The SPH3010H100MT is a shielded power inductor manufactured by Sunlord. It is designed for use in DC-DC converters and power supply circuits where high efficiency, low electromagnetic interference (EMI), and compact size are critical. The inductor features a ferrite core and shielded construction to minimize core losses and reduce EMI emissions.

Applications:

• DC-DC converters in portable electronic devices.
• Power supplies for consumer electronics such as smartphones and tablets.
• Voltage regulators in automotive electronics.
• Filtering circuits in industrial control systems.
• Point-of-load (POL) converters in server and networking equipment.

Features:

• High current handling capability.
• Low DC resistance (DCR) for improved efficiency.
• Shielded construction for reduced EMI.
• Compact size for space-constrained applications.
• Ferrite core material for low core losses at high frequencies.
• RoHS compliant, meeting environmental regulations.

Benefits:

• Improved power conversion efficiency in DC-DC converters.
• Reduced EMI emissions, minimizing interference with other electronic components.
• Smaller footprint, enabling higher density designs.
• Enhanced system reliability due to robust construction.
• Cost-effective solution for power management applications.

Additional Details:

The SPH3010H100MT is typically available in a surface-mount package for automated assembly. The inductance value is 10μH, indicated by the "100" in the part number (10 x 10^0 μH). The specific saturation current, DC resistance, and operating temperature range are detailed in the manufacturer's datasheet. It's essential to consult the datasheet to ensure that the inductor's specifications meet the requirements of the intended application.

The inductor is commonly used in applications where high efficiency, low EMI, and compact size are important design considerations. The shielded construction helps to minimize EMI emissions, reducing the risk of interference with other sensitive electronic components. The low DC resistance contributes to improved power conversion efficiency, reducing power losses and heat generation. The robust construction ensures reliable performance under demanding operating conditions. The precise inductance tolerance, saturation current derating over temperature, and self-resonant frequency can be found in the official datasheet.