The LQ LBM 2016T3R9J is a Taiyo Yuden multilayer ceramic inductor. It's designed for high-frequency applications where small size, high Q-factor, and tight tolerance are critical. These inductors are frequently employed in wireless communication circuits, impedance matching networks, and RF filters.

Applications

• Smartphones
• Tablets
• Wireless modules (Bluetooth, Wi-Fi)
• RF transceivers
• GPS devices

Features

• Small size (2016 footprint) for high-density mounting.
• High Q-factor for low losses and efficient signal transmission.
• Tight inductance tolerance ensures consistent circuit performance.
• Excellent self-resonant frequency (SRF) characteristics.
• Multilayer ceramic construction for high reliability.

Benefits

• Miniaturization of wireless devices.
• Improved signal quality and reduced power consumption.
• Stable and predictable circuit behavior.
• Enhanced performance in high-frequency applications.
• Long-term reliability and durability.

Additional Details

The LQ LBM 2016T3R9J has a nominal inductance of 3.9 nH. Other important specifications include the SRF, DCR, and rated current. Surface mount technology is used for automated assembly, reducing manufacturing costs and improving production efficiency. The inductor is suitable for reflow soldering processes, and the manufacturer's soldering profile should be followed. It is important to consider the parasitic effects of the inductor in high-frequency circuits. This inductor is RoHS compliant. Further information regarding packaging options, storage conditions, and environmental performance can be found in the manufacturer’s datasheet. This part is used for impedance matching in wireless communication circuits. Shielded inductors minimize electromagnetic interference (EMI) between circuits. The component provides stable electrical characteristics over a wide temperature range. Consult the datasheet for the temperature coefficient of inductance and operating temperature range. The specific series is the LBM series of multilayer inductors. These parts offer excellent performance in high-frequency applications. The small size and high Q-factor make them ideal for use in portable electronic devices.