The MLF2012DR10KT is a multilayer chip inductor from TDK Corporation, designed for use in high-frequency circuits. This compact inductor offers excellent electrical characteristics and is suitable for various applications requiring inductance in a small form factor. Its multilayer construction provides a high Q factor and stable inductance value.

Applications

• Mobile communication devices: Used in RF circuits for impedance matching and filtering.
• Wireless LAN devices: Implemented in wireless LAN modules for signal conditioning and noise reduction.
• Bluetooth modules: Employed in Bluetooth devices for filtering and impedance matching.
• High-frequency modules: Suitable for various high-frequency circuit applications.
• General electronic devices: Used in a wide array of electronic devices requiring small, high-performance inductors.

Features

• Small size: Compact 2.0 x 1.2 x 0.85 mm form factor.
• High Q factor: Provides efficient energy storage and low losses.
• Stable inductance: Offers stable inductance value over a wide temperature range.
• Multilayer construction: Enables high performance and reliability.
• RoHS compliant: Environmentally friendly, meeting RoHS standards.

Benefits

• Miniaturization: Allows for smaller and more compact electronic devices.
• Improved performance: High Q factor ensures efficient circuit operation.
• Reliability: Stable inductance and robust construction ensure reliable performance.
• Easy integration: Suitable for automated assembly processes.
• Environmentally friendly: RoHS compliance ensures environmental responsibility.

Specifications

The MLF2012DR10KT features an inductance of 0.1 μH (100nH) with a tolerance of 10%. It has a self-resonant frequency (SRF) typically above 200 MHz and a high Q factor at the specified frequency. The rated current is approximately 200mA, and the DC resistance (DCR) is very low, ensuring minimal power loss. It is designed for reflow soldering and is available in tape and reel packaging for automated assembly.

This inductor is manufactured using ceramic materials and advanced multilayer technology, offering superior performance compared to traditional wire-wound inductors in high-frequency applications. Its stable electrical characteristics and compact size make it an ideal choice for modern electronic devices.