The VLF3010AT-2R2M1R0-PF is a shielded power inductor manufactured by TDK Corporation. This inductor is well-suited for DC-DC converters and power supply circuits that require a small form factor and efficient power handling.

Applications

• DC-DC converters
• Power supplies for portable electronics
• LED drivers
• Smartphone power management
• Wearable technology

Features

• Shielded Construction: Reduces electromagnetic interference (EMI).
• Compact Size: Enables use in space-constrained designs.
• High Current Capacity: Supports moderate current applications.
• Low DC Resistance (DCR): Improves efficiency by minimizing power loss.
• Wide Operating Temperature Range: Suitable for diverse environmental conditions.

Benefits

• Reduced EMI: Shielded design minimizes interference with other components.
• Efficient Power Conversion: Low DCR promotes higher power conversion efficiency.
• Space Saving: Compact size facilitates smaller, more efficient device designs.
• Reliable Operation: Stable performance under varied operating conditions.
• Versatile Use: Adaptable for a variety of power supply and filtering applications.

Technical Specifications

The VLF3010AT-2R2M1R0-PF features an inductance of 2.2μH with a tolerance of ±20%. It is designed to handle a rated current of 1.0A, with a low DC resistance (DCR) of 0.15 Ohms (typical) to minimize power losses. The saturation current is 1A. The inductor's shielded construction reduces electromagnetic interference (EMI). The operating temperature range is -40°C to +125°C. The inductor uses a ferrite core to optimize performance and maintains stable inductance under varying load conditions. Its compact dimensions make it ideal for use in mobile devices and other space-sensitive applications. TDK is committed to ensuring that this inductor delivers reliable, consistent performance.

The VLF3010AT series from TDK is engineered for applications that benefit from a combination of small size and effective power handling. Its shielded construction minimizes electromagnetic interference (EMI), making it suitable for sensitive electronic devices. The appreciable current capacity and low DCR facilitate efficient power conversion and minimized power loss. The compact design makes it an excellent choice for applications with space constraints.