SCA3000-E04
Performance Characteristics
1)
Parameter
Analog and digital Vdd
Digital I/O Vdd
Operating temperature **
Current consumption *
Condition
Typical supply range
2.35 – 2.7 V
Min Typ
2)
Max
2.35
1.7
-40
-
-
-
-6
-80
-
-
-1
-
-
-
2.5
1.8 / 2.5
-
<7
120
120
-
-
±1.6
500
-
±0.01
±0.5
±4
38
9
18
10
100
50
35
200
-
-
35
325
120
60
2.7
2.7
85
Extended supply
range 2.7 – 3.6 V
Min Typ
2)
Max
-
-
-40
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
3.3
3.3
-
<9
150
150
±6
± 200
±1.6
500
±1
±0.01
±0.5
±4
38
9
18
10
93
45
35
200
-
-
-
-
85
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
35
325
Units
V
V
°C
µA
µA
µA
g
mg
mg/°C
Count/g
%
%/°C
% FS
%
Hz
Hz
mg RMS
mg RMS
Hz
Hz
ms
ms
pF
kHz
Vdd
≥
Digital I/O Vdd
Reset 3)
Active
Motion Detection
mode
Nominal
Z-axis +1g position
-40 ... +85 °C
-40 ... +85 °C
Acceleration range *
4)
Offset calibration error *
Offset temperature error **
5)
Sensitivity *
6)
Sensitivity calibration error *
Sensitivity temperature error
**
7)
Non-Linearity **
8)
Cross-Axis sensitivity **
9)
Bandwidth **
Noise **
11)
Output data rate **
Turn on time **
12)
Output load **
SPI clock rate **
*
**
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
6
80
-
+1
-
46
11
Measurement mode
Narrow band
measurement mode
Measurement mode
Narrow band
measurement mode
Measurement mode
Narrow band
measurement mode
Measurement mode
Narrow band
measurement mode
30
7
-
-
80
40
-
-
-
-
100% tested in production
Qualified during product validation
The product is factory calibrated at 2.5 V in room temperature.
Typical values are not guaranteed.
Includes the current through the internal 400 kΩ pull-up resistor connected to digital I/O Vdd.
Range defined as
x
2
+
y
2
+
z
2
≤
6
g
. The measuring range is tested on sensing element level. FS = 6g.
Offset temperature error = {Count(0g)-Offset} / Sensitivity [ g ]. Sensitivity = Calibrated sensitivity.
Offset= Calibrated offset.
Sensitivity = {Count(+1g) - Count(-1g)}/2 [Count/g].
Sensitivity temperature error = {[Count(+1g)-Count(-1g)]/2 - Sensitivity} / Sensitivity x 100% [%].
Sensitivity = Calibrated sensitivity.
Best fit straight line.
The cross-axis sensitivity determines how much acceleration, perpendicular to the measuring axis,
couples to the output. The total cross-axis sensitivity is the geometric sum of the sensitivities of
the two axes which are perpendicular to the measuring axis. The angular alignment error
between X, Y and Z axis is included into the cross axis sensitivity.
Frequency responses according to Figure 3 and Figure 4.
Average noise/axis over the measurement bandwidth defined as
1 (
n
2
+
n
2
+
n
2 )
, where nx, ny and nz are
y
z
3
x
the measured signal's standard deviation due to noise in x, y and z directions.
Settling error less than 1% of FS.
10)
11)
12)
VTI Technologies Oy
www.vti.fi
PRELIMINARY - Subject to changes
Doc. Nr. 8290500A
2/4
Rev.A