The T495D106K035AS4095 is a surface-mount solid tantalum capacitor from Kemet's T495 series. It's designed for general-purpose applications requiring stable performance and a relatively high capacitance value within a compact form factor. It offers a combination of volumetric efficiency and reliability, making it a suitable choice for various electronic circuits.

Applications:

• Bypass Capacitors
• Decoupling Capacitors
• Filtering in Power Supplies
• General Purpose Applications
• Timing Circuits

Features:

• Surface Mount Design
• Solid Tantalum Construction
• Molded Case
• Stable Electrical Performance
• RoHS Compliant

Benefits:

• Reduced Board Space
• High Reliability
• Long Operational Life
• Consistent Performance Over Temperature
• Environmentally Friendly

Additional Details:

This particular capacitor has a capacitance of 10µF (microfarads) with a tolerance of ±10%. The voltage rating is 35V DC. The T495 series is known for its robust construction and stable electrical characteristics. The solid tantalum dielectric provides excellent frequency response and low ESR (Equivalent Series Resistance) compared to other capacitor technologies like aluminum electrolytic. This results in better filtering and decoupling performance, particularly in high-frequency applications. The molded case offers good mechanical protection and environmental resistance. The surface mount design allows for automated placement and soldering, reducing manufacturing costs. The T495D106K035AS4095 is designed to operate over a wide temperature range, typically -55°C to +125°C. It meets or exceeds the requirements of various industry standards for tantalum capacitors. It's often used in applications where long-term reliability and stability are critical. The capacitor's construction helps to prevent failures due to vibration or mechanical shock. The device is also lead-free and RoHS compliant, meeting environmental regulations. The AS4095 suffix usually indicates a specific packaging or testing requirement defined by Kemet. Proper care should be taken when handling and soldering these capacitors to avoid damage from excessive heat or mechanical stress.