Allicdata Part #: | TM3B335K020HBA-ND |
Manufacturer Part#: |
TM3B335K020HBA |
Price: | $ 0.23 |
Product Category: | Capacitors |
Manufacturer: | Vishay Sprague |
Short Description: | TM3335K020BHBA |
More Detail: | 3.3µF Molded Tantalum Capacitors 20V 1411 (3528 Me... |
DataSheet: | TM3B335K020HBA Datasheet/PDF |
Quantity: | 1000 |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
1000 +: | $ 0.20525 |
Operating Temperature: | -55°C ~ 125°C |
Failure Rate: | -- |
Features: | High Reliability |
Manufacturer Size Code: | B |
Lead Spacing: | -- |
Height - Seated (Max): | 0.083" (2.10mm) |
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®, TM3 |
ESR (Equivalent Series Resistance): | 3 Ohm |
Type: | Molded |
Voltage - Rated: | 20V |
Tolerance: | ±10% |
Capacitance: | 3.3µF |
Moisture Sensitivity Level (MSL): | -- |
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 used for a variety of applications in the electronic industry. From providing energy storage solutions for microcontrollers to supplying power in automotive, power and communications applications, these capacitors are an excellent choice for high-temperature use with minimal losses.
TM3B335K020HBA is a broad category of tantalum capacitors. These capacitors are made of a porous tantalum anode and covered with a manganese dioxide cathode emitter. In combination with a solid electrolyte that is also made of tantalum, these capacitors are designed for use in a variety of applications that require high temperature stability and high performance.
The main application field for the TM3B335K020HBA is automotive, power and communications applications. Due to its tantalum material construction, this capacitor offers excellent temperature stability, low leakage current, high voltage and a low dissipation factor. This makes it perfect for use in a wide range of applications that require precision and long-term reliability.
In terms of working principle, the TM3B335K020HBA works on the principle of electrolytic combination. In this process, a highly porous anode material is covered with a manganese dioxide cathode emitter and covered with a solid electrolyte. When a current is applied, the manganese dioxide reacts with the electrolyte, thus storing energy in the form of a capacitance.
This capacitance is stored in the form of an electric field across the plate. The strength of the field is proportional to the current applied, thus allowing the capacitor to act as a low frequency capacitor. This means the TM3B335K020HBA can be used for a wide range of applications including data filters, time delay networks, impedance matching, and energy storage.
In terms of performance, the TM3B335K020HBA is capable of storing up to 22μF of energy at 1MHz. It also has a low temperature coefficient and low leakage current, which makes it a perfect choice for applications that require high-temperature stability and low-noise operation. Additionally, its robust construction allows it to endure long-term temperatures up to 85°C.
In conclusion, the TM3B335K020HBA is an excellent choice for applications that require extraordinary temperature stability, high performance and long-term reliability. Its tantalum material construction makes it an ideal choice for automotive, power and communications applications that require precision and reliability. With its ability to store up to 22μF of energy at 1MHz and its low leakage current, the TM3B335K020HBA is an excellent choice for electronic engineers who require performance in a wide variety of environments.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
TM3B475K016CBA | Vishay Sprag... | 0.19 $ | 1000 | TM3475K016BCBA4.7F Molded... |
TM3B475M016CBA | Vishay Sprag... | 0.19 $ | 1000 | TM3475M016BCBA4.7F Molded... |
TM3B475K016EBA | Vishay Sprag... | 0.19 $ | 1000 | TM3475K016BEBA4.7F Molded... |
TM3B475M016EBA | Vishay Sprag... | 0.19 $ | 1000 | TM3475M016BEBA4.7F Molded... |
TM3B335K016CBA | Vishay Sprag... | 0.2 $ | 1000 | TM3335K016BCBA3.3F Molded... |
TM3B335M016CBA | Vishay Sprag... | 0.2 $ | 1000 | TM3335M016BCBA3.3F Molded... |
TM3B335K016EBA | Vishay Sprag... | 0.2 $ | 1000 | TM3335K016BEBA3.3F Molded... |
TM3B335M016EBA | Vishay Sprag... | 0.2 $ | 1000 | TM3335M016BEBA3.3F Molded... |
TM3B685K016CBA | Vishay Sprag... | 0.2 $ | 1000 | TM3685K016BCBA6.8F Molded... |
TM3B685M016CBA | Vishay Sprag... | 0.2 $ | 1000 | TM3685M016BCBA6.8F Molded... |
TM3B685K016EBA | Vishay Sprag... | 0.2 $ | 1000 | TM3685K016BEBA6.8F Molded... |
TM3B685M016EBA | Vishay Sprag... | 0.2 $ | 1000 | TM3685M016BEBA6.8F Molded... |
TM3B156K016CBA | Vishay Sprag... | 0.2 $ | 1000 | TM3156K016BCBA15F Molded ... |
TM3B156M016CBA | Vishay Sprag... | 0.2 $ | 1000 | TM3156M016BCBA15F Molded ... |
TM3B156K016EBA | Vishay Sprag... | 0.2 $ | 1000 | TM3156K016BEBA15F Molded ... |
TM3B156M016EBA | Vishay Sprag... | 0.2 $ | 1000 | TM3156M016BEBA15F Molded ... |
TM3B475M016HBA | Vishay Sprag... | 0.21 $ | 1000 | TM3475M016BHBA4.7F Molded... |
TM3B475K016HBA | Vishay Sprag... | 0.21 $ | 1000 | TM3475K016BHBA4.7F Molded... |
TM3B475K016LBA | Vishay Sprag... | 0.21 $ | 1000 | TM3475K016BLBA4.7F Molded... |
TM3B475M016LBA | Vishay Sprag... | 0.21 $ | 1000 | TM3475M016BLBA4.7F Molded... |
TM3B685K020CBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685K020BCBA3.3F Molded... |
TM3B685M020CBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685M020BCBA6.8F Molded... |
TM3B685K020EBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685K020BEBA6.8F Molded... |
TM3B685M020EBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685M020BEBA6.8F Molded... |
TM3B335M016HBA | Vishay Sprag... | 0.21 $ | 1000 | TM3335M016BHBA3.3F Molded... |
TM3B335K016HBA | Vishay Sprag... | 0.21 $ | 1000 | TM3335K016BHBA3.3F Molded... |
TM3B335K016LBA | Vishay Sprag... | 0.21 $ | 1000 | TM3335K016BLBA3.3F Molded... |
TM3B335M016LBA | Vishay Sprag... | 0.21 $ | 1000 | TM3335M016BLBA3.3F Molded... |
TM3B336M6R3CBA | Vishay Sprag... | 0.21 $ | 1000 | TM3336M6R3BCBA33F Molded ... |
TM3B336K6R3CBA | Vishay Sprag... | 0.21 $ | 1000 | TM3336K6R3BCBA33F Molded ... |
TM3B336K6R3EBA | Vishay Sprag... | 0.21 $ | 1000 | TM3336K6R3BEBA33F Molded ... |
TM3B336M6R3EBA | Vishay Sprag... | 0.21 $ | 1000 | TM3336M6R3BEBA33F Molded ... |
TM3B685M016HBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685M016BHBA6.8F Molded... |
TM3B685K016HBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685K016BHBA6.8F Molded... |
TM3B685K016LBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685K016BLBA6.8F Molded... |
TM3B685M016LBA | Vishay Sprag... | 0.21 $ | 1000 | TM3685M016BLBA6.8F Molded... |
TM3B226K016CBA | Vishay Sprag... | 0.21 $ | 1000 | TM3226K016BCBA22F Molded ... |
TM3B226M016CBA | Vishay Sprag... | 0.21 $ | 1000 | TM3226M016BCBA22F Molded ... |
TM3B226K016EBA | Vishay Sprag... | 0.21 $ | 1000 | TM3226K016BEBA22F Molded ... |
TM3B226M016EBA | Vishay Sprag... | 0.21 $ | 1000 | TM3226M016BEBA22F Molded ... |
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 ...