The NLC322522T-3R3J is a TDK Corporation wound inductor designed for high-frequency applications, especially in portable devices and RF circuits. This inductor is characterized by its small size, high Q-factor, and excellent self-resonant frequency, making it ideal for impedance matching, filtering, and oscillation circuits. Its shielded construction minimizes electromagnetic interference (EMI), ensuring reliable performance in sensitive electronic environments.

Applications:

• RF circuits: Used for impedance matching and filtering in RF transceivers.
• Mobile phones: Employed in antenna matching networks and power amplifiers.
• Wireless communication devices: Suitable for Bluetooth, Wi-Fi, and other wireless modules.
• High-frequency filters: Provides effective noise reduction in high-speed data lines.
• Oscillation circuits: Used in crystal oscillators and other timing circuits.

Features:

• Wound construction: Offers high Q-factor and excellent self-resonant frequency.
• Shielded construction: Minimizes EMI and provides improved performance in sensitive applications.
• Small size: Suitable for space-constrained applications in portable devices.
• High current capability: Designed to handle moderate current levels without saturation.
• RoHS compliant: Environmentally friendly and compliant with RoHS regulations.

Benefits:

• High performance: Provides efficient signal transmission and filtering.
• Low EMI: Reduces interference with other electronic components.
• Stable performance: Offers consistent performance over a wide range of frequencies.
• Compact design: Enables miniaturization of electronic devices.
• Easy to integrate: Designed for easy integration into various circuit designs.

Additional Details:

The NLC322522T-3R3J has an inductance value of 3.3uH and a tolerance of ±5%. It is designed for surface mount technology (SMT) and comes in a 3.2 x 2.5 x 2.2 mm package. The inductor's high self-resonant frequency ensures stable performance at high frequencies. This component is suitable for applications requiring high reliability and efficient signal handling in a small form factor.