Q1: What is the Vishay Polytech T58MM106M6R3C0500?
A1: The Vishay Polytech T58MM106M6R3C0500 is a high-performance aluminum electrolytic capacitor designed for use in various electronic circuits. It offers excellent reliability, high capacitance, and long life, making it suitable for demanding power supply and filtering applications.

Q2: What is the capacitance value of the T58MM106M6R3C0500?
A2: The T58MM106M6R3C0500 has a capacitance value of 10,000 µF, providing high capacitance for filtering and energy storage in power supply applications.

Q3: What is the rated voltage of the T58MM106M6R3C0500?
A3: The T58MM106M6R3C0500 is rated for a voltage of 63V, making it suitable for use in circuits with moderate voltage requirements.

Q4: What is the package size of the T58MM106M6R3C0500?
A4: The T58MM106M6R3C0500 is available in a cylindrical case with dimensions of 18 mm in diameter and 35 mm in height, offering a compact form factor for integration into various systems.

Q5: What are the key features of the T58MM106M6R3C0500?
A5: The key features of the T58MM106M6R3C0500 include high capacitance, long life, low ESR (equivalent series resistance), and high reliability in demanding applications, particularly for power supply filtering and energy storage.

Q6: What is the equivalent series resistance (ESR) of the T58MM106M6R3C0500?
A6: The T58MM106M6R3C0500 has a low ESR, typically around 20 mΩ, which ensures minimal power loss and better performance in high-frequency applications.

Q7: What is the temperature range of the T58MM106M6R3C0500?
A7: The T58MM106M6R3C0500 operates within a temperature range of -40°C to +105°C, ensuring reliable performance in both low and high-temperature environments.

Q8: What is the expected lifespan of the T58MM106M6R3C0500?
A8: The T58MM106M6R3C0500 has a long life expectancy of up to 5000 hours at rated voltage and temperature, making it suitable for applications requiring long-term reliability.

Q9: What applications are suitable for the T58MM106M6R3C0500?
A9: The T58MM106M6R3C0500 is typically used in power supplies, energy storage, filtering, and decoupling applications across industrial, telecommunications, automotive, and consumer electronics.

Q10: Is the T58MM106M6R3C0500 suitable for use in automotive applications?
A10: Yes, the T58MM106M6R3C0500 is suitable for automotive applications where high capacitance and durability are needed, such as in power electronics, energy storage, and voltage regulation circuits.

Q11: Does the T58MM106M6R3C0500 have polarity?
A11: Yes, the T58MM106M6R3C0500 is a polarized aluminum electrolytic capacitor, meaning it has a positive and negative terminal, which must be connected correctly in the circuit.

Q12: What is the ripple current rating for the T58MM106M6R3C0500?
A12: The T58MM106M6R3C0500 has a maximum ripple current rating of 6.3A, making it suitable for high-current applications in power supplies and filtering circuits.

Q13: What is the failure rate of the T58MM106M6R3C0500?
A13: The T58MM106M6R3C0500 has a very low failure rate due to its high-quality construction and use of advanced materials, making it highly reliable over extended periods of operation.

Q14: What are the common failure modes for the T58MM106M6R3C0500?
A14: Common failure modes for the T58MM106M6R3C0500 include electrolyte leakage, dry-out, and increases in ESR or capacitance loss due to excessive temperature, overvoltage, or incorrect polarity.

Q15: Is the T58MM106M6R3C0500 RoHS compliant?
A15: Yes, the T58MM106M6R3C0500 is RoHS compliant, ensuring it meets environmental standards for the elimination of hazardous substances in manufacturing and disposal.

Q16: What is the mount type for the T58MM106M6R3C0500?
A16: The T58MM106M6R3C0500 is designed for through-hole mounting, making it easy to integrate into various PCB designs.

Q17: Can the T58MM106M6R3C0500 be used in high-frequency applications?
A17: Yes, the T58MM106M6R3C0500 can be used in high-frequency applications, though it is most commonly applied in power supply filtering, energy storage, and voltage regulation, where low ESR and high capacitance are important.

Q18: What is the voltage derating of the T58MM106M6R3C0500?
A18: The voltage derating of the T58MM106M6R3C0500 should be observed by reducing the applied voltage by 25% for every 10°C increase in temperature beyond 25°C to ensure the capacitor’s longevity and reliable operation.

Q19: What is the application of the T58MM106M6R3C0500 in power supplies?
A19: The T58MM106M6R3C0500 is widely used in power supply circuits for filtering and energy storage, helping to smooth out voltage fluctuations and ensure stable power delivery.

Q20: Does the T58MM106M6R3C0500 require any special circuit considerations?
A20: The T58MM106M6R3C0500 should be used with appropriate ripple current and voltage ratings to avoid excessive heating. Proper polarity and derating based on temperature should also be considered to ensure optimal performance and longevity.