The Chilisin LVS252012-100M-N is a wire-wound, shielded power inductor designed for use in various power management applications. The '100M' designation indicates an inductance value of 10µH, making it suitable for applications requiring precise inductance control and efficient power conversion. Its shielded design minimizes electromagnetic interference (EMI), allowing for use in sensitive electronic equipment. The compact 2520 (1008) footprint enables high-density board layouts.

Applications:

• DC-DC converters
• Power supplies for handheld devices
• LED lighting drivers
• Voltage regulators
• Point-of-Load (POL) converters

Features:

• Shielded construction for low EMI radiation
• Compact 2520 (1008) size
• High current carrying capacity
• Wire-wound construction
• RoHS compliant

Benefits:

• Reduced EMI allows for stable operation in sensitive environments
• Small size suitable for space-constrained applications
• Efficient power conversion reduces energy consumption
• Reliable performance over a broad temperature range
• Environmentally friendly due to RoHS compliance

Additional Details:

The LVS252012-100M-N inductor features an inductance of 10µH with a specified tolerance. Saturation current, which represents the DC current at which the inductance drops by a specified percentage, is an important parameter for power applications. It has a low DCR (DC Resistance) which contributes to its efficiency. The self-resonant frequency (SRF) specifies the frequency at which the inductor's behavior transitions from inductive to capacitive. Its shielded construction helps to minimize the potential for interference with other components. This part is ideal for use in a wide range of devices that demand high efficiency, low EMI, and a small footprint.

When incorporating the LVS252012-100M-N into a circuit design, it's essential to consider the ripple current, temperature rise, and operating frequency to ensure optimal performance and reliability. Its robustness makes it a popular option for diverse power management scenarios.