Unidade de Medição Inercial de Alto Desempenho LINS688B
Unidade de Medição Inercial de Alto Desempenho LINS688B
Principal Caraterísticas
- Giroscópio digital triaxial, gama dinâmica de ±450°/seg.
- Acelerómetro digital triaxial, ±20g
- Triaxial, magnetómetro digital, ±8 gauss
- Sensor de pressão digital, 300 mbar a 1100 mbar
- Largura de banda elevada 400Hz
- Sensibilidade, polarização e alinhamento axial calibrados de fábrica
- Gama de temperaturas de calibração: -40°C a +85°C
- Interface série compatível com SPI
- Sensor de temperatura incorporado
- Funcionamento com alimentação única: 3,0 V a 3,6 V
- Capacidade de sobrevivência a choques de 2000 g
- Pequeno em tamanho e leve em peso
- Totalmente compatível com o ADIS16488A
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Specification
Principal Caraterísticas
- Giroscópio digital triaxial, gama dinâmica de ±450°/seg.
– Accelerometer, ±20g
– Digital magnetometer, ±8 gauss
- Sensor de pressão digital, 300 mbar a 1100 mbar
- Largura de banda elevada 400Hz
- Sensibilidade, polarização e alinhamento axial calibrados de fábrica
- Gama de temperaturas de calibração: -40°C a +85°C
- Interface série compatível com SPI
- Sensor de temperatura incorporado
- Funcionamento com alimentação única: 3,0 V a 3,6 V
- Capacidade de sobrevivência a choques de 2000 g
- Pequeno em tamanho e leve em peso
- Totalmente compatível com o ADIS16488A
Applications OF the Inertial Measurement Unit
– Anti-vibration, attitude control for industrial applications
– Autonomous machines
– Robotics control
– Platform stabilization and control
– Instrumentation
Description OF the Inertial Measurement Unit
Unidade de Medida Inercial LINS688B is an inertial measurement device with small volume and high overload resistance. Gyro bias in-run stability is 1.5°/ h (Allan), and accelerometer bias in-run stability is 20ug (Allan). It can be used for precise navigation, control and dynamic measurement of carrier. This series of products use high-precision MEMS inertial devices, which have high reliability and high firmness, and can still accurately measure the angular velocity and acceleration information of the moving carrier in harsh environments.
LINS688B has a built-in three-axis gyro and three-axis accelerometer for measuring the three-axis angular rate and three-axis acceleration of the carrier. The gyro and accelerometer data with error compensation (including temperature compensation, installation misalignment angle compensation, nonlinear compensation, etc.) are output through the serial port according to the agreed communication protocol, and the three-axis magnetic sensor and air pressure sensor are built in.
- Technical Specifications OF Inertial measurement unit
| Parameter | Test Condition | Min | Nominal | Max | Unidade | ||
| Gyroscope | Range | -450 | +450 | deg/s | |||
| Bias instability | Allan Variance | 1.0 | 1.5 | 2.0 | deg/h | ||
| Angle Random walk | 0.065 | deg/√h | |||||
| Resolution | 0.007 | deg/s | |||||
| Nonlinearity | FS = 450 °/s | 0.1 | %FS | ||||
| Bandwith | 400 | Hz | |||||
| Accelerometer | Range | -20 | +20 | g | |||
| Bias instability | 20 | μg | |||||
| Velocity Random walk | 0.02 | m/s/√h | |||||
| Resolution | 0.02 | mg | |||||
| Nonlinearity | 0.1 | %FS | |||||
| Bandwith | 480 | Hz | |||||
| Magnetometer | Range | -8 | +8 | gauss | |||
| Resolution | 0.2 | mg | |||||
| Noise density | 50 | μg | |||||
| Barometer | Range | 300 | 1100 | mbar | |||
| Tolerance | 4.5 | mbar | |||||
| COM interface | SPI | Baud rate | <10MHz | MHz | |||
| Electrical
caraterísticas |
Tensão | 3.0 | 3.3 | 3.6 | V | ||
| Power Consumption | 0.5 | W | |||||
| Ripple | P-P | 100 | mV | ||||
| Structural
caraterísticas |
Dimension | 44.0 × 47.0 ×14.0 | mm | ||||
| Weight | 50 | g | |||||
|
Use environment |
Working Temperature | -40 | 75 | ||||
| Storage Temperature | -45 | 85 | |||||
| Vibração | 10〜2000Hz, 6g | ||||||
| Choque | 30g, 11ms | ||||||
| Overload | (Half-sine 0.5msec) | 1000g | |||||
| Criminality | MTBF | 20000 | h | ||||
| Continuous working time | 120 | h | |||||
Related Articles:
Inertial measurement unit
Inertial Measurement Unit (IMU) — Development & Testing
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Strict Production Process
High purity silica (usually quartz or sand) and carbon (usually petroleum coke or coal) are ground to produce fine powder.
High purity silica (usually quartz or sand) and carbon (usually petroleum coke or coal) are ground to produce fine powder.
High purity silica (usually quartz or sand) and carbon (usually petroleum coke or coal) are ground to produce fine powder.
High purity silica (usually quartz or sand) and carbon (usually petroleum coke or coal) are ground to produce fine powder.
High purity silica (usually quartz or sand) and carbon (usually petroleum coke or coal) are ground to produce fine powder.
High purity silica (usually quartz or sand) and carbon (usually petroleum coke or coal) are ground to produce fine powder.
Strict Production Process of Yafeite
