The SDWL2012CR12JSTF is a wire wound chip inductor manufactured by Sunlord. It is designed for applications requiring a small form factor and high performance in high-frequency circuits. This inductor offers excellent Q factor and stable inductance, making it suitable for various electronic devices.

Applications:

• Mobile Phones: Used in RF circuits for impedance matching and filtering.
• Wireless Communication Devices: Employed in Bluetooth and Wi-Fi modules for signal conditioning.
• GPS Devices: Integral to the receiver circuits for optimal signal processing.
• Tablets: Incorporated in power management and RF sections.
• High-Frequency Circuits: Suitable for use in any application needing a high-quality, small inductor.

Features:

• Small Size: Compact 2012 package (2.0mm x 1.2mm) for space-constrained applications.
• High Q Factor: Provides excellent performance in high-frequency circuits.
• Wire Wound Construction: Ensures tight tolerance and stable inductance.
• High Self-Resonant Frequency: Maintains performance at higher frequencies.
• RoHS Compliant: Environmentally friendly and compliant with RoHS standards.

Benefits:

• Improved Signal Integrity: High Q factor minimizes signal loss and enhances signal clarity.
• Space Saving: Small form factor allows for denser circuit designs.
• Reliable Performance: Stable inductance ensures consistent circuit behavior.
• Reduced Power Consumption: High efficiency minimizes energy loss in RF circuits.
• Environmentally Friendly: RoHS compliance ensures the product is free from hazardous substances.

Additional Details:

The SDWL2012CR12JSTF features an inductance value of 0.12µH (120nH) and is designed for high-frequency applications. The component's construction ensures low DC resistance and high current handling capabilities. Its operating temperature range is typically between -40°C to +85°C, making it suitable for a wide range of environmental conditions. It is commonly used in impedance matching networks, RF filters, and other high-frequency applications where a small, high-performance inductor is required.