Manufacturer Part Number
74HC132D,653
Manufacturer
Nexperia
Introduction
The 74HC132D,653 is a high-speed Si-gate CMOS device and belongs to Nexperia's 74HC series. It utilizes advanced silicon technology to provide robust performance in various circuits.
Product Features and Performance
Quad 2-input NAND gate with Schmitt trigger
Supply Voltage Range: 2V to 6V
Low quiescent current: 2 µA (max)
Output current: 5.2mA (high and low)
Propagation delay of 21ns at 6V, 50pF maximum load
Supports CMOS level inputs
Temperature range from -40°C to 125°C
Schmitt-trigger action at all inputs
Product Advantages
High noise immunity because of Schmitt trigger action
Low power dissipation with low quiescent current
Capable of operating at a wide temperature range
Compatible with other logic types owing to wide input logic levels
Key Technical Parameters
Voltage Supply: 2V ~ 6V
Quiescent Current (Max): 2 µA
Output High, Low Current: 5.2mA
Input Logic Level - Low: 0.3V ~ 1.2V
Input Logic Level - High: 1.5V ~ 4.2V
Max Propagation Delay: 21ns at 6V, 50pF
Operating Temperature: -40°C ~ 125°C
Quality and Safety Features
Built to high-quality standards of Nexperia for consistent performance
Designed to meet stringent industrial safety requirements
Extended temperature endurance
Compatibility
Compatible with multiple CMOS, TTL logic families
Mounting: Surface Mount compatible with standard PCB technology
Package compatibility: 14-SOIC
Application Areas
Industrial automation
Data processing
Logic inverters
Signal conditioning circuits
Pulse shaping circuits
High-frequency data management systems
Product Lifecycle
Active product status
No known discontinuation date
Availability for long-term usage supported by Nexperia
Several Key Reasons to Choose This Product
Robust performance with Schmitt-trigger action offering high noise immunity
Extremely low power consumption suits battery-powered applications
High operation speed with quick output transitions
Wide operating temperature range suitable for harsh environments
Proven reliability and compatibility in complex circuit designs