Parameters |
Factory Lead Time |
1 Week |
Mounting Type |
Surface Mount |
Package / Case |
Radial, Can - SMD |
Surface Mount Land Size |
0.209Lx0.209W 5.30mmx5.30mm |
Operating Temperature |
-55°C~125°C |
Packaging |
Tape & Reel (TR) |
Series |
ZKU |
Size / Dimension |
0.197Dia 5.00mm |
Tolerance |
±20% |
Part Status |
Active |
Moisture Sensitivity Level (MSL) |
1 (Unlimited) |
Type |
Hybrid |
Applications |
Automotive |
Voltage - Rated |
35V |
Capacitance |
39μF |
ESR (Equivalent Series Resistance) |
100mOhm |
Lifetime @ Temp |
4000 Hrs @ 125°C |
Ripple Current @ Low Frequency |
112.5mA @ 100Hz |
Ripple Current @ High Frequency |
750mA @ 100kHz |
Height Seated (Max) |
0.240 6.10mm |
RoHS Status |
ROHS3 Compliant |
Ratings |
AEC-Q200 |
The capacitance can run at the range of 39μF.
±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 & Reel (TR) packaging. It belongs to ZKU series. This part is mounted in the way of Surface Mount. The type of the EEH-ZK1V390UR capacitor can be classified as Hybrid. It is suitable for the component connected in Automotive. This device operates temperature at the range of -55°C~125°C. Panasonic Electronic Components EEH-ZK1V390UR EEH-ZK1V390UR Capacitor EEH-ZK1V390UR Capacitor. Voltage - Rated often has values of 35V.
ZKU Series
Capacitance: 39μF
Tolerance: ±20%
Package / Case: Radial, Can - SMD
Packaging: Tape & Reel (TR)
Works Operating Temperature: -55°C~125°C
There are great quantities of applications of EEH-ZK1V390UR Aluminum Polymer Capacitors.
Typically, EEH-ZK1V390UR 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.
- Spot Welding
- DC/DC, DC/AC, and AC/AC converters
- UPS Buffering
- Voltage Doubling
- To enhance power efficiency
- Power Line Buffering
- To reduce power noise & signal noise
- Decoupling Noise Filtering
- DC Link
- Bypassing Noise Filtering