Manufacturer Part Number
CLVC1G125QDBVRQ1
Manufacturer
Texas Instruments
Introduction
The CLVC1G125QDBVRQ1 is a high-performance, automotive-grade, single-bit non-inverting buffer produced by Texas Instruments with a 3-state output.
Product Features and Performance
Automotive-grade integrated circuit
Non-inverting buffer logic functionality
Single-bit operation allows for precise control
3-State outputs can effectively reduce bus contention
Supports a wide supply voltage range for flexible use in various circuits
Product Advantages
Suitable for automotive applications due to its robust quality
AEC-Q100 qualification ensures reliability in harsh environments
Low power consumption enhances its use in power-sensitive applications
Compatibility with mixed-voltage systems due to its broad voltage range
Key Technical Parameters
Current Output High, Low: 24mA, 24mA
Voltage Supply: 1.65V ~ 5.5V
Operating Temperature: -40°C ~ 125°C (TA)
Quality and Safety Features
Meets stringent automotive reliability standards per AEC-Q100
Enhanced electrostatic discharge (ESD) protection
Over-voltage tolerant inputs and outputs for improved safety
Compatibility
Compatible with other devices within the 74LVC series
Can interface with various logic families due to the wide supply voltage range
Application Areas
Automotive electronics
Signal buffering in communication systems
Input/output port interfacing
Electronic control units
Product Lifecycle
Currently active product
Not known to be nearing discontinuation
Replacements or upgrades may be available as technology advances
Several Key Reasons to Choose This Product
High reliability and performance in automotive-grade applications
Low power consumption suitable for battery-powered or power-conscious designs
Wide operating voltage range allows for flexible integration into various electronic systems
Broad operating temperature range makes it ideal for use in extreme environmental conditions
Easy integration into designs due to the availability of Tape & Reel packaging for automated assembly processes