13008-042KESB

Operating Temperature:	-55°C ~ 125°C
Failure Rate:	--
Features:	High Reliability
Ratings:	COTS
Manufacturer Size Code:	H
Lead Spacing:	--
Height - Seated (Max):	0.220" (5.60mm)
Size / Dimension:	0.315" L x 0.260" W (8.00mm x 6.60mm)
Package / Case:	3226 (8066 Metric)
Mounting Type:	Surface Mount
Lifetime @ Temp.:	--
Series:	TANTAMOUNT®, 13008
ESR (Equivalent Series Resistance):	100 mOhm
Type:	Conformal Coated
Voltage - Rated:	20V
Tolerance:	±10%
Capacitance:	330µF
Moisture Sensitivity Level (MSL):	--
Part Status:	Active
Lead Free Status / RoHS Status:	--
Packaging:	Tape & Reel (TR)

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Tantalum capacitors (sometimes referred to as \'tantalum electrolytic capacitors\') are a type of electrochemical capacitor that uses tantalum as the anode material, and an electrolytic solution that acts as the electrolyte. These capacitors are widely used in consumer electronic devices such as personal computers, mobile phones and other portable devices. They are also used in many industrial applications, including communications and power electronics. The 13008-042KESB application field and working principle of tantalum capacitors is based on the same principles as those of other types of electrochemical capacitors. In a typical capacitor, the anode consists of a conductive material, which is typically a metal. The cathode consists of a non-conductive material, such as an electrolyte, which is typically a non-reactive liquid. This capacitor works by using electrostatic attraction to draw electrons from one electrode onto the other.When a voltage is applied to the anode, it will draw electrons from the electrolyte solution. These electrons will then be attracted to the anode, causing a current to flow through the capacitor. This current flow causes a buildup of charge on the anode, which in turn builds up a potential between the anode and the electrolyte solution. This potential is known as the capacitor voltage. The higher the voltage applied to the anode, the greater the potential difference between the anode and the electrolyte, and the higher the capacitance of the capacitor.The operating voltage (or voltage rating) for tantalum capacitors is typically lower than for other types of capacitors, due to the limited availability of conductive materials such as Tantalum. This makes them suitable for use in low voltage or low current applications. They also feature a wide range of capacitance values, with some models covering more than 20 microfarads (μF).Tantalum capacitors are mainly used in high-frequency applications, such as filtering noise in radio circuits and stabilizing the power supply of high-speed electronic circuits. They are also ideal for high-frequency decoupling, as they can provide effective shielding from interference with other circuit components. Another application is as a bypass capacitor, which provides a path for high-frequency AC signals, allowing them to bypass other circuit components. In addition to their use in electronics, tantalum capacitors are also used in military and industrial applications. They are commonly used in microwave and radar systems, as well as for explosive actuation and special detection circuits. They are also used in certain radio frequency (RF) communications circuits to provide shielding, and as filtering elements to reduce spikes and noise. Tantalum capacitors have a number of advantages over other types of capacitors, such as aluminum electrolytic and ceramic. These advantages include higher capacitance, lower voltage ratings, and better linearity, all of which make them ideal for high-frequency applications. They are also more resistant to temperature extremes, and are usually smaller and lighter in weight. Overall, tantalum capacitors offer excellent performance for a wide range of applications. Their low cost and reliability make them a popular choice for consumer and industrial electronics.

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