Manufacturer Part Number
74LVC1G14SE-7
Manufacturer
diodes
Introduction
The 74LVC1G14SE-7 is a single inverter logic gate featuring Schmitt Trigger input, part of the 74LVC series designed for low voltage operation.
Product Features and Performance
Schmitt Trigger enhances noise immunity and transforms slowly changing input signals into sharp, jitter-free output signals.
Low power consumption with a maximum quiescent current of 10 µA.
Supports a wide voltage supply range from 1.65V to 5.5V.
Capable of outputting currents of 32 mA both high and low.
Fast switching characteristics with a maximum propagation delay of 6.5ns at 5V.
Product Advantages
High noise immunity due to Schmitt Trigger input.
Suitable for use in low voltage and low power environments.
Compact SOT-353 packaging suitable for surface mount.
Wide operating temperature range from -40°C to 125°C offers versatility across different environmental conditions.
Key Technical Parameters
Logic Type: Inverter with Schmitt Trigger
Number of Circuits: 1
Voltage Supply: 1.65V to 5.5V
Current Quiescent (Max): 10 µA
Maximum Output Current: 32mA (High and Low)
Input Logic Level Low: 0.3V to 1.45V
Input Logic Level High: 1.2V to 3.33V
Max Propagation Delay: 6.5ns @ 5V, at 50pF load
Operating Temperature: -40°C to 125°C
Quality and Safety Features
Stable operation ensured within specified temperature and voltage ranges.
Surface mount packaging supports reliable soldering and assembly processes.
Compatibility
Compatible with other low voltage logic gates and inverters in circuit designs.
Application Areas
Widely used in consumer electronics, automation systems, and embedded processing.
Product Lifecycle
Currently active with no indication of discontinuation.
Standard availability in Tape and Reel for automated assembly.
Several Key Reasons to Choose This Product
Enhanced noise tolerance suitable for unstable voltage environments.
Low power consumption ideal for power-sensitive applications.
Robust output drive capability of 32 mA.
Broad compatibility with multifarious logic circuits due to standardized logic levels and supply voltages.
Reliable performance and durability in extreme temperature conditions.