AEAT-84AD-LBSC0 Overview
The AEAT-84AD-LBSC0 is a high-resolution magnetic rotary encoder designed for precise angular position sensing in demanding industrial environments. Offering robust performance with a compact 12-pin SOIC package, it enables accurate incremental output signals suitable for motor control and automation systems. Its non-contact magnetic sensing technology ensures long operational life and immunity to dust, grease, and other contaminants. Engineers and sourcing specialists benefit from its 12-bit resolution, differential output signals, and wide operating voltage range, making it a versatile choice for various embedded applications. For detailed technical resources and purchasing options, visit the IC Manufacturer.
AEAT-84AD-LBSC0 Technical Specifications
| Parameter | Specification |
|---|---|
| Encoder Type | Incremental magnetic rotary encoder |
| Resolution | 12-bit (4096 pulses per revolution) |
| Output Type | Differential quadrature signals (A, B, Index) |
| Supply Voltage | 4.5 V to 5.5 V |
| Operating Temperature Range | -40??C to +125??C |
| Package | 12-pin SOIC surface mount |
| Output Frequency | Up to 250 kHz |
| Interface | Incremental quadrature with index pulse |
| Power Consumption | Typical 8 mA at 5 V supply |
AEAT-84AD-LBSC0 Key Features
- High resolution 12-bit sensing: Delivers up to 4096 pulses per revolution, enabling precise angular measurement critical for accurate motor position feedback.
- Differential quadrature outputs: Provides robust signal integrity and noise immunity, ensuring reliable position detection in electrically noisy industrial environments.
- Wide operating temperature range: Supports continuous operation from -40??C to +125??C, making it suitable for harsh and varying environmental conditions.
- Non-contact magnetic sensor: Eliminates wear and mechanical degradation, improving device longevity and reducing maintenance requirements.
- Compact 12-pin SOIC package: Facilitates easy integration into space-constrained PCB layouts while maintaining reliable electrical connections.
- Low power consumption: Efficient design consumes only about 8 mA during operation, supporting energy-conscious industrial applications.
- Index pulse output: Enables precise zero-position referencing for enhanced system calibration and repeatability.
AEAT-84AD-LBSC0 Advantages vs Typical Alternatives
This magnetic encoder offers superior noise immunity and longer operational life compared to optical encoders due to its contactless sensing method. Its differential signals reduce susceptibility to electromagnetic interference, enhancing accuracy in industrial settings. The extended temperature range and compact package ensure reliable performance under harsh conditions while simplifying integration. Low power consumption and a high pulse count provide efficient, precise feedback, making it advantageous over typical incremental encoders that may lack these combined features.
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Typical Applications
- Precision motor feedback systems in industrial automation, where accurate angular position sensing is essential for closed-loop control and improved performance.
- Robotics applications requiring reliable, high-resolution rotary position data to enable precise movement and positioning control.
- Factory equipment monitoring, providing real-time shaft rotation measurement to ensure proper operation and preventive maintenance.
- Medical devices that demand compact, durable encoders with stable output signals for sensitive instrumentation and motion control.
AEAT-84AD-LBSC0 Brand Info
The AEAT-84AD-LBSC0 is part of a trusted line of magnetic rotary encoders designed by IC Manufacturer, known for delivering robust sensing solutions tailored to industrial applications. These encoders combine precision, reliability, and ease of integration to meet the rigorous demands of modern automation and control systems. The product embodies the brand??s commitment to innovation in sensor technology, providing customers with consistent performance and long-term operational stability.
FAQ
What is the primary sensing technology used in this device?
The device employs magnetic sensing technology using a Hall effect sensor array. This contactless method detects the angular position of a rotating magnet, offering durability and resistance to environmental contaminants compared to optical encoders.
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How does the differential output benefit system design?
Differential outputs provide two complementary signals that improve noise immunity by allowing receivers to reject common-mode interference. This results in more reliable and accurate position signals in electrically noisy industrial environments.
What are the environmental operating limits for this encoder?
It operates reliably over a temperature range from -40??C up to +125??C, making it suitable for harsh industrial conditions where temperature extremes are common.
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Can this encoder be used in battery-powered applications?
Yes, thanks to its low power consumption of approximately 8 mA at 5 V supply, it is suitable for energy-efficient systems, including battery-powered devices requiring precise position feedback.
What type of output signals does this encoder provide?
The unit provides incremental quadrature outputs (channels A and B) along with an index (Z) pulse, allowing for precise shaft position tracking and zero-position referencing in control systems.
