Overview of CL05B104KA5NNNC by Samsung Electro-Mechanics
The CL05B104KA5NNNC from Samsung Electro-Mechanics is a general-purpose multilayer Ceramic Capacitors classified within the 0402 package size. This capacitor offers a capacitance of 0.1 µF and a rated voltage of 25V. The accuracy of its capacitance is maintained within ±10% over a temperature range of -55°C to +125°C, thanks to its X7R temperature coefficient. The dielectric material used in the capacitor also contributes to its stability and performance under varying environmental conditions.
Measuring just 1 mm in length and 0.5 mm in width and height, this component is ideal for space-constrained applications. The capacitor is surface mountable and is provided on a 7-inch tape and reel for easier handling and assembly in automated manufacturing processes. Additionally, the CL05B104KA5NNNC is lead-free (Pb-free) and RoHS compliant, making it suitable for use in environmental-friendly products.
Furthering its compliance, the component is REACH compliant and carries an ECCN (Export Control Classification Number) code of EAR99, which typically signifies that it can be exported without a license except to embargoed or sanctioned countries. Additionally, given the current factory lead time of 20 weeks, engineers and procurement specialists are encouraged to plan accordingly to avoid production delays.
Industry Applications for CL05B104KA5NNNC
Possessing several valuable attributes, the CL05B104KA5NNNC could potentially find applications across various industries. Below are selected examples where this capacitor might fit well:
- Consumer Electronics: The compact size and general-purpose nature of CL05B104KA5NNNC make it suitable for use in various consumer electronics like smartphones, tablets, and laptops, where space-saving and reliable performance are crucial.
- Telecommunications: Given its stable performance across a broad range of operating temperatures, this capacitor might be used in telecommunications equipment such as base stations, routers, and switches that require consistent performance in diverse environmental conditions.
- Computing and Data Storage: Due to its robust temperature coefficient (X7R), the CL05B104KA5NNNC could potentially be utilized in servers and storage devices, ensuring power stability and integrity in critical computing applications.
While these applications highlight the versatility of the CL05B104KA5NNNC, engineers and design teams must analyze and verify its suitability and compliance with industry standards specific to their particular application requirements. The aforementioned potential applications are illustrative and require professional validation.
About Samsung Electro-Mechanics
Samsung Electro-Mechanics, established in 1973, is a key subsidiary of the Samsung Group, specializing in the development and manufacturing of advanced electronic components, including a wide range of capacitors. The company has a significant presence in the Ceramic Capacitors market, producing components that are renowned for their quality, reliability, and innovation.
Samsung Electro-Mechanics has developed several products similar to the CL05B104KA5NNNC, catering to diverse industrials needs from consumer electronics to high-end telecommunication and automotive systems. Its consistent focus on R&D and commitment to quality ensures that its capacitors meet stringent performance and reliability standards, making it a preferred manufacturer in the global electronics market.
Where to Find CL05B104KA5NNNC by Samsung Electro-Mechanics
If you are considering purchasing the CL05B104KA5NNNC, an effective method is to utilize the FindChips.com platform. On this website, you can also explore other Ceramic Capacitors that might suit alternate or similar applications. This part has historically been available from distributors such as LCSC, Avnet Asia, Future Electronics, Mouser Electronics, Avnet Americas, and DigiKey, though current stock levels and pricing can vary. As such, checking the latest availability and price through FindChips would provide the most current data.