Ceramic Capacitors
![Ceramic capacitor, 220 nF, 50 V (DC), ±10 %, SMD 0603, X7R, C1608X7R1H224K080AE](/en/images/c3c/C1608C0G1H101J080AE/95x95/ceramic-capacitor-220-nf-50-v-dc-10-smd-0603-x7r-c1608x7r1h224k080ae.png)
![Ceramic capacitor, 10 µF, 50 V (DC), ±10 %, SMD 1210, X7R, C3225X7R1H106K250AC](/en/images/317/C3225C0G2A683J230AE/95x95/ceramic-capacitor-10-f-50-v-dc-10-smd-1210-x7r-c3225x7r1h106k250ac.png)
![Ceramic capacitor, 10 µF, 50 V (DC), ±10 %, SMD 1206, X7R, CGA5L1X7R1H106K160AC](/en/images/3d7/C3216C0G1H104J160AE/95x95/ceramic-capacitor-10-f-50-v-dc-10-smd-1206-x7r-cga5l1x7r1h106k160ac.png)
![Ceramic capacitor, 10 µF, 50 V (DC), ±10 %, SMD 1210, X7R, CNA6P1X7R1H106K250AE](/en/images/ed8/CNA6P1X7R1H106K250AE/95x95/ceramic-capacitor-10-f-50-v-dc-10-smd-1210-x7r-cna6p1x7r1h106k250ae.png)
![Ceramic capacitor, 10 pF, 100 V (DC), ±0.5 pF, radial, pitch 2.5 mm, C0G, FA18C0G2A100DNU00](/en/images/13e/8986920386590/95x95/ceramic-capacitor-10-pf-100-v-dc-0-5-pf-radial-pitch-2-5-mm-c0g-fa18c0g2a100dnu00.png)
![Ceramic capacitor, 22 pF, 50 V (DC), ±5 %, radial, pitch 2.5 mm, C0G, FG18C0G1H220JNT00](/en/images/e0b/8986919632926/95x95/ceramic-capacitor-22-pf-50-v-dc-5-radial-pitch-2-5-mm-c0g-fg18c0g1h220jnt00.png)
![Ceramic capacitor, 4.7 µF, 25 V (DC), ±10 %, SMD 0805, X7R, CGA4J1X7R1E475K125AC](/en/images/900/8986919469086/95x95/ceramic-capacitor-4-7-f-25-v-dc-10-smd-0805-x7r-cga4j1x7r1e475k125ac.png)
![Ceramic capacitor, 10 µF, 16 V (DC), ±10 %, SMD 0805, X7S, CGA4J1X7S1C106K125AC](/en/images/900/8986919469086/95x95/ceramic-capacitor-10-f-16-v-dc-10-smd-0805-x7s-cga4j1x7s1c106k125ac.png)
![Ceramic capacitor, 22 nF, 50 V (DC), ±5 %, SMD 0805, C0G, CGA4J2C0G1H223J125AA](/en/images/900/8986919469086/95x95/ceramic-capacitor-22-nf-50-v-dc-5-smd-0805-c0g-cga4j2c0g1h223j125aa.png)
![Ceramic capacitor, 100 nF, 250 V (DC), ±10 %, SMD 0805, X7T, CGA4J3X7T2E104K125AA](/en/images/900/8986919469086/95x95/ceramic-capacitor-100-nf-250-v-dc-10-smd-0805-x7t-cga4j3x7t2e104k125aa.png)
![Ceramic capacitor, 100 nF, 50 V (DC), ±5 %, SMD 1206, C0G, CGA5L2C0G1H104J160AA](/en/images/900/8986919469086/95x95/ceramic-capacitor-100-nf-50-v-dc-5-smd-1206-c0g-cga5l2c0g1h104j160aa.png)
![Ceramic capacitor, 10 µF, 50 V (DC), ±10 %, SMD 1206, X5R, CGA5L3X5R1H106K160AB](/en/images/900/8986919469086/95x95/ceramic-capacitor-10-f-50-v-dc-10-smd-1206-x5r-cga5l3x5r1h106k160ab.png)
![Ceramic capacitor, 22 µF, 100 V (DC), ±20 %, SMD 2220, X7S, CKG57NX7S2A226M500JH](/en/images/9b8/8986919763998/95x95/ceramic-capacitor-22-f-100-v-dc-20-smd-2220-x7s-ckg57nx7s2a226m500jh.png)
![Ceramic capacitor, 1 µF, 630 V (DC), ±20 %, SMD 2220, X7T, CKG57NX7T2J105M500JH](/en/images/9b8/8986919763998/95x95/ceramic-capacitor-1-f-630-v-dc-20-smd-2220-x7t-ckg57nx7t2j105m500jh.png)
![Ceramic capacitor, 1 µF, 100 V (DC), ±10 %, SMD 0805, X7S, C2012X7S2A105K125AB](/en/images/900/8986919469086/95x95/ceramic-capacitor-1-f-100-v-dc-10-smd-0805-x7s-c2012x7s2a105k125ab.png)
![Ceramic capacitor, 1 nF, 630 V (DC), ±5 %, SMD 1206, C0G, C3216C0G2J102J085AA](/en/images/900/8986919469086/95x95/ceramic-capacitor-1-nf-630-v-dc-5-smd-1206-c0g-c3216c0g2j102j085aa.png)
![Ceramic capacitor, 100 µF, 6.3 V (DC), ±20 %, SMD 1206, X5R, C3216X5R0J107M160AB](/en/images/900/8986919469086/95x95/ceramic-capacitor-100-f-6-3-v-dc-20-smd-1206-x5r-c3216x5r0j107m160ab.png)
![Ceramic capacitor, 10 µF, 16 V (DC), ±10 %, SMD 1206, X7R, C3216X7R1C106K160AC](/en/images/900/8986919469086/95x95/ceramic-capacitor-10-f-16-v-dc-10-smd-1206-x7r-c3216x7r1c106k160ac.png)
![Ceramic capacitor, 470 pF, 2 kV (DC), ±10 %, SMD 1808, X7R, C4520X7R3D471K130KA](/en/images/900/8986919469086/95x95/ceramic-capacitor-470-pf-2-kv-dc-10-smd-1808-x7r-c4520x7r3d471k130ka.png)
![Ceramic capacitor, 220 nF, 50 V (DC), ±5 %, SMD 1812, C0G, C4532C0G1H224J320KA](/en/images/900/8986919469086/95x95/ceramic-capacitor-220-nf-50-v-dc-5-smd-1812-c0g-c4532c0g1h224j320ka.png)
High performance: ceramic capacitors in electronic circuits
Ceramic capacitors, often called "Kerkos", are essential components in electronic circuits and are responsible for storing electrical charge. They are made of thin oxide ceramic layers. This ensures stable electrical properties and high temperature resistance.
These features make ceramic capacitors ideal for high-frequency applications and can be found in small electronic devices as well as in complex industrial equipment. The models differ in terms of capacitance, dielectric strength and the dielectric used. This is a material that insulates the electrical flow in the capacitor and thus determines the storage capacity.