Overview of CD74HC4067M96 by Texas Instruments
The CD74HC4067M96 by Texas Instruments is a high-performance, CMOS single-ended 16-to-1 analog multiplexer/demultiplexer with a wide operating temperature range of -55 to 125°C. This precision component is housed in a 24-pin Small Outline Integrated Circuit (SOIC) package, offering a compact form factor suitable for dense circuit designs. With a supply voltage range of 2V to 6V, it facilitates compatibility with a diverse range of logical interfaces, thereby enhancing its utility across various applications. The CD74HC4067M96 features an on-state resistance (Ron) maximum of 180 Ohm, an attribute that signifies its efficiency in signal transmission.
Considering technical specifics, the part supports a signal current max of 0.025 A and showcases excellent performance metrics, including a nominal bandwidth of 89 MHz and a swift switching time (switch-on time max at 60 ns and switch-off time max at 58 ns), ensuring minimal signal delay. Notably, it adheres to stringent industry standards, including RoHS compliance, indicating a commitment to environmental responsibility.
Industry Applications for CD74HC4067M96
The CD74HC4067M96 demonstrates a versatile fit across an array of industries due to its technical specifications and performance characteristics. Potential application use cases might span the following areas:
- Education and Research: Utilized in experimental setups and educational kits to demonstrate analog signal processing concepts. Its ease of integration and operational flexibility make it ideal for prototyping and learning environments.
- Internet of Things (IoT): Possible incorporation in IoT devices for sensor data aggregation or control signal routing, leveraging its single-ended multiplexing capability to facilitate compact and efficient design architectures.
- Computing and Data Storage: Applicable in computing infrastructure and data storage systems for signal routing and data channel selection, potentially enhancing system reliability and performance through effective signal management.
- Aerospace and Defense: Given its wide operating temperature range and robust performance, it could find uses in aerospace and defense systems where reliability under extreme conditions is paramount.
Note that these potential applications are illustrative and require thorough validation by respective engineering and design teams to ensure compatibility and performance within specific contexts.
About Texas Instruments
Texas Instruments (TI) is a leading manufacturer in the semiconductor industry, known for its vast range of electronic components which include a significant lineup of Multiplexers or Switches. TI has established itself as an innovator in the field of signal processing and integrated circuit design, offering products that serve in various applications, from consumer electronics to industrial systems. The company’s portfolio includes products like the CD74HC4067M96, which exemplify their commitment to providing high-quality, reliable components for complex electronic systems. TI’s contributions to the multiplexer and switch categories reflect their ongoing commitment to excellence and innovation in signal circuits.
Where to Find CD74HC4067M96 by Texas Instruments
For professionals looking to procure the CD74HC4067M96 multiplexer, the starting point should be findchips.com. The platform provides the most up-to-date information on stock availability, pricing, and supplier options, making it a valuable resource for efficient procurement. Over time, distributors such as Win Source Electronics, Perfect Parts Corporation, LCSC, CHIPMALL.COM LIMITED, Ameya Holding Limited, TME, Mouser Electronics, DigiKey, and Newark have stocked the CD74HC4067M96. However, to obtain current stock levels, pricing, and potentially discover alternative suppliers or similar parts from Texas Instruments or other leading manufacturers, exploring Multiplexers or Switches on findchips.com is recommended. This approach ensures access to a broader array of options and the best possible procurement decisions.