Overview of CRCW0402100KFKED by Vishay Dale
The CRCW0402100KFKED part is a 100K Ohm thick film resistor designed for surface mount technology (SMT) applications. This resistor is rated at 1/16 watt (0.063 W) with a tolerance of 1% and a temperature coefficient of resistance (TCR) of ±100 parts per million per degree Celsius (ppm/°C). It comes in a compact 0402 (1005 metric) package, making it ideal for applications where space is at a premium. The molded construction helps to enhance its durability and reliability, emphasizing its suitability in various electronic applications.
The part is classified under the subcategory of Thick Film Resistors within the broader category of resistors. As of the current writing, the part is classified in an active life cycle stage, indicating ongoing production and availability. The Reach compliance code is currently unknown, which may require further investigation depending on usage and compliance requirements for your specific application.
Industry Applications for CRCW0402100KFKED
The CRCW0402100KFKED may have several potential applications across different industries due to its specifications and capabilities. While the applications mentioned below are purely illustrative, they indicate potential use cases where this part might be considered:
- Consumer electronics: This part could potentially be utilized in devices such as smartphones, tablets, and wearables, where space and power efficiency are crucial. Its small package and 1% tolerance might make it suitable for precision voltage dividers or sensor applications within these devices.
- Industrial automation: The CRCW0402100KFKED might find use in automation equipment, where reliable components are key for measuring and controlling processes. Its TCR rating is conducive to applications where temperature stability is needed, potentially making it suitable for industrial sensors or control circuits.
- Aerospace and defense: Depending on requirements for reliability and compliance, this resistor could possibly be utilized in avionics systems. The 1% tolerance and durability could meet specific operational needs in control systems or data acquisition units in harsh environments.
- Telecommunications: This part might have applications in telecommunications equipment, such as RF and microwave systems where impedance matching and signal integrity are of utmost importance. The small size and stable resistance values could support circuit designs that aim to optimize performance in these systems.
- Healthcare: If standards for medical devices are met, this resistor could potentially be used in diagnostic equipment or monitoring devices. The characteristics such as low power dissipation and high reliability might be crucial in medical applications where performance consistency is paramount.
It is important to note that the applications defined above are conceptual and require thorough evaluation by engineering and design teams to ensure adherence to industry standards and specific application requirements. Similar parts within the thick film resistor category might also be appropriate for these applications depending on the specific design considerations.
About Vishay Dale
Vishay Dale is a manufacturer known for its extensive range of resistor products, particularly in the thick film resistor category. Focused on innovative electronic components, Vishay Dale designs resistors that meet the needs of various industries, offering products like the CRCW0402100KFKED and similar components. Their thick film resistors are utilized in applications that demand precision and reliability, which aligns with the specifications of the CRCW0402100KFKED.
The company’s commitment to quality and performance in electronic components significantly contributes to their reputation in the industry. Vishay Dale manufactures a variety of resistors suitable for different applications, offering products with various tolerances, power ratings, and package sizes. This variety allows engineers and designers to find the most suitable component for their specific needs, particularly when reliability and space constraints are critical factors.