Allicdata Part #: | 338-1310-ND |
Manufacturer Part#: |
MIN02-002EC351J-F |
Price: | $ 3.04 |
Product Category: | Capacitors |
Manufacturer: | Cornell Dubilier Electronics (CDE) |
Short Description: | CAP MICA 350PF 5% 300V SMD |
More Detail: | 350pF Mica Capacitor 300V Nonstandard SMD |
DataSheet: | MIN02-002EC351J-F Datasheet/PDF |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
200 +: | $ 2.76480 |
Series: | MIN02 |
Packaging: | Bulk |
Lead Free Status / RoHS Status: | -- |
Part Status: | Active |
Moisture Sensitivity Level (MSL): | -- |
Capacitance: | 350pF |
Tolerance: | ±5% |
Voltage - Rated: | 300V |
Dielectric Material: | Mica |
Operating Temperature: | -55°C ~ 200°C |
Mounting Type: | Surface Mount |
Package / Case: | Nonstandard SMD |
Lead Spacing: | -- |
Features: | RF, High Frequency |
Size / Dimension: | 0.218" L x 0.400" W (5.54mm x 10.16mm) |
Height - Seated (Max): | -- |
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Mica and PTFE Capacitors are some of the most widely used capacitors in industries, and the MIN02-002EC351J-F Capacitor is no exception. This capacitor has a wide range of applications, and the understanding of their working principles can help to maximize their potential.
Applications of the MIN02-002EC351J-F Capacitor
Mica and PTFE Capacitors such as the MIN02-002EC351J-F are often used in industrial applications due to their low cost, low dielectric absorption, low dielectric loss and low self-inductance. Some of the most common applications of this type of capacitor are in RF filters, oscillators, wave traps, motor start-up systems and AC power supplies. They are also often used in switched power supplies, as a buffer to stabilize the power supply and reduce the risk of overloading.
The MIN02-002EC351J-F Capacitor is also often used in signal processing, such as in audio equipment, amplifiers and video signal processing. It is also used in communication circuits, telecommunication, medical equipment, and in automotive electronics. This type of capacitor is also useful in protecting circuits with high-frequency surges.
Working Principle of the MIN02-002EC351J-F Capacitor
The working principle of the MIN02-002EC351J-F Capacitor is based on the physical properties of mica and polytetrafluoroethylene (PTFE). This type of capacitor has two electrodes that are separated by an insulating material, such as a thin layer of mica or PTFE. When a voltage is applied to the capacitor, the tungsten electrodes form an electric field across the dielectric. This electric field causes the electric charges to redistribute, creating an electric dipole moment within the dielectric.
The electric dipole moment is responsible for the capacitance of the capacitor, which is defined as the ability of the capacitor to store an electric charge. This capacitance depends on the thickness of the dielectric and the relative permittivity of the material between the electrodes. The thicker the dielectric layer, the higher the capacitance. Similarly, materials with a higher relative permittivity, such as PTFE, have a higher capacitance than materials with a lower relative permittivity, such as mica.
Mica and PTFE Capacitors also have low levels of self-inductance, which is the amount of inductance within the capacitor itself. This low level of self-inductance improves the performance of the capacitor, especially when used in high-frequency applications. Self-inductance can also reduce the resonance frequency of the capacitor.
Conclusion
The MIN02-002EC351J-F Capacitor is an important component in many industrial and consumer electronics applications, due to its low cost, low dielectric absorption, low dielectric loss, and low self-inductance. The working principle of the capacitor is based on the physical properties of mica and PTFE, with the thickness of the dielectric and the relative permittivity of the material between the electrodes determining the capacitor’s capacitance. This type of capacitor is also known for its low levels of self-inductance, which improve its performance in high-frequency applications, while also reducing its resonance frequency.
The specific data is subject to PDF, and the above content is for reference
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