Product Overview: M74HC125RM13TR from STMicroelectronics

The M74HC125RM13TR is a high-speed CMOS quad bus buffer fabricated with silicon gate C2MOS technology from the renowned semiconductor manufacturer, STMicroelectronics. This integrated circuit is designed to meet the stringent requirements of modern electronic applications, providing both the high performance and reliability that STMicroelectronics is known for.

This quad buffer features four distinct sections, each with a 3-state non-inverting buffer having separate input and output enable controls. The 3-state outputs ensure that the device can be used in bus-oriented applications, where multiple outputs can share a common connection without interference.

The M74HC125RM13TR operates over a broad voltage range from 2V to 6V and is characterized for operation from -55°C to +125°C, making it suitable for a diverse set of environments and conditions. The low power consumption and high noise immunity of CMOS technology, combined with the speed of LSTTL, make it ideal for interfacing with both CMOS and LSTTL systems.

This product comes in a compact, surface-mount SO-14 package, which is designed to optimize the PCB space and is well-suited for automated assembly processes. The device's part number suffix, RM13TR, indicates that it is provided in tape and reel packaging, which facilitates efficient handling and manufacturing.

The M74HC125RM13TR is a versatile component that can be utilized in a wide array of applications, including bus drivers, buffer memory address drivers, and input/output port drivers. Its high drive current and fast switching speeds make it an excellent choice for driving heavy loads with minimal propagation delay.

STMicroelectronics ensures that the M74HC125RM13TR meets the rigorous standards for quality and performance. The device is fully compliant with RoHS and is designed to meet the demands of an environmentally conscious market. With its robust design and advanced technology, the M74HC125RM13TR is a quintessential choice for designers looking to create efficient and reliable digital systems.