Allicdata Part #: | 199D226X0025D2B1-ND |
Manufacturer Part#: |
199D226X0025D2B1 |
Price: | $ 0.88 |
Product Category: | Capacitors |
Manufacturer: | Vishay Sprague |
Short Description: | CAP TANT 22UF 20% 25V RADIAL |
More Detail: | 22µF Conformal Coated Tantalum Capacitors 25V Radi... |
DataSheet: | 199D226X0025D2B1 Datasheet/PDF |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
1000 +: | $ 0.79605 |
Lifetime @ Temp.: | 1000 Hrs @ 85°C |
Failure Rate: | -- |
Features: | General Purpose |
Ratings: | -- |
Manufacturer Size Code: | D |
Lead Spacing: | 0.100" (2.54mm) |
Height - Seated (Max): | 0.400" (10.16mm) |
Size / Dimension: | 0.236" Dia (6.00mm) |
Package / Case: | Radial |
Mounting Type: | Through Hole |
Series: | TANTALEX®, 199D |
Operating Temperature: | -55°C ~ 85°C |
ESR (Equivalent Series Resistance): | -- |
Type: | Conformal Coated |
Voltage - Rated: | 25V |
Tolerance: | ±20% |
Capacitance: | 22µF |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Tape & Reel (TR) |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Tantalum capacitors are electro-chemical components that are composed of tantalum metal as its substrate and have the electrical properties of a standard capacitor. Tantalum capacitors are the most commonly used in the electronics industry due to their small size and high capacitance. The capacitance of a tantalum capacitor is measured in Farads (F) and is a measure of how much electrical energy is stored in the capacitor. The higher the Farads, the greater the capacitance.
The key reason for the popularity of the tantalum capacitor is its high capacitance, which is much higher than most standard types of capacitors. This means that it can hold much more charge than other types of capacitors, making it ideal for applications that require a large amount of energy storage. Additionally, the electrolyte used in a tantalum capacitor is much less corrosive than other types of electrolytes, making it more reliable for long-term use.
The typical application fields for a tantalum capacitor include power supply filtering, signal buffering, DC/DC conversion, and noise reduction. In power supply filtering, the capacitors provide a stable, low-impedance path to block high frequency noise from entering the power line and damaging sensitive components. In signal buffering, they help reduce the overall power and distortion in the signal, while in DC/DC conversion, the capacitor acts as a charge pump to provide a steady voltage to the load. As for noise reduction, the capacitor acts as a filter, blocking out any low-frequency noise, thus reducing interference and system noise.
The principle of operation of a tantalum capacitor is based on electron charging and discharging. The cathode is composed of an inert material, such as tantalum oxide, which carries a negative charge. When the circuit is activated by a voltage, current passes through the capacitor, and electrons are attracted from the cathode into the anode. As the electrons accumulate, they create a positive charge on the anode. In a tantalum capacitor, when the positive anode reaches a certain voltage, usually 1.5 V, it quickly forces the accumulated electrons back into the cathode. This generating field is what is known as the dielectric field, which stores energy.
When a reverse voltage is applied, the reverse process occurs and the electrons are again attracted into the anode to form the negative charge. This is known as the capacitance charge and is reversed several times in a regular capacitor. A tantalum capacitor operates like any other capacitor, except it is much more efficient and can be much smaller. It is also easier to control and can hold a charge for a much longer time due to its chemical characteristics.
In conclusion, tantalum capacitors are becoming increasingly popular with the electronics industry due to their small size, high capacitance, and ability to be easily controlled. Their main application fields are in power supply filtering, signal buffering, DC/DC conversion, and noise reduction. The principle of operation is based on the dielectric field created by electron charging and discharging, and the capacitance charge is reversed several times in a regular capacitor.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
199D104X9035A1V1E3 | Vishay Sprag... | 0.49 $ | 150 | CAP TANT 0.1UF 35V 10% RA... |
199D225X9025A1V1E3 | Vishay Sprag... | 0.49 $ | 5 | CAP TANT 2.2UF 25V 10% RA... |
199D105X9025A1V1E3 | Vishay Sprag... | 0.49 $ | 286 | CAP TANT 1UF 25V 10% RADI... |
199D106X9025C6V1E3 | Vishay Sprag... | 0.85 $ | 523 | CAP TANT 10UF 25V 10% RAD... |
199D105X0035A1V1E3 | Vishay Sprag... | 0.49 $ | 512 | CAP TANT 1UF 35V 20% RADI... |
199D475X9010A1V1E3 | Vishay Sprag... | 0.49 $ | 380 | CAP TANT 4.7UF 10V 10% RA... |
199D105X9035A6V1E3 | Vishay Sprag... | 0.49 $ | 466 | CAP TANT 1UF 35V 10% RADI... |
199D225X9016A1V1E3 | Vishay Sprag... | -- | 456 | CAP TANT 2.2UF 16V 10% RA... |
199D334X9035A1V1E3 | Vishay Sprag... | 0.49 $ | 209 | CAP TANT 0.33UF 35V 10% R... |
199D475X9016B1V1E3 | Vishay Sprag... | 0.52 $ | 146 | CAP TANT 4.7UF 16V 10% RA... |
199D335X9035B1V1E3 | Vishay Sprag... | 0.6 $ | 606 | CAP TANT 3.3UF 35V 10% RA... |
199D106X9016C1V1E3 | Vishay Sprag... | 0.64 $ | 1000 | CAP TANT 10UF 16V 10% RAD... |
199D475X9035C1V1E3 | Vishay Sprag... | 0.75 $ | 649 | CAP TANT 4.7UF 35V 10% RA... |
199D106X9020C1V1E3 | Vishay Sprag... | 0.84 $ | 268 | CAP TANT 10UF 20V 10% RAD... |
199D685X9025C1V1E3 | Vishay Sprag... | 0.85 $ | 620 | CAP TANT 6.8UF 25V 10% RA... |
199D226X9016D1V1E3 | Vishay Sprag... | 0.85 $ | 448 | CAP TANT 22UF 16V 10% RAD... |
199D685X9035D1V1E3 | Vishay Sprag... | 0.85 $ | 336 | CAP TANT 6.8UF 35V 10% RA... |
199D336X9010D1V1E3 | Vishay Sprag... | 0.89 $ | 963 | CAP TANT 33UF 10V 10% RAD... |
199D475X9050D1V1E3 | Vishay Sprag... | 1.05 $ | 260 | CAP TANT 4.7UF 50V 10% RA... |
199D106X9035D6V1E3 | Vishay Sprag... | 1.28 $ | 265 | CAP TANT 10UF 35V 10% RAD... |
199D106X9016C6V1E3 | Vishay Sprag... | 0.64 $ | 784 | CAP TANT 10UF 16V 10% RAD... |
199D226X9010C1V1E3 | Vishay Sprag... | 0.79 $ | 498 | CAP TANT 22UF 10V 10% RAD... |
199D156X9016C1V1E3 | Vishay Sprag... | 0.84 $ | 485 | CAP TANT 15UF 16V 10% RAD... |
199D226X9016D6V1E3 | Vishay Sprag... | 0.85 $ | 470 | CAP TANT 22UF 16V 10% RAD... |
199D476X9010D1V1E3 | Vishay Sprag... | 1.45 $ | 27 | CAP TANT 47UF 10V 10% RAD... |
199D107X9016F6V1E3 | Vishay Sprag... | 3.87 $ | 29 | CAP TANT 100UF 16V 10% RA... |
199D226X9035E6B1E3 | Vishay Sprag... | 1.1 $ | 1000 | CAP TANT 22UF 35V 10% RAD... |
199D106X9016C6B1E3 | Vishay Sprag... | 0.25 $ | 1000 | CAP TANT 10UF 16V 10% RAD... |
199D106X9025C6B1E3 | Vishay Sprag... | 0.34 $ | 1000 | CAP TANT 10UF 25V 10% RAD... |
199D106X9035D6B1E3 | Vishay Sprag... | 0.53 $ | 1000 | CAP TANT 10UF 35V 10% RAD... |
199D107X9020F6B1E3 | Vishay Sprag... | 2.73 $ | 1000 | CAP TANT 100UF 20V 10% RA... |
199D226X9050F6B1E3 | Vishay Sprag... | 3.19 $ | 1000 | CAP TANT 22UF 50V 10% RAD... |
199D476X9035F6V1E3 | Vishay Sprag... | 4.45 $ | 373 | CAP TANT 47UF 35V 10% RAD... |
199D105X9035A1V1E3 | Vishay Sprag... | 0.49 $ | 1395 | CAP TANT 1UF 35V 10% RADI... |
199D225X9035B1V1E3 | Vishay Sprag... | 0.54 $ | 5240 | CAP TANT 2.2UF 35V 10% RA... |
199D106X9025C1V1E3 | Vishay Sprag... | 0.85 $ | 1771 | CAP TANT 10UF 25V 10% RAD... |
199D106X9035D1V1E3 | Vishay Sprag... | 1.28 $ | 1190 | CAP TANT 10UF 35V 10% RAD... |
199D226X9025D1V1E3 | Vishay Sprag... | 1.97 $ | 404 | CAP TANT 22UF 25V 10% RAD... |
199D226X9035E6V1E3 | Vishay Sprag... | 2.36 $ | 1047 | CAP TANT 22UF 35V 10% RAD... |
199D474X9035A1V1E3 | Vishay Sprag... | 0.49 $ | 1440 | CAP TANT 0.47UF 35V 10% R... |
CAP TANT 6.8UF 10V 10% 08056.8F Molded T...
CAP TANT 4.70UF 16.0V4.7F Molded Tantalu...
CAP TANT 4.7UF 35V 20% 23124.7F Molded T...
CAP TANT 33UF 10V 20% 291733F Molded Tan...
CAP TANT 2.2UF 35V 10% RADIAL2.2F Molded...
CAP TANT 220UF 6.3V 20% 2917220F Molded ...