Manufacturer Part Number
STM6503VEAADG6F
Manufacturer
stmicroelectronics
Introduction
The STM6503VEAADG6F is a component of the Smart Reset™ series, specialized in Power Management (PMIC) Supervisors, designed to ensure reliable operation of microprocessor systems by monitoring the supply voltage.
Product Features and Performance
Single voltage monitoring for enhanced system stability
Active Low reset signal ensures easier integration with most microprocessors
Adjustable reset timeout of minimum 140ms for flexible system response
Operating Temperature range from -40°C to 85°C supports use in varied environmental conditions
Surface Mount technology for compact and efficient PCB design
Open Drain or Open Collector output allows for versatile output connectivity
Product Advantages
Ensures reliable system reset with smart threshold voltage management
Offers design flexibility through adjustable timeout features
High integration compatibility with a wide range of microprocessors and digital systems
Key Technical Parameters
Voltage Threshold: 1.575V
Reset: Active Low
Reset Timeout: 140ms Minimum
Operating Temperature: -40°C ~ 85°C
Mounting Type: Surface Mount
Package / Case: 8-WFDFN
Supplier Device Package: 8-TDFN (2x2)
Quality and Safety Features
Designed according to stmicroelectronics’ stringent quality control and safety standards for reliable performance
Compatibility
Highly compatible with a range of digital systems requiring voltage supervision
Application Areas
Embedded Systems
Microprocessor & Microcontroller Units
Industrial Control Systems
Product Lifecycle
Currently in an Active state indicating ongoing production and availability
Not nearing discontinuation, ensuring long-term availability for new designs
Several Key Reasons to Choose This Product
Optimal reliability and system protection with Smart Reset™ technology
Flexible design options with adjustable reset timeout
Wide operating temperature range suitable for various applications
Easy integration into existing designs with Surface Mount technology
Continual availability without near-term discontinuation concerns