Film Capacitors
![MKP motor operating capacitor, 1 µF, ±5 %, 450 V (AC), PP, 16 mm, MKA-1µF-450V-FS 25X57MM A](/en/images/f97/8832193363998/95x95/mkp-motor-operating-capacitor-1-f-5-450-v-ac-pp-16-mm-mka-1-f-450v-fs-25x57mm-a.png)
![MP film capacitor, 2 µF, ±5 %, 500 V (DC), PP, 416336329](/en/images/f9e/9221009604638/95x95/mp-film-capacitor-2-f-5-500-v-dc-pp-416336329.png)
![MKP motor operating capacitor, 1 µF, ±5 %, 450 V (AC), PP, MKA-1µF-450V-KABEL](/en/images/f8d/8832664076318/95x95/mkp-motor-operating-capacitor-1-f-5-450-v-ac-pp-mka-1-f-450v-kabel.png)
![MKP film capacitor, 33 µF, -5/+10 %, 400 V (AC), PP, B32340C4012A700](/en/images/c5e/8834239103006/95x95/mkp-film-capacitor-33-f-5-10-400-v-ac-pp-b32340c4012a700.png)
![FKP film capacitor, 470 pF, ±5 %, 100 V (DC), PP, 5 mm, FKP2D004701D00JSSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-470-pf-5-100-v-dc-pp-5-mm-fkp2d004701d00jssd.png)
![FKP film capacitor, 470 pF, ±5 %, 250 V (DC), PP, 5 mm, FKP2F004701D00JSSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-470-pf-5-250-v-dc-pp-5-mm-fkp2f004701d00jssd.png)
![FKP film capacitor, 100 pF, ±5 %, 630 V (DC), PP, 5 mm, FKP2J001001D00JSSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-100-pf-5-630-v-dc-pp-5-mm-fkp2j001001d00jssd.png)
![FKP film capacitor, 330 pF, ±1 %, 63 V (DC), PP, 5 mm, FKP2C003301D00ESSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-330-pf-1-63-v-dc-pp-5-mm-fkp2c003301d00essd.png)
![FKP film capacitor, 220 pF, ±1 %, 100 V (DC), PP, 5 mm, FKP2D002201D00ESSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-220-pf-1-100-v-dc-pp-5-mm-fkp2d002201d00essd.png)
![FKP film capacitor, 680 pF, ±1 %, 400 V (DC), PP, 5 mm, FKP2G006801D00ESSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-680-pf-1-400-v-dc-pp-5-mm-fkp2g006801d00essd.png)
![FKP film capacitor, 220 pF, ±1 %, 630 V (DC), PP, 5 mm, FKP2J002201D00ESSD](/en/images/c5c/WIMA-FKP-2/95x95/fkp-film-capacitor-220-pf-1-630-v-dc-pp-5-mm-fkp2j002201d00essd.png)
![MKP film capacitor, 10 nF, ±10 %, 250 V (DC), PP, 5 mm, MKP2F021001B00KSSD](/en/images/e8e/WIMA-MKP-2/95x95/mkp-film-capacitor-10-nf-10-250-v-dc-pp-5-mm-mkp2f021001b00kssd.png)
![MKP film capacitor, 1 nF, ±10 %, 630 V (DC), PP, 5 mm, MKP2J011001B00KSSD](/en/images/e8e/WIMA-MKP-2/95x95/mkp-film-capacitor-1-nf-10-630-v-dc-pp-5-mm-mkp2j011001b00kssd.png)
![MKS film capacitor, 2.2 µF, ±10 %, 50 V (DC), PET, 7.5 mm, MKS4B042202F00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-2-2-f-10-50-v-dc-pet-7-5-mm-mks4b042202f00kssd.png)
![MKS film capacitor, 100 nF, ±10 %, 63 V (DC), PET, 7.5 mm, MKS4C031002A00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-100-nf-10-63-v-dc-pet-7-5-mm-mks4c031002a00kssd.png)
![MKS film capacitor, 22 nF, ±10 %, 100 V (DC), PET, 7.5 mm, MKS4D022202A00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-22-nf-10-100-v-dc-pet-7-5-mm-mks4d022202a00kssd.png)
![MKS film capacitor, 10 nF, ±10 %, 250 V (DC), PET, 7.5 mm, MKS4F021002B00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-10-nf-10-250-v-dc-pet-7-5-mm-mks4f021002b00kssd.png)
![MKS film capacitor, 10 nF, ±10 %, 400 V (DC), PET, 7.5 mm, MKS4G021002B00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-10-nf-10-400-v-dc-pet-7-5-mm-mks4g021002b00kssd.png)
![MKS film capacitor, 10 nF, ±10 %, 630 V (DC), PET, 7.5 mm, MKS4J021002B00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-10-nf-10-630-v-dc-pet-7-5-mm-mks4j021002b00kssd.png)
![MKS film capacitor, 4.7 nF, ±10 %, 1 kV (DC), PET, 10 mm, MKS4O114703C00KSSD](/en/images/232/WIMA-MKS-4/95x95/mks-film-capacitor-4-7-nf-10-1-kv-dc-pet-10-mm-mks4o114703c00kssd.png)
Film capacitors are used for energy storage. They feature two metal foils that act as electrodes, and an insulating film in between that serves as a dielectric. Their stable and reliable design makes film capacitors a popular choice for use in many electrical and electronic devices, from radios to computers. They shine with good frequency characteristics and stability, so they are often incorporated into audio equipment and power supplies. They offer advantages such as low self-inductance and low equivalent series resistance, which improves their performance in many electronic circuits.