VTI SCA830-D07

SCA830-D07
Data Sheet
SCA830-D07 1-AXIS INCLINOMETER WITH DIGITAL SPI INTERFACE
Features
•
•
•
•
•
•
•
•
•
•
•
•
3.3V supply voltage
±1 g measurement range
Single axis measurement in Y direction
±30mg offset accuracy over temp range
SPI digital interface
Extensive self diagnostics features
Size 7.6 x 3.3 x 8.6 mm (w x h x l)
Qualified according to AEC-Q100 standard
Package, pin-out and SPI protocol compatible
with VTI digital accelerometer product family
RoHS compliant Dual Flat Lead (DFL) plastic
package suitable for lead free soldering process
and SMD mounting
Proven capacitive 3D-MEMS technology
High resolution 16-bit A/D converter
Applications
The SCA830-D07 is targeted to applications with high
stability requirements. Typical applications include
•
Hill Start Aid (HSA)
•
Electronic Parking Brake (EPB)
•
Roll Over detection
•
Suspension control
•
Inclinometers
•
Motion and position measurements
General Description
The SCA830-D07 is a single axis inclinometer component based on VTI's capacitive 3D-MEMS technology. The
component integrates high accuracy micromechanical acceleration sensing together with a flexible SPI digital
interface. Dual Flat Lead (DFL) housing guarantees reliable operation over product lifetime.
The SCA830-D07 is designed, manufactured and tested for high stability, reliability and quality requirements of
automotive applications. The inclinometer has an extremely stable output over wide ranges of temperature, humidity
and mechanical noise. The component is qualified to the AEC-Q100 standard and has several advanced self
diagnostics features. The DFL housing is suitable for SMD mounting and the component is compatible with the RoHS
and ELV directives.
The SCA830-D07 is a part of VTI's digital accelerometer family and fully compatible with its single axis accelerometers
(SCA800 Series) and other multi axis accelerometers (SCA2100 Series and SCA3100 Series).
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SCA830-D07
Performance Characteristics
Vdd=3.3 V and ambient temperature unless otherwise specified.
Parameter
Condition
Analog and digital Vdd
Current consumption
Measurement range
Active mode
Power down mode
Measurement axis (Y)
Operating temperature
Total offset error B)
Offset stability C)
Temperature range -40 ... +125 °C
Temperature range -40 ... +125 °C
Offset calibration error D)
@25°C
Offset temperature drift
Sensitivity
Temperature range -40 ... +125 °C
16 bit output
between ±3°
Temperature range -40 ... +125 °C
@25 °C ±5°C
Temperature range -40 ... +125 °C
+1g ... -1g range
Total sensitivity error
Sensitivity calibration error
Sensitivity temperature drift
Linearity error
Cross-Axis sensitivity
Zero acceleration output
Amplitude response
Noise
Power on setup time
Output data rate
Output load
SPI clock rate
ESD protection
Moisture sensitivity level
Mechanical shock
ID register value
A)
B)
C)
D)
E)
Min
3.0
Typ A)
Max
3.6
6.3
0.1
1
+90
125
+70
25
1.5
5
-1
-90
-40
-70
-25
-1.5
±20
±1.1
50
8
2
1
Units
V
mA
mA
g
°
°C
mg
mg
°
mg
°
mg
Count/g
°/Count
% FS
% FS
% FS
mg
%
Counts
Hz
mg RMS
s
Hz
pF
MHz
kV
kV
20 000
g
30 E)
32 000
0.00179
-4
4
±1.4
±0.9
-20
20
±3.5
±2
0
6.25
0.15
2-complement
-3dB frequency
0.3
125
Human Body Model
Charge Device Model
IPC/JEDEC J-STD-020C, Level 3
Customer readable ID register (27hex)
0A
Typical ± values are ±3 sigma variation limits from validation test population.
Includes offset deviation from 0g value including calibration error and drift over lifetime, temperature and
supply voltage.
After mounting of the ECU to the application and after offset zero-setting at room temperature. Relevant offset failure due to
temperature dependency of offset as well as aging over lifetime
Includes offset deviation from 0g value including calibration error and drift over lifetime.
Offset drift due to temperature. Value is a relative value and has been centered to zero. Error defined as maximum change
of offset in temperature range. Offset (max)-Offset Min). 100% tested in production.
MOSI
MISO
SPI
C/V
A/D
SCK
Signal
conditioning
and filtering
CSB
Temp
sensor
PWM
PWM
Self diagnostics
Figure 1. SCA830-D07 Block diagram
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Typical Performance characteristics
Offset calibration error
40
35
Percent of parts[%]
30
25
20
15
10
5
0
-25
-20
-15
-10
-5
0
5
10
15
20
25
30
35
Offset [mg]
Temperature dependency of offset
Offset drift at temperature range
o
o
-40 C…+125 C
30
30
25
25
Offset[mg]
15
10
+3 Sigma
Mean
5
-3 Sigma
0
-5 -45
-20
5
30
55
80
105
130
Percent of parts[%]
20
20
15
10
-10
5
-15
-20
0
Temp [o C]
-25
-20
-15
-10
-5
0
5
10
Offset drift [m g]
15
20
25
30
35
Sensitivity drift at temperature range
o
Sensitivity at 25 C
o
o
50
45
45
40
40
35
35
Percent of parts[%]
Percent of parts[%]
-40 C…+125 C
50
30
25
20
15
10
30
25
20
15
10
5
5
0
31300
31450
31600
31750
31900
32050
32200
32350
32500
32650
32800
0
Sensitivity [LSB/g]
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-0.9
-0.8
-0.7
-0.6
-0.5
-0.4
-0.3
Sensitivity error [% FS]
-0.2
-0.1
0
0.1
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Measument directions
Figure 1. Accelerometer measuring directions
Earth gravitation
Figure 2. Zero acceleration output position
Housing dimensions
Figure 3. Housing dimensions
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SCA830-D07
Application Note for Acceleration Output Reading (16 bit output sensitivity)
This is addition to SCA8X0_21X0_3100 Product Family Specification chapter 3.1.
DOUT_LSB
Address: 4h
Bits
Mode
7:0
R
Initial
Value
00h
Name
Description
DATA
Acceleration data LSB frame
Read always DOUT_MSB prior to DOUT_LSB.
DOUT_MSB
Address: 5h
Bits
Mode
7:0
R
Initial
Value
00h
Name
Description
DATA
Acceleration data MSB frame
Reading of this register latches DOUT_LSB.
The bit level description of acceleration data from DOUT_LSB ... DOUT_MSB registers is
presented below. The acceleration data is presented in 2's complement format. At 0 g
acceleration the output is ideally 0000h.
+/-1g product
Bit number
SCA8xx
+1g position
-1g position
+Full-scale
-Full-scale
DOUT MSB bits(7:0)
15
14
13
s
512,0
256,0
0
1
1
1
0
0
0
1
1
1
0
0
12
128,0
1
0
1
0
11
64,0
1
0
1
0
10
32,0
1
0
1
0
9
16,0
0
1
1
0
8
8,0
1
1
1
0
DOUT LSB bits(7:0)
7
6
5
4,00
2,00
1,00
0
0
0
0
0
0
1
1
1
0
0
0
4
0,50
0
0
1
0
3
0,25
0
0
1
0
2
0,13
0
0
1
0
1
0,06
0
0
1
0
16b
0
[-]
Bits (15:0)
[Dec]
0,03 [mg]
0
1000
32000
0
-1000
-32000
1
1023
32767
0
-1024
-32768
s = sign bit
Acceleration bits can be converted to mg acceleration (Acc) using following equation
15
14
13
12
11
10
9
8
7
6
5
4
4
1 ⎡− s ⋅ 2 + b14 ⋅ 2 + b13 ⋅ 2 + b12 ⋅ 2 + b11 ⋅ 2 + b10 ⋅ 2 + b9 ⋅ 2 + b8 ⋅ 2 + b7 ⋅ 2 + b6 ⋅ 2 + b5 ⋅ 2 + b 4 ⋅ 2 + b3 ⋅ 2 ⎤
Acc[mg ] =
⎢
⎥
32 ⎣⎢+ b 2 ⋅ 2 3 + b1 ⋅ 21 + b0
⎦⎥
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SCA830-D07
Contact Information
Finland
(head office)
VTI Technologies Oy
P.O. Box 27
Myllynkivenkuja 6
FI-01621 Vantaa
Finland
Tel. +358 9 879 181
Fax +358 9 8791 8791
E-mail: [email protected]
Germany
VTI Technologies Oy
Branch Office Frankfurt
Rennbahnstrasse 72-74
D-60528 Frankfurt am Main,
Germany
Tel. +49 69 6786 880
Fax +49 69 6786 8829
E-mail: [email protected]
Japan
Akebono Brake Industry Co.,Ltd.
5-4-71 Higashi, Hanyu-city
Saitama Pref., 348-8501
Japan
Tel. +81 48 560 1470
Fax +81 48 560 1469
www.akebono-brake.co.jp
E-mail: [email protected]
China
VTI Technologies Shanghai Office
6th floor, Room 618
780 Cailun Lu
Pudong New Area
201203 Shanghai
P.R. China
Tel. +86 21 5132 0418 or
+86 21 5132 0400 *112
Fax +86 21 513 20 416
E-mail: [email protected]
VTI Technologies Oy
www.vti.fi
USA
VTI Technologies, Inc.
One Parklane Blvd.
Suite 804 - East Tower
Dearborn, MI 48126
USA
Tel. +1 313 425 0850
Fax +1 313 425 0860
E-mail [email protected]
To find out your local sales
representative visit www.vti.fi
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