Allicdata Part #: | 1182-1038-ND |
Manufacturer Part#: |
BCAP3400 P285 K05 |
Price: | $ 0.00 |
Product Category: | Capacitors |
Manufacturer: | Maxwell Technologies Inc. |
Short Description: | CAP 3400F 2.85V WELD |
More Detail: | 3400F (EDLC) Supercapacitor 2.85V Axial, Can 0.28 ... |
DataSheet: | BCAP3400 P285 K05 Datasheet/PDF |
Quantity: | 1000 |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
1 +: | 0.00000 |
ESR (Equivalent Series Resistance): | 0.28 mOhm |
Operating Temperature: | -40°C ~ 65°C |
Height - Seated (Max): | -- |
Size / Dimension: | 2.390" Dia x 5.433" L (60.70mm x 138.00mm) |
Lead Spacing: | -- |
Package / Case: | Axial, Can |
Mounting Type: | Chassis Mount |
Termination: | Weld Stud |
Lifetime @ Temp.: | 1500 Hrs @ 65°C |
Series: | Durablue™, K2 |
Voltage - Rated: | 2.85V |
Tolerance: | -- |
Capacitance: | 3400F |
Moisture Sensitivity Level (MSL): | -- |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Bulk |
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
Electric Double Layer Capacitors (EDLC), also referred to as supercapacitors, are becoming increasingly important in today\'s energy storage market. They are well suited for applications such as power assist, energy harvesting, and peak power smoothing where high capability, long lifetime, and high safety are desired. The BCAP3400 P285 K05 is a new type of EDLC that offers high performance and reliability when compared to similar products.
Application Field
The BCAP3400 P285 K05 is designed to provide power and energy storage in a variety of applications. Its advanced technology and construction make it well suited for use in telecommunication base stations, industrial equipment, and consumer applications such as cell phones and digital cameras. Additionally, it is suitable for automotive and renewable energy applications, such as solar and wind power, where long life and efficient storage are needed. Finally, its low application temperature and turnover voltage characteristics make it perfect for portable electronic and medical devices as well.
Working Principle
The BCAP3400 P285 K05 uses a combination of carbon nanostructures and an ionic polymer layer to provide high capacitance with low internal resistance. Its electrochemical design operates on an electric double layer (EDL) charging principle. This EDL’s ions are attracted to the electrode and form a thin ionic layer separated from the electrolyte. This process is known as electrochemical double layer capacitance and is responsible for EDLC’s high capacitance and low internal resistance.
Visualized as a sandwich, the BCAP3400 P285 K05 acts as the bread while the electrolyte is the filling. The voltage applied to the device between the cathode and anode is sufficient to give it the capability to store energy. Conversely, when the voltage is removed, the stored energy can be discharged through the device. It is important to recognize that, due to the EDLs simple design, the device can be charged and discharged quickly.
The device’s high capacitance and low internal resistance gives it excellent power and energy storage capabilities. This makes it well suited for high power and long life applications. Additionally, its advanced electrolyte gives it excellent thermal stability and high depth of discharge. Finally, its low application temperature and turnover voltage characteristics make it perfect for many portable electronic and medical devices.
In summary, the BCAP3400 P285 K05 is a new type of EDLC that offers high performance and reliability when compared to similar products. It is designed to provide power and energy storage in a variety of applications and is well suited for use in telecommunication base stations, industrial equipment, consumer applications, and automotive and renewable energy applications. Its electrochemical design operates on an electric double layer (EDL) charging principle and provides high capacitance with low internal resistance. As a result, the device has excellent power and energy storage capabilities, making it well suited for high power and long life applications.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
BCAP0360 P270 S18 | Maxwell Tech... | 6.64 $ | 1036 | CAP EDLC 360F 0% +20% 2.7... |
BCAP0005 P270 T01 | Maxwell Tech... | 1.53 $ | 39900 | CAP 5F 2.7V THROUGH HOLE5... |
BCAP0010 P270 T01 | Maxwell Tech... | 0.0 $ | 1000 | CAP 10F 2.7V THROUGH HOLE... |
BCAP0003 P270 S01 | Maxwell Tech... | 1.14 $ | 3988 | CAP 3F 2.7V WIRE LEAD3F (... |
BCAP0003 P270 T01 | Maxwell Tech... | 1.38 $ | 4366 | CAP 3.3F 2.7V THROUGH HOL... |
BCAP0005 P270 S01 | Maxwell Tech... | 1.44 $ | 605 | CAP 5F 2.7V WIRE LEAD5F (... |
BCAP0010 P270 S01 | Maxwell Tech... | 1.95 $ | 2479 | CAP 10F 2.7V WIRE LEAD10F... |
BCAP0025 P270 S01 | Maxwell Tech... | 2.6 $ | 835 | CAP 25F 2.7V WIRE LEAD25F... |
BCAP0025 P270 T01 | Maxwell Tech... | 2.69 $ | 16794 | CAP 25F 2.7V THROUGH HOLE... |
BCAP0050 P270 S01 | Maxwell Tech... | 3.19 $ | 441 | CAP 50F 2.7V WIRE LEAD50F... |
BCAP0100 P270 S07 | Maxwell Tech... | 6.73 $ | 188 | CAP 100F 2.7V WIRE LEAD10... |
BCAP0100 P270 T07 | Maxwell Tech... | 7.48 $ | 754 | CAP 100F 2.7V THROUGH HOL... |
BCAP1200 P270 K04 | Maxwell Tech... | 23.17 $ | 36 | CAP 1200F 2.7V THREADED12... |
BCAP2000 P270 K04 | Maxwell Tech... | 28.01 $ | 20 | CAP 2000F 2.7V THREADED20... |
BCAP1500 P270 K04 | Maxwell Tech... | 27.8 $ | 1 | CAP 1500F 2.7V THREADED15... |
BCAP0650 P270 K04 | Maxwell Tech... | 21.32 $ | 178 | CAP 650F 2.7V THREADED650... |
BCAP0003 P270 X01 | Maxwell Tech... | 1.32 $ | 6000 | CAP SUPER 3F 2.7V WIRE LE... |
BCAP0005 P270 X01 | Maxwell Tech... | 1.65 $ | 4000 | CAP SUPER 5F 2.7V WIRE LE... |
BCAP0010 P270 X01 | Maxwell Tech... | 2.23 $ | 3000 | CAP SUPER 10F 2.7V WIRE L... |
BCAP0025 P270 X01 | Maxwell Tech... | 2.99 $ | 1500 | CAP SUPER 25F 2.7V WIRE L... |
BCAP0050 P270 X01 | Maxwell Tech... | 3.66 $ | 794 | CAP SUPER 50F 2.7V WIRE L... |
BCAP0350 E270 T13 | Maxwell Tech... | 6.2 $ | 1000 | CAP 350F 2.7V THROUGH HOL... |
BCAP1200 P270 K05 | Maxwell Tech... | 20.59 $ | 1000 | CAP 1200F 2.7V WELD1200F ... |
BCAP2000 P270 K05 | Maxwell Tech... | 26.26 $ | 1000 | CAP 2000F 2.7V WELD2000F ... |
BCAP0050 P270 T01 | Maxwell Tech... | 0.0 $ | 1000 | CAP 50F 2.7V THROUGH HOLE... |
BCAP0650 P270 K05 | Maxwell Tech... | 0.0 $ | 1000 | CAP 650F 2.7V WELD650F (E... |
BCAP1500 P270 K05 | Maxwell Tech... | 0.0 $ | 1000 | CAP 1500F 2.7V WELD1500F ... |
BCAP0010 P270 T11 | Maxwell Tech... | 0.0 $ | 1000 | CAP 10F 2.7V THROUGH HOLE... |
BCAP0010 P270 T12 | Maxwell Tech... | 0.0 $ | 1000 | CAP 10F 2.7V THROUGH HOLE... |
BCAP0025 P270 T11 | Maxwell Tech... | 0.0 $ | 1000 | CAP 25F 2.7V THROUGH HOLE... |
BCAP3400 P285 K04 | Maxwell Tech... | 0.0 $ | 1000 | CAP 3400F 2.85V THREADED3... |
BCAP3400 P285 K05 | Maxwell Tech... | 0.0 $ | 1000 | CAP 3400F 2.85V WELD3400F... |
BCAP3000 P300 K04 | Maxwell Tech... | 77.0 $ | 859 | CAPACITOR 3000F 20% 3V CH... |
BCAP0001 P270 T01 | Maxwell Tech... | 1.65 $ | 29400 | CAP 1F 2.7V THROUGH HOLE1... |
BCAP0350 E270 T11 | Maxwell Tech... | 5.72 $ | 4308 | CAP 350F 2.7V THROUGH HOL... |
BCAP0100 P270 T01 | Maxwell Tech... | 6.23 $ | 4619 | CAP 100F 2.7V THROUGH HOL... |
BCAP0150 P270 T07 | Maxwell Tech... | 8.5 $ | 17402 | CAP 150F 2.7V THROUGH HOL... |
BCAP0310 P270 T10 | Maxwell Tech... | 9.17 $ | 3072 | CAP 310F 2.7V THROUGH HOL... |
BCAP3000 P270 K04 | Maxwell Tech... | 28.83 $ | 491 | CAP 3000F 2.7V THREADED30... |
CAP 100MF 5.5V THROUGH HOLE100mF (EDLC) ...
CAP 4000F 20% 2.5V CHASSIS MOUNT4000F (E...
CAP 2200F 20% 2.5V CHASSIS MOUNT2200F (E...
CAP 1.5F 5.5V THROUGH HOLE1.5F (EDLC) Su...
CAP 330MF 5.5V THROUGH HOLE330mF (EDLC) ...
CAP 68MF -20% +80% 5.5V SMD68mF (EDLC) S...