ON Semiconductor MC74VHC4051DTR2G

The MC74VHC4051DTR2G is a high-performance, single-pole, eight-throw analog multiplexer/demultiplexer manufactured by ON Semiconductor. This versatile component is part of the VHC family, which is renowned for its low power consumption and high noise immunity equivalent to JEDEC standard no. 17. The MC74VHC4051DTR2G is designed to operate from a 2V to 6V power supply, making it suitable for a wide range of applications in the consumer, automotive, and industrial markets.

Featuring a high-speed pinout, the MC74VHC4051DTR2G has a typical switch enable time of 15 ns and a break-before-make switching action. This ensures that there is no momentary shorting of channels during switching, which is critical for both digital and analog applications. The device also boasts a low quiescent current, which is ideal for power-sensitive designs.

With its bidirectional operation as a multiplexer or demultiplexer, the MC74VHC4051DTR2G is highly versatile. It can handle both digital and analog signals, and the analog inputs/outputs can swing between VCC as a positive limit and VEE as a negative limit. ON Semiconductor has fabricated this device with silicon gate CMOS technology, ensuring a robust and reliable performance.

The MC74VHC4051DTR2G comes in a TSSOP-16 package, providing a compact footprint for space-constrained applications. It also features latch-up performance that exceeds 300mA per JESD 17, and it is specified for propagation delay and 5V, 10V, and 15V parametric testing. This makes the device highly adaptable for various operating environments and conditions.

Applications for the MC74VHC4051DTR2G include signal gating, analog-to-digital conversion, digital-to-analog conversion, and channel selection in various electronic systems. Its robust design and flexibility make it an excellent choice for designers looking for a reliable multiplexer/demultiplexer solution.

Overall, the ON Semiconductor MC74VHC4051DTR2G is a high-quality, versatile component that offers excellent performance in a wide range of applications. Its low power consumption, high noise immunity, and flexible power supply requirements make it an ideal choice for modern electronic designs.