Manufacturer Part Number
SN74AHC126PWR
Manufacturer
Texas Instruments
Introduction
The SN74AHC126PWR is a 3-state, non-inverting buffer integrated circuit (IC) from Texas Instruments, part of the 74AHC series.
Product Features and Performance
4 independent 3-state, non-inverting buffers
Operates on a wide supply voltage range of 2V to 5.5V
High-speed operation with typical propagation delay of 5.5 ns
High-drive capability with 8 mA output current in both high and low states
Supports surface mount packaging in a 14-TSSOP (0.173", 4.40 mm width) configuration
Designed to be RoHS3 compliant
Product Advantages
Wide supply voltage range allows use in diverse applications
High-speed and high-drive capabilities enable efficient signal buffering
Small surface mount package saves board space
Compliance with RoHS3 standards ensures environmental friendliness
Key Technical Parameters
Voltage Supply: 2V to 5.5V
Current Output High, Low: 8 mA, 8 mA
Logic Type: Buffer, Non-Inverting
Number of Bits per Element: 1
Number of Elements: 4
Operating Temperature: -40°C to 85°C (TA)
Quality and Safety Features
RoHS3 compliant for environmental responsibility
Tested and qualified to meet Texas Instruments' high-quality standards
Compatibility
Compatible with various logic families, including TTL, CMOS, and other 74 series ICs
Application Areas
Suitable for a wide range of digital logic applications, such as:
- Signal buffering and driving
- Level translation
- Interface expansion
- General-purpose logic functions
Product Lifecycle
The SN74AHC126PWR is an active and readily available product from Texas Instruments.
Replacement or upgrade options may be available, depending on the specific application requirements.
Key Reasons to Choose This Product
Wide supply voltage range for versatile use
High-speed and high-drive capabilities for efficient signal buffering
Small surface mount package for space-constrained designs
RoHS3 compliance for environmental sustainability
Meets Texas Instruments' high-quality standards
Compatibility with various logic families for design flexibility