Allicdata Part #: | 718-1966-2-ND |
Manufacturer Part#: |
293D475X0016B2TE3 |
Price: | $ 0.00 |
Product Category: | Capacitors |
Manufacturer: | Vishay Sprague |
Short Description: | CAP TANT 4.7UF 16V 20% 1411 |
More Detail: | 4.7µF Molded Tantalum Capacitors 16V 1411 (3528 Me... |
DataSheet: | 293D475X0016B2TE3 Datasheet/PDF |
Quantity: | 2000 |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
Operating Temperature: | -55°C ~ 125°C |
Failure Rate: | -- |
Features: | General Purpose |
Manufacturer Size Code: | B |
Lead Spacing: | -- |
Height - Seated (Max): | 0.083" (2.11mm) |
Size / Dimension: | 0.138" L x 0.110" W (3.50mm x 2.80mm) |
Package / Case: | 1411 (3528 Metric) |
Mounting Type: | Surface Mount |
Lifetime @ Temp.: | -- |
Series: | TANTAMOUNT®, 293D |
ESR (Equivalent Series Resistance): | 2.9 Ohm |
Type: | Molded |
Voltage - Rated: | 16V |
Tolerance: | ±20% |
Capacitance: | 4.7µF |
Moisture Sensitivity Level (MSL): | -- |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Tape & Reel (TR) |
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Tantalum capacitors, also known as tantalum electrolytic capacitors, are the most commonly used capacitors in the electronics market. The 293D475X0016B2TE3 is an example of a tantalum capacitor, and is used in a variety of applications and technologies. This article will look at the 293D475X0016B2TE3\'s application field and working principle, in order to better understand how this capacitor works.
As a type of electrolytic capacitor, the 293D475X0016B2TE3 contains two electrodes, an electrolyte, and an insulating oxide layer. The source of the mechanical and electrical properties of this capacitor is the oxide layer, which is formed from a combination of aluminum and tantalum. This oxide layer gives the capacitor a high capacitance per unit volume and allows for very low internal resistance.
The 293D475X0016B2TE3 is commonly used as a bypass capacitor and for decoupling, due to its small size and high capacitance. Bypass capacitors are used in complicated circuits in order to provide an alternative current path around larger components or to smooth out power delivery. Decoupling capacitors, on the other hand, are used to reduce the amount of noise and interference in a circuit by providing a small charge which can be quickly released. As the 293D475X0016B2TE3 has a low ESR (equivalent series resistance) and is able to respond quickly to rapid changes in load, it is well-suited for these applications.
The 293D475X0016B2TE3 is also used to filter radio frequency signals in RF circuits and to provide filtering in analog circuits. The device\'s ability to handle relatively high ripples in current makes it well-suited for this type of application. It is also used as a hold up capacitor in power circuits, as it can provide a large amount of energy storage very quickly.
When discussing the working principle of the 293D475X0016B2TE3, we must first understand what a capacitor is. A capacitor is an electrical component which stores energy in the form of an electrical field. This electrical field is created by attracting and repelling equal amounts of charge between two metal plates, known as the electrodes. The 293D475X0016B2TE3 works in the same way, with the oxide layer acting as the dielectric, allowing for a high capacitance per unit volume.
When a voltage is applied across the capacitor, it will begin to charge. The capacitance determines how much charge can be stored, and the amount of charge stored is determined by the size of the capacitor and the amount of voltage applied. Once the capacitor is charged, it will block any further voltage from passing through. This means that the capacitor can act as a filter or a regulator for the circuit it is used in.
In summary, the 293D475X0016B2TE3 is a type of tantalum electrolytic capacitor, which is commonly used for bypassing, decoupling, RF filtering, and power regulation. It has a high capacitance per unit volume, a low ESR, and the ability to respond quickly to changes in load. The working principle behind the capacitor is the creation of an electrical field between two metal plates. When a voltage is applied to the capacitor, it will begin to charge and can act as a filter or regulator in the circuit.
The specific data is subject to PDF, and the above content is for reference
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293D686X9010D2TE3 | Vishay Sprag... | -- | 1500 | CAP TANT 68UF 10V 10% 291... |
293D336X9025E2TE3 | Vishay Sprag... | -- | 800 | CAP TANT 33UF 25V 10% 291... |
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293D225X0010A2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 2.2UF 10V 20% 12... |
293D105X0016A2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 1UF 16V 20% 1206... |
293D106X0016A2TE3 | Vishay Sprag... | 0.04 $ | 1000 | CAP TANT 10UF 16V 20% 120... |
293D474X9025A2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 0.47UF 25V 10% 1... |
293D475X9020A2TE3 | Vishay Sprag... | 0.05 $ | 1000 | CAP TANT 4.7UF 20V 10% 12... |
293D105X9020A2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 1UF 20V 10% 1206... |
293D475X9016B2TE3 | Vishay Sprag... | 0.06 $ | 2000 | CAP TANT 4.7UF 16V 10% 14... |
293D106X0020C2TE3 | Vishay Sprag... | 0.08 $ | 1000 | CAP TANT 10UF 20V 20% 231... |
293D226X0010C2TE3 | Vishay Sprag... | 0.08 $ | 1000 | CAP TANT 22UF 10V 20% 231... |
293D226X0016C2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 22UF 16V 20% 231... |
293D685X9025C2TE3 | Vishay Sprag... | 0.1 $ | 1000 | CAP TANT 6.8UF 25V 10% 23... |
293D476X0016D2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 47UF 16V 20% 291... |
293D156X9016C2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 15UF 16V 10% 231... |
293D476X9010D2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 47UF 10V 10% 291... |
293D226X0016D2TE3 | Vishay Sprag... | 0.41 $ | 473 | CAP TANT 22UF 16V 20% 291... |
293D226X9016D2TE3 | Vishay Sprag... | 0.15 $ | 1000 | CAP TANT 22UF 16V 10% 291... |
293D107X0010D2TE3 | Vishay Sprag... | -- | 500 | CAP TANT 100UF 10V 20% 29... |
293D476X0020D2TE3 | Vishay Sprag... | 0.17 $ | 1000 | CAP TANT 47UF 20V 20% 291... |
293D336X9010D2TE3 | Vishay Sprag... | 0.16 $ | 1000 | CAP TANT 33UF 10V 10% 291... |
293D106X9025D2TE3 | Vishay Sprag... | 0.18 $ | 1000 | CAP TANT 10UF 25V 10% 291... |
293D127X96R3D2TE3 | Vishay Sprag... | 0.18 $ | 1000 | CAP TANT 120UF 6.3V 10% 2... |
293D227X96R3C2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 220UF 6.3V 10% 2... |
293D155X9050D2TE3 | Vishay Sprag... | 0.25 $ | 1000 | CAP TANT 1.5UF 50V 10% 29... |
293D686X9020D2TE3 | Vishay Sprag... | 0.28 $ | 1000 | CAP TANT 68UF 20V 10% 291... |
293D157X9010E2TE3 | Vishay Sprag... | 0.35 $ | 1000 | CAP TANT 150UF 10V 10% 29... |
293D686X9020E2TE3 | Vishay Sprag... | 0.39 $ | 1000 | CAP TANT 68UF 20V 10% 291... |
293D335X0016A2TE3 | Vishay Sprag... | 0.04 $ | 1000 | CAP TANT 3.3UF 16V 20% 12... |
293D105X0025A2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 1UF 25V 20% 1206... |
293D475X0010A2TE3 | Vishay Sprag... | 0.04 $ | 1000 | CAP TANT 4.7UF 10V 20% 12... |
293D104X0035A2TE3 | Vishay Sprag... | -- | 1000 | CAP TANT 0.1UF 35V 20% 12... |
293D226X06R3A2TE3 | Vishay Sprag... | 0.04 $ | 1000 | CAP TANT 22UF 6.3V 20% 12... |
293D685X0010A2TE3 | Vishay Sprag... | 0.04 $ | 1000 | CAP TANT 6.8UF 10V 20% 12... |
293D685X9010A2TE3 | Vishay Sprag... | 0.04 $ | 1000 | CAP TANT 6.8UF 10V 10% 12... |
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