Allicdata Part #: | 399-17204-ND |
Manufacturer Part#: |
FMR0V104ZF |
Price: | $ 1.11 |
Product Category: | Capacitors |
Manufacturer: | KEMET |
Short Description: | CAP SUPER .1F 3.5V RADIAL |
More Detail: | 100mF (EDLC) Supercapacitor 3.5V Radial 50 Ohm @ 1... |
DataSheet: | FMR0V104ZF Datasheet/PDF |
Quantity: | 1000 |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
1 +: | $ 1.00800 |
10 +: | $ 0.81675 |
100 +: | $ 0.62370 |
500 +: | $ 0.47520 |
1000 +: | $ 0.41580 |
2500 +: | $ 0.40095 |
5000 +: | $ 0.38610 |
Specifications
ESR (Equivalent Series Resistance): | 50 Ohm @ 1kHz |
Operating Temperature: | -40°C ~ 85°C |
Height - Seated (Max): | 0.472" (12.00mm) |
Size / Dimension: | 0.413" L x 0.256" W (10.50mm x 6.50mm) |
Lead Spacing: | 0.197" (5.00mm) |
Package / Case: | Radial |
Mounting Type: | Through Hole |
Termination: | PC Pins |
Lifetime @ Temp.: | -- |
Series: | FMR |
Voltage - Rated: | 3.5V |
Tolerance: | -20%, +80% |
Capacitance: | 100mF |
Moisture Sensitivity Level (MSL): | -- |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Bulk |
Description
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This paper discusses the application field and working principle of the FMR0V104ZF Electric Double Layer Capacitor (EDLC) Supercapacitor. It first explains what an EDLC Supercapacitor is and reviews the various ways they are used. It then discusses the various layers that make up an EDLC Supercapacitor and the different types of EDLC Supercapacitors available. Finally, it reviews the working principle of the FMR0V104ZF EDLC Supercapacitor and how it works.
An Electric Double Layer Capacitor (EDLC), also known as a Supercapacitor, is an ultra high-capacity energy-storage device that can deliver high power with very low losses. It consists of two closely spaced dielectric layers between two electrodes. The dielectric layers, which are usually made of carbon or ceramic materials, provide an extremely high capacitance and allow the devices to store a large amount of electrical energy. The electrodes are usually made of metallic materials. They can come in different shapes and sizes, such as plates, disks, tetrahedrons, and other complicated shapes.
EDLC Supercapacitors have a wide range of applications. They can be used for energy storage, such as in solar energy systems, wind power systems, vehicle propulsion systems, and small-scale electrical power systems. They are also used in consumer electronics, such as laptop computers, cell phones, digital cameras, and PDAs. In addition, EDLC Supercapacitors can be used in military applications, such as providing energy to unmanned aerial vehicles (UAVs).
There are several types of EDLC Supercapacitors available. The most common types are the mechanical double-layer capacitor (MDLC), the lithium-ion capacitor (LIC), the electrochemical double-layer capacitor (EDLC), and the pseudocapacitance or pseudopotentiometric supercapacitor (PSC). The MDLC is the simplest type of EDLC Supercapacitor and consists of a pair of metal electrodes surrounded by a separator. The LIC is a modified version of the MDLC and consists of a lithium-ion containing separator in place of the separator film. The EDLC consists of two electrodes and two electrolytes, and is the most popular type of EDLC Supercapacitor. The PSC is the most advanced type of EDLC Supercapacitor and consists of two electrodes and an electrolyte that contains both electrical charge and pseudocapacitance.
The FMR0V104ZF is an EDLC Supercapacitor. It consists of two metal plates, separated by a layer of carbon. The two electrodes are connected to the outer terminals. The carbon layer provides high capacitance, which allows the device to store a large amount of energy. In addition, the FMR0V104ZF has a low ESR (equivalent series resistance) and a high power density.
The working principle of the FMR0V104ZF EDLC Supercapacitor is based on the electric double layer effect. When a voltage is applied across the two metal plates, an electric double layer forms between the two plates. This electric double layer is composed of two layers of electrons, one on each plate, separated by an extremely thin molecular layer of ions. The electric double layer effectively increases the surface area between the plates, resulting in a much higher capacitance than a conventional capacitor. This increased capacitance allows the EDLC Supercapacitor to store and deliver more energy than a conventional capacitor.
In conclusion, the FMR0V104ZF is an EDLC Supercapacitor that can be used for a wide range of energy storage applications. It consists of two metal plates, separated by a layer of carbon, and has a low ESR and a high power density. Its working principle is based on the electric double layer effect, which increases its capacitance and allows it to store and deliver more energy than a conventional capacitor.
An Electric Double Layer Capacitor (EDLC), also known as a Supercapacitor, is an ultra high-capacity energy-storage device that can deliver high power with very low losses. It consists of two closely spaced dielectric layers between two electrodes. The dielectric layers, which are usually made of carbon or ceramic materials, provide an extremely high capacitance and allow the devices to store a large amount of electrical energy. The electrodes are usually made of metallic materials. They can come in different shapes and sizes, such as plates, disks, tetrahedrons, and other complicated shapes.
EDLC Supercapacitors have a wide range of applications. They can be used for energy storage, such as in solar energy systems, wind power systems, vehicle propulsion systems, and small-scale electrical power systems. They are also used in consumer electronics, such as laptop computers, cell phones, digital cameras, and PDAs. In addition, EDLC Supercapacitors can be used in military applications, such as providing energy to unmanned aerial vehicles (UAVs).
There are several types of EDLC Supercapacitors available. The most common types are the mechanical double-layer capacitor (MDLC), the lithium-ion capacitor (LIC), the electrochemical double-layer capacitor (EDLC), and the pseudocapacitance or pseudopotentiometric supercapacitor (PSC). The MDLC is the simplest type of EDLC Supercapacitor and consists of a pair of metal electrodes surrounded by a separator. The LIC is a modified version of the MDLC and consists of a lithium-ion containing separator in place of the separator film. The EDLC consists of two electrodes and two electrolytes, and is the most popular type of EDLC Supercapacitor. The PSC is the most advanced type of EDLC Supercapacitor and consists of two electrodes and an electrolyte that contains both electrical charge and pseudocapacitance.
The FMR0V104ZF is an EDLC Supercapacitor. It consists of two metal plates, separated by a layer of carbon. The two electrodes are connected to the outer terminals. The carbon layer provides high capacitance, which allows the device to store a large amount of energy. In addition, the FMR0V104ZF has a low ESR (equivalent series resistance) and a high power density.
The working principle of the FMR0V104ZF EDLC Supercapacitor is based on the electric double layer effect. When a voltage is applied across the two metal plates, an electric double layer forms between the two plates. This electric double layer is composed of two layers of electrons, one on each plate, separated by an extremely thin molecular layer of ions. The electric double layer effectively increases the surface area between the plates, resulting in a much higher capacitance than a conventional capacitor. This increased capacitance allows the EDLC Supercapacitor to store and deliver more energy than a conventional capacitor.
In conclusion, the FMR0V104ZF is an EDLC Supercapacitor that can be used for a wide range of energy storage applications. It consists of two metal plates, separated by a layer of carbon, and has a low ESR and a high power density. Its working principle is based on the electric double layer effect, which increases its capacitance and allows it to store and deliver more energy than a conventional capacitor.
The specific data is subject to PDF, and the above content is for reference
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