Micro-Electro-Mechanical Systems(MEMS)
Premium MEMS and Tailored Solutions for Your Needs
At GYRONAVI Technology, we specialize in providing high-quality, high-precision, and highly stable Micro-Electro-Mechanical Systems (MEMS) products and solutions. Engineered for excellence, our MEMS devices are designed to meet the most demanding requirements across a wide range of industries, including automotive, aerospace, industrial automation, and more.
Standard Products and Custom Solutions Offered
Our expert R&D team ensures that each product is developed using the latest technologies and industry-leading methodologies, guaranteeing superior performance, unmatched reliability, and long-lasting stability. With years of experience in the field, we have earned the trust of clients worldwide, delivering innovative solutions that drive success and efficiency in their operations.
Whether you are seeking MEMS accelerometers, gyroscopes, or other inertial measurement products, we are committed to providing tailored solutions that meet your specific needs. Our global presence and commitment to customer satisfaction allow us to serve industries and businesses around the world.Choose GYRONAVI Technology for your next project and experience the power of cutting-edge MEMS technology.

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Product Overview
The GN1-MEMS-G-35 single-axis digital gyroscope is a solid-state inertial sensor based on MEMS technology. Through advanced techniques such as filtering, temperature drift compensation, non-linear calibration, and installation error compensation, it can accurately measure the angular rate in a spatial coordinate system. The product features high reliability and robust packaging, ensuring consistent performance in various applications.
Product Features
- MEMS technology and solid-state sensor.
- Low cost and high precision.
- Compact structure and small size.
- Fast startup.
- High reliability and long lifespan.
- Wide bandwidth.
- Light weight.
- Built-in temperature sensor.
- 24-bit resolution.
- Strong resistance to vibration, shock, and electromagnetic interference.
Performance Specifications
Parameter | GN1-MEMS-G-35-1 | GN1-MEMS-G-35-2 |
---|---|---|
Measurement Range (°/s)∗ | ±900 | ±450 |
Zero Bias (°/s) | ≤0.3 | ≤0.3 |
Zero Bias Stability (°/h, 1σ) | ≤10 | ≤0.5 |
Zero Bias Repeatability(°/s) | ≤0.2 | ≤0.1 |
Zero Bias Full Temperature Change(°/s) | ≤0.3 | ≤0.15 |
Scale Factor Full Temperature Change | ≤2% | 300ppm |
Non-linearity (% F.R.) | ≤0.1 | ≤0.05 |
Resolution (°/s) | ≤0.05 | ≤0.005 |
Bandwidth (Hz) | >80 | >80 |
Cross Coupling (%) | ≤1 | ≤0.2 |
Startup Time (s) | ≤1 | ≤1 |
Power-Up Stabilization Time (s) | ≤2 | ≤2 |
Input Voltage (V) | +5 | +5 |
Input Current (mA) | <20 | <30 |
Output Interface | RS422 | RS422 |
Baud Rate | 230,400bps (Adjustable) | 230,400bps (Adjustable) |
Data Output Frequency | 400Hz | 400Hz |
Operating Temperature (°C) | -45 ~ +85 | -45 ~ +85 |
Acceleration Resistance (g) | 10000g(0.1ms) | 1000g(0.1ms) |
Weight (g) | <80 | <100 |
Dimensions (mm) | φ35 x 14 | φ35 x 14 |
Remarks:
Parameters with an asterisk (*) are customizable


Product Overview
The GN3-MEMS-G-50 Series general-purpose three-axis angular rate gyroscope is a highly precise sensor designed to measure angular rates along three axes. Utilizing advanced MEMS technology, the gyroscope offers superior performance, low cost, and exceptional reliability while ensuring robust packaging for long-term durability. Equipped with a built-in Self-Test feature, the product provides seamless diagnostic capabilities, ensuring that the device functions optimally in any operational environment.
In addition to its impressive performance, the GN3-MEMS-G-50 Series features low power consumption, making it ideal for energy-efficient applications. The wide operating temperature range ensures stable performance under extreme environmental conditions, while its broad bandwidth allows for high-speed data acquisition. The compact size ensures easy integration into space-constrained systems, and fast startup minimizes the time required for system initialization. Furthermore, the product offers DC input and DC output, providing compatibility with a wide variety of systems and applications.
Product Features
- MEMS technology and solid-state sensor.
- Low cost and high precision.
- Compact structure and small size.
- Fast startup.
- High reliability and long lifespan.
- Wide bandwidth.
- Light weight.
- Built-in temperature sensor.
- 24-bit resolution.
- Strong resistance to vibration, shock, and electromagnetic interference.
Performance Specifications
Parameter | GN3-MEMS-G-50-1 | GN3-MEMS-G-50-2 |
---|---|---|
Measurement Range (°/s) | ±250 | ±150 |
Bias Voltage (V) | 2.5±0.05 | 1.65±0.05 |
Scale Factor (mV/°/s) | 8±0.5 | 6.6±0.5 |
Output Voltage (V) | 0~5 | 0~3 |
Non-linearity (%F.R) | ≤0.05 | ≤0.1 |
Resolution (°/s) | ≤0.06 | ≤0.06 |
Cross Coupling (%) | ≤2 | ≤2 |
Output Noise (°/s/Hz) | <0.02 | <0.02 |
Startup Time (ms) | ≤20 | ≤1(S) |
Bandwidth (Hz, Adjustable) | 80 | 100 |
G Sensitivity (°/s/g) | <0.02 | <0.1 |
MTBF(h) | 100,000 | 100,000 |
Operating Temperature (°C) | -45 ~ +105 | -45 ~ +85 |
Storage Temperature (°C) | -65 ~ +125 | -65 ~ +125 |
Acceleration Tolerance (g) | 20,000 (0.1ms) | 10,000 (0.1ms) |
Power Supply Voltage (V) | 6~15V | 5V |
Input Current (mA) | <30 | <30 |
Weight (g) | <40 | <40 |
Dimensions (mm) | 30x38x32 | 30x38x32 |
Remarks:
For GN3-MEMS-G-50-1type, the gyroscope testing range of any axis (X, Y, Z) can be provided as per user requirements, with the following possible ranges: ±50°/s, ±100°/s, ±150°/s, ±200°/s, ±250°/s, ±300°/s, ±400°/s, ±500°/s, ±800°/s, ±1000°/s, ±1500°/s, ±2000°/s, ±3600°/s, ±7200°/s, ±10800°/s, and ±50000°/s, or higher. Custom measurement ranges can also be designed and manufactured based on user requests.
For GN3-MEMS-G-50-2 type, the gyroscope testing range of any axis (X, Y, Z) can be provided as per user requirements, with the following possible ranges: ±50°/s, ±100°/s, ±150°/s, ±300°/s, ±450°/s, ±1000°/s, and ±3000°/s.
The output voltage range for ±250°/s is: 0.5~4.5V.
The output voltage range for ±150°/s is: 0.66~2.64V.


Product Overview
Our company offers a range of MEMS accelerometers, available in three series: single-axis, dual-axis, and three-axis, with models GN1, GN2, and GN3, respectively. These accelerometers are built using high-precision MEMS chips and are designed to meet the needs of a wide variety of user applications. Manufactured with advanced surface-mount technology (SMT), the products are known for their exceptional reliability and robustness. Additionally, they come equipped with a Self-Test function, enabling Built-In-Test (BIT) detection for enhanced performance monitoring and system diagnostics.
Product Features
- Wide measurement range
- Analog voltage output
- Small size and light weight
- Good shock and vibration resistance
- Good long-term stability
- High reliability
- Zero frequency and low-frequency testing
- High precision
- Low nois
- High-frequency response
Main Technical Specifications
Parameter | GN1-MEMS-A-30-1 | GN1-MEMS-A-30-2 |
---|---|---|
Input Voltage (Vdc) | +12 | +5 |
Input Current (mA) | <5 | <10 |
Measurement Range(g) ∗ | ±500 | ±500 |
Scale Factor (mV/g) | 40±2 | 54±3 |
Scale Factor Temperature Change | <±5% | 120ppm/℃ |
Full Scale Output Voltage (V) | 0.5~4.5 | ±2.7 |
Zero Bias Voltage (V) | 2.5±0.1 | 0±20(mV) |
Zero Bias Full Temperature Drift (mV) | <100 | <40mV |
Non-linearity (%FS) | ≤0.15% FS | ≤0.15% FS |
Resolution ∗ | ≤0.5mg | ≤0.2mg |
Startup Time (ms) | <30ms | <20ms |
Bandwidth ∗ | 0~5000Hz (Adjustable) | 0~4000Hz (Adjustable) |
Cross Coupling | <±2% | <±1% |
MTBF(h) | 100,000 | 100,000 |
Operating Temperature (°C) | -40 ~ +105 | -40 ~ +105 |
Shock without Power | 10000g,0.5ms | 6000g,0.5ms |
Shock with Power | 10000g,0.5ms | 5000g,0.5ms |
Weight (g) | 30 | 30 |
Dimensions (mm) | 38x28x16 | 38x28x16 |
Remarks:
Parameters with an asterisk (*) are customizable


Product Overview
Our company offers a range of MEMS accelerometers, available in three series: single-axis, dual-axis, and three-axis, with models GN1, GN2, and GN3, respectively. These accelerometers are built using high-precision MEMS chips and are designed to meet the needs of a wide variety of user applications. Manufactured with advanced surface-mount technology (SMT), the products are known for their exceptional reliability and robustness. Additionally, they come equipped with a Self-Test function, enabling Built-In-Test (BIT) detection for enhanced performance monitoring and system diagnostics.
Product Features
- Wide measurement range
- Analog voltage output
- Small size and light weight
- Good shock and vibration resistance
- Good long-term stability
- High reliability
- Zero frequency and low-frequency testing
- High precision
- Low nois
- High-frequency response
Main Technical Specifications
Parameter | GN2-MEMS-A-20 |
---|---|
Power Supply Voltage (VDC) | 6~8 |
Power Supply Current (mA) | ≤60 |
Output Type | RS 485 |
Baud Rate(bps) | 115200 |
Data Output Rate(Hz) | 200 |
Data Output Format | 16-bit binary complement |
Axis | X,Y, |
Range (g)∗ | ±100 |
Bandwidth (Hz)∗ | ≥50 |
Resolution (g) | 0.005 |
Non-linearity | ≤ 0.5% Fs |
Zero Bias(g) | ≤ 0.05 |
Zero Bias Temperature Drift(g) | ≤ 0.1 |
Startup Time(s) | ≤1 |
Operating Temperature (°C) | -40 ~ +75 |
Storage Temperature (°C) | -40 ~ +125 |
Shock | 2000g, 0.5ms |
Dimensions (mm) | 48 x 38 x 18 |
Weight (g) | <78 |
Remarks:
Parameters with an asterisk (*) are customizable


Product Overview
Our company offers a range of MEMS accelerometers, available in three series: single-axis, dual-axis, and three-axis, with models GN1, GN2, and GN3, respectively. These accelerometers are built using high-precision MEMS chips and are designed to meet the needs of a wide variety of user applications. Manufactured with advanced surface-mount technology (SMT), the products are known for their exceptional reliability and robustness. Additionally, they come equipped with a Self-Test function, enabling Built-In-Test (BIT) detection for enhanced performance monitoring and system diagnostics.
Product Features
- Wide measurement range
- Analog voltage output
- Small size and light weight
- Good shock and vibration resistance
- Good long-term stability
- High reliability
- Zero frequency and low-frequency testing
- High precision
- Low nois
- High-frequency response
Main Technical Specifications
Parameter | GN3-MEMS-A-10 |
---|---|
Power Supply Voltage (VDC) | 10~30 |
Power Supply Current (mA) | ≤70 |
Output Type | RS 422 |
Baud Rate(bps) | 115200 |
Data Output Rate(Hz) | 200 |
Data Output Format | 16-bit binary complement |
Axis | X,Y,Z |
Range (g)∗ | ±70 |
Bandwidth (Hz)∗ | ≥50 |
Resolution (g) | 0.002 |
Non-linearity | ≤ 0.5% Fs |
Zero Bias(g) | ≤ 0.01 |
Zero Bias Temperature Drift(g) | ≤ 0.03 |
Startup Time(s) | ≤1 |
Operating Temperature (°C) | -40 ~ +75 |
Storage Temperature (°C) | -40 ~ +125 |
Shock | 4000g, 0.5ms |
Dimensions (mm) | 55 x 55 x 35 |
Weight (g) | 150 |
Remarks:
Parameters with an asterisk (*) are customizable


Product Overview
The GN3-IMU3-60 Series is equipped with advanced MEMS inertial devices, offering high reliability and robustness. These sensors are designed to precisely measure the angular velocity and acceleration of moving platforms, even in harsh environments, and provide reliable attitude information.
The product boasts a wide operating temperature range, broad bandwidth, compact size, fast startup, and high precision. These features make the GN3-IMU3-60 Series ideal for a range of applications, including precision guidance and control, engineering equipment control, platform stabilization, pipeline robotics, underwater vehicles, and other systems requiring accurate motion sensing and attitude determination.
Product Features
- Small size and light weight.
- Wide operating temperature range.
- High bandwidth.
- High precision.
- Fast startup.
- Shock and vibration resistance.
Gyroscope Technical Specifications
Parameter | GN3-IMU3-60 |
---|---|
Measurement Range (°/s) (Customizable) | ±400 |
Zero Bias Stability (°/h) | 0.5 |
Zero Bias Stability (°/h)(1s smoothing, 1σ, Room Temperature) | 5 |
Zero Bias Error over Full Temperature Range (°/h) | 20 |
Random Walk(°/√h) | 0.15 |
Zero Bias Repeatability(°/h) | 10 |
Zero Bias Acceleration Sensitivity(°/h/g) | 1 |
Resolution(°/h) | 2 |
Scale Factor Non-linearity(ppm) | 50 |
Scale Factor Repeatability(ppm) | 100 |
Cross Coupling(%) | 0.1 |
Bandwidth(Hz) | 250 |
Tilt Sensor Technical Specifications
Parameter | GN3-IMU3-60 |
---|---|
Measurement Range (g) (Customizable) | ±1.7 |
Zero Bias Stability (mg) | 0.5 |
Random Walk(m/s√h) | 0.08 |
Scale Factor Non-linearity(ppm) | 250 |
Operating Temperature (°C) | -45 ~ +85 |
Storage Temperature (°C) | -55 ~ +105 |
Vibration | 6.06g, 10-2000Hz |
Shock | 5000g, 0.1ms |
Weight (g) | 55 |


Accelerometer Technical Specifications
Parameter | GN3-IMU3-60-1 | GN3-IMU3-60-2 | GN3-IMU3-60-3 |
---|---|---|---|
Measurement Range (g) (Customizable) | ±10 | ±30 | ±50 |
Zero Bias Stability (mg) (1σ,@25°C) | 0.05 | 0.1 | 0.15 |
Zero Bias Stability (mg) (1s Smoothing) | 1 | 5 | 10 |
Zero Bias Error over Full Temperature Range (mg) | 3 | 6 | 10 |
Random Walk (m/s/√h) | 0.1 | 0.2 | 0.5 |
Zero Bias Repeatability (mg) | 0.1 | 0.2 | 0.5 |
Scale Factor Repeatability (ppm) | 300 | 300 | 300 |
Scale Factor Non-linearity (ppm) | 100 | 100 | 100 |
Bandwidth (Hz) | 100 | 100 | 100 |
More details you need to know about Micro-Electro-Mechanical Systems(MEMS)
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Advantages of Micro-Electro-Mechanical Systems (MEMS)
Miniaturization: MEMS devices are incredibly small, which allows them to be integrated into compact systems and portable devices, such as smartphones, wearables, and IoT devices.
Low Power Consumption: MEMS devices are energy-efficient, making them suitable for battery-powered applications. This feature is especially beneficial for wearable devices and remote sensors.
High Sensitivity and Accuracy: MEMS sensors are capable of detecting very minute changes in physical quantities such as acceleration, pressure, or temperature. This high level of precision makes them ideal for critical applications in navigation, automotive, and medical systems.
Cost-Effectiveness: The mass production of MEMS devices using semiconductor fabrication techniques has significantly reduced costs, making MEMS technology accessible to a broader range of applications.
Durability and Reliability: MEMS devices are highly durable and can withstand harsh environments, including extreme temperatures, humidity, and vibrations, which makes them reliable in various industrial settings.
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Applications of Micro-Electro-Mechanical Systems (MEMS)
MEMS technology is incredibly versatile, with a broad range of applications across different industries:
Consumer Electronics: MEMS accelerometers, gyroscopes, and pressure sensors are used in smartphones, wearables, gaming controllers, and drones to enable motion detection, orientation control, and environmental sensing.
Automotive: MEMS sensors are employed in airbag systems, tire pressure monitoring, and stability control systems, where their small size and reliability are critical.
Aerospace: MEMS accelerometers and gyroscopes play a crucial role in aircraft navigation, attitude control, and safety systems.
Healthcare: MEMS devices are used in medical devices, such as pacemakers, hearing aids, and diagnostic tools, where miniaturization and high performance are essential.
Industrial Automation: MEMS sensors are used for vibration monitoring, machine health diagnostics, and process control in manufacturing and industrial systems.

How to Choose the Right Micro-Electro-Mechanical Systems(MEMS)
When selecting a MEMS device, several factors should be considered:
Application Requirements: Understand the specific needs of your application, including the type of measurements required, the environment in which the MEMS device will operate, and the form factor limitations.
Performance Specifications: Look for MEMS devices that meet your required sensitivity, accuracy, and response time. Ensure the device can handle the expected range of environmental conditions.
Power Consumption: For battery-powered applications, choose MEMS devices with low power consumption to extend battery life and ensure operational efficiency.
Cost: Evaluate the total cost of ownership, including initial purchase price, integration costs, and maintenance requirements.
Reliability and Durability: Ensure that the MEMS device is robust and can withstand harsh conditions in terms of temperature, pressure, and vibration, depending on the application’s needs.

Why Choose Our Micro-Electro-Mechanical Systems(MEMS)?
At GYRONAVI Technology, we pride ourselves on delivering world-class Micro-Electro-Mechanical Systems (MEMS) that combine cutting-edge technology, exceptional performance, and reliable durability. Our MEMS devices are engineered to meet the highest industry standards, ensuring that your applications can rely on precise measurements and unparalleled functionality, even in the most demanding environments.
Advanced Technology and Innovation
We leverage the latest advancements in MEMS technology to design and produce devices that offer superior performance and unmatched precision. Our products are at the forefront of miniaturization, multifunctionality, and cost-efficiency, bringing the latest breakthroughs in MEMS development to your business. By integrating mechanical, electrical, and sensing elements at the micro-level, our devices are capable of achieving high-frequency responses, high sensitivity, and low-power consumption, meeting the demands of modern applications.
Proven Reliability and Durability
Our MEMS devices are engineered to withstand extreme conditions, making them ideal for industries that require high reliability in challenging environments. Whether it’s high temperatures, vibration, humidity, or shock, our MEMS products are designed for long-term durability and consistent performance. We test each device rigorously under real-world conditions to ensure they meet the stringent requirements of automotive, aerospace, medical, and other high-stakes industries.
Competitive Pricing with Uncompromised Quality
Our extensive experience in mass production and advanced manufacturing techniques allows us to offer cost-effective solutions without compromising on quality. By keeping production costs low through optimized manufacturing processes, we ensure that you receive the best value for your investment. Whether you’re sourcing MEMS sensors for mass-market consumer electronics or specialized industrial sensors, you can count on us for competitive pricing that delivers exceptional quality.
Long-Term Partnership and Trust
At GYRONAVI, we don’t just supply products—we build long-term relationships with our clients. We understand the importance of trust and reliability in every transaction. That’s why we focus on establishing long-term partnerships based on mutual success. Whether you are a startup or a multinational corporation, we are dedicated to providing the highest level of service and ensuring that your needs are always met.
Tailored Solutions to Meet Your Specific Needs
At GYRONAVI, we understand that each application is unique. That’s why our team works closely with customers to deliver customized solutions. Whether you require MEMS devices with special performance characteristics, specific form factors, or tailored features for specialized environments, we have the flexibility and expertise to create the ideal product for your needs.
Our R&D team is constantly working on innovations and improvements, allowing us to offer solutions that not only meet but exceed customer expectations. From aerospace to medical devices, from consumer electronics to industrial automation, we have the experience to provide you with the perfect MEMS solution for your application.
Reliable After-Sales Support and Technical Service
Choosing GYRONAVI means not only purchasing high-quality products but also benefiting from our comprehensive technical support and after-sales services. Our experienced technical team is available to provide installation assistance, debugging, and consultations during product use. Should you encounter any technical issues, we respond quickly and provide effective solutions.
Our products perform exceptionally well in these fields.

Drone Industry
Our products are widely used in the drone industry, providing precise navigation and stability solutions. Whether for commercial, industrial, or military applications, our advanced sensors and systems enhance the performance and reliability of unmanned aerial vehicles (UAVs).

Autonomous Driving Industry
Our products play a crucial role in the autonomous driving industry, providing essential navigation, sensing, and stability solutions. With advanced gyroscopes and inertial measurement units (IMUs), our systems ensure precise control and reliable performance for autonomous vehicles in various environments.

Aerospace Industry
Our products are essential in the aerospace industry, offering high-precision navigation and stability solutions for both spacecraft and satellite systems. With advanced gyroscopes and inertial navigation systems, we provide the reliability needed for critical aerospace applications, ensuring precise performance in even the most demanding conditions.

Aviation Industry
Our products are integral to the aviation industry, providing high-precision navigation and stability solutions for aircraft systems. With advanced gyroscopes and inertial measurement units (IMUs), we ensure reliable performance in flight control, navigation, and guidance systems, enhancing safety and operational efficiency.

Defense and Military Industry
Our products are critical in the defense and military industry, offering precise navigation, stabilization, and guidance solutions for various military applications. From missile guidance systems to unmanned vehicles, our high-precision gyroscopes and inertial navigation systems ensure reliable performance in demanding and high-risk environments.

Maritime Navigation and Detection Industry
Our products are vital in the maritime navigation and detection industry, providing precise and reliable solutions for underwater and surface vessels. With advanced gyroscopes and inertial navigation systems, we support accurate positioning, navigation, and detection, ensuring safe and efficient operations in challenging marine environments.

Rail Transit Industry
Our products are essential in the rail transit industry, providing reliable navigation and stability solutions for trains and other rail vehicles. With high-precision gyroscopes and inertial navigation systems, we ensure safe, efficient, and accurate operation of rail systems, supporting both on-board control and infrastructure management.

Space Exploration Industry
Our products are crucial in the space exploration industry, offering precise navigation and orientation solutions for spacecraft, rovers, and satellites. With advanced gyroscopes and inertial measurement units (IMUs), we ensure reliable performance in the extreme conditions of space, supporting accurate positioning and stability during missions to explore the universe.

Geological Exploration Industry
Our products play a key role in the geological exploration industry, providing accurate and reliable navigation and measurement solutions for surveying equipment, drilling systems, and exploration vehicles. With high-precision gyroscopes and inertial navigation systems, we ensure precise positioning and stability, even in challenging and remote environments.
After-Sales Service
At GYRONAVI, we understand that reliability and precision are crucial in the field of inertial navigation systems. That’s why we not only provide cutting-edge products but also offer a robust after-sales support structure designed to keep your systems running smoothly, ensuring uninterrupted business operations. With our 7 days, 12 hours service and 3-year warranty, you are not just buying products — you’re securing a long-term partnership for continuous support and success.
Why Choose Our After-Sales Service?
- 12-Hour Technical Issue Resolution: We guarantee to resolve your product’s technical issues within 12 hours.
- 3-Year Warranty: All products come with a comprehensive 3-year warranty for peace of mind.
- Expert Technical Support: Our team is ready to assist with any technical queries or issues regarding our products.
- Global Service Network: We provide tailored support with fast response times, no matter where you’re located.
- Spare Parts Availability: A well-stocked inventory ensures quick replacement of parts to minimize downtime.

FAQs
How are MEMS sensors different from traditional sensors?
MEMS sensors are smaller, lighter, and often more cost-effective compared to traditional sensors. They also offer enhanced performance and integration capabilities, making them suitable for applications requiring miniaturization.
What are the key benefits of using MEMS sensors?
MEMS sensors are compact, energy-efficient, highly sensitive, and cost-effective. They also offer high reliability and are scalable for various applications.
How are MEMS sensors manufactured?
MEMS sensors are typically fabricated using semiconductor manufacturing processes, including photolithography, etching, and deposition. These processes allow for the creation of tiny mechanical structures on silicon wafers.
How do MEMS accelerometers compare to traditional accelerometers?
MEMS accelerometers are typically more compact, lighter, and cheaper than traditional accelerometers. They also offer more integration possibilities and can be used in more applications.
What is the power consumption of MEMS sensors?
MEMS sensors are known for their low power consumption, which makes them ideal for battery-operated devices and portable applications.
What materials are used to make MEMS sensors?
MEMS sensors are usually made from silicon, but other materials such as polymers, metals, and ceramics may also be used for specific applications.
Do MEMS sensors require regular maintenance?
Most MEMS sensors do not require frequent maintenance under normal operating conditions. However, periodic checks and calibration can help maintain their performance.
Can MEMS sensors be used in conjunction with other sensors?
Yes, MEMS sensors are commonly integrated with other sensors, such as temperature and pressure sensors, to enable more complex monitoring and control functions.
How does humidity affect MEMS sensors?
Humidity variations can affect the performance of MEMS sensors, especially for certain types of accelerometers or gyroscopes. However, many MEMS sensors are designed with moisture-resistant features to minimize this impact.
What is the dynamic response of MEMS sensors?
MEMS sensors typically have very fast dynamic response, especially in applications requiring precise measurement of motion changes, such as vibration monitoring and dynamic control.
Get Your Customized Motion Control Solutions Today
Choosing GYRONAVI’s Micro-Electro-Mechanical Systems(MEMS) means selecting high precision, high stability, environmental adaptability, and cost-effectiveness. No matter how harsh your operating environment or how unique your requirements, we can offer tailored solutions that ensure the most accurate and reliable measurements. Additionally, we are committed to providing world-class technical support and after-sales service, ensuring the long-term stable operation of your products.By choosing GYRONAVI, you are not just selecting a supplier, but a comprehensive partner committed to providing continuous support and efficient solutions for your projects. Contact us now to experience our custom-designed, high-performance Micro-Electro-Mechanical Systems(MEMS) products and take your business to greater success!