A3G26D055N-2400 Overview
The A3G26D055N-2400 is a high-performance gyroscope designed for precise angular rate sensing in industrial and automotive applications. It offers accurate measurement of angular velocity with low power consumption and robust operation over a wide temperature range. This device integrates advanced MEMS technology to deliver reliable, real-time rotational data essential for motion detection, stabilization, and control systems. Its compact footprint and enhanced sensitivity make it ideal for embedded systems requiring dependable inertial sensing. Sourced from a leading manufacturer in semiconductor sensors, the component ensures consistent performance and ease of integration. For more details, visit IC Manufacturer.
A3G26D055N-2400 Technical Specifications
| Parameter | Specification |
|---|---|
| Measurement Range | ??250 ??/s |
| Supply Voltage | 2.4 V to 3.6 V |
| Output Type | Digital SPI Interface |
| Power Consumption | 6 mA (typical) |
| Bandwidth | 50 Hz |
| Noise Density | 0.005 ??/s/??Hz |
| Operating Temperature Range | -40 ??C to +85 ??C |
| Package Type | 5x5x1 mm3 LGA |
| Output Data Rate | 12.5 to 800 Hz |
| Offset Stability | ??5 ??/s over temperature |
A3G26D055N-2400 Key Features
- High-precision angular rate measurement: Enables accurate detection of rotational motion, critical for navigation and control applications.
- Low power consumption: Consumes just 6 mA in typical operation, making it suitable for battery-powered and energy-sensitive systems.
- Robust operating temperature range: Maintains consistent performance from -40 ??C up to +85 ??C, ensuring reliability in harsh industrial environments.
- Digital SPI output interface: Simplifies integration with microcontrollers and digital signal processors, enhancing system design flexibility.
- Compact LGA package: Small 5x5x1 mm3 footprint supports space-constrained applications without compromising performance.
- Low noise density: Provides clean signal output for precise angular velocity measurement, reducing signal filtering requirements.
- Wide output data rate range: Allows adjustable sampling frequencies from 12.5 to 800 Hz, adaptable to various application needs.
A3G26D055N-2400 Advantages vs Typical Alternatives
This device offers superior sensitivity and low noise performance compared to typical gyroscopes in its class, ensuring more precise angular measurement. Its low power consumption and extended temperature range enhance reliability and efficiency in industrial and automotive settings. The integrated digital SPI interface simplifies system integration, reducing design complexity and improving overall robustness relative to analog-output alternatives.
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Typical Applications
- Industrial motion control systems: Provides accurate rotational feedback essential for robotics, motor control, and automated machinery requiring stable and precise movement detection.
- Automotive stability control: Supports vehicle dynamics by detecting angular velocity changes, contributing to advanced driver assistance systems (ADAS).
- Inertial navigation units: Supplies critical angular rate data to complement accelerometer inputs for precise position tracking in GPS-denied environments.
- Consumer electronics: Used in gaming controllers and wearable devices to track user motion and orientation with high responsiveness.
A3G26D055N-2400 Brand Info
The A3G26D055N-2400 is part of a trusted product portfolio from a recognized semiconductor manufacturer specializing in MEMS sensors. Known for delivering industry-grade inertial measurement solutions, this brand focuses on innovation, reliability, and comprehensive technical support. The product benefits from rigorous quality control and proven MEMS technology to meet the demanding requirements of professional engineers and system integrators worldwide.
FAQ
What is the measurement range of this gyroscope?
The device measures angular velocity within a range of ??250 degrees per second, allowing it to detect both slow and relatively fast rotational movements accurately. This range is suitable for a wide variety of industrial and automotive applications where moderate rotational speeds are expected.
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How does the power consumption impact system design?
With a typical current draw of 6 mA, the device supports low-power operation, which is critical for battery-powered systems or those requiring energy efficiency. This helps extend battery life in portable applications and reduces overall system power budgets.
What communication protocol does it use for output data?
The sensor outputs angular rate data via a digital SPI interface. This protocol enables fast, reliable communication with microcontrollers and digital processors, facilitating easy integration into modern embedded systems without the need for additional analog-to-digital conversion.
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Can this gyroscope operate in harsh environments?
Yes, it is designed to function reliably across a wide temperature range from -40 ??C to +85 ??C, making it suitable for industrial environments where temperature extremes and variations are common. This robustness ensures stable performance under demanding conditions.
What are the physical dimensions and packaging of the device?
The component comes in a compact 5x5x1 mm3 LGA package. This small form factor supports integration into space-constrained designs while providing mechanical protection and ease of handling during assembly processes.
