Product Overview: NXP HEF4050BT Hex Non-Inverting Buffer/Converter

The NXP HEF4050BT is a high-quality integrated circuit designed for a wide range of digital and mixed-signal applications. This versatile hex non-inverting buffer/converter is part of the 4000 series logic family, known for their robustness and reliability. The HEF4050BT is particularly useful when interfacing between different voltage levels within a digital system, offering level shifting capabilities to accommodate various logic signal voltages.

Key Features

• Logic Type: Non-Inverting Buffer / Level Shifter
• Number of Elements: Hex (6 Independent Buffers)
• Input Level: Standard CMOS
• Output Level: Standard CMOS
• Supply Voltage Range: 3V to 15V
• Output Current: High/Low: 4.8mA at 10V
• Mounting Type: Surface Mount
• Package / Case: SOIC-16
• Operating Temperature: -40°C to +85°C

Applications

The HEF4050BT is ideally suited for interfacing and level translation applications where a signal needs to be converted from one voltage level to another without inverting its logic state. It is commonly used in:

• Data communication systems
• Signal buffering for microcontrollers
• Logic level translation in mixed-voltage systems
• Driving heavier loads with its high current outputs
• General purpose logic applications

Quality and Reliability

NXP Semiconductors is known for its commitment to quality and the HEF4050BT is no exception. Manufactured with high-grade materials and subjected to rigorous testing, this component ensures stable performance across its entire operating temperature range. With its robust design, the HEF4050BT is a reliable choice for designers looking to create systems that require dependable level shifting and buffering solutions.

Summary

The NXP HEF4050BT is a versatile logic device that provides six non-inverting buffer/converter functions in a single chip. With its wide supply voltage range and the ability to interface between different logic levels, it is an excellent choice for a myriad of applications that require high reliability and ease of integration.