ADXL103CE Analog Devices Inc, ADXL103CE Datasheet - Page 11
ADXL103CE
Manufacturer Part Number
ADXL103CE
Description
IC ACCELEROMETER SNGL-AXIS 8CLCC
Manufacturer
Analog Devices Inc
Series
iMEMS®r
Specifications of ADXL103CE
Acceleration Range
±1.7g
Axis
X or Y
Sensitivity
1000mV/g
Voltage - Supply
3 V ~ 6 V
Output Type
Analog
Bandwidth
1Hz ~ 500Hz Selectable
Mounting Type
Surface Mount
Package / Case
8-CLCC
No. Of Axes
1
Sensor Case Style
LCC
No. Of Pins
8
Supply Voltage Range
3V To 6V
Operating Temperature Range
-40°C To +125°C
Msl
MSL 1 - Unlimited
Sensitivity Per Axis
1000mV / G
Svhc
No
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Interface
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
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Peak-to-peak noise values give the best estimate of the uncertainty
in a single measurement; peak-to-peak noise is estimated by
6 × rms. Table 8 gives the typical noise output of the ADXL103/
ADXL203 for various C
Table 8. Filter Capacitor Selection (C
Bandwidth (Hz)
10
50
100
500
USING THE ADXL103/ADXL203 WITH OPERATING
VOLTAGES OTHER THAN 5 V
The ADXL103/ADXL203 is tested and specified at V
however, it can be powered with V
6 V. Some performance parameters change as the supply voltage
is varied.
The ADXL103/ADXL203 output is ratiometric, so the output
sensitivity (or scale factor) varies proportionally to supply
voltage. At V
The zero g bias output is also ratiometric, so the zero g output is
nominally equal to V
The output noise is not ratiometric but is absolute in volts;
therefore, the noise density decreases as the supply voltage
increases. This is because the scale factor (mV/g) increases
while the noise voltage remains constant. At V
density is typically 190 μg/√Hz.
Self-test response in g is roughly proportional to the square of
the supply voltage. However, when ratiometricity of sensitivity
is factored in with supply voltage, self-test response in volts is
roughly proportional to the cube of the supply voltage. So at
V
150 mV or equivalent to 270 mg (typical).
The supply current decreases as the supply voltage decreases.
Typical current consumption at V
S
= 3 V, the self-test response is approximately equivalent to
S
= 3 V the output sensitivity is typically 560 mV/g.
C
(μF)
0.47
0.1
0.047
0.01
X
S
/2 at all supply voltages.
, C
X
Y
and C
RMS Noise
(mg)
0.4
1.0
1.4
3.1
Y
values.
DD
S
as low as 3 V or as high as
= 3 V is 450 μA.
X
, C
Y
Peak-to-Peak Noise
Estimate (mg)
2.6
6
8.4
18.7
)
S
= 3 V, the noise
S
= 5 V;
Rev. C | Page 11 of 12
USING THE ADXL203 AS A DUAL-AXIS TILT
SENSOR
One of the most popular applications of the ADXL203 is tilt
measurement. An accelerometer uses the force of gravity as an
input vector to determine the orientation of an object in space.
An accelerometer is most sensitive to tilt when its sensitive axis
is perpendicular to the force of gravity, that is, parallel to the
earth’s surface. At this orientation, its sensitivity to changes in
tilt is highest. When the accelerometer is oriented on axis to
gravity, that is, near its +1 g or –1 g reading, the change in
output acceleration per degree of tilt is negligible. When the
accelerometer is perpendicular to gravity, its output changes
nearly 17.5 mg per degree of tilt. At 45°, its output changes at
only 12.2 mg per degree, and resolution declines.
Dual-Axis Tilt Sensor: Converting Acceleration to Tilt
When the accelerometer is oriented so both its x axis and y axis
are parallel to the earth’s surface, it can be used as a 2-axis tilt
sensor with a roll axis and a pitch axis. Once the output signal
from the accelerometer has been converted to an acceleration
that varies between –1 g and +1 g, the output tilt in degrees is
calculated as follows:
Be sure to account for overranges. It is possible for the
accelerometers to output a signal greater than ±1 g due to
vibration, shock, or other accelerations.
PITCH = ASIN(A
ROLL = ASIN(A
Y
/1 g)
X
/1 g)
ADXL103/ADXL203
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