Manufacturer Part Number
LTC6993HDCB-1#TRMPBF
Manufacturer
analog-devices
Introduction
The LTC6993HDCB-1#TRMPBF is a high-performance monostable multivibrator that offers precise timing and low power consumption. It is designed to provide a reliable and accurate timing solution for a wide range of applications, including industrial automation, electronic systems, and consumer electronics.
Product Features and Performance
Monostable multivibrator with a single independent circuit
Schmitt trigger input for improved noise immunity
Fast propagation delay of 11 ns
High and low output current of 16 mA
Wide supply voltage range of 2.25 V to 5.5 V
Wide operating temperature range of -40°C to 125°C
Product Advantages
Precise timing control for reliable operation
Low power consumption for energy-efficient designs
Compact and versatile surface mount package
Robust design with Schmitt trigger input for noise immunity
Key Reasons to Choose This Product
Reliable and accurate timing solution for critical applications
Flexibility to operate across a wide range of supply voltages and temperatures
Efficient power management for extended battery life or reduced energy usage
Ease of integration with other electronic components due to the small package size
Quality and Safety Features
Manufactured using high-quality materials and processes to ensure reliability
Compliance with relevant safety and regulatory standards
Compatibility
The LTC6993HDCB-1#TRMPBF is compatible with a variety of electronic systems and can be easily integrated into various designs.
Application Areas
Industrial automation and control systems
Electronic timing and delay circuits
Consumer electronics and appliances
Automotive and transportation systems
Product Lifecycle
The LTC6993HDCB-1#TRMPBF is an active product, and our website's sales team continues to manufacture and support it. There are no known equivalent or alternative models available at this time. If you have any further questions or require additional information, please contact our website's sales team.