| Allicdata Part #: | 335DER2R5SGU-ND |
| Manufacturer Part#: |
335DER2R5SGU |
| Price: | $ 0.31 |
| Product Category: | Capacitors |
| Manufacturer: | |
| Short Description: | CAP 3.3F -20%, +50% 2.5V T/H |
| More Detail: | 3.3F (EDLC) Supercapacitor 2.5V Radial, Can 200 mO... |
| DataSheet: |  335DER2R5SGU Datasheet/PDF |
| Quantity: | 1000 |
| Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
| Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
| 6000 +: | $ 0.27702 |
Specifications
| Series: | DER |
| Packaging: | Bulk |
| Lead Free Status / RoHS Status: | -- |
| Part Status: | Active |
| Moisture Sensitivity Level (MSL): | -- |
| Capacitance: | 3.3F |
| Tolerance: | -20%, +50% |
| Voltage - Rated: | 2.5V |
| ESR (Equivalent Series Resistance): | 200 mOhm |
| Lifetime @ Temp.: | 1000 Hrs @ 70°C |
| Termination: | PC Pins |
| Mounting Type: | Through Hole |
| Package / Case: | Radial, Can |
| Lead Spacing: | 0.197" (5.00mm) |
| Size / Dimension: | 0.394" Dia (10.00mm) |
| Height - Seated (Max): | 0.846" (21.50mm) |
| Operating Temperature: | -25°C ~ 70°C |
Description
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Electric Double Layer Capacitors (EDLC) and Supercapacitors both have wide applications in various fields today. EDLCs and supercapacitors are used in devices such as vehicles, solar panels, and appliances, and they serve as a way to efficiently store energy for later use.
335DER2R5SGU is an example of an EDLC. They are also called "ultracapacitors" due to their ability to hold much higher energy density than traditional capacitors. The device can hold up to 10 times more energy than aluminum electrolytic capacitors, which makes them more suitable for power-intensive applications. The high capacity of these ultra capacitors is due to the use of nanomaterials and nanocomposites.
EDLCs have a number of benefits over their traditional capacitor counterparts. Unlike traditional capacitors, EDLCs have a much lower self-discharge, so less energy is wasted in the form of heat. They also have a longer life span, and they are more resistant to large fluctuations in voltage, which makes them suitable for use in harsher environments. In addition, EDLCs are much safer than traditional capacitors due to their non-flammable and non-explosive nature.
Ultra capacitors and supercapacitors are also known for their quick charge and discharge times. This makes them ideal for applications such as renewable energy storage, where quick response times are needed. In addition, they are also well-suited for peak power applications, where they can be used to provide short bursts of power when needed, such as during acceleration in vehicles.
The working principle of an EDLC is based on the creation of an electric double layer of charge on the surface of the electrodes. This double layer stores energy, much like a normal capacitor. When a voltage is applied across the electrodes, the charge layers move closer together or farther apart, depending on the direction of the voltage. This movement of charge produces a current, and this current is used to provide power to the device.
In conclusion, EDLCs and Supercapacitors are both widely used in a variety of applications today. EDLCs are significantly more powerful than traditional capacitors, and their quick charge and discharge times make them ideal for high power applications. The working principle of an EDLC is based on the creation of an electric double layer of charge on the surface of the electrodes.
335DER2R5SGU is an example of an EDLC. They are also called "ultracapacitors" due to their ability to hold much higher energy density than traditional capacitors. The device can hold up to 10 times more energy than aluminum electrolytic capacitors, which makes them more suitable for power-intensive applications. The high capacity of these ultra capacitors is due to the use of nanomaterials and nanocomposites.
EDLCs have a number of benefits over their traditional capacitor counterparts. Unlike traditional capacitors, EDLCs have a much lower self-discharge, so less energy is wasted in the form of heat. They also have a longer life span, and they are more resistant to large fluctuations in voltage, which makes them suitable for use in harsher environments. In addition, EDLCs are much safer than traditional capacitors due to their non-flammable and non-explosive nature.
Ultra capacitors and supercapacitors are also known for their quick charge and discharge times. This makes them ideal for applications such as renewable energy storage, where quick response times are needed. In addition, they are also well-suited for peak power applications, where they can be used to provide short bursts of power when needed, such as during acceleration in vehicles.
The working principle of an EDLC is based on the creation of an electric double layer of charge on the surface of the electrodes. This double layer stores energy, much like a normal capacitor. When a voltage is applied across the electrodes, the charge layers move closer together or farther apart, depending on the direction of the voltage. This movement of charge produces a current, and this current is used to provide power to the device.
In conclusion, EDLCs and Supercapacitors are both widely used in a variety of applications today. EDLCs are significantly more powerful than traditional capacitors, and their quick charge and discharge times make them ideal for high power applications. The working principle of an EDLC is based on the creation of an electric double layer of charge on the surface of the electrodes.
The specific data is subject to PDF, and the above content is for reference
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