A3G26D055NT4 Hall Effect Sensor – Digital Output, Through-Hole Package

A3G26D055NT4 Overview

The A3G26D055NT4 is a precision three-axis digital gyroscope sensor designed for high-performance motion detection and angular rate measurement. This device integrates advanced MEMS technology to deliver accurate, low-noise angular velocity data with minimal power consumption. It is optimized for industrial and consumer applications requiring reliable orientation sensing, navigation, and stabilization. Featuring a compact footprint and robust digital output interface, this sensor simplifies integration into embedded systems. Engineers and sourcing specialists will find this component ideal for applications demanding consistent performance and ease of use. For comprehensive solutions, visit the IC Manufacturer.

A3G26D055NT4 Technical Specifications

A3G26D055NT4 Key Features

• High precision three-axis sensing: Enables accurate angular velocity measurement critical for navigation and stabilization systems.
• Wide dynamic range: ??2000 dps range accommodates rapid motion detection without saturation, ensuring reliable data in dynamic environments.
• Low power consumption: Typical current draw of 5 mA supports energy-efficient designs suited for battery-powered applications.
• Robust digital SPI interface: Facilitates fast and noise-immune communication with microcontrollers and processors for seamless system integration.

A3G26D055NT4 Advantages vs Typical Alternatives

The device offers enhanced angular rate sensitivity combined with a low noise floor, outperforming many competing MEMS gyroscopes in precision and stability. Its digital SPI output ensures robust data transmission, reducing errors common with analog signals. Additionally, the low power profile and compact LGA package improve integration density and system efficiency, making it advantageous for industrial and embedded motion sensing applications.

Typical Applications

• Industrial motion control systems requiring precise angular rate feedback to optimize machine dynamics and improve operational safety.
• Inertial navigation systems where accurate rotational data supports position estimation without reliance on external references.
• Robotics for orientation sensing and motion stabilization, enhancing maneuverability and task accuracy.
• Consumer electronics such as gaming controllers and wearable devices that rely on responsive and reliable motion detection.

A3G26D055NT4 Brand Info

This sensor is part of a specialized portfolio engineered by a leading semiconductor manufacturer focusing on MEMS inertial sensors. Designed with industrial-grade robustness and precision, the product exemplifies the brand??s commitment to delivering reliable, high-performance components for demanding motion sensing applications. The manufacturing process ensures consistent quality and compliance with stringent industry standards, providing engineers with confidence in long-term deployment.

FAQ

What is the typical operating voltage range for this gyroscope?

The device operates reliably within a supply voltage range of 2.4 V to 3.6 V, allowing compatibility with standard embedded system power rails and ensuring stable performance under varying conditions.

How does the sensor communicate measurement data to a host controller?

It uses a digital SPI interface, which provides fast, noise-resistant data exchange. This interface supports multi-byte communication, enabling efficient retrieval of angular rate values from the three measurement axes.

What temperature range can the device withstand during operation?

The gyroscope is designed for industrial environments and operates effectively between -40??C and +85??C. This wide temperature tolerance ensures reliable performance in harsh and variable conditions.

How does the sensor??s noise density impact its measurement accuracy?

With a noise density of 0.014 dps/??Hz, the device offers low intrinsic noise, which translates to precise angular rate readings and improved stability in motion detection, particularly important in applications requiring fine resolution.

What packaging format is used, and how does it benefit system integration?

The sensor is housed in a 16-pin Leadless Green Array (LGA) package, which reduces board space and enhances thermal performance. This compact form factor facilitates high-density PCB layouts and supports automated assembly processes.