Manufacturer Part Number
CD54HC173F3A
Manufacturer
Texas Instruments
Introduction
The CD54HC173F3A is a high-speed CMOS logic quad D-type flip-flop featuring individual D-type inputs and outputs with a common clock and a common master reset.
Product Features and Performance
Master reset functionality
D-Type flip flop configuration
Tri-State, Non-Inverted output type
Contains one element with four bits per element
Supports clock frequency up to 60 MHz
Maximum propagation delay of 34ns at 6V, 50pF
Positive edge trigger type
Output current of 7.8mA (High and Low)
Input capacitance of 10 pF
Operates on a supply voltage of 2V to 6V
Quiescent current (Iq) of 8 µA
Product Advantages
Ideal for applications requiring high-speed operation
Low power consumption with a quiescent current of only 8 µA
Wide supply voltage range allows for flexibility in usage
Robust performance with wide temperature range of -55°C to 125°C
Key Technical Parameters
Clock Frequency: 60 MHz
Max Propagation Delay: 34ns @ 6V, 50pF
Output Current: 7.8mA (High and Low)
Voltage Supply: 2V ~ 6V
Operating Temperature: -55°C ~ 125°C
Quality and Safety Features
Operational across a wide temperature range ensuring reliability under extreme conditions
Manufactured by Texas Instruments, a leader in semiconductor solutions ensuring high-quality standards
Compatibility
Through-hole mounting type compatible with general PCB designs
Standard 16-CDIP package accommodating usual design specifications
Application Areas
Data storage devices
Communication systems
Instrumentation
Process control systems
Product Lifecycle
Product status is active
Not nearing discontinuation
Replacements and upgrades available ensuring long-term availability
Several Key Reasons to Choose This Product
High-speed operation capabilities up to 60 MHz suitable for critical timing applications
Low power consumptionfacilitates energy-efficient designs
Highly reliable with a wide operating temperature range and manufactured by Texas Instruments
Flexible application usage due to a broad supply voltage range and robust output currents
Suitable for complex data systems requiring precise control and state retention under varying conditions