DZN-2R5D106T Allicdata Electronics
Allicdata Part #:

604-1045-ND

Manufacturer Part#:

DZN-2R5D106T

Price: $ 4.85
Product Category:

Capacitors

Manufacturer: Elna America
Short Description: CAP 10F -20% +80% 2.5V T/H
More Detail: 10F (EDLC) Supercapacitor 2.5V Radial, Can 20 mOhm...
DataSheet: DZN-2R5D106T datasheetDZN-2R5D106T Datasheet/PDF
Quantity: 100
Lead Free Status / RoHS Status: Lead free / RoHS Compliant
1 +: $ 4.40550
10 +: $ 3.91500
100 +: $ 3.13200
Stock 100Can Ship Immediately
$ 4.85
Specifications
Package / Case: Radial, Can
Lead Spacing: 0.295" (7.50mm)
Size / Dimension: 0.709" Dia (18.00mm)
Height - Seated (Max): 1.457" (37.00mm)
Operating Temperature: -25°C ~ 70°C
Series: DZN
Packaging: Bulk 
Lead Free Status / RoHS Status: --
Part Status: Active
Capacitance: 10F
Tolerance: -20%, +80%
Voltage - Rated: 2.5V
ESR (Equivalent Series Resistance): 20 mOhm @ 1kHz
Lifetime @ Temp.: 1000 Hrs @ 70°C
Termination: PC Pins
Mounting Type: Through Hole
Description

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The DZN-2R5D106T, also known as an Electric Double Layer Capacitor (EDLC) or Supercapacitor, is an important type of energy storage device that is designed for high capacitance-to-volume ratios. It is a relatively new technology and is becoming increasingly popular for its performance and durability.

The DZN-2R5D106T is composed of two electrodes, separated by an electrolyte, in which the charge is stored in an electric double layer. This electric double layer is formed at the interface between the electrodes and the electrolyte, and the charge is stored in the respective layers of the electric double layer. The electric double layer comprised of the two electrodes and the electrolyte allows for much higher capacitance-to-volume ratios than traditional capacitors.

The DZN-2R5D106T is highly efficient and is capable of delivering high current and power, while maintaining low equivalent series resistance and losses. This makes the devices highly suitable for a variety of applications including energy storage, electric vehicles, robots, and renewable energy conversion.

The working principle of the DZN-2R5D106T is based on the principle of electrochemical double layer capacitance. In this device, two electrodes are separated by an electrolyte, and at the interface between the electrodes and electrolyte, a bilayer of charges is formed. The other layer of the bilayer is the electrical double layer formed at the boundary between the electrode and the electrolyte, where the charges can be stored in the form of electrons and ions.

The double layer capacitance of the DZN-2R5D106T is relatively high due to the relatively larger surface area of the electrodes, and the relatively larger pore size of the electrolyte. This allows for better charge storage, resulting in higher performance and a more secure energy storage system.

The DZN-2R5D106T is a reliable and durable device, with long cycle life and high efficiency even under extreme conditions. Furthermore, it has excellent temperature stability, making it suitable for wide temperature ranges. In addition, it has low equivalent series resistance (ESR) and low equivalent series inductance (ESL), resulting in higher efficiency and lower losses when compared to traditional capacitors.

The DZN-2R5D106T has a wide application field, including energy storage and conversion; power backup for various electronics, such as computers, mobile phones, and other electronic devices; automotive, aviation and military applications; and even robots. Furthermore, its high performance also enables it to be used in renewable energy conversion, allowing it to be used as a substitute for batteries in solar and wind power applications.

In conclusion, the DZN-2R5D106T is an important type of energy storage device that is designed for high capacitance-to-volume ratios. It is composed of two electrodes, separated by an electrolyte, and the electric double layer formed at the interface between the electrodes and electrolyte allows for much higher capacitance-to-volume ratios than traditional capacitors. The DZN-2R5D106T is highly efficient, capable of delivering high current and power, while maintaining low equivalent series resistance and losses. It also has excellent temperature stability, making it suitable for wide temperature ranges, and its high performance makes it suitable for a wide range of applications including energy storage, electric vehicles, robots, and renewable energy conversion.

The specific data is subject to PDF, and the above content is for reference

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