Gladiator Technologies stands at the forefront of rugged, high-performance MEMS inertial sensor technology, focusing on low-noise systems tailored for challenging environments. Our MEMS solutions are widely utilized in various unmanned systems sectors, including Automotive, Aerospace, Defense, Marine, and Industrial applications. They are particularly effective for unmanned vehicle platforms such as UAVs,UGVs,and auvs/UUVs,excelling in navigation,flight control,image stabilization,and more.
Our mission-driven and innovative inertial sensors and systems from Gladiator Technologies surpass competitors with high-performance MEMS Gyroscopes, Accelerometers, Inertial Measurement Units (IMUs), and Inertial Navigation systems (INS/GPS). Not constrained by ITAR regulations, our products fulfill the most stringent inertial sensor requirements in a SWaP-C package and have been validated in numerous defense and commercial applications globally. We offer advanced technical solutions in sensor design,firmware,mechanical engineering,sensor modeling,and application expertise.
Gladiator Technologies is dedicated to providing MEMS sensors characterized by high bandwidth, reduced noise, minimal data latency, and stable in-run bias. Our proprietary VELOXâ„¢ Signal Processing Technology enables our products to achieve rapid data rates. Designed for a wide range of environments, our sensors maintain consistent performance across temperature ranges from -50Ëš to +85Ëš C, endure shocks up to 1000g, and operate under vibrations of up to 24 gRMS.With an AS9100D Quality Management System and compliance with NIST-800 standards, Gladiator Technologies is committed to delivering remarkable quality to customers worldwide.
Navigate to Section:
- Accelerometers
- Gyroscopes (Gyros)
- IMUs
- AHRS
MEMS Accelerometers with Low Noise
Precision Measurement with Three-Axis & Single-Axis Accelerometers
Our three-axis digital and single-axis analog MEMS accelerometers provide outstanding low noise performance in a swap-optimized design, achieving data rates of up to 10 kHz and high bandwidth. These robust sensors have undergone extensive testing for temperature, shock, and vibration, making them ideal for tactical-grade inertial systems.
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| Dimensions: 0.6 cubic inches Sensor Range: ±40g VRW: 0.058 mg /√Hz Temperature Bias: 0.5 mg Bandwidth: 800 Hz |
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| Dimensions: 0.8 cubic inches sensor Range: ±6g VRW: 0.065 mg /√Hz Temperature Bias: 1.5 mg Bandwidth: 140 Hz |
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GA50 Single-Axis MEMS Accelerometer |
| Dimensions: 0.35 cubic inches Sensor Range: Variable 5g,40g,70g VRW: 4 µg/√Hz Short Turn Stability: 180 µg Bandwidth: 300 Hz |
Discover more: Accelerometers >
MEMS Gyroscopes with Low noise
High-Performance Gyros for UAVs, UGVs, and Robotics
Our robust digital triaxial and analog single- and dual-axis gyroscopes are designed to minimize noise, enhance bias stability, and improve environmental sealing and connectivity. These high-performance units are temperature-compensated for bias, offer g-sensitivity correction, and are built to endure the high levels of vibration and shock typically encountered in demanding unmanned systems applications.
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| Dimensions: 0.6 cubic inches Weight: 19g In-Run Bias: 4°/hr Gyro noise: 0.0017°/sec/√Hz Sensor Range: 490°/s |
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| Dimensions: 0.5 cubic inches Weight: 18g Temperature Bias: 0.3°/sec Gyro Noise: 0.003°/sec/√Hz Sensor Range: ±300°/s |
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| Dimensions: 1.1 cubic inches Weight: 28g Temperature Bias: 0.1°/sec Gyro Noise: 0.001°/sec/√Hz Sensor Range: ±100, 175, 300°/s |
Discover more: Gyroscopes >
Inertial Measurement Units (IMUs)
Low-Noise MEMS IMUs for UAV Navigation & Payload Stabilization
Our advanced Inertial Measurement Units (IMUs) are engineered for exceptional performance in the challenging environments faced by unmanned systems. They feature environmental sealing, precise alignment, internal vibrational isolation, and comprehensive bias, scale factor, and misalignment modeling across the entire operating temperature range.
All our MEMS IMUs utilize our high-speed VELOX Processing technology and are equipped with a common messaging protocol, allowing users to seamlessly switch between performance settings without requiring system software modifications.
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| Dimensions: 0.6 cubic inches Weight: 19g In-Run Bias: 4°/hr Gyro Noise: 0.0018°/sec/√hz Accel Noise: 5mg/√Hz |
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| Dimensions: 0.67 cubic inches Weight: 25g In-Run Bias: 4°/hr Gyro Noise: 0.002°/sec/√Hz Accel Noise: 5mg/√Hz |
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| Dimensions: 0.65 cubic inches Weight: 25g In-Run Bias: 4°/hr gyro Noise: 0.002°/sec/√Hz accel Noise: 5mg/√Hz |
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| Dimensions: 4.6 cubic inches Weight: 115g In-Run Bias: 4°/hr Gyro Noise: 0.0016°/sec/√Hz Accel Noise: 0.028mg/√Hz |
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| Dimensions: 4.6 cubic inches Weight: 115g In-Run Bias: 7°/hr Gyro Noise: 0.002°/sec/√Hz Accel Noise: 0.035mg/√Hz |
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| Dimensions: 5.3 cubic inches Weight: 120g In-Run Bias: 3°/hr Gyro Noise: 0.0016°/sec/√Hz Accel Noise: 0.04mg/√Hz |
Discover more: MEMS IMU (Inertial Measurement Units)
Attitude and Heading Reference Systems (AHRS)
Durable MEMS AHRS for Downhole orientation & Directional Guidance
The DIGSâ„¢100 Inertial Guidance System is an AHRS specifically designed for downhole applications, providing orientation and directional guidance for utility and vertical well drilling.
This compact and robust MEMS AHRS outputs internally temperature-compensated RS422/RS485 signals for pitch, roll, and yaw angles, and is tested to meet IP68 standards.
| Dimensions (DxL): 1″ x 2.28″ Weight: < 43 grams In-Run Bias: 5°/hr Gyro Noise: 0.003°/sec/√Hz Accel Noise: 0.1mg/√Hz |
Discover more: AHRS Utility Guidance System
Applications
UAV & Unmanned Systems Navigation
Our INS systems provide essential position and orientation data for UAVs and robotic vehicles, ensuring reliable high-accuracy autonomous navigation and waypoint-following even in challenging conditions.
Antenna & Platform Stabilization
Gladiator’s advanced high-speed inertial sensors are utilized in various pointing and stabilization applications for unmanned vehicle platforms, including antennas, LiDAR, and sensor gimbals.
Flight Control
Our accelerometers, gyros, and inertial systems deliver high-accuracy angular rate and acceleration data for precise flight control surfaces and systems across various UAV platforms.
