Viz Specifikace pro podrobnosti o produktu.
1626-2-7.5A Product Overview
Product Category: Electrical Components
Use: The 1626-2-7.5A is a high-current inductor designed for use in power supply and voltage regulator modules.
Characteristics: This inductor is characterized by its high current-carrying capacity, low resistance, and compact size. It is designed to efficiently store and release energy in electrical circuits.
Package: The 1626-2-7.5A comes in a compact, heat-resistant package suitable for surface mount applications. It is available in tape and reel packaging for automated assembly.
Essence: The essence of the 1626-2-7.5A lies in its ability to provide stable and efficient power delivery in various electronic devices and systems.
Packaging/Quantity: Each package contains 1 1626-2-7.5A inductor.
Specifications
- Inductance: 7.5µH
- Current Rating: 2A
- Package Type: SMD
- Operating Temperature: -40°C to 125°C
- Tolerance: ±20%
Detailed Pin Configuration
The 1626-2-7.5A features a standard SMD pin configuration with clearly labeled input and output terminals for easy integration into circuit designs.
Functional Features
- High current-carrying capacity
- Low resistance
- Compact size
- Efficient energy storage and release
Advantages and Disadvantages
Advantages: - High efficiency - Compact design - Suitable for high-current applications
Disadvantages: - Limited to specific current and inductance ratings - Sensitive to temperature variations
Working Principles
The 1626-2-7.5A operates based on the principles of electromagnetic induction, where it stores energy in the form of a magnetic field when current flows through it. This stored energy is then released back into the circuit when the current changes, providing stability and regulation.
Detailed Application Field Plans
The 1626-2-7.5A is commonly used in power supply modules, voltage regulators, DC-DC converters, and other electronic devices requiring efficient energy storage and release capabilities. Its compact size and high current rating make it suitable for portable electronic devices as well as industrial applications.
Detailed and Complete Alternative Models
- 1626-2-10A: Higher current rating for more demanding applications
- 1626-2-5A: Lower current rating for less power-hungry designs
- 1626-2-7.5B: Variant with different tolerance and temperature range
In conclusion, the 1626-2-7.5A inductor offers a compact and efficient solution for power supply and voltage regulation applications, with its high current-carrying capacity and reliable performance. Its working principles and detailed application field plans showcase its versatility in various electronic systems.
[Word Count: 398]
Seznam 10 běžných otázek a odpovědí souvisejících s aplikací 1626-2-7.5A v technických řešeních
What is the application of 1626-2-7.5A in technical solutions?
- The 1626-2-7.5A is commonly used as a fuse in electrical circuits to protect against overcurrent conditions.
How does 1626-2-7.5A provide overcurrent protection?
- The 1626-2-7.5A fuse is designed to melt and open the circuit when the current exceeds 7.5A, thereby preventing damage to the connected components.
What are the typical technical solutions that incorporate 1626-2-7.5A fuses?
- Technical solutions such as power supplies, motor control systems, and industrial equipment often utilize 1626-2-7.5A fuses for overcurrent protection.
Are there specific standards or guidelines for using 1626-2-7.5A fuses in technical solutions?
- Yes, the application of 1626-2-7.5A fuses should adhere to relevant industry standards and manufacturer specifications to ensure proper protection and performance.
Can 1626-2-7.5A fuses be used in both AC and DC circuits?
- Yes, 1626-2-7.5A fuses are suitable for use in both AC and DC circuits, providing consistent overcurrent protection in various applications.
What are the key considerations when selecting 1626-2-7.5A fuses for a technical solution?
- Factors such as voltage rating, interrupting capacity, and ambient temperature should be carefully evaluated when choosing 1626-2-7.5A fuses for specific technical applications.
How can one determine the appropriate 1626-2-7.5A fuse for a particular technical solution?
- Calculating the maximum expected current, understanding the circuit characteristics, and consulting fuse selection guides can aid in choosing the right 1626-2-7.5A fuse.
What are the potential consequences of not incorporating 1626-2-7.5A fuses in technical solutions?
- Without proper overcurrent protection from 1626-2-7.5A fuses, equipment damage, safety hazards, and operational disruptions may occur in technical solutions.
Are there alternative overcurrent protection devices that can be used instead of 1626-2-7.5A fuses?
- Yes, circuit breakers, thermal fuses, and electronic protection devices can serve as alternatives to 1626-2-7.5A fuses based on specific technical requirements.
What maintenance practices should be followed for 1626-2-7.5A fuses in technical solutions?
- Regular inspection, testing, and replacement of 1626-2-7.5A fuses as per manufacturer recommendations are essential to ensure continued reliability and protection in technical solutions.