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AC-SMA-XXD based MEMS accelerometers
Codice: SKU17890
Notes:
- Long-term repeatability: Accelerometers with a range of 32 ± 50g have undergone long-term repeatability testing, and test data spanning 1.5 years is available. The proportion of accelerometers with zero-bias repeatability < 0.2mg is 31%, the proportion with zero-bias repeatability < 0.5mg is 75%, the proportion with zero-bias repeatability < 1.2mg is 100%, the proportion of accelerometers with scale factor repeatability < 100ppm is 93.7%, and the proportion with scale factor repeatability < 200ppm is 100%.
- The smaller the measurement range, the higher the accuracy. For example, products with a ±2g measurement range have the best zero-bias stability indicator of 3μg, and also exhibit better long-term repeatability.
AC-SMA Series HIGHT PRECISION MEMS SINGLE AXIS ACCELEROMETER
Codice: SKU17889
1 Introduction ( FULL TECHNICAL DATA SHEET ON REQUEST )
The AC-SMA-XXD series accelerometer is a single-axis capacitive MEMS accelerometer, consisting of a fully silicon MEMS sensing structure and a low-power signal processing ASIC composition. AC-SMA-XXD is powered by a single power supply (5V) and features low typical power consumption (11mA). Its output is either a digital signal in SPI protocol or a fully differential analog signal (common mode voltage at 2.5V), and the analog output voltage ranges from 0.5V to 4.5V. Product packaging The product is packaged in a standard LCC20 ceramic package with a total of 20 pins. The precise dimensions of the external shape are provided in the image below. The final product quality is 0.60±0.02 Gram.
AC-MAF599 Ultra High-Precision MEMS Single-axis Accelerometer
Codice: SKU17888
Catalog 1 Full technical data sheet on request
1 Encapsulation information 2
1.1 Ultra-high precision accelerometer, packaged in a 48-pin ceramic package 2
1.2 Accelerometer axis 3
2 Reference circuit 3
2.1.1 Schematic design 3
2.1.2 Pin definition description 4
2.1.3 Pin description 5
2.2 PCB design 6
2.2.1 PCB layout and routing 6
2.2.2 PCB package 7
2.2.3 Development board 8
2.2.4 Suggestion 11 on board separation after welding 9
2.2.5 External reset pin device selection 9
3 Communication and Control 10
3.1 Hardware interface 10
3.1.1 SPI timing 10
3.1.2 SPI read-write control 11
3.2 Register description 12
3.2.1 Introduction to Register Format 12
3.2.2 Register content description 13
4 Sensor data format 14
4.1 Temperature data output 14
4.2 Acceleration data output 15
4.3 Register read CRC check 16
4.4 Data reading 17
4.5 Sensor data update 18
5 Reference suggestion 19
5.1 Welding suggestion 19
5.2 ESD protection advice 21
5.3 Installation reference
1 Encapsulation information 2
1.1 Ultra-high precision accelerometer, packaged in a 48-pin ceramic package 2
1.2 Accelerometer axis 3
2 Reference circuit 3
2.1.1 Schematic design 3
2.1.2 Pin definition description 4
2.1.3 Pin description 5
2.2 PCB design 6
2.2.1 PCB layout and routing 6
2.2.2 PCB package 7
2.2.3 Development board 8
2.2.4 Suggestion 11 on board separation after welding 9
2.2.5 External reset pin device selection 9
3 Communication and Control 10
3.1 Hardware interface 10
3.1.1 SPI timing 10
3.1.2 SPI read-write control 11
3.2 Register description 12
3.2.1 Introduction to Register Format 12
3.2.2 Register content description 13
4 Sensor data format 14
4.1 Temperature data output 14
4.2 Acceleration data output 15
4.3 Register read CRC check 16
4.4 Data reading 17
4.5 Sensor data update 18
5 Reference suggestion 19
5.1 Welding suggestion 19
5.2 ESD protection advice 21
5.3 Installation reference
AC-MAD210 High-Performance MEMS Dual-axis Accelerometer
Codice: SKU17887
Catalog (FULL TECHNICAL DATA SHEET ON REQUEST)
1 Encapsulation information 2
1.1 High performance accelerometer, packaged in a 48-pin ceramic package 2
1.2 Accelerometer axial direction 3
1.3 PIN definition description 3
1.4 PIN description 4
2 Reference circuit 5
2.1 Schematic design 5
2.2 PCB design 6
2.2.1 PCB layout and routing 6
2.2.2 PCB package 7
2.2.3 Development board 7
2.2.4 Suggestion on board separation after welding 8
2.2.5 External reset pin device selection 8
3 Communication and Control 9
3.1 Hardware interface 9
3.1.1 SPI timing 9
3.1.2 SPI read-write control 10
3.2 Register description 11
3.2.1 Introduction to Register Format 11
3.2.2 Register content description 12
4 Sensor data format 14
4.1 Temperature data output 14
4.2 Acceleration data output 15
4.3 Data reading 16
4.4 Sensor data update 17
5 Reference suggestion 18
5.1 Welding suggestion 18
5.2 ESD protection advice 19
5.3 Installation reference 19
1 Encapsulation information 2
1.1 High performance accelerometer, packaged in a 48-pin ceramic package 2
1.2 Accelerometer axial direction 3
1.3 PIN definition description 3
1.4 PIN description 4
2 Reference circuit 5
2.1 Schematic design 5
2.2 PCB design 6
2.2.1 PCB layout and routing 6
2.2.2 PCB package 7
2.2.3 Development board 7
2.2.4 Suggestion on board separation after welding 8
2.2.5 External reset pin device selection 8
3 Communication and Control 9
3.1 Hardware interface 9
3.1.1 SPI timing 9
3.1.2 SPI read-write control 10
3.2 Register description 11
3.2.1 Introduction to Register Format 11
3.2.2 Register content description 12
4 Sensor data format 14
4.1 Temperature data output 14
4.2 Acceleration data output 15
4.3 Data reading 16
4.4 Sensor data update 17
5 Reference suggestion 18
5.1 Welding suggestion 18
5.2 ESD protection advice 19
5.3 Installation reference 19
Sensore AHRS Alta precisione 9 Dof Mems
Codice: SKU17866
Sensori AHRS Alta precisione 9 Dof Mems
La serie A5500 è un sensore IMU/VRU/AHRS composto da gineroscopo MEMS-IMU, magnetometro e a singolo asse ad alte prestazioni.
La serie A5500 è un sensore IMU/VRU/AHRS composto da gineroscopo MEMS-IMU, magnetometro e a singolo asse ad alte prestazioni.
Gyroscopio a fibra ottica ad alta stabilità (CLONE)
Codice: SKU178731
Giroscopio a fibra ottica ad alta stabilità per il posizionamento multifusione multi sorgente dell'aviazione
Gyroscopio a fibra ottica ad alta stabilità
Codice: SKU17873
Giroscopio a fibra ottica ad alta stabilità per il posizionamento multifusione multi sorgente dell'aviazione
9 Axis MEMS IMU con uscita EtherCAT per robot AGV
Codice: SKU17861
Modulo industriale di grado 9 Axis MEMS IMU con uscita EtherCAT per robot AGV
Il modulo di misura inerziale U2650 MEMS è un modulo di misura inerziale MEMS a 9 assi altamente affidabile ed economico, ampiamente applicabile a campi come robot umanoidi, robot subacquei e AGV. La serie U2650 di moduli di misura inerziali integra giroscopi MEMS ad alte prestazioni, accelerometri MEMS e sensori magnetici all'interno di un'unica struttura e incorpora algoritmi di atteggiamento per fornire un'uscita in tempo reale di velocità angolare, accelerazione e informazioni sull'atteggiamento del prodotto.
Il modulo di misura inerziale U2650 MEMS è un modulo di misura inerziale MEMS a 9 assi altamente affidabile ed economico, ampiamente applicabile a campi come robot umanoidi, robot subacquei e AGV. La serie U2650 di moduli di misura inerziali integra giroscopi MEMS ad alte prestazioni, accelerometri MEMS e sensori magnetici all'interno di un'unica struttura e incorpora algoritmi di atteggiamento per fornire un'uscita in tempo reale di velocità angolare, accelerazione e informazioni sull'atteggiamento del prodotto.
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