| Allicdata Part #: | MC08FA330G-F-ND |
| Manufacturer Part#: |
MC08FA330G-F |
| Price: | $ 1.02 |
| Product Category: | Capacitors |
| Manufacturer: | Cornell Dubilier Electronics (CDE) |
| Short Description: | CAP MICA 33PF 2% 100V 0805 |
| More Detail: | 33pF Mica Capacitor 100V 0805 (2012 Metric) |
| DataSheet: |  MC08FA330G-F Datasheet/PDF |
| Quantity: | 1000 |
| Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
| Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
| 400 +: | $ 0.92880 |
Specifications
| Series: | MC |
| Packaging: | Bulk |
| Lead Free Status / RoHS Status: | -- |
| Part Status: | Active |
| Moisture Sensitivity Level (MSL): | -- |
| Capacitance: | 33pF |
| Tolerance: | ±2% |
| Voltage - Rated: | 100V |
| Dielectric Material: | Mica |
| Operating Temperature: | -55°C ~ 125°C |
| Mounting Type: | Surface Mount |
| Package / Case: | 0805 (2012 Metric) |
| Lead Spacing: | -- |
| Features: | RF, High Q, Low Loss |
| Size / Dimension: | 0.079" L x 0.049" W (2.00mm x 1.25mm) |
| Height - Seated (Max): | 0.055" (1.40mm) |
Description
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Mica and PTFE capacitors are components that allow for the storage, manipulation, and transfer of electrical energy. A mica capacitor is an electrical component made of a mica substrate and two conductors. The capacitor accumulates electrical energy and releases it through the conductors when the capacitor is activated. PTFE capacitors are comprised of a porous and highly dielectric material, which is used as a dielectric layer between two electrodes. While they are not as efficient as mica capacitors, they are still able to hold a substantial amount of energy.The MC08FA330G-F Application field and Working Principle are commonly associated with high-frequency AC power applications. A MC08FA330G-F Applications is typically composed of three distinct parts – the ceramic dielectric material, two metal electrodes, and a heat spreader. The ceramic dielectric material prevents electrons from moving freely in only one direction, allowing energy to be stored and released slower, with greater efficiency. The two electrodes at the edges of the dielectric material capture and hold the energy until the capacitor is activated. The heat spreader dissipates the heat generated by the capacitor, reducing the overall power consumption. A MC08FA330G-F capacitor works by the principles of accumulating and releasing energy. When the capacitor is activated, the stored electrical energy is released and current flows through the two electrodes, causing a discharge in the capacitor. In turn, the released electricity is then passed on to the desired target, allowing current to flow in the required direction. This process then begins again, allowing for efficient and reliable power transfer with minimal lost energy.The MC08FA330G-F capacitor is designed to operate most efficiently at high frequencies. This is due to the dielectric material reducing the charge carrier mobility, leading to an overall slower charge transfer. In addition, the capacitor\'s heat spreader efficiently dissipates the heat generated by the charging process, allowing for sustained performance over long periods of time.Mica and PTFE capacitors are versatile components that are capable of supporting various power electronics systems. The MC08FA330G-F Application field and Working Principle are beneficial in situations that require long-term reliable power transfer, as the capacitor’s efficient design allows for minimal energy loss while successfully transferring power. They are also ideal for high-frequency applications, due to their efficient ceramic dielectric material, allowing for greater charge transfer rates and sustained performance. Furthermore, as mica capacitors are incredibly durable and easy to integrate into a system, they are a preferred candidate for AC power applications. In conclusion, a mica and PTFE capacitor is an ideal choice for AC power applications, as they are highly efficient, reliable, and durable. The MC08FA330G-F Application field and Working Principle have proven to be exceptionally successful when it comes to high-frequency applications, as the ceramic material can reduce the free carrier mobility and the heat spreader ensures sustained performance. As mica capacitors are incredibly easy to integrate into a system, they are widely sought after for power applications.
The specific data is subject to PDF, and the above content is for reference
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