Competitive Price Digital Micro Gyroscope Mems Gyroscope for
Antenna Stabilization MG302D
The MG302D Triaxial Digital MEMS Gyroscope serial provides a
temperature-compensated output with unprecedented bias stability
and durability. MG302D meets state-of-the-art systems requirements
for precision accuracy, low noise angular rate sensing with a
digital RS-232 / RS-422 output.
The MG302D delivers excellent signal to noise ratio and vibration
performance characteristics in a small, lightweight package. The
sensor sensitivity and bias is extremely stable over a wide
temperature range from -40°C to +85°C.
3-Axis angular rate sensor (yaw, pitch, and roll)
Digital output: RS232, RS422 optional
Range: ±300°/s (other range can be designed)
High shock survivability
High Stability and Low Noise
Support ODM custom service
Working temperature: 40℃～+85℃
MG302D serial 3-axis Digital MEMS Gyroscope has been widely applied
in the specific applications, such as:
- UAV, IMU systems
- Precision Agriculture
- Camera/Antenna/Platform Stabilization
- Accurate measurement of angular rates
- Precision chassis development
|Output Interface||RS422 RS232|
|Bandwidth (Hz, -3dB)||80|
|Reliability MTBF (hour)||100000|
|Shock resistance(g, without power, 0.5ms)||10000g|
High Performance Mems Gyroscope
- High-quality components, industrial-grade MEMS sensors only
- Excellent for control and stabilization
- Shock Resistant Package
- Full tests and individual calibration from -40 to 85°C
- High cost effective
Strictest Quality Control
- Adopts strictly quality control according to the quality
standards to assure the product quality
- During the product test period, SkyMEMS uses advanced test
equipment, and adopts the strictest test methods to guarantee the
- Conforming to CE certificate
What is Major Parameters of MEMS Gyroscopes?
Power supply (Volts): This parameter defines the gyroscope
operating DC power supply voltage range.
Power supply current (mA): This parameter defines the typical
current consumption in operation mode.
Power supply current in sleep mode (mA): This parameter defines the
current consumption when the gyroscope is in sleep mode.
Power supply current in power-down mode (uA): This parameter
defines the current consumption when the gyroscope is powered down.
Full scale range (dps): This parameter defines the gyroscope
Zero-rate level (Volts or LSBs): This parameter defines the zero
rate level when there is no angular velocity applied to the