Overview of CL21B106KOQNNNG by Samsung Electro-Mechanics
The CL21B106KOQNNNG is a multilayer ceramic chip capacitor (MLCC) from Samsung Electro-Mechanics that offers a capacitance of 10 microfarads and a rated DC voltage of 16 volts. This capacitor features an X7R temperature coefficient, which allows it to operate over a temperature range of -55ºC to +125ºC, maintaining a consistent performance in varied environmental conditions. Enclosed in a compact 0805 package, the dimensions of this part are 2mm x 1.25mm x 1.25mm, making it suitable for surface mount technology (SMT). The chip is designed with a rectangular package and wraparound terminals that have a matte tin finish with a nickel barrier, enhancing its solderability and resistance to oxidation.
The CL21B106KOQNNNG is part of the broader category of Ceramic Capacitors. It adheres to significant environmental compliance, being ROHS compliant, REACH compliant, and possessing a Pb-free code, which emphasizes the exclusion of lead in its materials. This makes the capacitor a suitable choice for applications sensitive to environmental conservation standards. Additionally, this part holds an ‘Active’ lifecycle status according to its Part Data Attributes, suggesting its ongoing production and availability in the market.
Industry Applications for CL21B106KOQNNNG
Given its robust electrical characteristics and the reliability across a broad range of temperatures, the CL21B106KOQNNNG can potentially serve several advanced industry applications. Here are some illustrative uses:
- Consumer Electronics: This capacitor might be used in devices such as smartphones, tablets, or laptops where stability and reliability under varying environmental conditions are critical. The compact footprint and high capacitance value are particularly beneficial for space-constrained applications.
- Industrial Automation: In controls and automation systems, the stability of components like the CL21B106KOQNNNG could potentially help in improving reliability and performance of industrial automation electronics, such as PLCs and motor controllers.
- Renewable Energy: Given its high temperature range, this capacitor could also find usage in energy equipment subject to harsh environments, such as solar inverters and wind turbine controls.
- Robotics and Drones: In robotics and drones, robust components that can withstand physical stresses and temperature fluctuations are crucial. The mechanical and thermal stability of the CL21B106KOQNNNG could make it a potential candidate for power management applications within these technologies.
Note that these potential industry applications serve as examples and should be explored further by engineering and design teams for specific uses, adhering to industry standards and application requirements.
About Samsung Electro-Mechanics
Samsung Electro-Mechanics, founded in 1973, has been a pivotal player in the development and production of a diverse range of electronic components, including Ceramic Capacitors. Known for its innovation in the field of electronic components, Samsung Electro-Mechanics offers a variety of capacitors that cater to a wide array of needs in the electronics sector. The CL21B106KOQNNNG is a testament to their expertise in creating high-capacity, durable capacitors that are suited for both general and specific purposes. Samsung’s role in pushing the boundaries in capacitor technology continues to support advancements in various high-tech industries.
Where to Find CL21B106KOQNNNG by Samsung Electro-Mechanics
For those looking to purchase the CL21B106KOQNNNG, it is recommended to check its availability and current pricing on findchips.com. Historically, this part has been available through various distributors such as Avnet Asia, Future Electronics, Mouser Electronics, Avnet Americas, DigiKey, and Newark. However, for current stock levels and best pricing options, visiting FindChips would provide you with the most up-to-date information. You can also explore alternative Ceramic Capacitors by Samsung Electro-Mechanics or other manufacturers through this online platform.