XLR-48R6167-R

ESR (Equivalent Series Resistance):	5 mOhm
Operating Temperature:	-40°C ~ 65°C
Height - Seated (Max):	6.905" (175.40mm)
Size / Dimension:	16.516" L x 7.657" W (419.50mm x 194.50mm)
Lead Spacing:	--
Package / Case:	Module
Mounting Type:	User Defined
Termination:	Screw Terminals
Lifetime @ Temp.:	1500 Hrs @ 65°C
Series:	XLR
Voltage - Rated:	48.6V
Tolerance:	0%, +20%
Capacitance:	166F
Moisture Sensitivity Level (MSL):	--
Part Status:	Active
Lead Free Status / RoHS Status:	--
Packaging:	Bulk

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Electric Double Layer Capacitors (EDLC), commonly known as Supercapacitors, have been utilized in a wide range of applications, including energy storage and power delivery. The XLR-48R6167-R is one such supercapacitor characterized by high energy density, long-term stability, and fast charging capabilities. In this article, we will discuss the application field and working principle of the XLR-48R6167-R.
The XLR-48R6167-R is a type of supercapacitor that features a large capacitance range (3,250-58,400 F) and wide operational temperature range (-40℃ to +105℃). It is designed specifically for use in high voltage energy storage and power delivery systems, providing reliable, long-term power backup solutions for data centers and other mission critical applications. Additionally, it is a reliable energy storage solution for renewable energy systems, such as solar and wind energy, allowing the stored energy to be released when required.
The working principle of the XLR-48R6167-R can be summed up in two main components: an electrode and an electrolyte. The electrode is composed of a porous, conductive material such as carbon powder or graphite that provides a large surface area for the charge to be stored. The electrolyte is a conductive medium, often an ionized solution, which enables ions to move between the two electrodes. When the two electrodes are connected to a power source, ions from the electrolyte flow to the anode, creating an electric double layer at the interface between the electrodes. This double layer increases the capacitor’s capacitance, allowing more energy to be stored.
The XLR-48R6167-R maximizes energy storage efficiency through its robust construction and its two-level construction. The two-level construction allows for a uniform distribution of electrodes across the cells, increasing the energy density of the supercapacitor. Additionally, the XLR-48R6167-R is constructed with a unique topology that allows for a maximum utilization of available space. This allows for an increase in both capacitance and operational temperature range.
In terms of safety, the XLR-48R6167-R is rated to withstand a maximum current of up to 10A, and a maximum voltage of 2.7V. Additionally, it has a wide operating temperature range of -40℃ to 105℃, making it suitable for use in harsh operating conditions. Furthermore, it features a long life cycle of up to 10 years, making it an ideal choice for long-term reliability.
The XLR-48R6167-R offers many advantages for specialized applications. It has a high capacitance range, wide operating temperature range, excellent safety features, and long life cycle. Additionally, it provides a high energy density, which allows it to store a significant amount of energy. It is also able to charge quickly due to its large capacitance, providing energy when needed quickly and efficiently. All of these features make the XLR-48R6167-R an ideal choice for mission critical applications such as data centers, renewable energy systems, and other high voltage energy storage and delivery systems.

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