Tantalum Capacitors
Tantalum capacitors are one of the most popular and useful types of capacitors in the industry. They are generally used in various electronic devices ranging from simple consumer electronics to sophisticated industrial automation systems. The most notable application for these devices is in the power management of electronic devices.
The 134D686X9100F6 is a type of tantalum capacitor from the Vishay-Sheldon series of capacitors. It is a surface-mount, solid-dielectric capacitor with a tolerance of ± 10%. It has a rated voltage of 6.3 V, with a capacitance range of 100 F to 6.8 uF. Some specific features of this capacitor include:
- Tantalum isode capacitance of 6.8 uF
- Rated voltage of 6.3 VDC
- Tolerance of ± 10%
- Operating temperature from 55°C to +155°C
- Size of 4 mm x 2.5 mm
The 134D686X9100F6 is a solid-dielectric capacitor, meaning that it uses a small amount of highly-conductive metal oxide material as a dielectric. This type of capacitor has many advantages over other types, such as electrolytic capacitors. They are much more efficient, have lower leakage current, and can provide much longer life-time use. They are also smaller, which can be particularly beneficial in space-sensitive applications.
Application Field of 134D686X9100F6
The 134D686X9100F6 is a versatile capacitor, with applications in a wide range of electronic devices. It is commonly used in applications where high reliability is required. Some of the typical applications include:
- power supplies
- audio circuits
- laser modules
- LED power supplies
- computers
- motors
The 134D686X9100F6 has also been used in a variety of defense and industrial applications, where it is used in complex power systems and in high-quality telecommunications devices.
Working Principles of 134D686X9100F6
Tantalum capacitors work by using the material’s electrical potential to store electrical energy. As an example, consider a capacitor with two plates of metal, one at the negative potential and one at the positive potential. When a potential difference is applied, a dielectric material (in this case, a tantalum oxide) is placed between the two plates. This material acts as an insulator, allowing the positive and negative charges to remain separate, but still allowing energy to be transferred from one plate to the other.
The 134D686X9100F6, being a solid-dielectric capacitor, does not use an electrolyte or liquid to store electrical energy. The principle remains the same, however: the material between the two plates stores the energy, allowing the charges to remain separate.
Overall
The 134D686X9100F6 tantalum capacitor is an impressive device, with a wide range of applications and a reliable working principle. Its small form factor and high efficiency offer many advantages over other types of capacitors. With a variety of uses and a solid dielectric construction, the 134D686X9100F6 is a valuable asset in any sort of electronics application.