Overview of CK45-B3DD151KYVN
The CK45-B3DD151KYVN, developed by TDK Corporation, marks a significant achievement in the realm of electronic components. This device is a multilayer ceramic chip capacitor (MLCC), which plays a crucial role in smoothing, filtering, and decoupling electrical currents in electronic circuits. Notably characterized by its durability and adaptability, the CK45-B3DD151KYVN showcases TDK's relentless pursuit of technological advancement and superior quality in its offerings.
Key Features
Salient features of the CK45-B3DD151KYVN include:
- A capacitance value of 150pF, crucial for electronic systems requiring precise capacitance for efficient functionality.
- An operational temperature range from -25°C to +85°C, ensuring reliability across a broad spectrum of environmental conditions.
- Compatibility with the 3225 package size, which strikes an optimal balance between minimizing space and maximizing performance.
- A dielectric material designed for enhanced stability, providing consistent reliability under various operational circumstances.
Applications
Thanks to its versatility and robustness, the CK45-B3DD151KYVN is well-suited for a diverse array of applications, such as:
- Energy management systems, where its precision in capacitance aids in efficient power distribution.
- Consumer electronics, including wearable technology and portable devices, benefiting from its compact size and reliable performance.
- Communication devices, where stability and efficiency are paramount for signal integrity.
- Lighting technology, particularly in LED circuits where consistent performance is crucial for lifespan and brightness.
Quality and Reliability
Embodying TDK Corporation's commitment to excellence, the CK45-B3DD151KYVN is manufactured according to stringent industry guidelines, assuring its robustness and longevity in a multitude of environments and applications. Integrating this capacitor into electronic designs not only enhances performance but also instills confidence in the reliability and quality of the overall system.