EEC-F5R5H684A

ESR (Equivalent Series Resistance):	--
Lifetime @ Temp.:	1000 Hrs @ 85°C
Termination:	PC Pins
Mounting Type:	Through Hole
Package / Case:	Radial, Can
Lead Spacing:	0.197" (5.00mm)
Size / Dimension:	0.846" Dia (21.50mm)
Height - Seated (Max):	0.374" (9.50mm)
Operating Temperature:	-25°C ~ 85°C
Series:	F
Packaging:	--
Lead Free Status / RoHS Status:	--
Part Status:	Last Time Buy
Moisture Sensitivity Level (MSL):	--
Capacitance:	680mF
Tolerance:	-20%, +80%
Voltage - Rated:	5.5V

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Electric Double Layer Capacitors (EDLC)

Electric Double Layer Capacitors (EDLCs) are a type of non-traditional capacitor that has many advantages over traditional capacitors. They are smaller in size, can store much more charge, and offer much higher energy capacities than other capacitor types. This makes them an attractive choice for many electronic applications.EEC-F5R5H684A is an example of an EDLC that is often used in applications ranging from automotive electronics to medical devices. It has an ultra-low ESR, high ripple current capability, and is capable of operating at low temperatures. Its design also makes it ideal for use in applications where fast response times are important, such as in communications and power systems.

Working Principle

EDLCs work by storing electrical charge on the surface of two polarizable plates. When voltage is applied to the plates, ions from the electrolyte solution, which is usually made up of aqueous or organic compounds, move to form two electrical double layers. This creates a farad of capacitance between the plates that can then be used to store electrical charge.When current is applied to the plates, the charge is discharged from the plates. As the charge is discharged, the ions in thee electrolyte solution move back to their original positions. This process repeats itself each time current is applied to the plates. As a result, the capacitor can be used for both high and low frequency applications.

EEC-F5R5H684A Application Field and Working Principle

The EEC-F5R5H684A is often used in automotive and medical device applications due to its fast response time and high ripple current capability. It has a capacitance of 5.5 farads and can operate at temperatures ranging from -40°C to 65°C.The working principle of the EEC-F5R5H684A is the same as other EDLCs. Voltage is applied to the plates, and ions from the electrolyte solution move to the surface to form two electrical double layers. This creates a farad of capacitance that can be used to store electrical charge. The charge is discharged from the plates when current is applied and the ions will move back to their original positions. This process is repeated each time current is applied to the plates.

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