T540D336M030BH8710 Datasheet/PDFTantalum - Polymer Capacitors
T540D336M030BH8710 is a type of capacitor belonging to the tantalum-polymer family that has been developed for use in a wide range of applications. Its design include an inner core of polymer dielectric that is surrounded by a special tantalum oxide layer which make the capacitor robust and reliable. Due to its construction, it is also highly temperature resistant and self-healing.
Application Field
Due to its combination of features, the T540D336M030BH8710 is used in a variety of applications. It is commonly used as power storage, decoupling, and compensation components in mobile phones and portable devices, as well as in automotive, telecoms, and industrial electronics.
It can also be used in high-reliability applications such as the energy storage components of space and military equipment, where its features such as temperature resistance, long life, and noise demand make it an ideal choice.
Working Principle
The T540D336M030BH8710 utilizes a capacitor construction that consists of a cathode, an anode, and an electrolytic layer. The electrolytic layer is made from a polymer material that is sandwiched between the anode and the cathode. The electrodes are connected to the body of the capacitor and their contact points are electrically insulated.
When a voltage is applied to the capacitor, electrons will flow through the electrolytic layer, creating a voltage field. This voltage field will cause the electrons to build up in the anode plate and the cathode plate, forming a charge. This charge is held and stored in the capacitor, providing the energy needed.
When the voltage is switched off the charge is dissipated and the capacitor is ready to store energy once more. The stored energy can then be used either to provide energy to the circuit, or to stabilize a signal or feedback signal.
Conclusion
The T540D336M030BH8710 is a tantalum-polymer capacitor that has been developed for use in a wide range of applications, from mobile phones and military equipment, to automotive and industrial electronics. Its combination of temperature resistance, reliability, and long life make it an ideal choice for a variety of projects. Additionally, its unique construction allows it to provide a stable voltage field, enabling it to efficiently store and dissipate current when needed.