Viz Specifikace pro podrobnosti o produktu.
DR2X4K7INVARB&WV5NOVREFC FT
Product Overview
Category
The DR2X4K7INVARB&WV5NOVREFC FT belongs to the category of precision resistors.
Use
It is used in electronic circuits to provide precise resistance values for controlling current or voltage levels.
Characteristics
- Precision: Offers highly accurate resistance values.
- Stability: Maintains consistent performance over time and temperature changes.
- Low TCR (Temperature Coefficient of Resistance): Minimizes resistance variations with temperature changes.
- High Power Rating: Capable of handling high power levels without significant degradation.
Package
The DR2X4K7INVARB&WV5NOVREFC FT comes in a compact, surface-mount package suitable for automated assembly processes.
Essence
This precision resistor is essential for maintaining precise electrical characteristics in various electronic applications.
Packaging/Quantity
The product is typically supplied in reels or trays, with quantities varying based on customer requirements.
Specifications
- Resistance Value: 4.7 kΩ
- Tolerance: ±0.1%
- Power Rating: 0.25 W
- Temperature Coefficient: ±15 ppm/°C
Detailed Pin Configuration
The DR2X4K7INVARB&WV5NOVREFC FT features a standard surface-mount configuration with two terminals for easy integration into circuit boards.
Functional Features
- Precise Resistance: Provides accurate and stable resistance for circuit control.
- Low Thermal EMF: Minimizes thermal electromotive force for improved performance in temperature-sensitive applications.
- High Reliability: Ensures consistent operation over extended periods.
Advantages and Disadvantages
Advantages
- High Precision: Offers extremely accurate resistance values.
- Stable Performance: Maintains consistent characteristics over a wide range of operating conditions.
- Compact Size: Enables space-efficient circuit design.
Disadvantages
- Limited Power Handling: Not suitable for high-power applications.
- Sensitive to Overload: May be damaged if subjected to excessive current or voltage levels.
Working Principles
The DR2X4K7INVARB&WV5NOVREFC FT operates based on the principle of utilizing its precise resistance value to control the flow of current within an electronic circuit. By accurately limiting the current or voltage, it helps maintain the desired electrical characteristics of the system.
Detailed Application Field Plans
This precision resistor is commonly used in: - Analog and digital signal processing circuits - Measurement and instrumentation equipment - Control systems and feedback networks - Precision voltage dividers and reference circuits
Detailed and Complete Alternative Models
- DR1X10KINVARB&WV5NOVREFC FT
- DR3X2K2INVARB&WV5NOVREFC FT
- DR5X1KINVARB&WV5NOVREFC FT
- DR10X470INVARB&WV5NOVREFC FT
In conclusion, the DR2X4K7INVARB&WV5NOVREFC FT is a precision resistor that offers exceptional accuracy, stability, and reliability for a wide range of electronic applications, making it an essential component in modern circuit design.
[Word Count: 456]
Seznam 10 běžných otázek a odpovědí souvisejících s aplikací DR2X4K7_INVAR_B&W_V5_NOVREFC FT v technických řešeních
What is the application of DR2X4K7INVARB&WV5NOVREFC FT in technical solutions?
- DR2X4K7INVARB&WV5NOVREFC FT is commonly used in technical solutions that require high precision and stability, such as aerospace components, scientific instruments, and industrial machinery.
How does DR2X4K7INVARB&WV5NOVREFC FT contribute to technical solutions?
- It contributes by providing a low coefficient of thermal expansion, which helps maintain dimensional stability across a wide temperature range, making it suitable for applications where temperature variations are significant.
What are the key properties of DR2X4K7INVARB&WV5NOVREFC FT that make it suitable for technical solutions?
- Its key properties include low thermal expansion, high dimensional stability, excellent mechanical strength, and resistance to corrosion, making it ideal for demanding technical applications.
In what industries is DR2X4K7INVARB&WV5NOVREFC FT commonly used?
- It is commonly used in industries such as aerospace, defense, automotive, electronics, telecommunications, and precision engineering due to its unique combination of properties.
Can DR2X4K7INVARB&WV5NOVREFC FT be used in high-temperature applications?
- Yes, DR2X4K7INVARB&WV5NOVREFC FT is suitable for high-temperature applications due to its low coefficient of thermal expansion and ability to maintain stability at elevated temperatures.
What are the limitations of using DR2X4K7INVARB&WV5NOVREFC FT in technical solutions?
- While it offers excellent thermal stability, it may not be suitable for applications requiring high electrical conductivity or magnetic properties.
Are there any specific design considerations when incorporating DR2X4K7INVARB&WV5NOVREFC FT into technical solutions?
- Designers should consider the material's thermal expansion characteristics and ensure proper allowances are made to accommodate temperature variations without compromising performance.
Does DR2X4K7INVARB&WV5NOVREFC FT require special handling or machining techniques?
- Due to its unique properties, DR2X4K7INVARB&WV5NOVREFC FT may require specialized machining techniques and careful handling to prevent distortion or damage during processing.
What are the cost implications of using DR2X4K7INVARB&WV5NOVREFC FT in technical solutions?
- While it may have a higher initial cost compared to some materials, its long-term benefits in terms of stability and performance can outweigh the initial investment in many technical applications.
Are there any alternative materials that offer similar properties to DR2X4K7INVARB&WV5NOVREFC FT for technical solutions?
- Some alternative materials with similar properties include certain grades of stainless steel, titanium alloys, and other nickel-iron alloys, but each material has its own unique characteristics and trade-offs.