The 501CHB2R7BSLE is a ceramic capacitor manufactured by EXXELIA Temex. It is designed for high-reliability applications where stable performance and long life are critical. Ceramic capacitors are known for their excellent temperature stability, low equivalent series resistance (ESR), and high-frequency performance, making them suitable for a wide range of applications.

Applications

• RF and Microwave Circuits
• High-Frequency Filters
• Timing Circuits
• Decoupling Applications
• High-Reliability Equipment

Features

• High capacitance stability over temperature
• Low ESR for efficient energy storage and delivery
• High Q-factor for minimal signal loss
• Small size for space-constrained applications
• RoHS compliant

Benefits

• Ensures stable performance in demanding environments with its high capacitance stability.
• Minimizes signal loss and maximizes efficiency with its low ESR and high Q-factor.
• Enables compact designs with its small size.
• Meets environmental standards with its RoHS compliance.
• Provides long-term reliability and performance in critical applications.

Additional Details

The 501CHB2R7BSLE is a multilayer ceramic capacitor (MLCC) typically constructed using ceramic dielectric materials and metal electrodes. The specific dielectric material and construction determine the capacitor's electrical characteristics, such as capacitance value, voltage rating, and temperature coefficient. The capacitor features a capacitance value of 2.7pF. It also boasts a high-quality factor. It is designed to operate over a wide temperature range, ensuring stable performance in harsh environments. The capacitor is available in various case sizes and termination styles to accommodate different mounting requirements. It is commonly used in applications requiring high reliability and stability, such as aerospace, medical, and military equipment. The specific voltage rating depends on the dielectric material and construction. The capacitor's low ESR makes it suitable for high-frequency applications, such as RF and microwave circuits. It provides efficient energy storage and delivery, minimizing signal loss and ensuring optimal performance.