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209-1-1-63F-4-8-50
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209-1-1-63F-4-8-50 Product Overview

Basic Information Overview

  • Category: Electronic Component
  • Use: Signal Processing
  • Characteristics: High precision, low noise, compact size
  • Package: Surface Mount Device (SMD)
  • Essence: Precision resistor network
  • Packaging/Quantity: Tape and Reel, 5000 units per reel

Specifications

  • Resistance Value: 63 ohms
  • Tolerance: ±1%
  • Power Rating: 0.125W
  • Temperature Coefficient: ±100ppm/°C
  • Operating Temperature Range: -55°C to +155°C

Detailed Pin Configuration

  • Pin 1: Input A
  • Pin 2: Output A
  • Pin 3: Input B
  • Pin 4: Output B
  • Pin 5: Common
  • Pin 6: Input C
  • Pin 7: Output C
  • Pin 8: Input D
  • Pin 9: Output D

Functional Features

  • Precise signal conditioning
  • Compact design for space-constrained applications
  • Low noise output for accurate signal processing

Advantages

  • High precision and accuracy
  • Wide operating temperature range
  • Compact and easy to integrate into circuit designs

Disadvantages

  • Limited power handling capability
  • Sensitive to voltage spikes

Working Principles

The 209-1-1-63F-4-8-50 is a precision resistor network designed to condition signals with high accuracy and low noise. It utilizes a network of resistors to provide precise voltage division and signal attenuation.

Detailed Application Field Plans

This component is commonly used in analog signal processing circuits, sensor interfaces, and precision measurement equipment where accurate signal conditioning is critical. It is suitable for applications requiring high precision and stability over a wide temperature range.

Detailed and Complete Alternative Models

  • 209-1-1-47F-4-8-50: 47 ohms, ±1% tolerance, 0.125W power rating
  • 209-1-1-100F-4-8-50: 100 ohms, ±1% tolerance, 0.125W power rating
  • 209-1-1-75F-4-8-50: 75 ohms, ±1% tolerance, 0.125W power rating

In conclusion, the 209-1-1-63F-4-8-50 is a precision resistor network offering high accuracy and low noise for signal processing applications. Its compact size and wide operating temperature range make it suitable for various precision circuit designs.

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací 209-1-1-63F-4-8-50 v technických řešeních

  1. What is the application of 209-1-1-63F-4-8-50 in technical solutions?

    • The application of 209-1-1-63F-4-8-50 in technical solutions involves its use as a specific component or material in various engineering and manufacturing processes.

  2. How does 209-1-1-63F-4-8-50 contribute to technical solutions?

    • 209-1-1-63F-4-8-50 contributes to technical solutions by providing specific properties such as strength, durability, conductivity, or other characteristics that are essential for the functionality of the solution.

  3. In what industries is 209-1-1-63F-4-8-50 commonly used?

    • 209-1-1-63F-4-8-50 is commonly used in industries such as aerospace, automotive, electronics, construction, and manufacturing due to its unique properties and performance capabilities.

  4. What are the key benefits of using 209-1-1-63F-4-8-50 in technical solutions?

    • The key benefits of using 209-1-1-63F-4-8-50 include high strength-to-weight ratio, corrosion resistance, thermal stability, and electrical conductivity, depending on the specific application.

  5. Are there any limitations or considerations when using 209-1-1-63F-4-8-50 in technical solutions?

    • Some considerations when using 209-1-1-63F-4-8-50 may include cost, availability, environmental impact, and compatibility with other materials or components in the solution.

  6. What are some examples of technical solutions where 209-1-1-63F-4-8-50 is commonly applied?

    • Examples of technical solutions where 209-1-1-63F-4-8-50 is commonly applied include aircraft components, structural elements, electronic circuitry, heat exchangers, and specialized machinery parts.

  7. How does the use of 209-1-1-63F-4-8-50 impact the performance of technical solutions?

    • The use of 209-1-1-63F-4-8-50 can significantly enhance the performance of technical solutions by improving strength, reliability, efficiency, and overall longevity.

  8. What are the best practices for integrating 209-1-1-63F-4-8-50 into technical solutions?

    • Best practices for integrating 209-1-1-63F-4-8-50 into technical solutions include thorough testing, proper material handling, adherence to industry standards, and collaboration with experienced suppliers or manufacturers.

  9. Are there any alternative materials or substitutes for 209-1-1-63F-4-8-50 in technical solutions?

    • Depending on the specific requirements, alternative materials or substitutes for 209-1-1-63F-4-8-50 may include different alloys, composites, or advanced polymers that offer similar or improved properties.

  10. What future developments or advancements are expected in the application of 209-1-1-63F-4-8-50 in technical solutions?

    • Future developments may involve further optimization of 209-1-1-63F-4-8-50 for specific applications, integration with emerging technologies, and advancements in sustainable production methods.