The SBY451616T-800Y-N is a Yageo wound ferrite chip inductor with an inductance of 80uH. The 'T' suffix typically indicates tape and reel packaging for automated assembly, while the 'N' suffix could denote a specific tolerance, material composition, or other manufacturer-specific characteristic. This inductor is designed for diverse electronic applications requiring inductance for filtering, energy storage, and impedance matching.

Applications:

• DC-DC Converters: Used for voltage conversion and regulation in power supplies.
• RF Filters: Employed in radio frequency circuits to filter out unwanted signals.
• EMI Suppression: Reduces electromagnetic interference in electronic devices.
• Signal Conditioning: Used to improve signal quality and reduce noise in audio and video circuits.
• Wireless Communication Devices: Found in smartphones, tablets, and other wireless devices for signal filtering.

Features:

• Wound Ferrite Core: Provides high inductance and excellent saturation characteristics.
• Surface Mount Device (SMD): Designed for automated assembly using reflow soldering.
• High Q Factor: Ensures low energy loss and efficient performance in resonant circuits.
• RoHS Compliant: Meets environmental regulations regarding hazardous substances.
• Compact Size: Small footprint allows for high-density mounting on PCBs.

Benefits:

• Improved Power Efficiency: Reduces energy waste in power supply circuits.
• Enhanced Signal Quality: Minimizes noise and distortion, leading to clearer signals.
• Effective EMI Reduction: Prevents electromagnetic interference from disrupting circuits.
• Space Saving: Allows for smaller and more compact circuit board designs.
• Reliable Performance: Provides consistent electrical characteristics over a wide range of operating conditions.

Additional Details:

The SBY451616T-800Y-N has specific dimension requirements. The operating temperature range is usually from -40°C to +85°C. It is suitable for use in reflow soldering processes. The self-resonant frequency is essential for performance in high-frequency applications. The 'N' suffix likely refers to a specific material composition or manufacturing process, affecting tolerance or temperature coefficient.