Manufacturer Part Number
DLW5BTN102SQ2L
Manufacturer
murata-electronics
Introduction
The DLW5BTN102SQ2L is an obsolete common mode choke designed for power and signal line applications, offering suppression of common mode noise.
Product Features and Performance
Designed for power and signal line noise suppression
1 kOhms impedance at 100 MHz for effective noise reduction
Support for up to 2A current rating
Low DC Resistance (DCR) at max 24mOhm, reducing power loss
Compatible with surface mount technology for compact circuit board design
Small footprint with dimensions 0.197" L x 0.197" W and height of 0.098"
Product Advantages
High impedance at 100 MHz enhances noise suppression capabilities
Low DC Resistivity helps in minimizing energy loss
Designed for easy integration in PCBs with surface mount technology
Key Technical Parameters
Impedance: 1 kOhms @ 100 MHz
Current Rating (Max): 2A
DC Resistance (DCR) (Max): 24mOhm (Typ)
Voltage Rating DC: 50V
Operating Temperature: -40°C ~ 85°C
Size / Dimension: 5.00mm x 5.00mm x 2.50mm
Quality and Safety Features
Operates effectively within a wide temperature range of -40°C to 85°C, ensuring reliability under various environmental conditions
Compatibility
Suitable for surface mount technology, aligning with modern PCB design approaches
Application Areas
Used in electronics that require common mode noise suppression on power and signal lines, including computing devices, power supplies, and telecommunication equipment
Product Lifecycle
This product is marked as obsolete, indicating that it may no longer be in production and might be difficult to procure, highlighting the need for identifying replacements or upgrades
Several Key Reasons to Choose This Product
Provides effective common mode noise suppression to enhance product performance
Supports a wide range of operating temperatures, ensuring reliability across different conditions
Low DCR aids in maintaining energy efficiency
Compact design facilitates ease of integration into various electronic assemblies
Despite its obsolescence, its technical features may still offer unmatched benefits for specific legacy applications