Ceramic Capacitors

Part Number	Description / PDF	Quantity
C0805C912K8HAC7800 KEMET	CAP CER 0805 9.1NF 10V ULTRA STA	0
C317C820JAG5TA7301 KEMET	CAP CER 82PF 250V C0G/NP0 RADIAL	0
C1206C101KDGACTU KEMET	CAP CER 100PF 1KV C0G/NP0 1206	4690
C410C332JAG5TA KEMET	CAP CER 3300PF 250V C0G AXIAL	0
C0805X621J3HAC7800 KEMET	CAP CER 0805 620PF 25V ULTRA STA	0
C1210C330G1HACAUTO KEMET	CAP CER 1210 33PF 100V ULTRA STA	0
C0805C682KARECAUTO7210 KEMET	CAP CER 0805 6.8NF 250V X7R	0
C1206X362K3HAC7800 KEMET	CAP CER 1206 3.6NF 25V ULTRA STA	0
C0805X153JARECAUTO7210 KEMET	CAP CER 0805 15NF 250V X7R 5%	0
C1206C103F3JACAUTO KEMET	CAP CER 10000PF 25V U2J 1206	0
C1206X333K5GECAUTO KEMET	CAP CER 1206 33NF 50V C0G 10%	0
C320C272FAG5TA7301 KEMET	CAP CER 2700PF 250V C0G/NP0 RAD	0
CKC33C562GCGAC7800 KEMET	KC-LINK 3640 5.6NF 500VDC C0G	0
C420C512JAG5TA KEMET	CAP CER 5100PF 250V C0G AXIAL	0
C1210C561G8HAC7800 KEMET	CAP CER 1210 560PF 10V ULTRA STA	0
C327C689B3G5TA7301 KEMET	CAP CER 6.8PF 25V C0G/NP0 RADIAL	0
C318C111K3G5TA KEMET	CAP CER 110PF 25V C0G/NP0 RADIAL	0
C0805C103M4RECAUTO7210 KEMET	CAP CER 0805 10NF 16V X7R 20%	0
C0603X241G5HAC7867 KEMET	CAP CER 0603 240PF 50V ULTRA STA	0
C0402C103J3RACAUTO KEMET	CAP CER 10000PF 25V X7R 0402	19906

Ceramic Capacitors

1. Overview

Ceramic capacitors are fixed-value capacitors with ceramic materials as dielectrics. They consist of alternating layers of ceramic and metal electrodes, offering compact size, low cost, and stable performance. As core passive components, they are critical in modern electronics for functions like noise filtering, signal coupling, and power supply stabilization. Their importance spans from consumer electronics to aerospace systems due to their reliability and wide operating frequency range.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Class I Ceramic Capacitors	High stability, low losses, linear temperature coefficient ( 30ppm/ C)	RF circuits, precision oscillators
Class II Ceramic Capacitors	Higher capacitance density, nonlinear temperature response ( 15%-22%)	Power decoupling, DC link circuits
Multi-Layer Ceramic Capacitors (MLCCs)	Stacked electrode structure, high capacitance-to-volume ratio	Mobile devices, automotive electronics
High Voltage Ceramic Capacitors	Rated voltage >1kV, thick dielectric layers	Power supplies, medical imaging equipment

3. Structure and Composition

Ceramic capacitors feature a layered structure with three primary components:

Ceramic Dielectric: Barium titanate (BaTiO3) or calcium zirconate formulations for Class II/III types
Electrodes: Nickel, copper, or silver-palladium alloys in alternating layers
Terminations: Solderable outer layers (e.g., tin/nickel plating) for PCB mounting

MLCCs are manufactured through tape casting, screen printing, and sintering processes to create monolithic structures with up to 1000+ electrode layers.

4. Key Technical Specifications

Parameter	Significance	Typical Range
Capacitance (C)	Determines charge storage capability	0.5pF - 100 F
Rated Voltage (VR)	Maximum DC working voltage	2.5V - 10kV
Capacitance Tolerance	Manufacturing accuracy	1% (Class I) to 22% (Class III)
Temperature Coefficient	Stability across temperature	-55 C to +125 C operating range
ESR (Equivalent Series Resistance)	Impacts high-frequency performance	1m - 100m

5. Application Fields

Ceramic capacitors are deployed in:

Consumer Electronics: Smartphones (decoupling), laptops (power management)
Automotive Systems: ECU units (noise suppression), EV charging circuits
Industrial Equipment: Motor drives (snubber circuits), PLC controllers
Telecommunications: 5G base stations (RF filtering), optical transceivers
Medical Devices: MRI scanners (high-voltage isolation), pacemakers

6. Leading Manufacturers and Products

Manufacturer	Key Products	Technical Highlights
Murata Manufacturing	GRM series MLCCs	Sub-millimeter 0201 size with 10 F capacity
TDK Corporation	C4532 series	High-reliability automotive grade components
KEMET Electronics	C1210 series	Space-grade tantalum ceramic hybrid capacitors
AVX Corporation	943D series	High-voltage 2000V surface-mount devices
Vishay Intertechnology	VCB series	Anti-sulfurated terminations for harsh environments

7. Selection Guidelines

Key considerations for capacitor selection:

Operating voltage margin (>20% above rated voltage)
Temperature stability requirements (Class I for precision circuits)
Size constraints (MLCCs preferred for miniaturization)
Environmental factors (humidity, vibration, thermal cycling)
Cost optimization (Class II for cost-sensitive applications)

Example: For a 5G RF front-end module, select Class I capacitors with 0.1pF tolerance and 50 impedance matching characteristics.

8. Industry Trends

Emerging developments include:

Miniaturization: Development of 01005-inch MLCCs for wearable devices
High Capacitance Density: 100 F+ in 1210 package through nano-dielectric engineering
Advanced Materials: Lead-free ceramics meeting RoHS standards
High-Temperature Performance: Capacitors operating reliably at 200 C+
Integrated Solutions: Embedded capacitor substrates for SiP (System-in-Package) applications