingly. The reprogrammability allows for flexibility and adaptability in different applications.

Detailed Application Field Plans

The 10M08DAF256C8G FPGA can be used in various application fields, including:

  1. Embedded Systems: Used for controlling and interfacing with peripheral devices in embedded systems.
  2. Communications: Enables high-speed data processing and protocol handling in networking equipment.
  3. Industrial Automation: Provides programmable logic for control systems and process automation.
  4. Medical Devices: Used in medical imaging, diagnostics, and patient monitoring equipment.
  5. Automotive: Supports advanced driver assistance systems (ADAS), infotainment, and engine control units (ECUs).
  6. Aerospace and Defense: Utilized in radar systems, avionics, communication systems, and military-grade equipment.

Detailed and Complete Alternative Models

  1. Intel MAX® 10 FPGA - 10M04DAF256C8G
  2. Intel MAX® 10 FPGA - 10M16DAF256C8G
  3. Intel MAX® 10 FPGA - 10M25DAF256C8G
  4. Intel MAX® 10 FPGA - 10M50DAF256C8G

These alternative models offer different logic capacity, I/O pin count, and performance characteristics to suit specific application requirements.

Note: The above information is based on the available documentation and specifications provided by the manufacturer. Please refer to the official datasheet for the most accurate and up-to-date information.

Liste 10 almindelige spørgsmål og svar relateret til anvendelsen af 10M08DAF256C8G i tekniske løsninger

Sure! Here are 10 common questions and answers related to the application of 10M08DAF256C8G in technical solutions:

  1. Question: What is the 10M08DAF256C8G?
    Answer: The 10M08DAF256C8G is a specific model of Field-Programmable Gate Array (FPGA) manufactured by Intel.

  2. Question: What are the key features of the 10M08DAF256C8G?
    Answer: Some key features include 10,000 logic elements, 256 I/O pins, 8,000 adaptive logic modules, and 256 Kbits of embedded memory.

  3. Question: What are the typical applications of the 10M08DAF256C8G?
    Answer: The 10M08DAF256C8G can be used in various applications such as industrial automation, telecommunications, automotive electronics, and medical devices.

  4. Question: How does the 10M08DAF256C8G differ from other FPGAs?
    Answer: The 10M08DAF256C8G offers a balance between cost, performance, and power consumption, making it suitable for a wide range of applications.

  5. Question: Can the 10M08DAF256C8G be programmed using industry-standard tools?
    Answer: Yes, the 10M08DAF256C8G can be programmed using popular FPGA development tools like Intel Quartus Prime.

  6. Question: What is the maximum operating frequency of the 10M08DAF256C8G?
    Answer: The maximum operating frequency depends on the design and implementation, but it can typically reach several hundred megahertz.

  7. Question: Does the 10M08DAF256C8G support external memory interfaces?
    Answer: Yes, the 10M08DAF256C8G supports various memory interfaces such as DDR3, DDR4, and QDR IV.

  8. Question: Can the 10M08DAF256C8G be used in safety-critical applications?
    Answer: Yes, the 10M08DAF256C8G offers features like error detection and correction, making it suitable for safety-critical applications.

  9. Question: What is the power consumption of the 10M08DAF256C8G?
    Answer: The power consumption depends on the design and utilization, but it typically ranges from a few hundred milliwatts to a few watts.

  10. Question: Are there any development boards available for the 10M08DAF256C8G?
    Answer: Yes, Intel provides development boards specifically designed for the 10M08DAF256C8G, which can aid in prototyping and testing.

Please note that the answers provided here are general and may vary depending on specific requirements and use cases.