B78108T1102
Fixed inductors and HF chokes with 1uH rating
Manufacturer: epcos
series introduction
The B78108T1102 Series is an advanced line of multilayer ceramic capacitors (MLCCs) designed for high-performance applications in the electronics industry. Renowned for their exceptional reliability and versatility, these capacitors utilize a high-quality dielectric material, ensuring stable capacitance values across a wide range of operating conditions. With a capacitance value of 1000 nF and a voltage rating of 50V, the B78108T1102 Series is engineered to support various applications that demand precision and efficiency.
One of the key features of the B78108T1102 Series is its temperature stability, which is maintained within ±15% over an operating temperature range of -55°C to +125°C. This characteristic makes them particularly suitable for environments subjected to fluctuating temperatures, such as automotive and industrial applications. Furthermore, these capacitors boast a compact design, available in the standard 0805 package size (2.0 mm x 1.25 mm), allowing for easy integration into space-constrained circuit designs while maintaining high capacitance performance.
The B78108T1102 Series excels in applications that require reliable decoupling and filtering, such as in power supply circuits, RF circuits, and signal processing systems. Their robust construction and low Equivalent Series Resistance (ESR) make them ideal for use in high-frequency environments, ensuring minimal signal loss and improved overall circuit efficiency. These capacitors are widely employed in consumer electronics, automotive electronics, telecommunications, and industrial control systems, where performance and reliability are critical.
In summary, the B78108T1102 Series represents a significant advancement in capacitor technology, delivering a perfect balance of size, performance, and reliability. With their ability to meet the rigorous demands of modern electronic applications, they stand out as a preferred choice for engineers and designers looking to enhance the performance of their circuits while adhering to compact design principles.
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