Allicdata Part #: | 299D336X0016DB1E3-ND |
Manufacturer Part#: |
299D336X0016DB1E3 |
Price: | $ 0.76 |
Product Category: | Capacitors |
Manufacturer: | Vishay Sprague |
Short Description: | CAP TANT 33UF 20% 16V RADIAL |
More Detail: | 33µF Conformal Coated Tantalum Capacitors 16V Radi... |
DataSheet: | 299D336X0016DB1E3 Datasheet/PDF |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
500 +: | $ 0.68796 |
Lifetime @ Temp.: | 1000 Hrs @ 85°C |
Failure Rate: | -- |
Features: | General Purpose |
Ratings: | -- |
Manufacturer Size Code: | D |
Lead Spacing: | -- |
Height - Seated (Max): | 0.440" (11.17mm) |
Size / Dimension: | 0.280" L x 0.270" W (7.10mm x 6.85mm) |
Package / Case: | Radial - 3 Leads |
Mounting Type: | Through Hole |
Series: | TANTALEX®, 299D |
Operating Temperature: | -55°C ~ 125°C |
ESR (Equivalent Series Resistance): | -- |
Type: | Conformal Coated |
Voltage - Rated: | 16V |
Tolerance: | ±20% |
Capacitance: | 33µF |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Bulk |
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Tantalum capacitors are an important form of energy storage that have a variety of applications. The part number 299D336X0016DB1E3 is a tantalum capacitor that has a maximum voltage rating of 16 Volts and in a variety of packages. Tantalum capacitors are similar to other forms of capacitors, in that they store an electrical charge in the form of an electric field. However, the electrochemical processes inside a tantalum capacitor differ from those in an ordinary capacitor, allowing the capacitor to store much more energy in a given space than would be possible with other types of capacitors.
The structure of a tantalum capacitor consists of two electrodes and a dielectric material. The two electrodes are made from tantalum metal and are connected to electrical leads. Between these electrodes is the dielectric material, usually made from a solid ceramic powder. This powder is mixed with a resin binder and then compressed into the desired shape. The dielectric material is what allows the capacitor to hold a charge, as it provides a barrier between the two electrodes and prevents a short circuit from occurring.
When a voltage is applied across the two electrodes, electrons from the negative electrode will travel to the positive electrode, building up an electric field. As the voltage is increased, the strength of the electric field will also increase, allowing more charge to be stored within the capacitor. This electric field acts as a buffer between the two electrodes, allowing charge to be held in reserve for later use. The amount of charge that can be stored in a tantalum capacitor is determined by the voltage applied, the size of the capacitor, and the material used for the dielectric material.
Tantalum capacitors are often used in automotive applications where high current flows are necessary. The small size of tantalum capacitors makes them ideal for this sort of application, as they can be easily hidden away or placed in tight spaces. Additionally, the voltage range of the capacitors can be adjusted to meet the needs of the system, allowing the capacitor to provide longer periods of reliable current flow. They can also be used in consumer electronics such as TVs and computers to provide power during unexpected power interruptions.
Tantalum capacitors have another advantage over other forms of capacitors, in that they are able to store energy for longer periods of time. This is because of their dielectric material, which dissipates over time, allowing more charge to be stored in the capacitor. This makes them ideal for applications that require a long-term supply of power, such as pacemakers or control systems.
The 299D336X0016DB1E3 tantalum capacitor is an example of a capacitor that is designed for high performance applications. With a maximum voltage rating of 16 volts and a variety of packages, it is an ideal choice for automotive, consumer electronics, and medical applications. By using a dielectric material that dissipates over time, this type of capacitor is able to provide long-term energy storage, making it perfect for use in a variety of situations.
The specific data is subject to PDF, and the above content is for reference
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299D105X0035AB1E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 1UF 20% 35V RADI... |
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299D105X9025AB6E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 1UF 10% 25V RADI... |
299D105X9035AB1 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 1UF 10% 35V RADI... |
299D105X9035AB1E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 1UF 10% 35V RADI... |
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299D155X0025AB1 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 1.5UF 20% 25V RA... |
299D155X0025AB1E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 1.5UF 20% 25V RA... |
299D224X0035AB1 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 0.22UF 20% 35V R... |
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299D225X0025AB1E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 20% 25V RA... |
299D225X0025AB6 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 20% 25V RA... |
299D225X0025AB6E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 20% 25V RA... |
299D225X9016AB6 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 10% 16V RA... |
299D225X9016AB6E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 10% 16V RA... |
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299D225X9025AB1E3 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 10% 25V RA... |
299D225X9025AB6 | Vishay Sprag... | 0.2 $ | 1000 | CAP TANT 2.2UF 10% 25V RA... |
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