The HAL518SFE4R107HASE is a Hall effect sensor manufactured by Micronas GmbH. It is designed for precise position and current sensing in automotive and industrial applications. This sensor integrates advanced features for robust and reliable performance in harsh environments.

Applications

• Automotive position sensing (e.g., throttle position, pedal position)
• Current sensing in motor control applications
• Industrial automation equipment
• Robotics
• Non-contact position measurement

Features

• High sensitivity Hall effect sensor: Provides accurate measurement of magnetic fields.
• Temperature compensation: Ensures stable performance over a wide temperature range.
• Short-circuit protection: Protects the sensor from damage due to short circuits.
• Reverse voltage protection: Prevents damage from incorrect power supply polarity.
• Programmable parameters: Allows for customization to specific application requirements.
• Digital output: Provides a clean and reliable digital signal.

Benefits

• Precise position and current sensing: Enables accurate control and monitoring of systems.
• Robust performance in harsh environments: Ensures reliable operation in demanding conditions.
• Flexible configuration: Adaptable to a wide range of applications.
• Integrated protection features: Enhances the reliability and lifespan of the sensor.
• Reduced system cost: Eliminates the need for external components.

Additional Details

The HAL518SFE4R107HASE sensor is typically packaged in a small surface-mount package. It operates over a wide supply voltage range. The sensor's internal circuitry includes a Hall element, amplifier, and signal conditioning circuitry. It also features diagnostic functions that can detect and report sensor faults. The HAL518SFE4R107HASE is designed to meet stringent automotive industry standards for reliability and safety. It can withstand high levels of vibration, shock, and electromagnetic interference. This sensor is used in a wide variety of position and current sensing applications. The device's magnetic characteristics are optimized for specific sensing ranges.