The SPM6530T-2R2M-H is a shielded power inductor manufactured by TDK Corporation, designed for use in DC-DC converters and power supply applications where high efficiency and low EMI are crucial. The shielded construction effectively minimizes electromagnetic interference, making it suitable for sensitive electronic devices. Its robust design and compact size allow for efficient power management in space-constrained applications.

Applications:

• DC-DC converters
• Power supplies for portable devices
• LED lighting circuits
• Point-of-Load (POL) regulators
• Noise filters
• Automotive electronics

Features:

• Shielded construction for low EMI
• Compact 6.5 x 6.5 mm footprint with a height of 3.0 mm
• Low DC resistance (DCR) for high efficiency
• High current handling capability
• Operating temperature range suitable for industrial applications
• Surface Mount Technology (SMT) compatible
• RoHS compliant

Benefits:

• Reduced electromagnetic interference with surrounding components
• Efficient power conversion due to low DCR
• Smaller and lighter power supply designs
• Reliable performance in harsh environments
• Easy integration into automated manufacturing processes

Additional Details:

The SPM6530T-2R2M-H has an inductance of 2.2 μH. The 'M' indicates the tolerance, typically ±20%. Saturation current and rated current are important parameters; ensure that the inductor's saturation current exceeds the peak current in your application to prevent performance degradation. The shielded construction utilizes a magnetic material to contain the magnetic field, reducing radiation and conduction of electromagnetic noise. The 'H' likely refers to a specific material or construction that provides higher performance or a different set of characteristics compared to other variants. Refer to the TDK datasheet for comprehensive specifications, including saturation current, DC resistance, self-resonant frequency (SRF), and operating temperature range. Proper thermal management may be necessary in high-current applications to prevent overheating. The inductor's reliability and performance are critical for stable and efficient power delivery in various electronic devices.