1C20X7R104K
Radial ceramic capacitors with various voltages
Manufacturer: ['sprague', 'vishay']
series introduction
The 1C20X7R104K Series is a distinguished line of multilayer ceramic capacitors (MLCCs) tailored for a variety of electronic applications, emphasizing performance, reliability, and compactness. This series features a dielectric composition of X7R, which ensures stable capacitance values with a tolerance of ±10% across a temperature range of -55°C to +125°C. Such characteristics make the 1C20X7R104K capacitors an excellent choice for environments that experience significant temperature fluctuations and electrical stress.
One of the key features of the 1C20X7R104K Series is its robust capacitance value of 100,000 pF (or 0.1 µF), which provides ample energy storage and filtering capabilities for numerous applications. The design of these capacitors utilizes a 1206 package size (3.2 mm x 1.6 mm), striking a balance between performance and space efficiency. This compact footprint is particularly advantageous for high-density circuit designs prevalent in modern electronics, allowing engineers to maximize board space without compromising on functionality.
The versatility of the 1C20X7R104K Series makes it suitable for a wide range of use cases, including power supply decoupling, signal coupling, and filtering applications in both consumer and industrial electronics. These capacitors are commonly employed in devices such as smartphones, tablets, and wearable technology, where size and reliability are paramount. Additionally, their rugged construction makes them ideal for automotive applications, where they can endure the rigors of temperature and vibration.
In summary, the 1C20X7R104K Series delivers a combination of compact design, stable performance, and versatility, making it a vital component in today’s electronic landscape. Whether used in consumer gadgets or industrial machinery, these capacitors provide dependable functionality, ensuring that electronic systems operate efficiently and reliably across diverse applications.
Images for reference
Image Preview
Image Preview
Image Preview