ON Semiconductor MC74HCT241ADTR2G Product Overview

The MC74HCT241ADTR2G is a high-performance integrated circuit designed and manufactured by ON Semiconductor, a leader in the semiconductor industry. This robust device is an octal 3-state non-inverting buffer/line driver/line receiver that operates at a voltage range of 4.5V to 5.5V, making it compatible with TTL levels. It is specifically engineered to be used in applications where high-speed, low-power consumption, and efficient data transmission are required.

Designed with the advanced high-speed CMOS technology, the MC74HCT241ADTR2G offers the functionality of the CMOS logic family while maintaining the speed and drive characteristics of LSTTL. This makes it an ideal choice for interfacing with high-speed logic circuits. The octal buffer/line driver has three-state outputs which can be used in bus-organized systems. When the output enable (OE) input is high, the outputs are in a high-impedance state, allowing for bidirectional data flow in bus-oriented systems.

The MC74HCT241ADTR2G is packaged in a TSSOP-20 (Thin Shrink Small Outline Package) which is known for its space-saving footprint. This package type is especially beneficial in systems where board space is at a premium. Additionally, the device's inputs are designed to be highly tolerant to static discharge, offering protection during handling and operation.

Key features of the MC74HCT241ADTR2G include:

• Compatible with input TTL levels
• IEC-1000-4-2 Level 2 ESD protection
• High output current: -32mA/+64mA
• Low quiescent current consumption
• High noise immunity characteristic of CMOS devices
• Operational temperature range from -55°C to +125°C

This device is commonly used in a variety of digital applications such as computers, data communication equipment, control systems, and other electronic devices that require high-speed data transmission and buffering. The ON Semiconductor MC74HCT241ADTR2G is a reliable and versatile component that offers a perfect blend of speed, power efficiency, and robustness for today's demanding electronic environments.