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LIS3L02ALTR

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P17
Obsolete Product(s) - Obsolete Product(s)
Block diagram & pins description LIS3L02AL
4/17
Table 1. Pin description
Pin # Pin Name Function
1 ST Self Test (Logic 0: normal mode; Logic 1: Self-test)
2 Voutz Output Voltage Z channel
3 GND 0V supply
4 Reserved Leave unconnected
5 Reserved Leave unconnected
6 Vouty Output Voltage Y channel
7 Voutx Output Voltage X channel
8 Vdd Power supply
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LIS3L02AL Mechanical and electrical specifications
5/17
2 Mechanical and electrical specifications
2.1 Mechanical characteristics
Table 2. Mechanical characteristics
(1)
(Temperature range -40°C to +85°C) All the parameters are specified @ Vdd =3.3V,
T = 25°C unless otherwise noted
1. The product is factory calibrated at 3.3V. The device can be powered from 2.4V to 3.6V. Voff, So and Vt parameters will
vary with supply voltage.
Symbol Parameter Test Condition Min. Typ.
(2)
Max. Unit
Ar Acceleration Range
(3)
±1.8 ±2.0 g
So Sensitivity
(4)
Full-scale = 2g Vdd/5–10% Vdd/5 Vdd/5+10% V/g
SoDr
Sensitivity Change Vs
Temperature
Delta from +25°C ±0.01 %/°C
Voff Zero-g Level
(4)
T = 25°C Vdd/2-6% Vdd/2 Vdd/2+6% V
OffDr
Zero-g level Change Vs
Temperature
Delta from +25°C ±0.5 mg/°C
NL Non Linearity
(5)
Best fit straight line
Full-scale = 2g
X, Y axis
±0.3 ±1.5 %
Best fit straight line
Full-scale = 2g
Z axis
±0.5 ±1.5 %
CrossAx Cross-Axis
(6)
±2 ±4%
An
Acceleration Noise
Density
Vdd=3.3V;
Full-scale = 2g
50 µg/
Vt
Self test Output Voltage
Change
(7),(8)
T = 25°C
Vdd=3.3V
Full-scale = 2g
X axis
-20 -50 -100 mV
T = 25°C
Vdd=3.3V
Full-scale = 2g
Y axis
20 50 100 mV
T = 25°C
Vdd=3.3V
Full-scale = 2g
Z axis
20 50 100 mV
Fres
Sensing Element
Resonance Frequency
(9)
all axes 1.5 kHz
To p
Operating Temperature
Range
-40 +85 °C
Wh Product Weight 0.08 gram
Hz
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Mechanical and electrical specifications LIS3L02AL
6/17
2.2 Electrical Characteristics
2. Typical specifications are not guaranteed
3. Guaranteed by wafer level test and measurement of initial offset and sensitivity
4. Zero-g level and sensitivity are essentially ratiometric to supply voltage
5. Guaranteed by design
6. Contribution to the measuring output of the inclination/acceleration along any perpendicular axis
7. Self test “output voltage change” is defined as Vout
(Vst=Logic1)
-Vout
(Vst=Logic0)
8. Self test “output voltage change” varies cubically with supply voltage
9. Minimum resonance frequency Fres=1.5kHz. Sensor bandwidth=1/(2*π*110k*Cload) with Cload>1nF.
Table 3. Electrical Characteristics
(1)
(Temperature range -40°C to +85°C) All the parameters are specified @ Vdd =3.3V, T=25°C
unless otherwise noted
1. The product is factory calibrated at 3.3V
Symbol Parameter Test Condition Min. Typ.
(2)
2. Typical specifications are not guaranteed
Max. Unit
Vdd Supply Voltage 2.4 3.3 3.6 V
Idd Supply Current mean value 0.85 1.5 mA
Vst Self Test Input
Logic 0 level 0 0.3*Vdd V
Logic 1 level 0.7*Vdd Vdd V
Rout Output Impedance 80 110 140 k
Cload Capacitive Load Drive
(3)
3. Minimum resonance frequency Fres=1.5kHz. Sensor bandwidth=1/(2*π*110k*Cload) with Cload>1nF
1nF
To p
Operating Temperature
Range
-40 +85 °C
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P17

LIS3L02ALTR

Mfr. #:
Buy LIS3L02ALTR
Manufacturer:
STMicroelectronics
Description:
Accelerometers MEMS INERTIAL snsr 3 axis
Lifecycle:
New from this manufacturer.
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