Overview of CGA5L1X7R1H106K160AC by TDK Corporation
The CGA5L1X7R1H106K160AC is a sophisticated ceramic capacitor developed by TDK Corporation, a leader in electronic components. It exhibits high reliability and performance, designed to operate over a wide temperature range from -55°C to 125°C. This makes it an excellent choice for applications requiring durability and stability under extreme conditions. One of the notable features of CGA5L1X7R1H106K160AC is its X7R temperature coefficient, which maintains a capacitance fluctuation within ±15% over its operating temperature range. Furthermore, it boasts a capacitance of 10 µF and a rated voltage of 50V, packed in a compact 1206 size surface mount device (SMD) form factor with dimensions of 3.2 mm in length and 1.6 mm in width and height, respectively.
Importantly, the CGA5L1X7R1H106K160AC meets several crucial certifications such as RoHS, REACH compliance, and is AEC-Q200 qualified, indicating its suitability for automotive applications. Its manufacturing process is eco-friendly, as denoted by the JESD-609 Code e3. With a factory lead time of 36 weeks as of the current writing, planning for procurement needs to consider this timeframe.
Industry Applications for CGA5L1X7R1H106K160AC
The versatile specifications of the CGA5L1X7R1H106K160AC capacitor make it suitable for a broad range of industries. Key applications include:
- Internet of Things (IoT): For IoT devices, stable capacitor performance in varying environmental conditions is paramount. CGA5L1X7R1H106K160AC’s wide operating temperature range and reliability may make it an excellent choice for smart home devices, wearables, and other connected technologies.
- Industrial Automation: The need for components that can endure harsh industrial environments makes these capacitors potentially suitable for automation equipment, control systems, and machinery that operate under extreme temperatures or electrical conditions.
- Healthcare: Medical devices require high reliability and precision. The stability offered by CGA5L1X7R1H106K160AC’s X7R temperature coefficient could be critical in designing healthcare equipment that demands consistent performance.
- Renewable Energy: Solar inverters, wind turbines, and other renewable energy technologies that face outdoor environmental challenges may benefit from the durable nature of this ceramic capacitor.
- Robotics and Drones: These applications often deal with abrupt changes in movement and environment, necessitating rugged, reliable components. The mechanical robustness and temperature resilience of CGA5L1X7R1H106K160AC make it potentially ideal for these innovative sectors.
About TDK Corporation
TDK Corporation has established itself as a premier manufacturer of electronic components, with a notable emphasis on capacitors. Their product portfolio spans various types, including ceramic, aluminum electrolytic, and film capacitors. TDK’s commitment to quality and technological advancement is evident in their development of components like CGA5L1X7R1H106K160AC and similar parts. These components are designed to meet the stringent requirements of modern electronic applications, leveraging TDK’s rich history and expertise in materials science and electronic engineering. The corporation’s focus on innovation, coupled with adherence to high-quality standards and environmental responsibility, positions TDK as a trusted partner in the electronic components market.
Where to Find CGA5L1X7R1H106K160AC by TDK Corporation
To procure the CGA5L1X7R1H106K160AC, findchips.com is an invaluable resource for comparing current stock levels across multiple distributors. Historical availability has included distributors such as Newark, DigiKey, Avnet Americas, Mouser Electronics, and more, but for the most up-to-date availability and pricing, it’s advisable to check directly on Findchips. Additionally, for those considering alternatives or exploring other ceramic capacitor options, Findchips offers a broad selection of Ceramic Capacitors, including products from TDK Corporation and other leading manufacturers.