MLX90367KDC-ABU-090-SP [MELEXIS]
IC MONOLITHIC SENSOR POS 8SOIC;型号: | MLX90367KDC-ABU-090-SP |
厂家: | Melexis Microelectronic Systems |
描述: | IC MONOLITHIC SENSOR POS 8SOIC |
文件: | 总39页 (文件大小:1782K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MLX90367 Triaxis® Position Sensor IC
Datasheet
The MLX90367 is a monolithic sensor IC sensitive
to the flux density applied orthogonally and
parallel to the IC surface.
Features and Benefits
.
.
Triaxis® Hall Technology
On Chip Signal Processing for Robust Absolute
Position Sensing
The MLX90367 is sensitive to the three
components of the flux density applied to the IC
(i.e. BX, BY and BZ). This allows the MLX90367 with
the correct magnetic circuit to decode the
absolute position of any moving magnet (e.g.
rotary position from 0 to 360 Degrees or linear
displacement, stroke). It enables the design of
novel generation of non-contacting position
sensors that are frequently required for both
automotive and industrial applications.
.
.
.
Simple Magnetic Design
Programmable Measurement Range
Programmable Linear Transfer Characteristic
(Multi-points)
SENT output (according to SAE J2716-2010)
12 bit Resolution - 10 bit Thermal Accuracy
48 bit ID Number option
Single Die – SOIC-8 Package RoHS Compliant
Dual Die (Full Redundant) – TSSOP-16 Package
RoHS Compliant
.
.
.
.
.
MLX90367 provides SENT Frames encoded
according the Throttle sensor format or Secure
Sensor format. The circuit delivers enhanced serial
messages providing error codes, and user-defined
values.
.
Output Thermal Offset correction
SOIC-8
TSSOP-16
Applications
.
.
.
.
.
.
.
.
Absolute Rotary Position Sensor
Absolute Linear Position Sensor
Pedal Position Sensor
Steering Wheel Position Sensor
Throttle Position Sensor
Float-Level Sensor
Ride Height Position Sensor
Non-Contacting Potentiometer
Description
MLX90367 Triaxis® Position Sensor IC
Datasheet
Contents
Features and Benefits................................................................................................................................ 1
Applications............................................................................................................................................... 1
Description................................................................................................................................................ 1
1. Ordering Information ............................................................................................................................ 4
2. Functional Diagram ............................................................................................................................... 5
3. Glossary of Terms.................................................................................................................................. 5
4. Pinout.................................................................................................................................................... 6
5. Absolute Maximum Ratings................................................................................................................... 6
6. Electrical Specification........................................................................................................................... 7
7. Isolation Specification............................................................................................................................ 8
8. Timing Specification............................................................................................................................... 8
8.1. Timing diagrams..................................................................................................................................9
8.2. Application diagram used for rise and fall time measurement......................................................10
9. Accuracy Specification......................................................................................................................... 11
10. Magnetic Specification ...................................................................................................................... 12
11. CPU & Memory Specification............................................................................................................. 12
12. Traceability Information .................................................................................................................... 12
13. End-User Programmable Items.......................................................................................................... 13
14. SENT output Protocol ........................................................................................................................ 16
14.1. Generality........................................................................................................................................16
14.2. Throttle position / Single Secure Fast Channel .............................................................................16
14.2.1. Frame Content..........................................................................................................................16
14.2.2. Diagnostic Reporting through the fast channel ......................................................................16
14.3. Slow Channel...................................................................................................................................18
14.3.1. Enhanced Serial Message.........................................................................................................18
14.3.2. Serial Message sequence .........................................................................................................18
14.3.3. Serial message sequence period .............................................................................................19
14.3.4. Serial Message Error Code .......................................................................................................20
14.4. Start-up ...........................................................................................................................................20
14.5. Field sensing (A2D conversions) and the frame Synchro pulse ...................................................20
15. Description of End-User Programmable Items................................................................................... 21
REVISION 7.0 – FEB, 8TH 2019
Page 2 of 39
MLX90367 Triaxis® Position Sensor IC
Datasheet
15.1. Output Transfer Characteristic ......................................................................................................21
15.1.1. CLOCKWISE Parameter.............................................................................................................21
15.1.2. Discontinuity Point (DP or Zero Degree Point)........................................................................21
15.1.3. 3-Pts LNR Parameters (AxU version only) ...............................................................................22
15.1.4. 17-Pts LNR Parameters (AxV and AxX versions only)..............................................................22
15.1.5. CLAMPING Parameters.............................................................................................................24
15.1.6. Thermal Ouput Offset correction (AxX version only) .............................................................24
15.2. Identification...................................................................................................................................25
15.3. Lock..................................................................................................................................................25
15.4. Sensor Front-End ............................................................................................................................25
15.4.1. MAPXYZ .....................................................................................................................................25
15.4.2. SMISM, k and SEL_k Parameters .............................................................................................26
15.4.3. GAINMIN and GAINMAX Parameters ......................................................................................26
15.5. Filter ................................................................................................................................................26
15.6. Diagnostic Features ........................................................................................................................27
15.7. EEPROM endurance........................................................................................................................27
16. Self Diagnostic ................................................................................................................................... 28
17. Recommended Application Diagrams................................................................................................ 30
17.1. MLX90367 in SOIC-8 Package ........................................................................................................30
17.2. MLX90367 in TSSOP-16 Package....................................................................................................31
18. Standard information regarding manufacturability of Melexis products with different soldering
processes............................................................................................................................................ 32
19. ESD Precautions................................................................................................................................. 32
20. Package Information.......................................................................................................................... 33
20.1. SOIC-8 - Package Dimensions.........................................................................................................33
20.2. SOIC-8 - Pinout and Marking..........................................................................................................34
20.3. SOIC-8 - Sensitive spot positioning ................................................................................................34
20.4. TSSOP-16 - Package Dimensions....................................................................................................36
20.5. TSSOP-16 - Pinout and Marking.....................................................................................................37
20.6. TSSOP-16 - Sensitive spot positioning ...........................................................................................37
21. Disclaimer.......................................................................................................................................... 39
22. Contact.............................................................................................................................................. 39
REVISION 7.0 – FEB, 8TH 2019
Page 3 of 39
MLX90367 Triaxis® Position Sensor IC
Datasheet
1. Ordering Information
Product
Code
Temperature Package
Option
Code
Packing
Form Code
Comment
Code
Code
DC
DC
DC
GO
GO
GO
DC
GO
DC
GO
DC
DC
DC
GO
GO
GO
DC
GO
DC
GO
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
MLX90367
E
K
L
E
K
L
L
L
L
L
E
K
L
E
K
L
L
L
L
L
ABU-000
ABU-000
ABU-000
ABU-000
ABU-000
ABU-000
ABV-000
ABV-000
ABX-000
ABX-000
ACU-000
ACU-000
ACU-000
ACU-000
ACU-000
ACU-000
ACV-000
ACV-000
ACX-000
ACX-000
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
RE
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Not recommended for new design
Legend:
Temperature Code:
E: from -40 Deg.C to 85 Deg.C
K: from -40 Deg.C to 125 Deg.C
L: from -40 Deg.C to 150 Deg.C
Package Code:
Option Code:
“DC” for SOIC-8 package
“GO” for TSSOP-16 package (dual die)
Axx-xxx: Die version
ABx-xxx: Not recommended for new design
ACU-xxx: Standard version (3-pts LNR Parameters)
ACV-xxx: Standard version with 17-Pts LNR Parameters
ACX-xxx: Standard version with 17-Pts LNR Parameters and Thermal Ouput Offset
correction
xxx-000 – Standard
Packing Form:
“RE” for Reel
Ordering Example:
MLX90367LGO-ACX-000-RE
Table 1 – Legend
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MLX90367 Triaxis® Position Sensor IC
Datasheet
2. Functional Diagram
Figure 1 – Block Diagram
3. Glossary of Terms
Gauss (G),
Tesla (T)
Units for the magnetic flux density - 1 mT
= 10 G
ATAN
Trigonometric function: arctangent (or
inverse tangent)
TC
Temperature Coefficient (in ppm/Deg.C.)
Not Connected
IMC
Integrated Magneto-Concentrator (IMC®)
NC
CoRDiC
Coordinate Rotation Digital Computer
(i.e. iterative rectangular-to-polar
transform)
SENT
PWM
ADC
DAC
LSB
Single Edge Nibble Transmission
Pulse Width Modulation
Analog-to-Digital Converter
Digital to Analog Converter
Least Significant Bit
EMC
FE
Electro-Magnetic Compatibility
Falling Edge
RE
Rising Edge
FW
Firmware
MSB
DNL
INL
Most Significant Bit
HW
MT3V
MT4V
Hardware
More than 3V Condition
Differential Non-Linearity
Integral Non-Linearity
More than 4V Condition
RISC
ASP
DSP
Reduced Instruction Set Computer
Analog Signal Processing
Digital Signal Processing
LSD
PP
Low Side Driver = Open drain N
Push-Pull
Table 2 – Glossary of Terms
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MLX90367 Triaxis® Position Sensor IC
Datasheet
4. Pinout
PIN
1
SOIC-8
VDD
TSSOP-16
VDIG
1
2
3
Test 0
Test 2
VSS (Ground1)
1
VDD1
4
5
Not Used
OUT
Test 01
Test 22
6
Test 1
OUT
2
7
8
VDIG
VSS (Ground)
Not Used2
Test 12
9
VDIG
2
10
11
12
13
14
15
16
VSS (Ground2)
2
VDD2
Test 02
Test 21
Not Used1
OUT
1
Test 11
For optimal EMC behavior, it is recommended to connect the unused pins (Test) to the Ground (see
section 17).
5. Absolute Maximum Ratings
Parameter
Value
24 V
Supply Voltage, VDD (overvoltage)
Reverse Voltage Protection
Positive Output Voltage
12 V (breakdown at -14 V)
18 V (breakdown at 24 V)
30 mA (in breakdown)
0.3 V
50 mA (in breakdown)
40 150 Deg.C
40 150 Deg.C
1 T
Output Current (IOUT)
Reverse Output Voltage
Reverse Output Current
Operating Ambient Temperature Range, TA
Storage Temperature Range, TS
Magnetic Flux Density
Exceeding the absolute maximum ratings may cause permanent damage. Exposure to absolute maximum-
rated conditions for extended periods may affect device reliability.
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
6. Electrical Specification
DC Operating Parameters at Nominal Supply Voltage (unless otherwise specified) and for TA as specified by
the Temperature suffix (E, K or L).
Parameter
Nominal Supply Voltage
Supply Current(1)
Isurge Current(3)
Power-On reset (rising)
Power-On reset Hysteresis
Start-up Level (rising)
Start-up Hysteresis
PTC Entry Level (rising)
PTC Entry Level Hysteresis
Symbol
VDD
Test Conditions
Min
4.5
Typ
5
6
Max
5.5
10(2)
10
Units
V
Power saving Enabled, all modes
For Outmode=1
IDD
mA
Isurge
20
mA
V
mV
V
mV
V
mV
mA
mA
mA
k
k
HPOR_LH
HPOR_Hyst
MT4V LH
MT4V Hyst
MT7V_LH
MT7V_Hyst
Refer to internal voltage Vdig
2
2.25
4.0
2.5
200
4.2
200
6.6
200
15
15
18
50
3.8
50
5.8
50
6.2
Vout = 0 V
Vout = 5 V
Vout = 18 V (TA = 25 Deg.C)
Pull-down to Ground
Pull-up to 5V
Output Short Circuit
Current
ISHORT
1
1
10
10
Output Load
RL
0.5
2
97
2
3
Pull-up load RL 10 kΩ to 5 V
Pull-up load RL 5 kΩ to 18V
Pull-down load RL 5 kΩ
Pull-down load RL 10 kΩ
Broken VSS &
Pull-down load RL 5 kΩ
Pull-down load RL 10 kΩ
Broken VSS &
Pull-up load RL 4.7kΩ
Broken VDD &
Pull-down load RL 4.7kΩ
Broken VDD &
Active Diagnostic Output
Level
Digital Saturation Output
Level
Dsat_lo
Dsat_hi
%VDD
95
%VDD
97.5 98.5
BVSSPD(5)
95
97.5
%VDD
Passive Diagnostic Output
Level
BVSSPU
BVDDPD
BVDDPU
Ron
99.5
100
0
%VDD
%VDD
%VDD
Ω
(Broken Track Diagnostic)
(4)
0.5
2
Pull-up load RL 5kΩ
Diag_low
Diag_hi
15
120
30
300
Digital output Ron
1 Averaged current consumption, for the dual version, the supply current is multiplied by 2.
2 To reach 10mA, the power saving option is enabled. This option switches off and on internal blocks dynamically. It can be dis abled
in case of extreme emission requirements; the maximum supply current consumption is then increased up to 12mA.
3 The specified value is valid during early start-up time only; the current might dynamically exceed the specified value, shortly,
during the Start-up phase.
4 The SENT output signal will no longer be reported. For detailed information, see also section 0
5 In case the dual-die variant is used BVssPD level can be influenced. Refer to Technical note MLX90365_Broken_Vss_DualDie
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
7. Isolation Specification
DC Operating Parameters at Nominal Supply Voltage (unless otherwise specified) and for TA as specified by
the Temperature suffix (E, K or L). Only valid for the package code GO i.e. dual die version.
Parameter
Symbol
Test Conditions
Min
Typ
Max
Units
Isolation Resistance
Between dice
4
MΩ
8. Timing Specification
DC Operating Parameters at Nominal Supply Voltage (unless otherwise specified) and for TA as specified by
the Temperature suffix (E, K or L).
Parameter
Symbol
Test Conditions
Min
Typ
Max Units
All contributors (trimming
accuracy, supply voltage, thermal
and ageing)
Main Clock Frequency
Ck
12.6
13.3
14
MHz
Main Clock Frequency
Thermal Drift
CkNOM
TCk
3%
Tick time
3
5
882
μs
ticks
μs
Low pulse tick count
SENT Frame Period
Internal Angle Measurement
Period
First Angle Measurement to
Sync Pulse latency
Second Angle Measurement
to Sync Pulse latency
Field Change to SENT Data:
Average Latency
SENT Frame Tick Count
Watchdog
Start-up Time (up to first
sync pulse)
4
Default EEPROM setting
tframe
tper
Exact value for Ck = 13.3 MHz
The typical value will be
affected by any variation of
the clock
441
1084
643
μs
μs
μs
μs
ta1
ta2
FILTER = 1 (recommended)
SENT Transmission Included
Default EEPROM setting
Latency
1745
1745
294
114.5
294
121.5
Twd
118
1.8
ms
ms
Tsu1
Start-up Time (up to first
data received)
Tsu2
Last pause pulse not included
5.9
6.3
ms
ms
μs
Extended sequence (40
frames)
Short sequence (24 frames)
Thresholds: 0.5V and 4.5V
See section 9.2
635.04
381.02
Serial Message
Rise Time @ Cable
2.97
5.31
Rise Time @ Receiver
Fall Time @ Cable
Fall Time @ Receiver
5.07
2.65
4.84
6.84
2.82
4.9
μs
μs
μs
REVISION 7.0 – FEB, 8TH 2019
Page 8 of 39
MLX90367 Triaxis® Position Sensor IC
Datasheet
8.1. Timing diagrams
VDD
Tsu1
Tsu2
Null Frame
Null Frame
Null Frame
Null Frame
Valid Angle
Valid Angle
OUT
High-Z
Figure 2 - Start-up phase timings
Latency
ta1
Half
Half
ta2
tframe
Field
component
sensing &
angle
B1B2
B1B2
B1B2
B1B2
Field Average
Field Average
calculation
dsp
dsp
SENT wIth
pause
Pause
Frame
Pause
Frame
Pause
Figure 3 - Latencies (acquisition to output delays) – FILTER = 1 (recommended)
Field
component
sensing &
Angle
B1 B2
B1 B2
B1 B2
dsp
B1 B2
calculation
dsp
SENT wIth
pause
Pause
Frame
Pause
Frame
Pause
Figure 4 - Latency - Case FILTER = 0 (not recommended)
Field
B1 B2
component
sensing &
angle
B1 B2
B1 B2
B1 B2
Field Average
Field Average
calculation
dsp
dsp
SENT wIth
pause
Pause
Frame
Pause
Frame
Pause
Figure 5 - Latency - Case FILTER = 2
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
8.2. Application diagram used for rise and fall time measurement
1
VDD
VDD
RPU
8
SENT Protocol
Generator
VSS
VSS
RV
Cf
C01
C02
Cinput
CTau
5
Wiring
OUT
OUT
R01
RTau
Rf
Figure 6 - Schematic used for rise and fall time measurements (ref: J2716 Rev Jan 2010 Fig. 6.3.4)
Component
C01
C02
Value
10 ± 25%
not mounted
not mounted
68
Unit
nF
nF
Ω
pF
nF
pF
Ω
R01
Cinput
CTau
Cf
RTau
Rf
2.2
100
568
10
kΩ
kΩ
Ω
RPU
RV
14.7
not mounted
Component values used for rise and fall time measurements (ref: J2716 Rev Jan 2010 Fig. 6.3.4)
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
9. Accuracy Specification
DC Operating Parameters at Nominal Supply Voltage (unless otherwise specified) and for TA as specified by
the Temperature suffix (E, K or L).
Parameter
Symbol Test Conditions
Min
Typ
Max Units
ADC Resolution on the raw
signals sine and cosine(6)
Thermal Offset Drift #1(7)
at the DSP input (excl. DAC
and output stage)
RADC
15
bits
+60
Temperature suffix E
Temperature suffix K
Temperature suffix L
XY axis – Temp. suffix E
XY axis – Temp. suffix K & L
XZ (YZ) axis – Temp. suffix E
XZ (YZ) axis – Temp. suffix K & L
TA = 25Deg.C – XY axis
TA = 25Deg.C – XZ axis
TA = 25Deg.C – YZ axis
-60
-60
-90
- 0.3
- 0.5
-1
-1
-0.3
-2
+60
+90
+ 0.3
+ 0.5
+1
LSB15
Thermal Drift of Sensitivity
Mismatch(8)
%
+1
0.3
2
Magnetic Angle phase error
Deg.
-2
2
Thermal Drift of Magnetic
Angle phase error
XY – Intrinsic Linearity Error(9)
XY axis, XZ (YZ) axis
0.01
Deg.
Deg.
TA = 25Deg.C – factory trim.
“SMISM”
TA = 25Deg.C – “k” trimmed for XZ
TA = 25Deg.C – “k” trimmed for YZ
Filter = 0; 40mT
Filter = 1 (recommended); 30mT
Filter = 2; 20mT
Le
-1
1
XZ - Intrinsic Linearity Error(9
Le
Le
-2.5
-2.5
+2.5
+2.5
0.2
0.2
0.2
Deg.
Deg.
1.25
1.25
0.10
0.10
0.10
YZ - Intrinsic Linearity Error(9
Noise pk-pk(10
Deg.
6 16 bits corresponds to 15 bits + sign. Internal computation is performed using 16 bits.
7 For instance, in case of a rotary position sensor application, Thermal Offset Drift #1 equal ± 60LSB 15 yields to max. ± 0.3 Deg.
angular error for the computed angular information (output of the DSP). This is only valid if k = 1.
8 For instance, in case of a rotary position sensor application, Thermal Drift of Sensitivity Mismatch equal ± 0.5% yields to m ax. ±
0.15 Deg. angular error for the computed angular information (output of the DSP).
9 The Intrinsic Linearity Error refers to the IC itself (offset, sensitivity mismatch, orthogonality) taking into account an id eal rotating
field for BX and BY. Once associated to a practical magnetic construction and the associated mechanical and magnetic t olerances,
the output linearity error increases. However, it can be improved with the multi-point end-user calibration. The intrinsic
Linearity Error for Magnetic angle XZ and YZ can be reduced through the programming of the k factor.
10 Noise pk-pk (peak-to-peak) is here intended as 6 times the Noise standard Deviation. The application diagram used is described in
the recommended wiring. For detailed information, refer to section Filter in application mode (Section 15.5).
REVISION 7.0 – FEB, 8TH 2019
Page 11 of 39
MLX90367 Triaxis® Position Sensor IC
Datasheet
10. Magnetic Specification
DC Operating Parameters at Nominal Supply Voltage (unless otherwise specified) and for TA as specified by
the Temperature suffix (E, K or L).
Parameter
Magnetic Flux Density
Symbol
BX, BY
Test Conditions
Min
Typ
Max
Units
mT
(11)
2
√[ BX 2 + BY
]
70(12)
Magnetic Flux Density
Magnetic Flux Norm
BZ
126
mT
mT
2
2
Norm
√[ BX + BY + (Bz/1.2)2 ]
20(13)
IMC Gain in X and Y (14)
IMC Gain in Z
k factor
GainIMCXY
GainIMCZ
k
1.2
1.1
1
1.4
1.2
1.8
1.3
1.5
GainIMCXY / GainIMCZ
Magnet Temperature
Coefficient
TCm
-2400
0
ppm/Deg.C
11. CPU & Memory Specification
The DSP is based on a 16 bit RISC µController. This CPU provides 2.5 MIPS while running at 10 MHz.
Parameter
ROM
RAM
Symbol
Test Conditions
Min
Typ
10
384
128
Max
Units
KB
B
EEPROM
B
12. Traceability Information
Every device contains a unique ID that is programmed by Melexis in the EEPROM. Melexis strongly
recommends storing this value during the EOL (End-Of-Line) programming to ensure full traceability of the
final product. These parameters shall never be erased during the EOL programming.
Default
Values
Parameter
Comments
Parameter # bit
MELEXISID1
MELEXISID2
MELEXISID3
Melexis identification reference
Melexis identification reference
Melexis identification reference
MLX
MLX
MLX
16
16
16
11 The condition must be fulfilled for at least one field BX or BY.
12 Above 70 mT, the IMC starts saturating yielding to an increase of the linearity error.
13 Below 20 mT, the performances slightly degrade due to a reduction of the signal-to-noise ratio, signal-to-offset ratio.
14 This is the magnetic gain linked to the Integrated Magneto Concentrator structure. This is the overall variation. Within one lot,
the part to part variation is typically ± 10% versus the average value of the IMC gain of that lot.
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
13. End-User Programmable Items
AxU-xxx
AxV-xxx
AxX-xxx
Parameter
Comments
#bit
Std
#bit
Std
#bit
Std
MAPXYZ
Mapping fields for output angle
Clamping High
Clamping Low
Sensitivity mismatch factor X, Y
Sensitivity mismatch factor X (Y), Z
Location for K – correction
Low threshold for virtual gain
High threshold for virtual gain
Gain Saturates on GAINMIX and GAINMAX
Discontinuity point
2
0x0
2
16
16
15
15
1
8
8
1
15
1
0x0
0xFFFF
0x0000
MLX
MLX
0x0
0x00
0x28
0x0
2
16
16
15
15
1
8
8
1
15
1
0x0
0xFF80
0x0010
MLX
MLX
0x0
0x01
0x28
0x0
CLAMPHIGH
CLAMPLOW
SMISM
K
SELK
GAINMIN
GAINMAX
GAINSATURATION
DP
16
16
15
15
1
8
8
1
15
1
0xFF80
0x0010
MLX
MLX
0x0
0x00
0x28
0x0
0x0000
0x0
0x0000
0x0
0x0000
0x0
CW
Clock Wise
LNRS0
LNRAX
LNRAY
LNRAS
LNRBX
LNRBY
LNRBS
LNRCX
LNRCY
LNRCS
DIAGSETTINGS
CRCDISABLE
SERIALERROR
FILTER
3pts – Initial Slope
3pts – AX Coordinate
3pts – AY Coordinate
3pts – AS Coordinate
3pts – BX Coordinate
3pts – BY Coordinate
3pts – BS Coordinate
3pts – CX Coordinate
3pts – CY Coordinate
3pts – CS Coordinate
16 Bit Diagnostics enabling
Enable EEPROM CRC check (0x0000=enabled)
Diagnostic reporting through fast channel
FIR Filter
16
16
16
16
16
16
16
16
16
16
16
16
3
0x0000
0x0000
0x0010
0x1FF0
0xFFFF
0xFFFF
0x0000
0xFFFF
0xFFFF
0x0000
0x4080
0x0000
0x0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
0x4080
0x00
0x0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
0x4080
0x00
0x0
16
8
3
16
8
3
2
0x0
2
0x0
2
0x0
SENTSERIAL
SERIAL_OEM1
SERIAL_OEM2
Serial Message
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
8
16
16
0x80
0x0000
0x0000
8
12
12
0x80
0x000
0x000
8
12
12
0x80
0x000
0x000
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MLX90367 Triaxis® Position Sensor IC
Datasheet
AxU-xxx
AxV-xxx
AxX-xxx
Parameter
SERIAL_OEM3
SERIAL_OEM4
SERIAL_OEM5
SERIAL_OEM6
SERIAL_OEM7
SERIAL_OEM8
Comments
#bit
Std
#bit
Std
#bit
Std
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
Serial Message (12 lsb are used)
Serial Message
16
16
16
16
16
16
16
12
4
0x0000
0x0000
0x0000
0x0000
0x0000
0x0000
0x0000
0x000
12
12
0x000
0x000
N/A
N/A
N/A
12
12
0x000
0x000
N/A
N/A
N/A
N/A
N/A
SERIAL_MANCODE
SERIAL_SensorType
SERIAL_SENTREV
16
12
4
0x0000
0x000
0x3
16
12
4
0x0000
0x000
0x3
Serial Message
0x3
Cust identification reference: Default = Bin1
Can be used as incoming inspection, only set when final test was PASS.
Cust identification reference: Default Rev nr
Cust identification reference: Default Sens.
Serial data for serial 29 (12 lsb are used)
Serial data for serial 2A (12 lsb are used)
Serial data for serial 2B (12 lsb are used)
Serial data for serial 2C (12 lsb are used)
ID of user serial message #1
ID of user serial message #2
ID of user serial message #3
ID of user serial message #4
Enable or disable the serial message
Enable or disable the pause pulse
USERID1
16
0x0001
N/A
N/A
USERID2
USERID3
16
16
16
16
16
16
0x0305
MLX
N/A
N/A
N/A
N/A
SERIAL_ID1
SERIAL_ID2
SERIAL_ID3
SERIAL_ID4
SERIALID1
SERIALID2
SERIALID3
SERIALID4
SLOW_MESSAGE
PAUSEPULSE
CRC2010
0x0000
0x0000
0x0000
0x0000
N/A
N/A
N/A
N/A
0x1
12
12
12
12
0x000
0x000
0x000
0x000
N/A
N/A
N/A
N/A
0x1
12
12
12
12
0x000
0x000
0x000
0x000
N/A
N/A
N/A
N/A
0x1
1
1
1
2
1
1
1
2
1
1
1
2
0x1
0x1
0x0
0x1
0x1
0x0
0x1
0x1
0x0
CRC according 2010 or 2007 standard
EEPROM memory lock
MEMLOCK
Data of user serial message #1 (12 lsb used)
Not available to USER until MemLock performed. For more details, see:
EEPROM_MLX90366_default_settings.doc
Data of user serial message #2 (12 lsb used)
Data of user serial message #3 (12 lsb used)
Data of user serial message #4 (12 lsb used)
SERIALDATA1
N/A
N/A
N/A
SERIALDATA2
SERIALDATA3
SERIALDATA4
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
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MLX90367 Triaxis® Position Sensor IC
Datasheet
AxU-xxx
AxV-xxx
AxX-xxx
Parameter
SERIAL_X1
SERIAL_X2
SERIAL_Y1
SERIAL_Y2
W
LNRY0
LNRY1
LNRY2
LNRY3
LNRY4
LNRY5
LNRY6
LNRY7
LNRY8
LNRY9
LNRY10
LNRY11
LNRY12
LNRY13
LNRY14
LNRY15
LNRY16
Comments
#bit
Std
#bit
Std
#bit
Std
Serial Message (12 lsb used)
Serial Message (12 lsb used)
Serial Message (12 lsb used)
Serial Message (12 lsb used)
17pts – Output angle range
Y coordinate point 0/16
Y coordinate point 1/16
Y coordinate point 2/16
Y coordinate point 3/16
Y coordinate point 4/16
Y coordinate point 5/16
Y coordinate point 6/16
Y coordinate point 7/16
Y coordinate point 8/16
Y coordinate point 9/16
Y coordinate point 10/16
Y coordinate point 11/16
Y coordinate point 12/16
Y coordinate point 13/16
Y coordinate point 14/16
Y coordinate point 15/16
Y coordinate point 16/16
16
16
16
16
0x0000
0x0000
0x0000
0x0000
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
12
12
12
12
4
0x000
0x000
0x000
0x000
0x0
12
12
12
12
4
0x000
0x000
0x000
0x000
0x0
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
0x4001
0x4801
0x5001
0x5801
0x6001
0x6801
0x7001
0x7801
0x8001
0x8801
0x9001
0x9801
0xA001
0xA801
0xB001
0xB801
0xC001
N/A
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
8
0x4009
0x4804
0x5000
0x57FC
0x5FF8
0x67F4
0x6FF0
0x77EC
0x7FE8
0x87E4
0x8FE0
0x97DC
0x8FD8
0xA7D4
0xAFD0
0xB7CC
0xBFC8
0x0
ANGLEOFSSLOPECOLD Temperature coefficient offset at cold temperatures
ANGLEOFSSLOPEHOT Temperature coefficient offset at hot temperatures
N/A
8
0x0
Melexis strongly recommends checking the User Identification data (Parameters USERID) during EOL programming.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
14. SENT output Protocol
14.1. Generality
The MLX90367 complies with the sub-set of the norm J2716 Revised JAN2010, “A.1 A.1 Throttle Position” or
“A.3 Single Secure Sensors”
14.2. Throttle position / Single Secure Fast Channel
The MLX90367 delivers SENT frames according the Throttle position or Single Secure format. This format is
explicitly described in this section.
14.2.1. Frame Content
The MLX90367 SENT frames have 6 data nibbles and are formatted according the below tables.
Single Secure
Nibble 0
SENT Frame : Status
Nibble 1
CH1-MSN
F
Nibble 2
CH1-MidN
F
Nibble 3
Nibble 4
RC-MSN
Nibble 5
RC-LSN
Nibble 6
CCH1-MSN
0
Nibble 7
CRC
CH1-LSN
Optional Pause
optional error code
8+EE_REPORT
Status[0]
Status[1]
Status[2]
Status[3]
CRC
Channel 1 indicator ( "1" = error, "0" otherwise )
0
Enhanced Serial Message ( dissable option)
Enhanced Serial Message ( dissable option)
Enhanced CRC (the legacy CRC is optional)
12 bit angle
Ch1
RC
8 bit rolling counter
CCH1
Inverted Copy Ch1
Throttle position
Nibble 0
Nibble 1
CH1-MSN
F
Nibble 2
CH1-MidN
F
Nibble 3
Nibble 4
CH2-LSN
F
Nibble 5
CH2-MidN
F
Nibble 6
Nibble 7
CRC
SENT Frame : Status
CH1-LSN
CH2-MSN
Optional Pause
optional error code
8+EE_REPORT
8+EE_REPORT
Status[0]
Status[1]
Status[2]
Status[3]
CRC
Channel 1 indicator ( "1" = error, "0" otherwise )
Channel 2 indicator ( "1" = error, "0" otherwise )
Enhanced Serial Message ( dissable option)
Enhanced Serial Message ( dissable option)
Enhanced CRC (the legacy CRC is optional)
12 bit angle
Ch1
Ch2
12 bit angle = Inverted CH1 ( optional : FFF-CH1 or FF9-CH1 )
14.2.2. Diagnostic Reporting through the fast channel
Diagnostic Reporting, bit Status[0]
The bit Status[0] is high whenever the three following conditions are met:
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MLX90367 Triaxis® Position Sensor IC
Datasheet
1. A diagnostic (analog/environmental) detects an error(15)
2. The reporting of the above error is enabled(16)
3. The debouncing time has elapsed.
Diagnostic Reporting, Channel 1
The diagnostic can be reported through the 12 bit payload of channel 1, and not only through the status bit
Status[0]. The EEPROM parameters SERIALERROR controls the diagnostic reporting through channel 1 as
follow:
If SERIALERROR =0, the channel 1 reports the angle, and not the diagnostic, as if no diagnostic.
The error is reported only thanks to the Status bits.
If SERIALERROR >0, the channel 1 payload contains the value Channel1 = (4088 + SERIALERROR])
Diagnostic Reporting Time
The Diagnostic Reporting Time is programmable (defined as multiple of a macro-cycle unit time).
A macro-cycle is a sequence of 20 angle acquisitions and has duration of approximately 6ms.
Diagnostic Debouncing
The Diagnostic Reporting is debounced. The debouncing parameters are user-programmable, by steps of
approximately 6 ms.
Pause pulse
A pause pulse, as defined by the standard, is present at the end of every frame. The pause pulse mode can
be disabled. Please contact our Direct Sales team to obtain the complete procedure for deactivating the
pause pulse mode. The pause pulse length is adjusted by the circuit so that the frame period is constant.
The field sensing and the frame synchronization pulse are in sync.
Fast Channel CRC
The MLX90367 features the new recommended implementation and optional the legacy implementation
15 A diagnostic of type digital cause the circuit to switch in fail-safe-mode
16 See EEPROM bits EE_DIAG_SETTINGS
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MLX90367 Triaxis® Position Sensor IC
Datasheet
14.3. Slow Channel
14.3.1. Enhanced Serial Message
The circuit encodes the slow messages according the Enhanced Serial Message Format as specified at
Chapter 5.2.4.3 of the SENT norm, except for the following restriction:
The configuration bit is always 0, meaning that the payload consists in 12-bit data and 8-bit message ID.
14.3.2. Serial Message sequence
The circuit complies with the following sub-set specifications of the norm for pressure sensors
(The norm for the angular sensor case does not specify the serial message format)
AxU
Optional
part
AxV & AxX
Optional
12 bit
data
ID
Item
Comment
cf section 14.3.4
EEPROM: SERIAL_SENTREV
EEPROM: SERIAL_MANCODE
EEPROM: SERIAL_SensorType
EEPROM: SERIAL_X1
#
#
part
1
Diagnostic error codes
SENT standard revision
Diagnostic error codes
Manufacturer code
RAM
Prog.
RAM
Prog.
RAM
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
6
1
5
1
3
1
7
1
8
1
9
1
A
1
Diagnostic error codes
Channel 1 / 2 sensor type Prog.
Diagnostic error codes
Fast channel 1 - X1
Diagnostic error codes
Fast channel 1 - X2
Diagnostic error codes
Fast channel 1 - Y1
Diagnostic error codes
Fast channel 1 - Y2
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
9
9
EEPROM: SERIAL_X2
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
EEPROM: SERIAL_Y1
EEPROM: SERIAL_Y2
Diagnostic error codes
23 Temperature sensor
Diagnostic error codes
29 Sensor ID #1
1
EEPROM: SERIAL_ID1
EEPROM: SERIAL_ID2
EEPROM: SERIAL_ID3
EEPROM: SERIAL_ID4
EEPROM: SERIAL_OEM1
EEPROM: SERIAL_OEM2
1
Diagnostic error codes
2A Sensor ID #2
1
2B Sensor ID #3
1
2C Sensor ID #4
1
90 OEM Code #1
1
Diagnostic error codes
Diagnostic error codes
Diagnostic error codes
X
X
X
X
X
X
X
X
X
X
Diagnostic error codes
91 OEM Code #2
1
Diagnostic error codes
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MLX90367 Triaxis® Position Sensor IC
Datasheet
AxU
Optional
AxV & AxX
Optional
12 bit
data
ID
Item
Comment
#
#
part
part
92 OEM Code #3
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
RAM
Prog.
EEPROM: SERIAL_OEM3
EEPROM: SERIAL_OEM4
EEPROM: SERIAL_OEM5
EEPROM: SERIAL_OEM6
EEPROM: SERIAL_OEM7
EEPROM: SERIAL_OEM8
30
31
32
33
34
35
36
37
38
39
40
X
X
X
X
X
X
X
X
30
31
32
X
X
X
1
Diagnostic error codes
93 OEM Code #4
1
Diagnostic error codes
NA
NA
NA
NA
NA
NA
NA
NA
94 OEM Code #5
1
Diagnostic error codes
95 OEM Code #6
1
Diagnostic error codes
96 OEM Code #7
X
X
X
1
Diagnostic error codes
97 OEM Code #8
Table 3 - Serial Message Sequence
The first part (positions 1 to 24) provides the Error Code and the Sensor ID alternatively.
The second part (positions 25 to 40) is optional and enabled with EEPROM bit( EE_ExtendedSequence=1)..
This second part consists of the error code (8 occurrences), and 8 OEM -defined Code
The temperature can be derived from SENT ID 23, TEMP sensor, with the following equation:
SENT@ ID 23 = 8 * (T[C] – 35[C]) + 865 LSB12
The accuracy of the actual Temperature is around ± 10 Deg.C.
14.3.3. Serial message sequence period
Sequence Length
(serial message count)
Sequence Length (frame
count)
Sequence Period
(ms, typical)
8
144
432
576
720
127
381
509
636
24
32
40
Error Code Rate
The Error Code are on purpose transmitted every second message, to maximize the rate, which equals then
36 SENT frames.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
14.3.4. Serial Message Error Code
The list of error and status messages transmitted in the 12-bit Enhanced Serial Message data field when
Enhance Serial Message ID is $01 is given in the following Table.
Diagnostic
No error
Comments
12 Bit Data
$000
$801
$808
$810
$820
GainOOS
Front-end Gain code Out-of-spec (too low, too high)
Diag
ADC monitor
Analog Internal Supply Too Low
External Supply Too Low
ADCSatura
ADCMonitor
VanaMoni
VddMoni
$840
$880
$900
Rough Offset
TempMonitor
Front-end Rough Offset too low, too high
Temperature Sensor monitor
In case multiple errors occur, then the resulting 12 bit enhanced serial message data will be the OR-
operation of the individual data values. Example $809 = GainOOS + ADCsatura
14.4. Start-up
During the chip initialization, the output remains high until the circuit emits four initialization frames (all 6
data nibbles are zero). The fifth frame is not an initialization frame but a valid frame containing a measured
angle. See also section 8 “Timing Specification”. The first four frames conform to the SENT specification and
include a valid CRC.
14.5. Field sensing (A2D conversions) and the frame Synchro pulse
By default setting of the Timer period and Filter =1, the digital angle (fast channel payload) results of the
average of two angles. These angles are themselves computed from 4 ADCs values.
The time between the ADCs and the frame synchronization pulse is constant.
As a result, the phase delay between the magnetic field angle and the SENT synchronization pulse is
constant, allowing filtering at the ECU side.
See also section 8 “Timing Specification”
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MLX90367 Triaxis® Position Sensor IC
Datasheet
15. Description of End-User Programmable Items
15.1. Output Transfer Characteristic
To define the transfer function (LNR):
Parameter
Comments
Value
Unit
0 : CounterClockWise
1 : ClockWise
CW
For all versions
LSB
DP
For all versions
For all versions
For all versions
3pts LNR only
3pts LNR only
3pts LNR only
17pts LNR only
Deg.
%
0359.9999
0 100
CLAMPLOW
CLAMPHIGH
%
0 100
LNRAX, LNRBX, LNRCX
LNRAY, LNRBY, LNRCY
LNRS0, LNRAS, LNRBS, LNRCS
LNRY0…LNRY16
0 … 359.9999
0 … 100
Deg.
%
-17… 0 … 17
-50 …+150
%/Deg.
%
Thermal Ouput Offset
correction only
ANGLEOFSSLOPECOLD
ANGLEOFSSLOPEHOT
0..255
0..255
LSB In %/ Deg.C
LSB In %/ Deg.C
Thermal Ouput Offset
correction only
15.1.1. CLOCKWISE Parameter
The CLOCKWISE parameter defines the magnet rotation direction.
CCW is the defined by the 1-4-5-8 pin order direction for the SOIC-8 package and 1-8-9-16 pin order
direction for the TSSOP-16 package.
CW is defined by the reverse direction: 8-5-4-1 pin order direction for the SOIC-8 and 16-9-8-1 pin
order direction for the TSSOP-16 package.
Refer to the drawing in the sensitive spot positioning sections (Section 20.3 and 20.6).
15.1.2. Discontinuity Point (DP or Zero Degree Point)
The Discontinuity Point defines the 0Deg. point on the circle. The discontinuity point places the origin at any
location of the trigonometric circle. The DP is used as reference for all the angular measurements.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
360°
0°
The placement of the discontinuity
point (0 point) is programmable.
Figure 7 - Discontinuity Point Positioning
15.1.3. 3-Pts LNR Parameters (AxU version only)
The LNR parameters, together with the clamping values, fully define the relation (the transfer function)
between the digital angle and the output signal.
The shape of the MLX90367 transfer function from the digital angle value to the output voltage is described
by the drawing below. Six segments can be programmed but the clamping levels are necessarily flat.
Two, three, or even five calibration points are then available, reducing the overall non-linearity of the IC by
almost an order of magnitude each time. Three or five point calibration will be preferred by customers
looking for excellent non-linearity figures. Two-point calibrations will be preferred by customers looking for
a cheaper calibration set-up and shorter calibration time.
100%
Clamping High
CLAMPHIGH
Slope
LNR_C_S
C
LNR_C_Y
Slope
LNR_B_S
B
LNR_B_Y
Slope
LNR_A_S
A
LNR_A_Y
Slope
LNR_S0
Clamping Low
CLAMPLOW
0%
LNR_A_X
LNR_B_X
LNR_C_X
0 (Deg.)
360 (Deg.)
Figure 8 - 3-Pts LNR Parameters
15.1.4. 17-Pts LNR Parameters (AxV and AxX versions only)
The LNR parameters, together with the clamping values, fully define the relation (the transfer function)
between the digital angle and the output signal.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
The shape of the MLX90367 transfer function from the digital angle value to the output voltage is described
by the drawing below. In the 17-Pts mode, the output transfer characteristic is Piece-Wise-Linear (PWL).
LNR_Y16
100%
CLAMPHIGH
Clamping High
LNR_Y15
LNR_Y14
LNR_Y2
LNR_Y1
Clamping Low
CLAMPLOW
0%
0 (Deg.)
LNR_Y0
360 (Deg.)
(360-W)/2
Δx
Δx
...
Δx
Δx
(360-W)/2
W = range from 65.5 Deg. up to 360 Deg.
360 - W
Figure 9 - Input range from 65.5Deg. up to 360Deg.
All the Y-coordinates can be programmed from -50% up to +150% to allow clamping in the middle of one
segment (like on the Figure 9), but the output value is limited to CLAMPLOW and CLAMPHIGH values.
Between two consecutive points, the output characteristic is interpolated.
The parameter W determines the input range on which the 17 points (16 segments) are uniformly spread:
W
Range
Δx
W
Range
Δx
0 (0000b)
360.0Deg.
320.0Deg.
288.0Deg.
261.8Deg.
240.0Deg.
221.5Deg.
205.7Deg.
192.0Deg.
22.5Deg.
20.0Deg.
18.0Deg.
16.4Deg.
15.0Deg.
13.8Deg.
12.9Deg.
12.0Deg.
8
180.0Deg.
144.0Deg.
120.0Deg.
102.9Deg.
90.0Deg.
80.0Deg.
72.0Deg.
65.5Deg.
11.3Deg.
9.0Deg.
7.5Deg.
6.4Deg.
5.6Deg.
5.0Deg.
4.5Deg.
4.1Deg.
1
2
3
4
5
6
7
9
10
11
12
13
14
15 (1111b)
Outside of the selected range, the output will remain in clamping levels.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
15.1.5. CLAMPING Parameters
The clamping levels are two independent values to limit the output voltage range. The CLAMPLOW
parameter adjusts the minimum output voltage level. The CLAMPHIGH parameter sets the maximum output
voltage level. Both parameters have 16 bits of adjustment and are available for both LNR modes.
15.1.6. Thermal Ouput Offset correction (AxX version only)
On the AxX version, the two parameters ANGLEOFSSLOPEHOT and ANGLEOFSSLOPECOLD, defined in the
section End-User Programmable Parameters, enable adding an offset to the output dependent on the
measured temperature (see the Figure 10).
Thermal
compensation
offset
+5.62%
full span
ANGLEOFSSLOPEHOT
0
Temperature
(degree)
ANGLEOFSSLOPECOLD
-3.37%
full span
-40
35
160
Figure 10 - Input range from -40Deg.C up to 160 Deg.C
The thermal offset is added before the clamping (see section 15.1.5). The span of this offset is +5.62/-3.37% of
the full output scale. The added thermal offset varies with temperature see the equation below and the
thermal coefficient is defined separately before (used coefficient ANGLEOFSSLOPECOLD) and after 35Deg.C
(used coefficient ANGLEOFSSLOPEHOT).
If the temperature is higher than 35 Deg.C then: output ≤ output – ΔT * ANGLEOFSSLOPEHOT
If the temperature is lower than 35 Deg.C then: output ≤ output – ΔT * ANGLEOFSSLOPECOLD
Where output is the calculated output adjusted by the thermal correction offset ΔT * ANGLEOFSSLOPECOLD.
Where ΔT is the difference between the current temperature and the reference temperature 35Deg.C. The
output correction capability at hot and room (extreme temperature and maximum value of
ANGLEOFSSLOPEHOT and ANGLEOFSSLOPECOLD) are given in the table below.
Parameter
Output correction capability at 160Deg.C
Output correction capability at -40Deg.C
Min
5%
-3.09%
Typ
5.62%
-3.37%
Max
Unit
of Full span
of Full span
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
15.2. Identification
Parameter
USERID1
USERID2
USERID3
Comments
Value
0…65535
0…65535
0…65535
For AxU-xxx version only
Identification number: 48 bits (3 words) freely useable by Customer for traceability purpose.
15.3. Lock
The MEMLOCK write protects all the EEPROM parameters set by the Melexis and user. Once the lock is
enabled, it is not possible to change the EEPROM values anymore.
Note that the Memlock bits should be set by the solver function “MemLock".
15.4. Sensor Front-End
Parameter
MAPXYZ
SMISM
k
Value
0 … 3
0 … 32768
0 … 32768
0 or 1
SEL_k
GAINMIN
GAINMAX
GAINSATURATION
0 … 41
0 ... 41
0 … 1
15.4.1. MAPXYZ
The MAPXYZ parameter defines which fields are used to calculate the angle. The different possibilities are
described in the tables below.
This 2 bit value selects the first (B1) and second (B2) field components according the table below.
MAPXYZ
0 – 00b
1 – 01b
2 – 10b
B1
X
Zx
Y
B2
Y
X
Angular
XY mode
XZx mode
YZx mode
Zx
Note: MAPXYZ = 3 is not recommended.
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
15.4.2. SMISM, k and SEL_k Parameters
(i) SMISM
When the mapping (B1=X, B2=Y) is selected, SMSIM defines the sensitivity mismatch factor that is applied on
B1 or B2; When another B1, B2 mapping is selected, this parameter is “don’t care”.
This parameter is trimmed at factory; Melexis strongly recommends TO NOT overwrite it for optimal
performances.
(ii) K
When the mapping (B1=X, B2=Y) is NOT selected, k defines the sensitivity mismatch factor that is applied on
B1 or B2 (according to parameter SELK – see below). When the mapping (B1=X, B2=Y) is selected, this
parameter is “don’t care”.
This parameter is trimmed at factory for mapping (B1=Z, B2=X). Melexis recommends to fine trim it when a
smaller linearity error (Le) is required and a different mapping than (B1=X, B2=Y) is selected.
(iii) SELK
When the mapping (B1=X, B2=Y) is NOT selected, SELK defines the component on which the sensitivity
mismatch factor k (see above): SELK = 0 means B1 k B1 and SELK = 1 means B2 k B2.
15.4.3. GAINMIN and GAINMAX Parameters
GAINMIN and GAINMAX define the thresholds on the gain code outside which the fault “GAIN out of Spec.”
is set.
If GAINSATURATION is set, then the virtual gain code is saturated at GAINMIN and GAINMAX, and no
Diagnostic fault is set since the saturations applies before the diagnostic check.
15.5. Filter
Parameter
Value
FILTER
0…2
The MLX90367 features a filter that is enabled when FILTER = 1 or 2. Filter = 0 corresponds to no filtering.
The transfer function is described below:
j
1
yn
a x
i ni
j
i0
a
i
i0
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
The filters characteristic is given in the following table:
Filter
0
1
2
J No
0
1
3
Type
Disable
Finite Impulse Response
Coefficients ai
Title
99% Response Time
Efficiency RMS (dB)
1
11
ExtraLight
2
1111
Light
4
No filter
1
0
3.0
6.0
15.6. Diagnostic Features
It is recommended to enable the diagnostic features for safety critical applications.
Refer to Application_note_Diagnostic_Behavior_90367 for EE_CRC_Enable function description and for
Diagnostic features which can be enabled by user.
15.7. EEPROM endurance
Although the EEPROM is used for Calibration Data Storage (similarly to an OTPROM), the MLX90367
embedded EEPROM is qualified to guarantee a minimum endurance of 1000 write cycles at 125˚C for
(engineering/calibration purpose).
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
16. Self Diagnostic
The MLX90367 provides numerous self-diagnostic features. Those features increase the robustness of the IC
functionality as it will prevent the IC to provide erroneous output signal in case of internal or external failure
modes (“fail-safe”).
Monitoring
Rate
Diagnostic Item
Action
Effect on Outputs
Type
Reporting Rate
Start-up phase Diagnostics
Fail-safe mode **
** CPU reset after
120ms
RAM March C-
10N Test
Diagnostic low/ high
Reporting (optional)
n/applicable
(start-up only)
n/applicable
(start-up only)
Digi HW
Fail-safe mode **
** CPU reset after
120ms
Diagnostic low/ high
Reporting (optional)
n/applicable
(start-up only)
n/applicable
(start-up only)
Watchdog BIST
Digi HW
Under Voltage
Monitoring
SUPPLYMONI =
(MT3VB) OR
(MT4VB)
Start-up on Hold **
** CPU reset after
120ms
Environ
&Analog
n/applicable
(start-up only)
n/applicable
(start-up only)
Diagnostic low/high
Over Voltage
Monitoring
MT7V
Output in High-
Impedance
n/applicable
(start-up only)
n/applicable
(start-up only)
PTC entry
Environ
Back-Ground Loop Diagnostics
Diagnostic low//high
Reporting (optional) Digi HW
ROM 16bit
checksum
( continuous )
EEPROM 8 bit
CRC Check
(continuous)
Watchdog
( continuous )
Fail-safe mode **
** CPU reset after
120ms
Fail-safe mode **
** CPU reset after
120ms
800ms
800ms
Diagnostic low/high
Digi HW
10ms
10ms
n/a
Reporting (optional)
CPU reset
--
Digi HW
120ms
DSP Loop Diagnostics
ꢀꢁ
ADC Clipping
ADCCLIP
Debouncing
(programmable)
SENT Status bit0 = 1
(optional)
Environ
&Analog
ꢂ
5/DSP
ꢃꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢏꢐꢑꢉꢁꢐ
ꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢒꢓꢉꢔꢌꢔ
Virtual Gain
Code Out-of-
spec
ꢀꢁ
ꢂ
Debouncing
(programmable)
SENT Status bit0 = 1
(optional)
Environ
&Analog
1/DSP
ꢃꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢏꢐꢑꢉꢁꢐ
ꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢒꢓꢉꢔꢌꢔ
GAINOOS
Virtual Gain
Code Saturation Saturation
Gain Saturated @
Environ
n/applicable
N/A
[GAINMIN..
GAINMAX]
(optional)
GAINMIN-GAINMAX &Analog
Not a diagnostic Not a diagnostic
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
Monitoring
Rate
Diagnostic Item
Action
Effect on Outputs
Type
Reporting Rate
ADC Monitor
(Analog to
Digital
Converter)
ADCMONI
Under Voltage
Monitoring
SUPPLYMONI =
(MT3VB) OR
(MT4VB)
ꢀꢁꢃ
Debouncing
(programmable)
SENT Status bit0 = 1
(optional)
Analog
HW
ꢂ
1/DSP
1/DSP
ꢃꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢏꢐꢑꢉꢁꢐ
ꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢒꢓꢉꢔꢌꢔ
ꢀꢁꢃ
ꢂ
Supply Debouncing SENT Status bit0 = 1
(programmable) (optional)
Environ
&Analog
ꢃꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢏꢐꢑꢉꢁꢐ
ꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢒꢓꢉꢔꢌꢔ
Over Voltage
Monitoring
MT7V
Temperature
Sensor Monitor
TEMPMONI
PTC entry after PTC Output in High-
Environ
Analog
2ms
2ms
Debouncing
Impedance
ꢀꢁ
Debouncing
(programmable)
SENT Status bit0 = 1
(optional)
ꢂ
1/DSP
ꢃꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢏꢐꢑꢉꢁꢐ
ꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢍꢎꢉꢈꢒꢓꢉꢔꢌꢔ
Saturate value used
for the
compensations to - No effect
40Deg.C and +150
Temperature >
170 Deg.C ( 20)
Temperature < -
60 Deg.C ( 20)
Environ
&Analog
N/A
N/A
Not a diagnostic Not a diagnostic
Deg.C resp.
Hardware Diagnostics ( continuously checked by dedicated Logic )
Read/Write
Access out of
physical memory 120ms
Fail-safe mode **
** CPU reset after
N/A
Immediate
diagnostic
N/A
Immediate Diag
Diagnostic Low/High Digi HW
Write Access to
Fail-safe mode **
** CPU reset after
120ms
N/A
immediate
Diagnostic
protected area
(IO and RAM
Words)
N/A
Diagnostic low/high
Diagnostic low/high
No effect
Digi HW
Digi HW
Digi HW
Immediate Diag.
Fail-safe mode **
** CPU reset after
120ms
N/A
Immediate
diagnostic
N/A
Immediate
diagnostic
Unauthorized
Mode Entry
EEPROM Error
Correcting Code (Transparent) Error
( Hamming
N/A
N/A
Correction
correction )
Hardware Diagnostics ( continuously checked by dedicated Analog circuits )
Pull down load =>
N/A
Immediate
diagnostic
N/A
Immediate
diagnostic
CPU Reset
on recovery
Diagnostic High
Pull up load =>
Diagnostic High
Pull down load =>
Diagnostic Low
Pull up load =>
Diagnostic Low
Broken VSS
Broken VDD
Environ
N/A
Immediate
diagnostic
N/A
Immediate
diagnostic
CPU Reset
on recovery
Environ
Environ
N/A
Immediate
N/A
Immediate
Resistive Cable
Test
Start-up on Hold
Diagnostic low/high
diagnostic
diagnostic
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
17. Recommended Application Diagrams
17.1. MLX90367 in SOIC-8 Package
R1
1
8
VDD
GND
VDD
VSS
C4
C5
C1
C2
MLX90367
Test x
2, 3, 4, 6
5
7
Output
VDIG
Out
R2
C3
Figure 11 - Recommended wiring for the MLX90367 in SOIC-8 package
Compact PCB routing EMC robust PCB routing
Output
SENT
C1
Min
Typ.
Max
Min
Typ.
Max
Remarks
100 nF 100 nF
1 uF
47 nF 100 nF
1 uF
Close to the pin
C2
C3
2.2 nF 4.7 nF 22 nF 2.2 nF 4.7 nF 22 nF Close to the pin
47 nF 100 nF 220 nF 47 nF 100 nF 220 nF Close to the pin
C4
C5
R1
R2
-
-
-
-
-
-
-
-
-
-
-
-
500 pF
500 pF
0 Ω
1 nF
1 nF
10 Ω
50 Ω
10 nF Connector Side
2.2 nF Connector Side
33 Ω Impacts the Voltage on VDD pin
100 Ω
10 Ω
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MLX90367 Triaxis® Position Sensor IC
Datasheet
17.2. MLX90367 in TSSOP-16 Package
R11
3
VDD1
VDD
1
C14
C11
MLX90367
4,13,16,14
2
GND1
VSS
Test x
1
1
C15
C12
1
15
Output1
VDD2
VDIG
Out1
1
R12
R21
C13
11
C24
C25
C21
10
5,7,8,12
GND2
C22
6
9
Output2
R22
C23
Figure 12 – Recommended wiring for the MLX90367 in TSSOP-16 package
Compact PCB routing EMC robust PCB routing
Output
SENT
Output
Min
Typ.
Max
Min
Typ.
Max
Remarks
C11, C21
C12, C22
C13, C23
C14, C24
C15, C25
R11, R21
R12, R22
100 nF 100 nF
2.2 nF 4.7 nF
1 uF
47 nF 100 nF
1 uF
Close to the pin
22 nF 2.2 nF 4.7 nF 22 nF Close to the pin
47 nF 100 nF 220 nF 47 nF 100 nF 220 nF Close to the pin
-
-
-
-
-
-
-
-
-
-
-
-
500 pF
500 pF
0 Ω
1 nF
1 nF
10 Ω
50 Ω
10 nF Connector Side
2.2 nF Connector Side
33 Ω Impacts the Voltage on VDD pin
100 Ω
10 Ω
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
18. Standard information regarding manufacturability
of Melexis products with different soldering processes
Our products are classified and qualified regarding soldering technology, solderability and moisture
sensitivity level according to standards in place in Semiconductor industry.
For further details about test method references and for compliance verification of selected soldering
method for product integration, Melexis recommends reviewing on our web site the General Guidelines
soldering recommendation (http://www.melexis.com/en/quality-environment/soldering).
For all soldering technologies deviating from the one mentioned in above document (regarding peak
temperature, temperature gradient, temperature profile etc), additional classification and qualification tests
have to be agreed upon with Melexis.
For package technology embedding trim and form post-delivery capability, Melexis recommends consulting
the dedicated trim&forming recommendation application note: lead trimming and forming
recommendations
(http://www.melexis.com/en/documents/documentation/application-notes/lead-
trimming-and-forming-recommendations).
Melexis is contributing to global environmental conservation by promoting lead free solutions. For more
information on qualifications of RoHS compliant products (RoHS = European directive on the Restriction Of
the use of certain Hazardous Substances) please visit the quality page on our website:
http://www.melexis.com/en/quality-environment.
19. ESD Precautions
Electronic semiconductor products are sensitive to Electro Static Discharge (ESD).
Always observe Electro Static Discharge control procedures whenever handling semiconductor products.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
20. Package Information
20.1. SOIC-8 - Package Dimensions
1.27 TYP
NOTES:
All dimensions are in millimeters (angles in degrees).
* Dimension does not include mold flash, protrusions or
gate burrs (shall not exceed 0.15 per side).
** Dimension does not include interleads flash or
protrusion (shall not exceed 0.25 per side).
*** Dimension does not include dambar protrusion.
Allowable dambar protrusion shall be 0.08 mm total in
excess of the dimension at maximum material condition.
Dambar cannot be located on the lower radius of the foot.
3.81
3.99** 6.20
5.80
4.80
4.98*
1.37
1.57
0.19
0.25
1.52
1.72
0°
8°
0.100
0.250
0.41
1.27
0.36
0.46***
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
20.2. SOIC-8 - Pinout and Marking
Marking :
Part Number MLX90367 (3 digits)
Die Version (3 digits)
8
5
Top
367
Axx
367Axx
F12345
Xy-E
F
12345
Xy-E
Lot number (5 digits)
Fab Identifier (1 letter)
Split lot number + “-E” (Optional )
YY
WW
Bottom
1
4
Week Date code (2 digits)
Year Date code (2 digits)
20.3. SOIC-8 - Sensitive spot positioning
CW
8
7
6
5
CCW
0.46 +/- 0.06
X
1.16 +/- 0.155
1.25
1.65
1
2
3
4
1.96
2.26
Y
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MLX90367 Triaxis® Position Sensor IC
Datasheet
Angle detection SOIC-8
~ 0 Deg.*
~ 90 Deg.*
8
7
6
5
8
7
6
5
N
S
1
2
3
4
1
2
3
4
~ 180 Deg.*
~ 270 Deg.*
8
7
6
5
8
7
6
5
S
N
1
2
3
4
1
2
3
4
* No absolute reference for the angular information.
The MLX90367 is an absolute angular position sensor but the linearity error (Le – See section 9) does not
include the error linked to the absolute reference 0 Deg.
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MLX90367 Triaxis® Position Sensor IC
Datasheet
20.4. TSSOP-16 - Package Dimensions
0.65 ± 0.04
12O REF
0.20 ± 0.04
1.0 DIA
0.09 MIN
0.09 MIN
REF
4.30
4.50**
6.4 ± 0.2
1.0 REF
0O
8O
0.50
0.75
12O REF
1.0
REF
1.0 ± 0.2
0.85
0.95
4.90
5.10*
0.09
0.20
1.1 MAX
0.05
0.15
0.19
0.30***
NOTES:
All dimensions are in millimeters (angles in degrees).
* Dimension does not include mold flash, protrusions or gate burrs (shall not exceed 0.15 per side).
** Dimension does not include interleads flash or protrusion (shall not exceed 0.25 per side).
*** Dimension does not include dambar protrusion. Allowable dambar protrusion shall be 0.08 mm total in excess of the
dimension at maximum material condition. Dambar cannot be located on the lower radius of the foot.
REF: Reference dimensions as stated in packaging supplier POD, based on JEDEC.
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
20.5. TSSOP-16 - Pinout and Marking
VDIG
Test11
Out1
1
VSS
1
1
VDD
Not Used1
Test21
Test02
Marking :
Test01
Test22
OUT2
Part Number MLX90367 (3 digits)
Die Version (3 digits)
VDD
2
2
VSS
367
Axx
Not Used
2
Test12
VDIG
2
F
12345
Lot number ( 5 digits)
Fab identifier (1 letter)
Top
Split Lot number + “-E” (Optional)
Xy-E
WW
Bottom
YY
Week Date code (2 digits)
Year Date code (2 digits)
20.6. TSSOP-16 - Sensitive spot positioning
CW
X 2
16
9
Die 1
Die 2
Y 2
Y 1
0.30 +/- 0.06
0.70 +/- 0.13
CCW
1.95
2.45
1
8
1.84
2.04
X 1
2.76
2.96
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
Angle detection TSSOP-16
~ 0 Deg.*
~ 180 Deg.*
~ 90 Deg.*
~ 270 Deg.*
16
9
16
9
Die 1
Die 2
Die 1
Die 2
N
S
1
8
9
1
8
9
~ 0 Deg.*
~ 270 Deg.*
~ 90 Deg.*
~ 180 Deg.*
16
16
Die 1
Die 2
Die 1
Die 2
S
N
1
8
1
8
* No absolute reference for the angular information.
The MLX90367 is an absolute angular position sensor but the linearity error (Le – See section 9) does not
include the error linked to the absolute reference 0 Deg.
REVISION 7.0 – FEB, 8TH 2019
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MLX90367 Triaxis® Position Sensor IC
Datasheet
21. Disclaimer
The information furnished by Melexis herein (“Information”) is believed to be correct and accurate. Melexis disclaims (i) any and all
liability in connection with or arising out of the furnishing, performance or use of the technical data or use of the product(s) as
described herein (“Product”) (ii) any and all liability, including without limitation, special, consequential or incidental damages, and
(iii) any and all warranties, express, statutory, implied, or by description, including warranties of fitness for particular purpose, non-
infringement and merchantability. No obligation or liability shall arise or flow out of Melexis’ rendering of technical or other
services.
The Information is provided "as is” and Melexis reserves the right to change the Information at any time and without notice.
Therefore, before placing orders and/or prior to designing the Product into a system, users or any third party should obtain the
latest version of the relevant information to verify that the information being relied upon is current.
Users or any third party must further determine the suitability of the Product for its application, including the level of reliability
required and determine whether it is fit for a particular purpose.
The Information is proprietary and/or confidential information of Melexis and the use thereof or anything described by the
Information does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other intellectual property rights.
This document as well as the Product(s) may be subject to export control regulations. Please be aware that export might require a
prior authorization from competent authorities.
The Product(s) are intended for use in normal commercial applications. Unless otherwise agreed upon in writing, the Product(s) are
not designed, authorized or warranted to be suitable in applications requiring extended temperature range and/or unusual
environmental requirements. High reliability applications, such as medical life-support or life-sustaining equipment are specifically
not recommended by Melexis.
The Product(s) may not be used for the following applications subject to export control regulations: the development, production,
processing, operation, maintenance, storage, recognition or proliferation of 1) chemical, biological or nuclear weapons, or for the
development, production, maintenance or storage of missiles for such weapons: 2) civil firearms, including spare parts or
ammunition for such arms; 3) defense related products, or other material for military use or for law enforcement; 4) any
applications that, alone or in combination with other goods, substances or organisms could cause serious harm to persons or goods
and that can be used as a means of violence in an armed conflict or any similar violent situation.
The Products sold by Melexis are subject to the terms and conditions as specified in the Terms of Sale, which can be found at
https://www.melexis.com/en/legal/terms-and-conditions.
This document supersedes and replaces all prior information regarding the Product(s) and/or previous versions of this document.
Melexis NV © - No part of this document may be reproduced without the prior written consent of Melexis. (2019)
ISO/TS 16949 and ISO14001 Certified
22. Contact
For the latest version of this document, go to our website at www.melexis.com. For additional information,
please contact our Direct Sales team and get help for your specific needs:
Europe, Africa
Americas
Asia
Telephone: +32 13 67 04 95
Email : sales_europe@melexis.com
Telephone: +1 603 223 2362
Email : sales_usa@melexis.com
Email : sales_asia@melexis.com
REVISION 7.0 – FEB, 8TH 2019
Page 39 of 39
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