Allicdata Part #: | P11346-ND |
Manufacturer Part#: |
EEC-HW0D226 |
Price: | $ 2.59 |
Product Category: | Capacitors |
Manufacturer: | Panasonic Electronic Components |
Short Description: | CAP 22F -20% +40% 2.3V T/H |
More Detail: | 22F (EDLC) Supercapacitor 2.3V Radial, Can 100 mOh... |
DataSheet: | EEC-HW0D226 Datasheet/PDF |
Quantity: | 2735 |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
1 +: | $ 2.35350 |
10 +: | $ 2.11815 |
100 +: | $ 1.60038 |
500 +: | $ 1.31796 |
1000 +: | $ 1.22382 |
2500 +: | $ 1.20028 |
ESR (Equivalent Series Resistance): | 100 mOhm @ 1kHz |
Operating Temperature: | -25°C ~ 70°C |
Height - Seated (Max): | 1.457" (37.00mm) |
Size / Dimension: | 0.709" Dia (18.00mm) |
Lead Spacing: | 0.295" (7.50mm) |
Package / Case: | Radial, Can |
Mounting Type: | Through Hole |
Termination: | PC Pins |
Lifetime @ Temp.: | 1000 Hrs @ 70°C |
Series: | HW |
Voltage - Rated: | 2.3V |
Tolerance: | -20%, +40% |
Capacitance: | 22F |
Moisture Sensitivity Level (MSL): | -- |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Bulk |
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Electric Double Layer Capacitors (EDLC), also known as supercapacitors, are special capacitors with an extremely high capacitance and energy density compared to more traditional capacitors. This makes them ideal for use in applications such as energy storage, bridging, and integration with other electrical components. The EEC-HW0D226 is a popular EDLC supercapacitor and it has a wide range of application fields and working principles.
The EEC-HW0D226 is a polymer hybrid device that utilizes a combination of porous carbon electrodes and a high-performance electrolyte to achieve high capacitance and energy storage. To understand the principles of operation, it is helpful to consider the workings of a traditional EDLC. All EDLCs utilize the same basic physical properties: when a voltage is applied to a very thin electrolyte, it generates an electric double layer. This double layer consists of positively charged ions on one edge and negatively charged ions on the other. Because of the strong attraction between the ions, the two layers are much closer together than in regular capacitors.
The EEC-HW0D226 works much the same way as a traditional EDLC, with the addition of two unique features: the use of a polymer electrolyte instead of a traditional aqueous electrolyte, and the incorporation of porous carbon electrodes to create a thin, solid supercapacitive layer. The polymer electrolyte is a special material that is designed to facilitate the movement of the ions. In addition, the porous carbon electrodes ensure that the electric double layer has a larger surface area than a traditional EDLC, allowing for a higher capacitance and energy storage.
The EEC-HW0D226 has a wide range of applications in industry and research. It is ideal for bridging between electrical components, as its high capacitance and energy storage allows it to bridge energy gaps for transient waves. It is also excellent for use in energy storage, due to its low leakage current and high capacitance-energy ratio. Furthermore, its large surface area makes it ideal for integration into other electrical components, allowing for a higher degree of integration than is possible with traditional EDLCs.
The EEC-HW0D226\'s high capacitance and energy output make it useful for a variety of other applications as well. It is often used in portable electronics, power electronics, and in automotive and home energy applications. In addition, its impressive power density makes it ideal for high-power applications such as grid energy storage, as its fast charging and discharging times ensure that a large amount of energy can be stored in a relatively small space.
In summary, the EEC-HW0D226 is an excellent EDLC supercapacitor, thanks to its combination of a high capacitance and energy density, low leakage current, and notable power density. It has a wide range of applications, from bridging energy gaps to high-power applications such as grid energy storage. Furthermore, its incorporation of a polymer electrolyte and porous carbon electrodes make it ideal for both traditional EDLC applications and integration into other electrical components.
The specific data is subject to PDF, and the above content is for reference
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