The BCR-652JLC is a high-performance, shielded power inductor manufactured by Coilcraft. It is designed for use in various power supply and filtering applications, offering low DC resistance and excellent current handling capabilities. The inductor’s shielded construction minimizes electromagnetic interference (EMI), making it suitable for sensitive electronic circuits.

Applications:

• DC-DC converters.
• Power supplies for portable devices.
• Filtering in electronic circuits.
• LED lighting applications.
• Point-of-Load (POL) regulators.

Features:

• Shielded Construction: Minimizes electromagnetic interference (EMI) and reduces noise.
• Low DC Resistance: Improves efficiency by reducing power losses.
• High Current Handling: Capable of handling high current levels without saturation.
• Compact Size: Suitable for space-constrained applications.
• Surface Mount Design: Facilitates easy and reliable assembly.

Benefits:

• Reduced EMI: Shielded construction minimizes electromagnetic interference, improving circuit performance.
• High Efficiency: Low DC resistance reduces power losses, increasing overall efficiency.
• Reliable Performance: Designed for stable and reliable operation in demanding environments.
• Compact Footprint: Small size allows for use in miniaturized devices and applications.
• Easy Assembly: Surface mount design simplifies the manufacturing process.

Additional Details:

The BCR-652JLC inductor typically features an inductance value in the microhenry range and is designed to handle currents of several amperes. Its low DC resistance ensures minimal power dissipation, contributing to the overall efficiency of the power supply. The shielded construction is essential for reducing EMI, which is critical in sensitive electronic applications such as portable devices and medical equipment. The inductor's compact size makes it suitable for densely populated circuit boards. It is often used in buck converters, boost converters, and other power supply topologies to provide stable and efficient power conversion.