MLX90360EGO-ACD-000-RE 数据手册
MLX90360
Triaxis Position Sensor IC
Features and Benefits
Triaxis Hall Technology
On Chip Signal Processing for Robust Absolute Position Sensing
Simple Magnetic Design
Programmable Measurement Range
Programmable Linear Transfer Characteristic (Multi-points or Piece-Wise-Linear)
Selectable Analog (Ratiometric) or PWM Output
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
Applications
Absolute Rotary Position Sensor
Pedal Position Sensor
Throttle Position Sensor
Ride Height Position Sensor
Absolute Linear Position Sensor
Steering Wheel Position Sensor
Float-Level Sensor
Non-Contacting Potentiometer
Ordering Code
Product Code
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
MLX90360
Temperature Code
L
L
L
L
K
K
E
E
K
K
E
E
L
L
Legend:
Temperature Code:
Package Code
GO
GO
DC
DC
GO
GO
GO
GO
DC
DC
DC
DC
DC
DC
Option Code
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-000
ACD-200
ACD-200
Packing Form:
L for Temperature Range -40°C to 150°C,
K for Temperature Range -40°C to 125°C,
E for Temperature Range -40°C to 85°C.
DC for SOIC-8, GO for TSSOP-16
AAA-xxx: Die version
xxx-000: Standard version
xxx-200: (pre-programmed analog)
RE for Reel, TU for Tube
Ordering example:
MLX90360LGO-ACD-000-TU
Package Code:
Option Code:
MLX90360
Rev. 009
Page 1 of 35
Packing Form Code
RE
TU
RE
TU
RE
TU
RE
TU
RE
TU
RE
TU
RE
TU
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
1. Functional Diagram
Figure 1 - MLX 90360 Block Diagram
MLX90360
Rev. 009
Page 2 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
2. Description
The MLX90360 is a monolithic sensor IC sensitive to the flux density applied orthogonally and parallel to
the IC surface.
The MLX90360 is sensitive to the three components of the flux density applied to the IC (i.e. BX, BY and
BZ). This allows the MLX90360 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 - Figure 2). It
enables the design of novel generation of non-contacting position sensors that are frequently required for
both automotive and industrial applications.
MLX90360 reports a programmable ratiometric analog output signal compatible with any resistive
potentiometer or programmable linear Hall sensor. Through programming, the MLX90360 provides also a
digital PWM (Pulse Width Modulation) output characteristic.
Figure 2 - Typical application of MLX90360 – Linear
MLX90360
Rev. 009
Page 3 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
TABLE of CONTENTS
FEATURES AND BENEFITS ....................................................................................................................... 1
APPLICATIONS ............................................................................................................................................ 1
1.
FUNCTIONAL DIAGRAM ...................................................................................................................... 2
2.
DESCRIPTION ....................................................................................................................................... 3
3.
GLOSSARY OF TERMS − ABBREVIATIONS − ACRONYMS ............................................................ 6
4.
PINOUT .................................................................................................................................................. 6
5.
ABSOLUTE MAXIMUM RATINGS ....................................................................................................... 7
6.
DESCRIPTION ....................................................................................................................................... 7
7.
MLX90360 ELECTRICAL SPECIFICATION ......................................................................................... 9
8.
MLX90360 ISOLATION SPECIFICATION .......................................................................................... 11
9.
MLX90360 TIMING SPECIFICATION ................................................................................................. 11
10. MLX90360 ACCURACY SPECIFICATION ......................................................................................... 12
11. MLX90360 MAGNETIC SPECIFICATION .......................................................................................... 13
12. MLX90360 CPU & MEMORY SPECIFICATION ................................................................................. 13
13. MLX90360 END-USER PROGRAMMABLE ITEMS ........................................................................... 14
14. DESCRIPTION OF END-USER PROGRAMMABLE ITEMS .............................................................. 15
14.1.
OUTPUT MODE .......................................................................................................................................... 15
14.1.1. Analog Output Mode ............................................................................................................................ 15
14.1.2. PWM Output Mode............................................................................................................................... 15
14.2.
OUTPUT TRANSFER CHARACTERISTIC....................................................................................................... 16
14.2.1. Enable scaling Parameter (only for LNR type 4 pts) ........................................................................... 16
14.2.2. CLOCKWISE Parameter ...................................................................................................................... 16
14.2.3. Discontinuity Point (or Zero Degree Point) ......................................................................................... 17
14.2.4. 4-Pts LNR Parameters.......................................................................................................................... 17
14.2.5. 17-Pts LNR Parameters........................................................................................................................ 18
14.2.6. CLAMPING Parameters ...................................................................................................................... 19
14.3.
IDENTIFICATION ........................................................................................................................................ 19
14.4.
SENSOR FRONT-END ................................................................................................................................. 19
14.4.1. HIGHSPEED Parameter ...................................................................................................................... 19
14.4.2. MAPXYZ ............................................................................................................................................... 20
14.4.3. k parameter .......................................................................................................................................... 20
14.4.4. GAINMIN and GAINMAX Parameters ................................................................................................ 20
14.5.
FILTER ...................................................................................................................................................... 20
14.5.1. Hysteresis Filter ................................................................................................................................... 21
14.5.2. FIR Filters ............................................................................................................................................ 21
14.6.
PROGRAMMABLE DIAGNOSTIC SETTINGS ................................................................................................. 22
14.6.1. Fixed-level diagnostic reporting .......................................................................................................... 22
14.6.2. PWM Diagnostic reporting .................................................................................................................. 23
14.6.3. HAMHOLE Parameter ......................................................................................................................... 24
14.7.
LOCK......................................................................................................................................................... 24
14.8.
EEPROM ENDURANCE ............................................................................................................................. 25
15. MLX90360 SELF DIAGNOSTIC .......................................................................................................... 26
16. RECOMMENDED APPLICATION DIAGRAMS .................................................................................. 28
16.1.
MLX90360
Rev. 009
WIRING WITH THE MLX90360 IN SOIC-8 PACKAGE ................................................................................ 28
Page 4 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
16.2.
WIRING WITH THE MLX90360 IN TSSOP-16 PACKAGE ........................................................................... 28
17. STANDARD INFORMATION REGARDING MANUFACTURABILITY OF MELEXIS PRODUCTS
WITH DIFFERENT SOLDERING PROCESSES ........................................................................................ 29
18. ESD PRECAUTIONS ........................................................................................................................... 29
19. PACKAGE INFORMATION ................................................................................................................. 30
19.1.
19.2.
19.3.
19.4.
19.5.
19.6.
SOIC8 - PACKAGE DIMENSIONS ............................................................................................................... 30
SOIC8 - PINOUT AND MARKING ............................................................................................................... 30
SOIC8 - SENSITIVE SPOT POSITIONING ..................................................................................................... 31
TSSOP16 - PACKAGE DIMENSIONS .......................................................................................................... 32
TSSOP16 - PINOUT AND MARKING .......................................................................................................... 33
TSSOP16 - SENSITIVE SPOT POSITIONING ................................................................................................ 33
20. DISCLAIMER ....................................................................................................................................... 35
MLX90360
Rev. 009
Page 5 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
3. Glossary of Terms − Abbreviations − Acronyms
Gauss (G), Tesla (T): Units for the magnetic flux density − 1 mT = 10 G
TC: Temperature Coefficient (in ppm/Deg.C.)
NC: Not Connected
PWM: Pulse Width Modulation
%DC: Duty Cycle of the output signal i.e. TON /(TON + TOFF)
ADC: Analog-to-Digital Converter
DAC: Digital-to-Analog Converter
LSB: Least Significant Bit
MSB: Most Significant Bit
DNL: Differential Non-Linearity
INL: Integral Non-Linearity
RISC: Reduced Instruction Set Computer
ASP: Analog Signal Processing
DSP: Digital Signal Processing
CoRDiC: Coordinate Rotation Digital Computer (i.e. iterative rectangular-to-polar transform)
EMC: Electro-Magnetic Compatibility
ALS: Analog Low Speed
AHS: Analog High Speed
DLS: Digital Low Speed
DHS: Digital High Speed
4. Pinout
For optimal EMC behavior, it is recommended to connect the unused pins (
Ground (see section 16).
MLX90360
Rev. 009
Page 6 of 35
and
) to the
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
5. Absolute Maximum Ratings
Parameter
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Exceeding the absolute maximum ratings may cause permanent damage.
maximum rated conditions for extended periods may affect device reliability.
Exposure to absolute
6. Description
As described on the block diagram the three vector components of the magnetic flux density (BX, BY and
BZ) applied to the IC are sensed through the sensor front-end. The respective Hall signals (VX, VY and VZ)
are generated at the Hall plates and amplified.
The analog signal processing is based on a fully differential analog chain featuring the classic offset
cancellation technique (Hall plate 2-Phases spinning and chopper-stabilized amplifier).
The conditioned analog signals are converted through an ADC (15 bits) and provided to a DSP block for
further processing. The DSP stage is based on a 16 bit RISC micro-controller whose primary function is
the extraction of the position from two (out of three) raw signals (after so-called front-end compensation
steps) through the following function:
α = ∠(V1 , k ⋅ V2 )
where alfa is the magnetic angle
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Page 9 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
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MLX90360
Rev. 009
Page 12 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
11.
MLX90360 Magnetic Specification
DC Operating Parameters at VDD = 5V (unless otherwise specified) and for TA as specified by the
Temperature suffix (E or K or L).
Parameter
Symbol
3"#
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?L$ ?M
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Units
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3"#
12.
Min
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Test Conditions
1
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MLX90360 CPU & Memory Specification
The DSP is based on a 16 bit RISC Parameter
Symbol
./
CPU provides 2.5 Mips while running at 10 MHz.
Test Conditions
Min
Typ
Max
Units
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12
13
MLX90360
Rev. 009
Page 13 of 35
Datasheet
Dec/13
MLX90360
Triaxis Position Sensor IC
13.
MLX90360 End-User Programmable Items
Parameter
/
0
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30'LMB
.603'
MLX90360EGO-ACD-000-RE 价格&库存
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