日本SSS公司CRM100 PinPoint高精度单轴陀螺仪
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Figure 5.3 Analogue Scale Factor Error (12 mV/°/s nominal) vs Temperature
Figure 5.4 Normalized Analogue Scale Factor
Variation vs Temperature
Figure 5.2 Normalized Analogue Bias vs
Temperature
Figure 5.5 Typical Analogue Output Linearity
Error vs Applied Rate
Figure 5.12 Analogue Bias at +25°C
Figure 5.9 Typical Rate Output with Analogue
CBIT vs Temperature
Figure 5.10 Current Consumption vs
Temperature
Figure 5.16 Analogue Output Maximum Linearity Error at -40°C
(Best Straight Line Fit)
Figure 5.19 Rate Output Change with Analogue CBIT at +25°C
Figure 5.22 Normalized Digital Bias vs
Temperature
Figure 5.23 Digital Scale Factor Error
(96 lsb/°/s nominal) vs Temperature Figure 5.24 Normalized Digital Scale Factor Variation vs Temperature
Figure 5.25 Typical Digital Output Linearity Error vs Applied Rate
Figure 5.30 Digital Temperature vs Temperature
Figure 5.34 Digital Scale Factor at +25°C Figure 5.35 Normalized Digital Scale Factor Figure 5.36 Digital Output Maximum
Linearity Error at -40°C
(Best Straight Line Fit)
Figure 5.37 Digital Output Maximum Linearity Error at +25°C
(Best Straight Line Fit) Figure 5.38 Digital Output Maximum Linearity Error at +85°C
(Best Straight Line Fit)Figure 5.39 Rate Output Change with Digital CBIT at +25°C
Figure 5.41 Startup Time vs Temperature
(Vdd = 2.7V)
Figure 5.42 Startup Time vs Temperature
(Vdd = 3.6V)Figure 5.43 Normalized Bias Drift after
Switch-On
where
is nominally 48k: but has a process tolerance of ±14%. Note: C = C2
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