Manufacturer Part Number
INA193AQDBVRQ1
Manufacturer
Texas Instruments
Introduction
The INA193AQDBVRQ1 is a high-side current monitor designed specifically for power management applications, especially in the automotive industry.
Product Features and Performance
High-side current sensing method
Wide input voltage range: -16V to 80V
Accuracy: ±3%
Supports automotive operating temperature range: -40°C to 125°C
Compliant with AEC-Q100 standards for automotive qualification
Surface mount technology for efficient assembly
Packaged in a small, SC-74A, SOT-753 package for space-saving installation
Product Advantages
High accuracy and wide voltage range allow for versatile applications
AEC-Q100 compliance ensures reliability and performance in automotive environments
Compact size facilitates integration into space-constrained applications
High-side measurement enables safer circuitry by avoiding ground disturbance
Key Technical Parameters
Voltage - Input: -16V ~ 80V
Accuracy: ±3%
Operating Temperature: -40°C ~ 125°C
Package / Case: SC-74A, SOT-753
Quality and Safety Features
AEC-Q100 qualified for automotive applications
Operates reliably in a broad temperature range: -40°C to 125°C
Compatibility
Compatible with a variety of automotive power management applications
Designed for surface mount technology, facilitating integration into existing circuits
Application Areas
Automotive power management
Battery monitoring
Overcurrent protection
Energy management systems
Product Lifecycle
Product Status: Active
Not nearing discontinuation, ensuring long-term availability
Replacement or upgrade options are available within Texas Instruments' current sensor portfolio
Several Key Reasons to Choose This Product
High accuracy (±3%) for precise current monitoring
Broad voltage input range (-16V to 80V) supports various automotive applications
AEC-Q100 qualification ensures automotive-grade reliability and performance
Compact SOT-23-5 package suited for space-constrained applications
Supports high-side current sensing for enhanced safety and circuit design flexibility