The ON Semiconductor MC14517BDWG is a versatile and high-performance CMOS Dual 64-Bit Static Shift Register designed for use in a variety of digital applications. This IC is notable for its ability to interface directly with the MOS, CMOS, NMOS logic families, making it an ideal choice for integration into a wide range of electronic systems.
Key Features
- Technology: The device is built on advanced CMOS technology, ensuring low power consumption and high noise immunity characteristic of CMOS integrated circuits.
- Dual 64-Bit Register: It contains two independent 64-bit registers, providing ample storage capability for complex operations or data manipulation.
- Clock Management: Each 64-bit register has its own clock input, which allows for synchronous or independent operation of the registers.
- Serial Input/Output: The MC14517BDWG supports serial data input and output, facilitating easy data transfer and chaining of multiple shift registers.
- Direct Cascading Capability: Multiple MC14517BDWG devices can be cascaded without additional gating, simplifying the design of systems requiring long shift registers.
- Supply Voltage Range: It operates within a supply voltage range of 3V to 18V, accommodating various application requirements and power supplies.
Applications
The MC14517BDWG is suitable for a broad array of applications, including:
- Serial-to-parallel data conversion
- Remote control holding registers
- Sequential timing applications
- Automotive systems
- Industrial control systems
- Data logging and storage devices
Package and Quality
Encased in a 16-lead SOIC wide body package, the MC14517BDWG ensures a compact footprint while still providing ease of integration into PCB designs. ON Semiconductor is committed to the highest standards of quality, and this product is no exception, meeting stringent industry requirements for performance and reliability.
Conclusion
In summary, the ON Semiconductor MC14517BDWG Dual 64-Bit Static Shift Register is a highly reliable and functional component that delivers the performance needed for today's digital applications. Its compatibility with various logic families, combined with its low power consumption and ease of cascading, makes it an excellent choice for designers looking to implement efficient data handling and storage solutions.