Manufacturer Part Number
M74HC573RM13TR
Manufacturer
stmicroelectronics
Introduction
The M74HC573RM13TR is a high-speed CMOS D-Type Transparent Latch designed for use in controlling data paths.
Product Features and Performance
D-Type Transparent Latch Circuit
Tri-State Outputs for increased driving power
Compatible with 2V to 6V supply voltages
Fast Propagation Delay Time of 12ns
Supports operating temperatures between -55°C and 125°C
Surface Mount Technology for compact and efficient layout
Product Advantages
High integration with 8:8 latching capability reduces system component count
Low power consumption suitable for battery-operated equipment
Robust output drive capability of 7.8mA at both High and Low states
Wide operational temperature range ensures reliability in extreme conditions
Key Technical Parameters
Circuit Configuration: 8:8
Output Type: Tri-State
Voltage Supply Range: 2V ~ 6V
Propagation Delay Time: 12ns
Output Current: 7.8mA (High and Low)
Temperature Range: -55°C ~ 125°C
Mounting Type: Surface Mount
Package / Case: 20-SOIC
Quality and Safety Features
Manufactured by stmicroelectronics, ensuring high-quality production standards
Rigorous testing for operations across the specified temperature range
Compatibility
Compatible with various digital systems requiring transparent latching functionality
Versatile supply voltage range for integration into 2V to 6V systems
Application Areas
Data storage and transfer systems
Industrial control systems
Digital signal processing
Communication devices
Product Lifecycle
Obsolete status indicates that the product is no longer in active production
Users may need to seek replacements or upgrades for new designs
Several Key Reasons to Choose This Product
Reliable performance from a reputable manufacturer, stmicroelectronics
Versatile supply voltage and robust operating temperature range for diverse applications
High drive capability and fast propagation delay ensure efficient data handling
Tri-State outputs facilitate easier circuit integration and dataflow control
Obsolete status might be relevant for specific applications requiring legacy component compatibility or for product maintenance rather than new designs