Manufacturer Part Number
MC100EP52DTG
Manufacturer
onsemi
Introduction
The MC100EP52DTG is a high-speed, low-power D-type flip-flop in a surface-mount package, designed for use in high-speed digital logic applications. It features complementary outputs, positive and negative edge-triggered operation, and a wide supply voltage range.
Product Features and Performance
High-speed operation with a clock frequency up to 3 GHz
Complementary outputs for versatile applications
Positive and negative edge-triggered operation
Wide supply voltage range of -3V to -5.5V
Low quiescent current of 45 mA
Operating temperature range of -40°C to 85°C
Product Advantages
High-speed performance for demanding applications
Flexible triggering options for design versatility
Wide supply voltage range for compatibility with different systems
Low power consumption for energy-efficient operation
Robust temperature range for use in diverse environments
Key Reasons to Choose This Product
Industry-leading performance and reliability from onsemi
Versatile design suitable for a wide range of digital logic applications
Cost-effective solution for high-speed, low-power requirements
Proven track record of quality and safety in mission-critical systems
Quality and Safety Features
Rigorous testing and quality control measures
Compliance with industry safety and environmental standards
Robust design for reliable operation in demanding conditions
Compatibility
Compatible with other 100EP series logic devices from onsemi
Suitable for use in a variety of digital systems and applications
Application Areas
High-speed digital logic circuits
Telecommunications equipment
Industrial automation and control systems
Aerospace and military electronics
Medical instrumentation
Product Lifecycle
The MC100EP52DTG is an active product in our website's sales team portfolio. There are no plans for discontinuation at this time. However, customers are advised to contact our website's sales team for the latest product availability and information on any potential alternative or equivalent models.