AT Series, Ceramic Capacitors

Results:
5
Manufacturer
Series
Capacitance
Size / Dimension
Package / Case
Thickness (Max)
Operating Temperature
Applications
Height - Seated (Max)
Tolerance
Lead Spacing
Voltage - Rated
Temperature Coefficient
Mounting Type
Ratings
Features
Failure Rate
Lead Style
Results remaining5
Applied Filters:
AT
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ImageProduct DetailPriceAvailabilityECAD ModelHeight - Seated (Max)ToleranceApplicationsRatingsCapacitanceVoltage - RatedSeriesFeaturesMounting TypeOperating TemperatureLead StyleFailure RateTemperature CoefficientPackage / CaseSize / DimensionThickness (Max)Lead Spacing
AT143T105KA12A
CAP CER 1UF 25V X7R 2225
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Quantity
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PCB Symbol, Footprint & 3D Model
-
±10%
General Purpose
-
1 µF
25V
AT
High Temperature
Surface Mount, MLCC
-55°C ~ 250°C
-
-
X7R (VHT)
2225 (5763 Metric)
0.225" L x 0.250" W (5.72mm x 6.35mm)
0.100" (2.54mm)
-
AT103T104KA12A
CAP CER 0.1UF 25V X7R 1210
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Quantity
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PCB Symbol, Footprint & 3D Model
-
±10%
General Purpose
-
0.1 µF
25V
AT
High Temperature
Surface Mount, MLCC
-55°C ~ 250°C
-
-
X7R (VHT)
1210 (3225 Metric)
0.126" L x 0.098" W (3.20mm x 2.50mm)
0.067" (1.70mm)
-
AT123T334KA12A
CAP CER 0.33UF 25V X7R 1812
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Quantity
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PCB Symbol, Footprint & 3D Model
-
±10%
General Purpose
-
0.33 µF
25V
AT
High Temperature
Surface Mount, MLCC
-55°C ~ 250°C
-
-
X7R (VHT)
1812 (4532 Metric)
0.177" L x 0.126" W (4.50mm x 3.20mm)
0.100" (2.54mm)
-
AT053T223KA12A
CAP CER 0.022UF 25V X7R 0805
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Quantity
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PCB Symbol, Footprint & 3D Model
-
±10%
General Purpose
-
0.022 µF
25V
AT
High Temperature
Surface Mount, MLCC
-55°C ~ 250°C
-
-
X7R (VHT)
0805 (2012 Metric)
0.079" L x 0.049" W (2.01mm x 1.25mm)
0.051" (1.30mm)
-
AT053T103KA12A
CAP CER 10000PF 25V X7R 0805
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Quantity
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PCB Symbol, Footprint & 3D Model
-
±10%
General Purpose
-
10000 pF
25V
AT
High Temperature
Surface Mount, MLCC
-55°C ~ 250°C
-
-
X7R (VHT)
0805 (2012 Metric)
0.079" L x 0.049" W (2.01mm x 1.25mm)
0.051" (1.30mm)
-

About  Ceramic Capacitors

Capacitors are essential passive electronic components that have the ability to store electric charge. Ceramic capacitors, specifically, are constructed using alternating layers of ceramic material as the dielectric and metal layers as the non-polarized electrodes. Ceramic capacitors find extensive use in various applications such as automotive electronics, bypassing, decoupling, filtering, radio frequency (RF) circuits, and electrostatic discharge (ESD) protection. They are particularly valued for their compact size, high capacitance values, and excellent performance across a wide range of frequencies. Through-hole versions of ceramic capacitors are commonly found in disc or "blob" shapes, featuring two wire leads for easy insertion into circuit boards. This form factor allows for convenient soldering and secure mechanical connection. Ceramic capacitors offer numerous advantages, including high reliability, low cost, and stability under different environmental conditions. The dielectric material used in these capacitors determines their temperature coefficient and voltage characteristics. Manufacturers typically provide datasheets specifying the capacitance values, voltage ratings, tolerances, and other important parameters to aid in proper selection and implementation. In summary, ceramic capacitors are widely used in electronics for various purposes such as automotive applications, signal filtering, and ESD protection. They consist of alternating layers of ceramic and metal, with through-hole versions having a disc or blob-like shape and two wire leads for easy integration into circuit boards. These capacitors exhibit excellent performance, compact size, and reliability, making them a popular choice in electronic designs.