Overview of CGA4J2X7R1H104K125AA by TDK Corporation
The CGA4J2X7R1H104K125AA is a multilayer ceramic capacitor manufactured by TDK Corporation, featuring a capacitance of 0.1 µF and a rated DC voltage of 50 V. This capacitor is characterized by its X7R dielectric material, which provides a stable capacitance across varying temperatures and conditions. The X7R material specification indicates a temperature coefficient of 15% ppm/°C, making it suitable for applications that experience temperature variations.
This capacitor is housed in a compact 0805 chip package, measuring 2 mm in length, 1.25 mm in width, and 1.25 mm in height. It is designed for surface mount technology (SMT), facilitating automated assembly processes in manufacturing. The part is compliant with RoHS and REACH, indicating that it meets current environmental standards by being free from certain hazardous substances. Furthermore, its compliance with AEC-Q200 standards suggests suitability for automotive applications, though it must be noted that this alone does not specify direct automotive use.
With a negative and positive tolerance of 10%, CGA4J2X7R1H104K125AA maintains performance reliability under operational variances. Its operating temperature ranges from -55 °C to 125 °C, allowing it to function effectively in diverse environmental conditions. As of the current writing, the factory lead time is noted as 36 weeks, placing an emphasis on the importance of planning for lead times in project timelines.
Industry Applications for CGA4J2X7R1H104K125AA
- Internet of Things (IoT): The stable capacitance and environmental tolerance of CGA4J2X7R1H104K125AA could potentially make it suitable for IoT devices, which often operate in variable environmental conditions. Such devices might include smart home sensors and wearable technology.
- Industrial Automation: In automation equipment, consistent performance within temperature fluctuations is crucial. This capacitor might be used in control systems, where reliable performance can contribute to the precision of automated processes.
- Healthcare: Equipment such as patient monitoring systems that require reliable component performance in diverse conditions might potentially incorporate this type of capacitor. It’s important to verify compliance with specific healthcare equipment standards.
- Renewable Energy: Systems such as solar inverters or wind turbine controls, which must operate in a wide range of environmental conditions, could potentially benefit from the temperature and voltage characteristics of this capacitor.
It’s worth noting that these potential industry applications are conceptual and require thorough analysis and verification by engineering and design teams to ensure conformity with industry standards and specific requirements.
About TDK Corporation
TDK Corporation is an established manufacturer in the electronics components sector, particularly known for its range of capacitors. Within the realm of Ceramic Capacitors, TDK provides a variety of products, including CGA4J2X7R1H104K125AA. TDK’s products are marked by their reliability, technological advancements, and compliance to rigorous industry standards, making them suitable for a diverse array of applications across electronics sectors. Their capacitors are employed in everything from small-scale electronics to large industrial machines, indicative of the versatility and quality of TDK’s products.
Where to Find CGA4J2X7R1H104K125AA by TDK Corporation
To source the CGA4J2X7R1H104K125AA for your electronic projects, visit findchips.com where you can view current stock levels and pricing from various distributors. Although historically, this part has been available at distributors like Chip1Stop, Avnet Abacus, Quest Components, Future Electronics, Mouser Electronics, Avnet Americas, DigiKey, and Newark, inventory can vary. Visiting findchips.com ensures you get the latest availability and competitive pricing. Additionally, if alternate Ceramic Capacitors are needed, findchips.com provides access to a comprehensive list of products that might meet your requirements.