The ACH4518-470 from TDK Corporation
The ACH4518-470 is a high-performance ferrite core inductor manufactured by TDK Corporation, a leading global provider of electronic components and solutions. This inductor is designed to meet the demands of modern electronic devices, offering reliable performance and superior quality.
At the heart of the ACH4518-470 is a ferrite core that delivers exceptional magnetic properties, ensuring efficient power handling and low energy loss. The inductor's compact design, measuring just 4.5 mm x 4.8 mm x 1.8 mm, makes it an ideal choice for space-constrained applications, such as power supplies, filtering circuits, and RF networks.
One of the key features of the ACH4518-470 is its high inductance value of 47 μH, which allows for effective filtering and signal conditioning in a wide range of electronic circuits. The inductor's low DC resistance of 0.40 Ω ensures minimal power dissipation, contributing to improved energy efficiency and thermal management within the device.
In terms of reliability, the ACH4518-470 is built to withstand harsh operating conditions. It boasts a high saturation current of 360 mA, ensuring stable performance even under high-current loads. Additionally, the inductor's high self-resonant frequency of 60 MHz enables its use in high-frequency applications, further expanding its versatility.
Key Features:
- Ferrite core design for efficient power handling and low energy loss
- Compact dimensions of 4.5 mm x 4.8 mm x 1.8 mm for space-constrained applications
- High inductance value of 47 μH for effective filtering and signal conditioning
- Low DC resistance of 0.40 Ω for improved energy efficiency and thermal management
- High saturation current of 360 mA for stable performance under high-current loads
- High self-resonant frequency of 60 MHz for use in high-frequency applications
The ACH4518-470 from TDK Corporation is a versatile and reliable inductor that offers exceptional performance and design flexibility for a wide range of electronic applications. Its combination of compact size, high inductance, and robust construction make it a compelling choice for engineers and designers seeking to optimize their circuits and devices.