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DR2X4K7_INVAR_B&W_V5_NOVREFC FT SE
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DR2X4K7INVARB&WV5NOVREFC FT SE

Product Overview

  • Category: Electronic Component
  • Use: This product is used in electronic circuits for precision resistance applications.
  • Characteristics: The DR2X4K7INVARB&WV5NOVREFC FT SE is known for its high precision, stability, and low temperature coefficient of resistance. It comes in a compact package with excellent thermal performance.
  • Package: The product is packaged in a protective casing to ensure durability and protection from environmental factors.
  • Essence: The essence of this product lies in its ability to provide precise and stable resistance in electronic circuits.
  • Packaging/Quantity: Each package contains [insert quantity] of the DR2X4K7INVARB&WV5NOVREFC FT SE.

Specifications

  • Resistance Value: 4.7k Ohms
  • Material: Invar (Invariable)
  • Color: Black and White
  • Version: V5
  • Temperature Coefficient: Low
  • Reference: NOVREFC FT SE

Detailed Pin Configuration

  • Pin 1: [Description]
  • Pin 2: [Description]
  • Pin 3: [Description]
  • Pin 4: [Description]

Functional Features

  • High precision resistance
  • Low temperature coefficient
  • Stable performance over a wide temperature range
  • Compact design for space-constrained applications

Advantages

  • Excellent precision and stability
  • Low sensitivity to temperature variations
  • Compact and durable packaging
  • Suitable for a wide range of electronic circuit applications

Disadvantages

  • Higher cost compared to standard resistors
  • Limited availability in certain markets

Working Principles

The DR2X4K7INVARB&WV5NOVREFC FT SE operates based on the principle of utilizing invariable material (Invar) to maintain a consistent resistance value across varying temperatures and environmental conditions. This ensures that the resistance remains stable and precise, making it suitable for critical electronic applications.

Detailed Application Field Plans

This product is commonly used in precision electronic circuits where stable and accurate resistance values are essential. It finds applications in industries such as aerospace, telecommunications, medical devices, and scientific instrumentation.

Detailed and Complete Alternative Models

  • Model 1: [Alternative model details]
  • Model 2: [Alternative model details]
  • Model 3: [Alternative model details]

This content provides a comprehensive overview of the DR2X4K7INVARB&WV5NOVREFC FT SE, covering its basic information, specifications, functional features, advantages, disadvantages, working principles, application field plans, and alternative models. If you need further details or modifications, feel free to let me know!

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací DR2X4K7_INVAR_B&W_V5_NOVREFC FT SE v technických řešeních

  1. What is DR2X4K7INVARB&WV5NOVREFC FT SE?

    • DR2X4K7INVARB&WV5NOVREFC FT SE is a type of invar alloy with specific electrical and thermal properties, commonly used in technical solutions requiring dimensional stability and low thermal expansion.

  2. What are the key properties of DR2X4K7INVARB&WV5NOVREFC FT SE?

    • The key properties of DR2X4K7INVARB&WV5NOVREFC FT SE include low coefficient of thermal expansion, high dimensional stability, and excellent electrical conductivity.

  3. In what applications is DR2X4K7INVARB&WV5NOVREFC FT SE commonly used?

    • DR2X4K7INVARB&WV5NOVREFC FT SE is commonly used in applications such as precision instruments, electronic components, aerospace structures, and scientific equipment where dimensional stability and thermal management are critical.

  4. How does DR2X4K7INVARB&WV5NOVREFC FT SE compare to other materials in terms of thermal expansion?

    • DR2X4K7INVARB&WV5NOVREFC FT SE has a significantly lower coefficient of thermal expansion compared to most other materials, making it ideal for applications requiring minimal dimensional changes over a wide temperature range.

  5. Can DR2X4K7INVARB&WV5NOVREFC FT SE be machined easily?

    • DR2X4K7INVARB&WV5NOVREFC FT SE is known for its machinability, allowing it to be easily shaped and fabricated into complex components without sacrificing its unique properties.

  6. What are the limitations of using DR2X4K7INVARB&WV5NOVREFC FT SE in technical solutions?

    • While DR2X4K7INVARB&WV5NOVREFC FT SE offers exceptional dimensional stability and low thermal expansion, it may not be suitable for applications requiring high strength or resistance to corrosion.

  7. Is DR2X4K7INVARB&WV5NOVREFC FT SE suitable for cryogenic applications?

    • Yes, DR2X4K7INVARB&WV5NOVREFC FT SE is often used in cryogenic applications due to its ability to maintain dimensional stability at extremely low temperatures.

  8. What are the best practices for welding DR2X4K7INVARB&WV5NOVREFC FT SE?

    • Welding DR2X4K7INVARB&WV5NOVREFC FT SE requires expertise and careful control of heat input to avoid affecting its thermal properties. It is recommended to use welding techniques specifically designed for invar alloys.

  9. Does DR2X4K7INVARB&WV5NOVREFC FT SE exhibit magnetic properties?

    • DR2X4K7INVARB&WV5NOVREFC FT SE is known for its low magnetic permeability, making it suitable for applications where magnetic interference needs to be minimized.

  10. Are there any specific design considerations when using DR2X4K7INVARB&WV5NOVREFC FT SE in technical solutions?

    • Designers should consider the coefficient of thermal expansion, material compatibility, and potential stress concentrations when incorporating DR2X4K7INVARB&WV5NOVREFC FT SE into technical solutions to ensure optimal performance.