The Chilisin LVS303015-100M-N is a shielded wire-wound inductor designed for power management applications, particularly in DC-DC converters and voltage regulators. The '100M' designation indicates an inductance of 10µH. This inductor is characterized by its high current handling capability and compact 3030 (1212) footprint. The shielded construction minimizes electromagnetic interference (EMI), making it suitable for use in sensitive electronic devices. Its robust design ensures reliable performance in demanding environments. Applications often include power supplies for portable electronics, LED drivers, and various industrial devices.

Applications:

• DC-DC converters
• Power supplies for portable electronics
• LED drivers
• Voltage regulators
• EMI filtering

Features:

• Shielded construction for low EMI radiation
• Compact 3030 (1212) size
• High current carrying capacity
• Wire-wound construction
• RoHS compliant

Benefits:

• Reduced EMI for stable operation in sensitive circuits
• Small size ideal for space-constrained designs
• Efficient power conversion minimizing energy loss
• Reliable performance across diverse operating conditions
• Environmentally friendly due to RoHS compliance

Additional Details:

The LVS303015-100M-N possesses an inductance of 10µH with particular tolerance levels. Saturation current (the point at which its inductance starts to significantly drop) is a vital characteristic, as is the low DC resistance (DCR), enhancing overall efficiency. The component's self-resonant frequency (SRF) is relevant. Its shielded design assists in lessening the EMI impact on adjacent components. It is regularly paired alongside other passive components, like capacitors and resistors, to constitute comprehensive power management systems in miniature applications.

When integrating the LVS303015-100M-N into design configurations, aspects such as ripple current, temperature fluctuations, and functional frequencies require consideration. Its rugged construction provides long-term reliability, making it effective for challenging deployment scenarios.