Manufacturer Part Number
74LCX74MTC
Manufacturer
onsemi
Introduction
The 74LCX74MTC is a high-speed, dual D-type flip-flop component with set and reset capabilities, designed for logic flip flop applications.
Product Features and Performance
Features two D-type flip-flops with complementary outputs
Capable of handling clock frequencies up to 150 MHz
Designed for very low power consumption with 10 µA quiescent current
Short propagation delay time: 7ns at 3.3V supply voltage and 50pF load
Positive edge-triggered flip-flops enhance design flexibility
Supports a wide supply voltage range from 2V to 3.6V
Low input capacitance of 7 pF to minimize loading
Product Advantages
High-speed operation suitable for fast logic systems
Low power consumption optimizes battery life in portable applications
Wide voltage range offers compatibility with various logic levels
Small physical footprint for space-sensitive applications
Key Technical Parameters
Clock Frequency: 150 MHz
Max Propagation Delay: 7ns @ 3.3V, 50pF
Output Current: 24mA (High/Low)
Supply Voltage: 2V ~ 3.6V
Quiescent Current (Iq): 10 µA
Operating Temperature Range: -40°C ~ 85°C
Quality and Safety Features
Manufactured to operate within a broad temperature range for reliability in harsh conditions
Compliant with industry standards for electronic component safety and performance
Compatibility
Standard 14-TSSOP packaging for compatibility with widespread surface mount technology
Application Areas
High-speed computing devices
Portable electronics where power efficiency is critical
Digital signal processing
Telecommunications infrastructure
Product Lifecycle
Status: Obsolete. It is important to investigate potential replacements or upgrades for future designs.
Several Key Reasons to Choose This Product
Exceptionally high-speed performance suitable for advanced digital systems
Extremely low power consumption, enhancing battery life in mobile devices
Flexible supply voltage range accommodating various logic levels
Small form factor ideal for compact electronic designs
Positive edge triggering provides precise control over signal processing