| Allicdata Part #: | MC18FA301G-F-ND |
| Manufacturer Part#: |
MC18FA301G-F |
| Price: | $ 0.00 |
| Product Category: | Capacitors |
| Manufacturer: | Cornell Dubilier Electronics (CDE) |
| Short Description: | CAP MICA 300PF 2% 100V 1812 |
| More Detail: | 300pF Mica Capacitor 100V 1812 (4532 Metric) |
| DataSheet: |  MC18FA301G-F Datasheet/PDF |
| Quantity: | 1000 |
| Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
| Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
| 1 +: | 0.00000 |
| Series: | MC |
| Packaging: | Bulk |
| Lead Free Status / RoHS Status: | -- |
| Part Status: | Active |
| Moisture Sensitivity Level (MSL): | -- |
| Capacitance: | 300pF |
| Tolerance: | ±2% |
| Voltage - Rated: | 100V |
| Dielectric Material: | Mica |
| Operating Temperature: | -55°C ~ 125°C |
| Mounting Type: | Surface Mount |
| Package / Case: | 1812 (4532 Metric) |
| Lead Spacing: | -- |
| Features: | RF, High Q, Low Loss |
| Size / Dimension: | 0.177" L x 0.126" W (4.50mm x 3.20mm) |
| Height - Seated (Max): | 0.079" (2.00mm) |
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Mica and PTFE Capacitors have a wide variety of applications due to their superior characteristics. In particular, MC18FA301G-F is a mica and PTFE capacitor. It is known for its high insulation and excellent mechanical stability, making it an ideal choice for many applications.
The construction of the MC18FA301G-F capacitor consists of two pieces of mica (or PTFE) separated by a medium of aqueous solution. The two pieces are held together by means of a plastic or metal housing. When a voltage is applied, a resulting electric field is formed between the two electrodes. This electric field produces a capacitive effect, allowing a charge to be stored in between the two electrodes.
The MC18FA301G-F capacitor is used in a wide variety of applications. It has been used in electric power supplies, amplifiers, and signal processing circuits. It is also used for motor control, noise filtering, and protection circuits. It is also used in communication systems, industrial automation systems, and medical equipment.
The working principle of MC18FA301G-F capacitor is the same as most other capacitors. When a voltage is applied to the terminals of the capacitor, an electric field is formed between the two electrodes. This field attracts electrons and results in charge accumulation on one of the electrodes, while the other electrode attracts electrons resulting in charge accumulation on the other electrode.
The accumulated charge on the two electrodes can be seen as an energy storage. As the applied voltage increases, the stored energy increases. When the applied voltage reaches a certain level the energy stored in the capacitor is released through an electrical discharge creating a spark. This spark is used to perform circuits and relay commands.
The MC18FA301G-F capacitor is an advanced form of mica and PTFE capacitor. It is capable of handling higher voltages and currents than conventional mica and PTFE capacitors. It is also more stable and reliable, making it suitable for applications which require higher temperatures. It is also able to provide higher levels of insulation compared to other types of capacitors.
When purchasing MC18FA301G-F, it is important to select a vendor who offers high quality products. High quality capacitors are essential to ensure correct performance. Be sure to check the capacitor manufacturer\'s specifications to make sure it is compatible with the system where it will be installed.
In conclusion, MC18FA301G-F is an ideal choice for many applications due to its excellent properties. It is capable of handling higher voltages and currents than conventional mica and PTFE capacitors. It is also more reliable and stable, making it suitable for applications requiring higher temperatures. The working principle of the MC18FA301G-F capacitor is similar to most other capacitors. When a voltage is applied to the capacitor, an electric field is formed between the two electrodes, allowing a charge to be stored between the two electrodes. This charge is released through an electrical discharge creating a spark which can be used to perform circuits and relay commands.
The specific data is subject to PDF, and the above content is for reference
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