The TK11126CSCL-G is a high-performance inductor designed and manufactured by Toko America Inc. It is engineered for surface mount applications where high efficiency and small size are critical. This inductor is part of Toko’s comprehensive range of passive components, known for their reliability and performance in various electronic circuits.
Applications
- DC-DC Converters: Used in power supplies to efficiently convert DC voltage levels.
- RF Applications: Employed in radio frequency circuits for impedance matching and filtering.
- Mobile Devices: Found in smartphones and tablets for power management and signal processing.
- Wireless Charging Systems: Utilized in wireless charging circuits for efficient energy transfer.
- LED Lighting: Incorporated in LED drivers for stable and efficient power delivery.
Features
- Surface Mount Technology (SMT): Enables automated assembly, reducing manufacturing time and costs.
- High Q Factor: Minimizes energy loss, improving circuit efficiency.
- Low DC Resistance (DCR): Reduces power dissipation and improves overall performance.
- Compact Size: Ideal for space-constrained applications, allowing for smaller device designs.
- RoHS Compliant: Meets environmental regulations, ensuring the absence of hazardous substances.
Benefits
- Improved Energy Efficiency: High Q factor and low DCR contribute to minimal energy loss.
- Reduced Heat Generation: Lower DCR reduces power dissipation, minimizing heat production.
- Enhanced Circuit Performance: Precise inductance value ensures stable and reliable operation.
- Simplified Manufacturing: SMT design allows for easy integration into automated assembly lines.
- Environmental Responsibility: RoHS compliance ensures the product is environmentally friendly.
Additional Details
The TK11126CSCL-G's electrical characteristics, including inductance, self-resonant frequency (SRF), and saturation current, are crucial for optimal performance. These parameters can be found in the official datasheet provided by Toko America Inc. The inductor's construction involves materials selected for their high-frequency performance and thermal stability. It is recommended to adhere to the soldering profile guidelines during the assembly process to ensure proper adhesion and functionality. Proper handling and storage practices should be followed to maintain the integrity and performance of the inductor.