Overview of GRM033R61C104KE84D by Murata Manufacturing Co Ltd.
The GRM033R61C104KE84D is a high-performance, multilayer ceramic capacitor (MLCC) offered by Murata Manufacturing Co Ltd., one of the most notable names in the production of electronic components. This specific capacitor boasts a capacitance value of 0.1 µF with a voltage rating of 16V. It operates within a temperature coefficient of X5R, indicating a ±15% variation over a temperature range from -55°C to +85°C. This part falls under the small 0201 package size (0603 Metric), making it suitable for high-density mounting on circuit boards where space is a premium. Its surface mount design is compatible with most contemporary electronic assembly processes. With compliance to RoHS standards, GRM033R61C104KE84D also meets current environmental and safety requirements, making it a responsible choice for manufacturers concerned with sustainability.
Industry Applications for GRM033R61C104KE84D
The versatility of the GRM033R61C104KE84D allows it to serve in a vast array of applications across different industries. Here are a few potential use cases, illustrating its broad utility:
- Consumer Electronics: Devices such as smartphones, tablets, and wearable technology might leverage this capacitor for its stability across temperature variations and its compact size, allowing for slimmer, more integrated designs.
- Automotive: With its robust temperature range, the GRM033R61C104KE84D could be used in electronic control units, infotainment systems, or sensor circuits in vehicles, contributing to their reliability in harsh operating environments.
- Telecommunications: In communications hardware, such as networking equipment and RF modules, the capacitor might be chosen for its stable electrical characteristics over temperature, supporting consistent, reliable signal transmission.
- Industrial: Industrial automation systems, power supplies, and interface modules could benefit from the durability and performance of GRM033R61C104KE84D, especially where precise electronic control is necessary.
- Education and Research: Laboratory equipment and experimental setups often require components with specific tolerances and operational stability, making this ceramic capacitor a fitting choice for various research and development activities.
Note that these applications are hypothetical scenarios based on the part’s specifications. Specific use cases should undergo thorough analysis and verification by engineering and design teams to ensure suitability and compliance with application requirements.
About Murata Manufacturing Co Ltd.
Murata Manufacturing Co Ltd. is a global leader in the design, manufacture, and supply of advanced electronic materials, components, and multi-functional, high-density modules. The company holds a significant position in the ceramics capacitors market, offering solutions that are essential in nearly every electronic device. Murata’s product range extends well beyond the GRM033R61C104KE84D, encompassing a variety of capacitor types for different applications, each designed to address specific performance requirements and engineering challenges. Renowned for their innovation and quality, Murata’s ceramic capacitors are preferred by engineers and procurement professionals across industries for their reliability and performance.
Where to Find GRM033R61C104KE84D by Murata Manufacturing Co Ltd
To find the GRM033R61C104KE84D for your application, we recommend starting your search at findchips.com. This platform offers comprehensive data on stock levels, pricing, and distributor information, allowing you to make informed procurement decisions. In addition to GRM033R61C104KE84D, the site also provides access to a wide selection of ceramic capacitors from Murata Manufacturing Co Ltd and other leading manufacturers. Historically, this part has been available from distributors such as Perfect Parts Corporation, Chip1Stop, Chip1Cloud, Avnet Asia, and DigiKey, among others. However, stock levels and availability are subject to change, so it’s essential to check findchips.com for the most current information.