The Coilcraft PFL1610-102XMEW is a high-performance power inductor designed for a wide range of applications requiring efficient power conversion and filtering. This inductor is part of Coilcraft's PFL series, known for its low-profile design and excellent current handling capabilities.

Applications

• DC-DC converters
• Voltage regulators
• Power supplies
• Filtering circuits
• Automotive electronics
• Industrial power systems

Features

• Low profile: Compact design for space-constrained applications.
• High current handling: Capable of withstanding high current levels without saturation.
• Magnetically shielded construction: Reduces EMI and provides improved performance in sensitive environments.
• RoHS compliant: Environmentally friendly and compliant with RoHS standards.
• Operating temperature range: Wide operating temperature range for reliable performance in various environments.

Benefits

• High efficiency: Minimizes power losses in DC-DC converters and voltage regulators.
• Reduced EMI: Magnetically shielded construction minimizes electromagnetic interference.
• Compact size: Enables smaller and more efficient power supply designs.
• Reliable performance: Designed for long-term reliability in demanding applications.
• Improved thermal performance: Efficient heat dissipation for reliable operation at high current levels.

Additional Details

The PFL1610-102XMEW features a ferrite core material, contributing to its high inductance and current handling capabilities. The inductor is designed for surface mount technology (SMT), facilitating automated assembly and reducing manufacturing costs. It is also available in tape and reel packaging for efficient pick-and-place operations. Specific electrical characteristics include an inductance value of 1.0 µH, a tolerance of ±20%, a maximum DC resistance (DCR), and a saturation current rating. These parameters ensure optimal performance in power management circuits, providing stable and efficient power conversion. The inductor's construction and materials are selected to minimize core losses and maximize overall efficiency, making it a suitable choice for modern power electronics applications. The part is designed to operate over a broad temperature range, which makes it applicable to use in harsh environmental conditions, such as in automotive applications.