2x12 Integrated Circuit Precision IC Socket 24 Pins DIP-24

2x12 Integrated Circuit Precision IC Socket 24 Pins DIP-24
2x12 Integrated Circuit Precision IC Socket 24 Pins DIP-24
$0.28
100 or more $0.16
1000 or more $0.11
  • Stock: In Stock
  • Product Code: ICCXXX.DIP24PP
  • Weight: 4.00

2x12 Integrated Circuit Precision IC Socket 24 Pins DIP-24

Precision IC sockets are high-quality connectors designed for mounting integrated circuits (ICs) on printed circuit boards (PCBs) with exceptional accuracy and reliability. These sockets are particularly suited for applications where precision, durability, and consistent performance are critical. They are widely used in high-end electronic devices, prototyping, and testing environments.

Key Features:

  • High Precision: Manufactured to tight tolerances to ensure accurate pin alignment and reliable connections.
  • Durability: Made from high-quality materials that provide excellent mechanical strength and long-term reliability.
  • Low Contact Resistance: Ensures minimal signal loss and reliable electrical connections.
  • Ease of Use: Allows for easy insertion and removal of ICs, facilitating quick replacements and upgrades.
  • Gold-Plated Contacts: Often feature gold-plated contacts for improved conductivity and resistance to corrosion.

Types of Precision IC Sockets:

  1. DIP (Dual In-Line Package) Precision Sockets:
    • Description: Designed for ICs with two parallel rows of pins.
    • Common Pin Counts: 8, 14, 16, 20, 24, 28, 40, etc.
    • Applications: Widely used in high-precision applications and prototyping.
  2. PLCC (Plastic Leaded Chip Carrier) Precision Sockets:
    • Description: Designed for PLCC IC packages with leads on all four sides.
    • Common Pin Counts: 20, 28, 32, 44, 52, 68, etc.
    • Applications: Used in applications requiring high pin counts and precision.
  3. PGA (Pin Grid Array) Precision Sockets:
    • Description: For ICs with an array of pins arranged in a grid pattern.
    • Applications: Common in high-performance CPUs and other high-density ICs.
  4. ZIF (Zero Insertion Force) Precision Sockets:
    • Description: Allows ICs to be inserted and removed without any insertion force.
    • Mechanism: A lever or cam mechanism secures the IC.
    • Applications: Ideal for testing and programming where frequent IC changes are required.

Advantages of Using Precision IC Sockets:

  • Accurate Alignment: Ensures precise alignment of IC pins, reducing the risk of bent or misaligned pins.
  • Reliable Connections: Provides consistent and reliable electrical connections with low contact resistance.
  • Enhanced Durability: Built to withstand repeated insertions and removals without degrading performance.
  • Corrosion Resistance: Gold-plated contacts resist oxidation and corrosion, maintaining good electrical conductivity over time.
  • Prototyping Flexibility: Essential for development and prototyping environments where ICs need frequent replacement.

Disadvantages:

  • Higher Cost: Precision IC sockets are more expensive than standard IC sockets due to their superior quality and manufacturing precision.
  • Increased Height: Adds height to the PCB, which may be a concern in compact designs.

Applications:

  • High-End Electronics: Used in high-performance electronic devices where reliability and precision are paramount.
  • Prototyping and Development: Essential in environments where ICs are frequently changed during the design and testing phases.
  • Testing and Programming: ZIF precision sockets are particularly useful for IC testing and programming.
  • Repair and Maintenance: Facilitates easy replacement of faulty ICs in high-precision electronic equipment.
  • Military and Aerospace: Often used in critical applications requiring high reliability and durability.

Example Circuit:

Components:

  • Precision IC socket (e.g., DIP, PLCC, PGA)
  • IC (e.g., microcontroller, memory chip)
  • PCB
  • Power supply

Circuit Description:

  1. Mount the Socket: Solder the precision IC socket onto the PCB, ensuring all pins are properly aligned and soldered.
  2. Insert the IC: Carefully insert the IC into the socket, ensuring all pins are correctly aligned.
  3. Connect Power Supply: Connect the power supply to the circuit as required by the IC specifications.
  4. Test the Circuit: Power on the circuit and test the functionality of the IC to ensure proper operation.

Conclusion:

Precision IC sockets are indispensable components for high-performance and high-reliability electronic applications. Their ability to provide accurate alignment, reliable connections, and enhanced durability makes them a preferred choice in prototyping, testing, and critical electronic devices. Despite their higher cost, the benefits they offer in terms of performance and reliability often outweigh the disadvantages.

Package Includes:

  • 1 x Precision IC Socket (depending on the type and pin count)

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