94SP277X0016FBP
| Parameters | |
|---|---|
| Package / Case | Radial |
| Surface Mount | NO |
| Terminal Shape | WIRE |
| Mounting Feature | THROUGH HOLE MOUNT |
| Dielectric Material | ALUMINUM (SOLID POLYMER) |
| Packaging | Bulk |
| Tolerance | 20% |
| JESD-609 Code | e4 |
| Number of Terminations | 2 |
| 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 | 270μF |
| Voltage - Rated DC | 16V |
| Lead Pitch | 600μm |
| Capacitor Type | ALUMINUM ELECTROLYTIC CAPACITOR |
| ESR (Equivalent Series Resistance) | 18mOhm |
| Polarity | POLARIZED |
| Lead Diameter | 600 μm |
| Ripple Current | 4.4A |
| Life (Hours) | 1000 hours |
| Tan Delta | 0.08 |
| Current - Leakage | 432μA |
| Diameter | 10mm |
| Length | 10.5mm |
| RoHS Status | RoHS Compliant |
| Lead Free | Lead Free |
The capacitance can run at the range of 270μF.
20% are used to determine the tolerance of this capacitor. It is contained in a package of Radial. This capacitor is accessible in the Bulk packaging. The type of the 94SP277X0016FBP capacitor Vishay 94SP277X0016FBP is suitable to conduct the ripple current at 4.4A. 94SP277X0016FBP Capacitor The typical values of Voltage - Rated DC are 16V. There are 2 terminals embeded in 94SP277X0016FBP Capacitor. The dielectric materials are defined as ALUMINUM (SOLID POLYMER). 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. The capacitor type can be sorted using ALUMINUM ELECTROLYTIC CAPACITOR.
Series
Capacitance: 270μF
Tolerance: 20%
Package / Case: Radial
Packaging: Bulk
ESR IS MEASURED AT 100 KHZ-300 KHZ
There are great quantities of applications of 94SP277X0016FBP Aluminum Polymer Capacitors.
Typically, 94SP277X0016FBP 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.
- Bypassing Noise Filtering
- PFC
- To enhance power efficiency
- Flashtube Ignition
- Coupling or blocking
- Power Factor Correction
- Power Line Buffering
- Audio Crossover
- Voltage Doubling
- Frequency Converters
