06035C104KAT2A: Overview, Features, and Applications

The part number "06035C104KAT2A" denotes a specific Multilayer Ceramic Capacitor (MLCC) manufactured by AVX Corporation, a leading provider of electronic components worldwide. This type of capacitor is often used in a wide range of applications because of its stability, reliability, and compactness.

Overview:

The 06035C104KAT2A is an MLCC, a type of ceramic capacitor that is fabricated by layering alternating layers of ceramic material and conductive electrodes, allowing a high capacitance value to be achieved in a compact package.

Features:

• Capacitance Value: The "104" in the part number denotes the capacitance value. In accordance with the standard three-digit capacitor code, "104" represents a capacitance of 100,000 picofarads (pF), or equivalently, 0.1 microfarads (µF).

• Voltage Rating: The "C" character indicates the DC voltage rating of the capacitor. For this part, "C" represents a DC voltage rating of 16 Volts.

• Tolerance: The "K" signifies the tolerance level of the capacitance value, which is ±10% for this specific capacitor.

• Temperature Characteristics: The X7R in the part number denotes the temperature coefficient, signifying that it has a ±15% capacitance change over a temperature range of -55°C to +125°C.

• Packaging: The part number ends with "A", referring to a standard packaging type of this component from AVX. Additionally, the "T2A" suffix may indicate that the specific components are packaged in a tape and reel configuration, which is common for surface-mount components.

• Size: The "0603" refers to the package size. This size typically correlates to dimensions of 0.06 inches by 0.03 inches, or about 1.6mm by 0.8mm in metric terms.

Applications:

Given its features and specifications as a general purpose mid-range MLCC, this component can be widely used in diverse applications including:

• Decoupling applications: One of the most common uses for these types of capacitors is as decoupling capacitors to filter out voltage spikes and prevent signal noise in power supply lines.

• Signal Filtering: They're used in audio and RF circuits to segregate elements by blocking direct current while letting alternating current pass.

• Timing circuits: Used in combination with resistors, they can help generate frequency timing signals.

• Circuits in harsh temperature environments: Given their X7R temperature characteristic, they can be suitable for applications that involve a wide range of operating temperatures.

As with any electronic component, always make sure to review the manufacturer's datasheet and other professional guidelines before using in your designs.