Parameters |
Factory Lead Time |
1 Week |
Mounting Type |
Surface Mount |
Package / Case |
Radial, Can - SMD |
Surface Mount Land Size |
0.406Lx0.406W 10.30mmx10.30mm |
Operating Temperature |
-55°C~105°C |
Packaging |
Tape & Box (TB) |
Published |
2015 |
Series |
FPCAP, RPS |
Size / Dimension |
0.394Dia 10.00mm |
Tolerance |
±20% |
Part Status |
Active |
Moisture Sensitivity Level (MSL) |
1 (Unlimited) |
Type |
Polymer |
Applications |
General Purpose |
Capacitance |
390μF |
Voltage - Rated DC |
25V |
ESR (Equivalent Series Resistance) |
16mOhm |
Lifetime @ Temp |
2000 Hrs @ 105°C |
Ripple Current @ Low Frequency |
480mA @ 120Hz |
Ripple Current @ High Frequency |
4.8A @ 100kHz |
Height Seated (Max) |
0.500 12.70mm |
RoHS Status |
ROHS3 Compliant |
The capacitance can run at the range of 390μF.
±20% are used to determine the tolerance of this capacitor. It is contained in a package of Radial, Can - SMD. This capacitor is accessible in the Tape & Box (TB) packaging. It belongs to FPCAP, RPS series. This part is mounted in the way of Surface Mount. The type of the RPS1E391MCN1GS capacitor can be classified as Polymer. It is suitable for the component connected in General Purpose. This device operates temperature at the range of -55°C~105°C. Nichicon RPS1E391MCN1GS RPS1E391MCN1GS Capacitor The typical values of Voltage - Rated DC are 25V. RPS1E391MCN1GS Capacitor.
FPCAP, RPS Series
Capacitance: 390μF
Tolerance: ±20%
Package / Case: Radial, Can - SMD
Packaging: Tape & Box (TB)
Works Operating Temperature: -55°C~105°C
There are great quantities of applications of RPS1E391MCN1GS Aluminum Polymer Capacitors.
Typically, RPS1E391MCN1GS 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.
- Coupling or blocking
- DC/DC, DC/AC, and AC/AC converters
- Computer motherboards
- Power Factor Correction
- Decoupling Noise Filtering
- Spot Welding
- Power Line Buffering
- To enhance power efficiency
- Motor Control
- Bypassing Noise Filtering