The T495D686K010ZTE150 is a surface-mount solid tantalum capacitor manufactured by Kemet. It is part of the T495 series, known for its robust construction and suitability for demanding applications. This capacitor offers a capacitance of 68µF and a voltage rating of 10V, making it ideal for power filtering, decoupling, and general-purpose use in electronic circuits. The 'ZTE150' suffix indicates specific characteristics related to ESR (Equivalent Series Resistance), tolerance, and packaging.

Applications:

• Power supply filtering
• Decoupling in digital circuits
• DC-DC converters
• General-purpose applications in electronic devices
• High-reliability applications requiring stable performance

Features:

• Surface-mount design for efficient PCB assembly
• Solid tantalum capacitor technology for enhanced reliability
• 68µF capacitance value
• 10V voltage rating
• Low ESR (Equivalent Series Resistance) for efficient power handling
• Stable performance over a wide temperature range
• RoHS compliant

Benefits:

• Improved power supply stability due to effective filtering
• Reduced noise and voltage spikes in electronic circuits
• Enhanced reliability in demanding operating conditions
• Compact size for space-constrained applications
• Long operational life compared to other capacitor technologies
• Lower power dissipation due to low ESR characteristics

Additional Details:

The T495 series tantalum capacitors are known for their volumetric efficiency and stable electrical characteristics. The 'D' case size refers to the physical dimensions of the capacitor. The 'K' in the part number signifies a capacitance tolerance of ±10%. The ESR for this particular part (ZTE150) is specifically tailored to offer optimal performance in applications requiring low impedance at higher frequencies. These capacitors are commonly used in industrial, telecommunications, and computing equipment where reliability and performance are paramount. The tantalum material used ensures consistent capacitance and minimal drift over time and temperature variations.