The PBY321611T-102Y-N is a multilayer chip inductor manufactured by Chilisin. This component is designed for use in high-frequency circuits and is commonly used for filtering, impedance matching, and RF applications in various electronic devices. The multilayer construction provides a compact size and excellent performance characteristics.

Applications

• Mobile phones
• Wireless communication devices
• Bluetooth modules
• GPS receivers
• RF filters

Features

• Multilayer construction: Provides high inductance in a small size.
• High Q factor: Minimizes energy loss and improves circuit performance.
• Tight tolerance: Ensures accurate inductance value.
• Surface mount design: Enables automated assembly and reduces board space requirements.
• RoHS compliant: Compliant with environmental regulations.

Benefits

• Efficient filtering: Removes unwanted noise and interference from signals.
• Improved impedance matching: Optimizes signal transfer and reduces signal reflection.
• Compact size: Allows for smaller and more portable electronic devices.
• Reliable performance: Provides stable and consistent performance over time.
• Easy to assemble: Designed for automated assembly, simplifying the manufacturing process.

Additional Details

The PBY321611T-102Y-N multilayer chip inductor is available in various inductance values and tolerances to meet different circuit requirements. Chilisin is a reputable manufacturer of passive components, known for their quality and reliability. The '102Y' within the part number typically indicates an inductance value of 1000nH with a tolerance of +/-2%. Detailed specifications, including inductance value, tolerance, Q factor, self-resonant frequency, and DC resistance, can be found in the manufacturer's datasheet. When selecting a chip inductor, it's crucial to choose the appropriate inductance value, Q factor, and self-resonant frequency for the specific application. Always consult the datasheet for the full performance specifications and ensure the part is suitable for the intended application. The self-resonant frequency indicates the point where the inductor behaves like a capacitor, so the operating frequency should be significantly lower than this.