The SBK321611T-700Y is a high-frequency wound chip inductor manufactured by Yageo. This inductor is designed for use in a variety of electronic circuits where specific inductance values are required for filtering, tuning, or energy storage. Its compact size and suitability for surface mount technology make it ideal for modern, space-conscious electronic devices.

Applications

• Mobile communication devices (smartphones, tablets)
• Wireless LAN (WLAN) systems
• RF transceivers
• Bluetooth devices
• GPS modules

Features

• Compact size: 3.2 x 1.6 x 1.1 mm dimensions for space-saving designs.
• High Q value: Provides efficient energy storage and minimizes signal loss at high frequencies.
• Precise inductance: 70nH inductance value for accurate circuit tuning.
• Excellent SRF (Self-Resonant Frequency): High SRF ensures stable performance in high-frequency circuits.
• Surface Mount Technology (SMT): Designed for automated assembly processes.

Benefits

• Improved signal integrity: Minimizes signal distortion in high-frequency applications.
• Enhanced circuit performance: Precise inductance value allows for optimal circuit functionality and impedance matching.
• Reduced power consumption: High Q value minimizes energy loss, improving overall efficiency.
• Space saving: Small size enables denser circuit designs and miniaturization of electronic devices.
• Reliable performance: Consistent electrical characteristics ensure stable operation across a range of conditions.

Additional Details

The SBK321611T-700Y has an inductance value of 70 nH. The 'Y' in the part number usually indicates the tolerance level of the inductance. The inductor is typically constructed with a ceramic core and wound with high-quality wire to achieve the desired inductance and Q value. It is designed for surface mount applications and provides good solderability. The operating temperature range is generally from -40°C to +85°C. Refer to the official datasheet for detailed specifications such as DC resistance (DCR) and rated current to ensure proper application and prevent component failure. Typical applications include RF filtering, impedance matching, and resonance circuits operating at high frequencies.