The ACL2520S-R15K-T is a wire-wound chip inductor from TDK Corporation, designed for power supply circuits and high-frequency applications. This inductor features a small size, high inductance, and low DC resistance, making it suitable for use in DC-DC converters, noise filters, and impedance matching circuits.

Applications:

• DC-DC Converters: Used as an energy storage element in DC-DC converters.
• Power Supply Circuits: Implemented in power supply circuits for filtering and noise reduction.
• Noise Filters: Functions as a noise filter to suppress unwanted noise in electronic circuits.
• Impedance Matching: Used for impedance matching in high-frequency circuits.
• Mobile Devices: Employed in smartphones, tablets, and other mobile devices for power management.

Features:

• Inductance Value: 0.15μH (R15 indicates 0.15 μH)
• Tolerance: Typically features a tolerance of ±10% or ±20%.
• Saturation Current: High saturation current capability.
• Low DC Resistance (DCR): Low DCR minimizes power losses.
• Small Size: Compact size for space-saving PCB design (2.5 x 2.0 mm).
• Operating Temperature Range: Suitable for a wide range of operating temperatures.

Benefits:

• Efficient Power Management: Low DC resistance minimizes power losses and improves efficiency.
• Compact Size: Small footprint allows for integration into space-constrained applications.
• High Inductance: Provides high inductance value for effective filtering and energy storage.
• Reliable Performance: Offers stable and reliable performance over a wide temperature range.
• Easy Integration: Designed for easy installation and integration into PCB designs.

Additional Details:

The ACL2520S-R15K-T wire-wound chip inductor is manufactured using high-quality materials and precise manufacturing processes to ensure reliable performance and long-term stability. It is designed to handle high currents without saturation, making it suitable for use in power supply circuits. The inductor's low DC resistance minimizes power losses and improves the efficiency of the circuit. The device's specifications typically include parameters such as inductance value, tolerance, saturation current, DC resistance, self-resonant frequency (SRF), and rated current. These parameters are critical for selecting the appropriate inductor for a specific application.