94SP476X0020EBP
| Parameters | |
|---|---|
| Package / Case | Aluminum |
| Surface Mount | NO |
| Terminal Shape | WIRE |
| Mounting Feature | THROUGH HOLE MOUNT |
| Number of Pins | 2 |
| Tolerance | 20% |
| JESD-609 Code | e4 |
| Number of Terminations | 2 |
| Termination | Radial |
| ECCN Code | EAR99 |
| Terminal Finish | Silver (Ag) |
| Max Operating Temperature | 105°C |
| Min Operating Temperature | -55°C |
| Additional Feature | ESR IS MEASURED AT 100 KHZ-300 KHZ |
| Capacitance | 47μF |
| Voltage - Rated DC | 20V |
| Packing Method | BULK |
| Lead Pitch | 600μm |
| ESR (Equivalent Series Resistance) | 36mOhm |
| Polarity | POLARIZED |
| Ripple Current | 2.21A |
| Tan Delta | 0.07 |
| Current - Leakage | 94μA |
| Diameter | 8mm |
| Length | 5mm |
| RoHS Status | RoHS Compliant |
The capacitance can run at the range of 47μF.
20% are used to determine the tolerance of this capacitor. It is contained in a package of Aluminum. The type of the 94SP476X0020EBP capacitor Vishay 94SP476X0020EBP is suitable to conduct the ripple current at 2.21A. 94SP476X0020EBP Capacitor The typical values of Voltage - Rated DC are 20V. There are 2 terminals embeded in 94SP476X0020EBP Capacitor. It has Radial terminations in total. The part is packaged by BULK. This device's minimum working temperature must not be less than -55°C. It's recommended that you utilize it when the temperature is below 105°C. There are 2 pins available in the part.
Series
Capacitance: 47μF
Tolerance: 20%
Package / Case: Aluminum
ESR IS MEASURED AT 100 KHZ-300 KHZ
There are great quantities of applications of 94SP476X0020EBP Aluminum Polymer Capacitors.
Typically, 94SP476X0020EBP is used to smooth and buffer rectified DC voltages for DC-DC converters and Power supplies, to reduce power noise & signal noise and to enhance power efficiency. And the following shows some of them.
- To reduce power noise & signal noise
- Signal decoupling & power bypass
- Frequency Converters
- Motor Control
- PFC
- DC Link
- DC/DC, DC/AC, and AC/AC converters
- Spot Welding
- Power Factor Correction
- Bypassing Noise Filtering