The MK2049-45SILFTR is an integrated circuit (IC) component that provides various key features for electronic applications. Here is an overview and some of its notable features explained :
The MK2049-45SILFTR is a highly advanced IC component designed for precise signal generation and clock management in electronic systems. It operates at a voltage range of 2.97V to 3.63V with a low power consumption, making it ideal for portable devices and power-sensitive applications.
One of the prominent features of the MK2049-45SILFTR is its high accuracy in generating clock signals. It offers a frequency stability of ±25ppm at room temperature, ensuring reliable and consistent timing for various digital circuits. This accuracy makes it suitable for applications requiring synchronizations such as data communication, multimedia, and industrial control systems.
Furthermore, the MK2049-45SILFTR provides a wide frequency range from 1kHz to 110MHz, allowing flexibility in accommodating different timing requirements. It also boasts low phase noise characteristics, ensuring minimal interference or distortion in sensitive applications like wireless communications or audio systems.
The IC component incorporates advanced features to enhance its usability and flexibility. It supports multiple output formats, including CMOS and LVDS, enabling seamless integration with various devices. It also offers programmable options for output frequency, duty cycle, and other parameters, allowing customization based on specific application requirements.
In terms of reliability, the MK2049-45SILFTR is built with robust design techniques and employs ESD protection measures, ensuring high durability against electrostatic and other environmental hazards. It is available in a small surface-mount package (SIL) for space-constrained applications and features a wide operating temperature range from -40°C to 85°C.
Overall, the MK2049-45SILFTR is a versatile IC component that combines high accuracy, wide frequency range, programmability, and reliability. Its implementation can significantly enhance the performance and functionality of various electronic systems where precise clock signals are crucial.
