Manufacturer Part Number
BD7967EFS-E2
Manufacturer
rohm-semi
Introduction
The BD7967EFS-E2 is a half-bridge (H-bridge) driver IC designed for driving DC motors and other inductive loads. It features a compact 44-VSOP package with an exposed thermal pad for improved heat dissipation. The device is capable of driving loads up to 2A per channel with a wide supply voltage range of 4.5V to 14V, making it suitable for a variety of applications.
Product Features and Performance
Dual-channel half-bridge (H-bridge) driver
Output current up to 2A per channel
Wide supply voltage range: 4.5V to 14V
Low on-resistance (850mΩ typical) for efficient power delivery
Over-temperature protection for enhanced reliability
-40°C to 90°C operating temperature range
Logic-level compatible inputs
Product Advantages
Compact and thermally efficient package design
Robust protection features for reliable operation
Versatile voltage and current capabilities for diverse applications
Simple logic-level interface for easy integration
Key Reasons to Choose This Product
Reliable and efficient motor driver solution
Suitable for a wide range of DC motor applications
Compact and thermally optimized package for space-constrained designs
Comprehensive protection features to ensure safe and reliable operation
Quality and Safety Features
Over-temperature protection
Robust package design for reliable operation
Compatibility
The BD7967EFS-E2 is a stand-alone half-bridge driver IC that can be used with a variety of DC motors and other inductive loads. It is compatible with logic-level control signals and can be easily integrated into various motor control systems.
Application Areas
DC motor control
General-purpose inductive load driving
Industrial automation and control
Robotics and mechatronics
Household appliances and power tools
Product Lifecycle
The BD7967EFS-E2 is currently an active product and is not marked as "Not For New Designs." However, it is always recommended to check with the manufacturer or our website's sales team for the latest product information and availability, as well as any potential alternative or equivalent models that may be more suitable for your specific design requirements.
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