AEAT-6600-T16 Rotary Encoder Sensor – High Precision, Packaged Module

AEAT-6600-T16 Overview

The AEAT-6600-T16 is an advanced magnetic rotary encoder designed for precise angular position sensing in industrial and automotive applications. Leveraging Hall-effect technology, it delivers high resolution and reliable performance in a compact, cost-effective package. This device supports incremental output signals, enabling accurate speed and position measurement with minimal latency. Its robust design ensures consistent operation under harsh environmental conditions, making it ideal for integration into motor control, robotics, and automation systems. For further details and sourcing options, visit Fabricant de circuits intégrés.

AEAT-6600-T16 Technical Specifications

AEAT-6600-T16 Key Features

• High-resolution incremental output: Provides 16 pulses per revolution, enabling precise angular measurement critical for accurate motor position control.
• Robust Hall-effect sensing: Ensures reliable operation even in electrically noisy or harsh industrial environments, improving system stability.
• Large gamme de températures de fonctionnement : Supports temperatures from -40??C to +125??C, suitable for demanding automotive and industrial applications.
• Compact 16-pin SOIC package: Facilitates easy PCB integration while minimizing board space requirements, benefiting compact system designs.
• Faible consommation d'énergie : Typical supply current of 20 mA reduces overall system power demand, enhancing energy efficiency in battery-powered devices.
• Multiple output signals: Includes A, B quadrature signals and an index Z pulse, enabling versatile speed and position sensing implementations.
• High-speed capability: Supports mechanical speeds up to 10,000 RPM, making it suitable for high-speed motor applications.

AEAT-6600-T16 Advantages vs Typical Alternatives

This encoder offers enhanced sensitivity and accuracy through its Hall-effect technology compared to optical encoders which are more susceptible to dust and debris. Its wide temperature range and robust design ensure higher reliability in harsh industrial environments. Additionally, the low power consumption and compact packaging provide better integration and efficiency advantages over many magnetic encoder alternatives.

Applications typiques

• Industrial motor control systems requiring precise angular position feedback to optimize performance and efficiency in automated manufacturing equipment.
• Robotics applications where accurate rotational position and speed feedback improve motion control and repeatability.
• Automotive throttle position sensing, providing reliable data under wide temperature variations and harsh conditions.
• Elevator and conveyor systems that demand consistent and high-speed rotational sensing for safety and operational accuracy.

AEAT-6600-T16 Brand Info

The AEAT-6600-T16 is part of a well-established product family designed to meet stringent industrial requirements for rotary position sensing. It represents a trusted solution combining advanced Hall-effect sensor technology with incremental output formats to support diverse applications. The product is backed by a manufacturer known for high-quality semiconductor devices tailored for industrial automation, automotive, and motor control markets.

FAQ

What type of output signals does this encoder provide?

The device provides incremental quadrature output signals, including two square wave signals (A and B) in quadrature phase, plus an index pulse (Z). This configuration allows for precise detection of direction, speed, and position.

What is the operating temperature range of the device?

It operates reliably within a temperature range of -40??C to +125??C, making it suitable for harsh environments such as automotive and industrial applications.

How does the technology used improve reliability compared to optical encoders?

Using Hall-effect sensing, the device is less affected by contaminants like dust, oil, or moisture, which commonly degrade optical encoders. This enhances long-term reliability and reduces maintenance.

Can this encoder handle high rotational speeds?

Yes, it supports mechanical speeds up to 10,000 revolutions per minute, making it compatible with a wide range of high-speed motor control applications.

What are the power requirements for this encoder?

The unit requires a supply voltage between 4.5 V and 5.5 V and consumes a typical current of around 20 mA, facilitating energy-efficient designs in embedded systems and industrial controls.