DZ-2R5D506T

Series:	DZ
Packaging:	Bulk
Lead Free Status / RoHS Status:	--
Part Status:	Active
Capacitance:	50F
Tolerance:	-20%, +80%
Voltage - Rated:	2.5V
ESR (Equivalent Series Resistance):	80 mOhm
Lifetime @ Temp.:	1000 Hrs @ 70°C
Termination:	PC Pins
Mounting Type:	Through Hole
Package / Case:	Radial, Can - Snap-In
Lead Spacing:	0.394" (10.00mm)
Size / Dimension:	0.984" Dia (25.00mm)
Height - Seated (Max):	1.654" (42.00mm)
Operating Temperature:	-25°C ~ 70°C

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Electric Double Layer Capacitors (EDLC) and Supercapacitors: Applications Fields and Working Principles Electric Double Layer Capacitors (EDLC) and Supercapacitors are both relatively new electrical components that can store huge amounts of energy, bridge power gaps, supply high power and high current, and be used in a wide range of applications. The DZ-2R5D506T is an example of an EDLC that offers high capacity and energy storage. It is used in devices such as consumer electronics, automotive applications including anti-lock brake systems, industrial sensors and automotive HVAC systems. Its maximum working voltage is 5.5V and its maximum operating current is 3A. EDLCs are electrochemical components that employ capacitors with a high dielectric constant and electrolyte-filled electrodes to store energy. They offer advantages such as high power, low internal resistance, and low-voltage operation, as well as a long service life of over thousands of charge/discharge cycles.EDLCs have a relatively simple structure made up of two electrodes with high dielectric constant, separated by an electrolyte region. An electric field is applied across the electrodes, causing positive ions to be attracted to the negative electrode and negative ions to the positive electrode. This accumulation of ionic charges creates a “double-layer” or electric double layer capacitance (EDLC) of electron charge on both electrodes. The electrodes can be made up of many different materials including carbon, metal oxides, activated carbons, and conducting polymers. This double-layer structure gives EDLCs a high capacitance, which means they can store more energy than traditional capacitors with the same physical size. Supercapacitors are also electrochemical components but offer even higher power and energy storage than EDLCs. They can generally handle larger operating voltages and offer bigger energy storage capacity in a given volume. This makes them useful for devices such as regenerative braking systems, renewable energy storage, and hybrid electric vehicles. A Supercapacitor typically consists of two electrodes coated in a hydrated gel or electrolyte, which allows for further charge accumulation and increases surface area for small ions, giving supercapacitors their exceptional power and energy storage properties. The electrode materials used can vary but typically include activated carbon, carbon nanotubes, or metal oxides. The stored energy in supercapacitors is also fixed. Even if the voltage across the capacitors is changed, the amount of energy they can store remains constant, allowing them to offer ultra-fast energy transfer and higher power than EDLCs. In conclusion, both EDLCs and Supercapacitors offer numerous advantages over conventional capacitors, making them attractive for a wide range of applications. They offer low internal resistance, longer service life, higher power and energy storage capabilities, and are both relatively small in size. The DZ-2R5D506T is an example of an EDLC, which offers high capacity and energy storage for many consumer and automotive applications. Supercapacitors offer even higher energy storage and power capabilities, making them suitable for demanding applications such as regenerative braking systems and hybrid electric vehicles.

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