Melexis MLX92221LSE-AAA-xxx-RE 2-wire hall effect latch Datasheet

MLX92221-AAA
2-Wire Hall Effect Latch
Features and Benefits
Application Examples
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Wide operating voltage range: from 2.7V to 24V
Integrated self-diagnostics
Chopper-stabilized amplifier stage
Programmable Built-in negative temperature coefficient
Reverse Supply Voltage Protection
Under-Voltage Lockout Protection
Thermal Protection
High ESD rating / Excellent EMC performance
Automotive, Consumer and Industrial
Wiper motor
Window lifter
Seatbelt buckle
Seat positioning
Sunroof/Tailgate opener
Electrical power steering
Ordering Information
Part No.
MLX92221LUA-AAA-xxx-BU
MLX92221LSE-AAA-xxx-RE
Temperature Code
L (-40°C to 150°C)
L (-40°C to 150°C)
Package Code
UA (TO92-3L)
SE (TSOT-23)
The included voltage regulator operates from 2.7 to
24V, hence covering a wide range of applications. With
the built-in reverse voltage protection, a serial resistor
or diode on the supply line is not required so that even
remote sensors can be specified for low voltage
operation down to 2.7V while being reverse voltage
tolerant.
1 Functional Diagram
VDD
Voltage Regulator
with Reverse Polarity
Protection
UnderVoltage
Lockout
TEST
Temperature
Compensation
Switched
Hall
Plate
Bop/Brp
reference
Thermal
Protection
In an event of a drop below the minimum supply
voltage during operation, the under-voltage lock-out
protection will automatically freeze the device,
preventing the electrical perturbation to affect the
magnetic measurement circuitry. The output current
state is therefore only updated based on a proper and
accurate magnetic measurement result.
Output
Current Sink
CDS
Amplifier
Control
Trimming
Register
GND
2 General Description
The Melexis MLX92241 is a new generation of Halleffect switches designed in mixed signal submicron
CMOS technology.
The device integrates a voltage regulator, Hall sensor
with advanced offset cancellation system and a current
sink-configured output driver, all in a single package.
Based on a brand new platform, the magnetic core is
using an improved offset cancellation system allowing
faster and more accurate processing while being
temperature insensitive and stress independent. In
addition a temperature coefficient is implemented to
compensate the natural behaviour of certain types of
magnets becoming weaker with rise in temperature.
390109224100 Rev. 1
Comment
BU (Bulk)
RE (Reel)
The two-wire interface not only saves one wire, but also
allows implementation of diagnostic functions as
reverse polarity connection and malfunction detection.
The on-chip thermal protection also switches off the
output if the junction temperature increases above an
abnormally high threshold. It will automatically recover
once the temperature decreases below a safe value.
With latching magnetic characteristics the supply
current state is turned high by a sufficiently strong
South Pole facing the package branded side. Toggling
the state of the supply current from high to low is
possible by applying low or no magnetic field.
The MLX92221 is delivered in a Green and RoHS
compliant Plastic Single-in-Line (TO-92 flat) for
through-hole mount or PCB-less design or in 3-pin Thin
Small Outline Transistor (TSOT) for surface mount
process
Page 1 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
Table of Contents
1 Functional Diagram .................................................................................................................... 1
2 General Description.................................................................................................................... 1
3 Absolute Maximum Ratings ....................................................................................................... 3
4 General Electrical Specifications .............................................................................................. 4
5 Specifications ............................................................................................................................. 5
5.1 MLX92221LSE-AAA-001 ........................................................................................................................................... 5
5.2 MLX92221LSE-AAA-002 ........................................................................................................................................... 5
5.3 MLX92221LSE-AAA-003 ........................................................................................................................................... 5
5.4 MLX92221LUA-AAA-004 ........................................................................................................................................... 5
5.5 MLX92221LUA-AAA-005 ........................................................................................................................................... 6
5.6 MLX92221LUA-AAA-006 ........................................................................................................................................... 6
6 Magnetic Behaviour .................................................................................................................... 7
6.1 Latch sensor .............................................................................................................................................................. 7
7 Performance Graphs .................................................................................................................. 8
7.1 IOFFLow vs. TJ ............................................................................................................................................................... 8
7.2 IOFFHigh vs. TJ.............................................................................................................................................................. 8
7.5 ION vs. TJ .................................................................................................................................................................... 8
7.4 IOFFLow vs. VDD ............................................................................................................................................................ 8
7.5 IOFFHigh vs. VDD ............................................................................................................................................................ 8
7.6 ION vs. VDD .................................................................................................................................................................. 8
7.7 VDD de-rating UA package ......................................................................................................................................... 9
7.8 VDD de-rating TSOT package ..................................................................................................................................... 9
8 Application Information............................................................................................................ 10
8.1 Typical Automotive Application Circuit ..................................................................................................................... 10
8.2 Automotive and Harsh, Noisy Environments Application Circuit .............................................................................. 10
8.3 Strobing VDD application (used for reduced self-heating) ......................................................................................... 10
9 Standard information regarding manufacturability of Melexis products with different soldering
processes ..................................................................................................................................... 11
10 ESD Precautions ..................................................................................................................... 11
11 Package Information............................................................................................................... 12
11.1 UA (TO92 - 3L) ..................................................................................................................................................... 12
11.2 SE (TSOT-3L) Package Information ...................................................................................................................... 13
12 Disclaimer ............................................................................................................................... 14
390109224100 Rev. 1
Page 2 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
3 Absolute Maximum Ratings
Parameter
Symbol
Value
Units
VDD
+27V
V
IDD
+20
mA
IDD
+50
mA
VDDREV
-24
V
IDDREV
-20
mA
IDDREV
-50
mA
TJ
+165
C
Operating Temperature Range
TA
-40 to 150
C
Storage Temperature Range
TS
-55 +165
C
-
3000
V
-
400
V
-
1000
V
B
Unlimited
mT
Supply Voltage
(1, 2)
( ,
, 3)
Supply Current 1 2
( , 3, 4)
Supply Current 1
( ,
)
( ,
, 5)
( ,
,
Reverse Supply Voltage 1 2
Reverse Supply Current 1 2
)
Reverse Supply Current 1 4 5
Maximum Junction Temperature
ESD Sensitivity – HBM
ESD Sensitivity – MM
(6)
(7)
(8)
ESD Sensitivity – CDM
(9)
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.
1
The maximum junction temperature should not be exceeded
For maximum 1 hour
Including current through protection device
4
For maximum 1000 ms
5
Through protection device
6
For 1000 hours.
7
Human Model according AEC-Q100-002 standard
8
Machine Model according AEC-Q100-003 standard
9
Charged Device Model according AEC-Q100-011 standard
2
3
390109224100 Rev. 1
Page 3 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
4 General Electrical Specifications
DC Operating Parameters VDD = 2.7 to 24V, TJ = -40°C to 165°C (unless otherwise specified)
Parameter
Supply Voltage
Reverse Supply Current
Symbol Test Conditions
VDD
Operating
IDDREV
VDD = -16V
OFF Supply Current
IOFFLow
VDD = 3.5 to 24V
OFF Supply Current
ON Supply Current
Safe Mode Supply Current
Supply Current Rise/Fall Time (2)
Power-On Time (3,4,5)
Chopping Frequency
IOFFHigh
ION
ITP
tRISE/FALL
tON
fCHOP
VDD = 3.5 to 24V
VDD = 3.5 to 24V
Thermal Protection activated
VDD = 12V, CLOAD = 50pF to GND
VDD = 5V, dVDD/dt > 2V/us
Delay time (2,6)
tD
Output Jitter (p-p) (2,7)
tJITTER
Maximum Switching Frequency (2,8)
fSW
Under-voltage Lockout Threshold
Under-voltage Lockout Reaction
time (2)
Thermal Protection Threshold
Thermal Protection Release
Safe Mode Supply Current
UA Package Thermal Resistance
RTH
Min
2.7
(1)
Typ
-
Max
24
1
Units
V
mA
2
3.3
5
mA
5
12
0.1
260
6
14.5
0.3
40
340
6.9
17
0.8
1
70
-
mA
mA
mA
μs
μs
kHz
-
7.5
-
µs
-
±3.3
-
µs
30
50
-
kHz
VUVL
-
2
2.7
V
tUVL
-
1
-
µs
-
190 (9)
180 (9)
-
0.8
°C
°C
mA
TPROT
TREL
ITP
TSOT Package Thermal Resistance RTH
Average value for 1000 successive
switching events @10kHz, Square wave
with B ≥ 3*BOPMAX, tRISE = tFALL ≤20us
Square wave with B ≥ 3*BOPMAX over
1000 successive switching events
@1kHz
B ≥ 3*BOPMAX and square wave
magnetic field
Junction temperature
Junction temperature
Thermal Protection activated
Single layer (1S) Jedec board, zero
LFPM
Single layer (1S) Jedec board, zero
LFPM
200
°C/W
300
°C/W
1
Typical values are defined at TA = +25°C and VDD = 12V
Guaranteed by design and verified by characterization, not production tested
3
The Power-On Time represents the time from reaching VDD = VPOR to the first refresh of the supply current state.
4
Power-On Slew Rate is not critical for the proper device start-up.
5
B>BOPmax + 1 mT for direct output sensors, or B<BRPmin - 1 mT.
6
Delay Time is the time from magnetic threshold reached to the start of the supply current switching.
7
Output jitter is the unpredictable deviation of the Delay time
8
Maximum switching frequency corresponds to the maximum frequency of the applied magnetic field which is detected without loss of pulses
9
TPROT and TREL are the corresponding junction temperature values.
2
390109224100 Rev. 1
Page 4 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
5 Specifications
5.1 MLX92221LSE-AAA-001
DC Operating Parameters VDD = 3.5V to 24V, TJ = -40°C to 165°C
Test
Condition
Operating Point
BOP (mT)
Min
Typ
TJ = -40°C
7.4
TJ = 25°C
7.4
TJ = 150°C
7.4
(10)
Release Point
BRP (mT)
Typ
(10)
TC
o
(ppm/ C)
Max
Min
Max
11.8
16.3
-7.4
-11.8
-16.3
11.8
16.3
-7.4
-11.8
-16.3
11.8
16.3
-7.4
-11.8
-16.3
Typ
(10)
Ioff
(mA)
Typ
Active Pole
(10)
0
6
South pole
TC
o
(ppm/ C)
Ioff
(mA)
Active Pole
5.2 MLX92221LSE-AAA-002
DC Operating Parameters VDD = 3.5V to 24V, TJ = -40°C to 165°C
Test
Condition
Operating Point
BOP (mT)
Min
Typ
TJ = -40°C
4.1
TJ = 25°C
TJ = 150°C
(10)
Release Point
BRP (mT)
Max
Min
6.8
9.6
-9.6
4.1
6
7.9
1.8
4.5
7.1
Typ
(10)
Max
-6.8
-4.1
-7.9
-6
-4.1
-7.1
-4.5
-1.8
Typ
(10)
Typ
(10)
-2000
6
South pole
TC
o
(ppm/ C)
Ioff
(mA)
Active Pole
5.3 MLX92221LSE-AAA-003
DC Operating Parameters VDD = 3.5V to 24V, TJ = -40°C to 165°C
Test
Condition
Operating Point
BOP (mT)
Min
Typ
TJ = -40°C
0.5
TJ = 25°C
TJ = 150°C
(10)
Release Point
BRP (mT)
(10)
Max
Min
Typ
2
3.2
-3.2
-2
-0.5
0.8
1.8
2.8
-2.8
-1.8
-0.8
0.3
1.8
3.3
-3.3
-1.8
-0.3
Max
Typ
(10)
Typ
(10)
0
6
South pole
TC
o
(ppm/ C)
Ioff
(mA)
Active Pole
5.4 MLX92221LUA-AAA-004
DC Operating Parameters VDD = 3.5V to 24V, TJ = -40°C to 165°C
Test
Condition
Operating Point
BOP (mT)
Min
Typ
TJ = -40°C
4.1
TJ = 25°C
TJ = 150°C
(10)
Release Point
BRP (mT)
Typ
(10)
Max
Min
6.8
9.6
-9.6
-6.8
-4.1
4.1
6
7.9
-7.9
-6
-4.1
1.8
4.5
7.1
-7.1
-4.5
-1.8
390109224100 Rev. 1
Page 5 of 14
Max
Typ
(10)
-1100
Typ
6
(10)
South pole
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
5.5 MLX92221LUA-AAA-005
DC Operating Parameters VDD = 3.5V to 24V, TJ = -40°C to 165°C
Test
Condition
Operating Point
BOP (mT)
Min
Typ
TJ = -40°C
0.5
TJ = 25°C
TJ = 150°C
(10)
Release Point
BRP (mT)
(10)
TC
o
(ppm/ C)
Max
Min
Typ
2
3.2
-3.2
-2
-0.5
0.8
1.8
2.8
-2.8
-1.8
-0.8
0.3
1.8
3.3
-3.3
-1.8
-0.3
Max
Typ
(10)
Ioff
(mA)
Typ
Active Pole
(10)
0
6
South pole
TC
o
(ppm/ C)
Ioff
(mA)
Active Pole
5.6 MLX92221LUA-AAA-006
DC Operating Parameters VDD = 3.5V to 9.3V, TJ = -40°C to 165°C
Test
Condition
Operating Point
BOP (mT)
Min
Typ
(10)
Release Point
BRP (mT)
Max
Min
Typ
(10)
Max
TJ = -40°C
-0.5
1.25
2
-2
-1.25
0.5
TJ = 25°C
0
0.8
1.6
-1.6
-0.8
0
TJ = 150°C
-0.5
1.25
2
-2
-1.25
0.5
390109224100 Rev. 1
Page 6 of 14
Typ
0
(10)
Typ
6
(10)
South pole
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
6 Magnetic Behaviour
6.1 Latch sensor
Pole Active
South
North
Remark
Fig.1
Fig.2
Note: Latch sensors are inherently Direct South or Direct North Pole Active only.
Current level
Current level
IDD switches to High
IDD switches to High
IDD switches to Low
IDD switches to Low
IDD = ION
IDD = ION
IDD = IOFF
IDD = IOFF
BRP
0mT
BOP
Flux density
BOP
Fig.1 –South Pole Active
390109224100 Rev. 1
0mT
BRP
Flux density
Fig.2 –North Pole Active
Page 7 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
7 Performance Graphs
7.1 IOFFLow vs. TJ
7.4 IOFFLow vs. VDD
4.3
4.1
3.6
Off Supply Current (mA)
Off Supply Current (mA)
3.8
3.4
3.2
3
2.8
2.6
3.7
3.5
3.3
3.1
2.7
2.2
2.5
-40
-20
0
20
40
60
80
100
120
140
160
2
6
10
14
18
22
26
7.5 IOFFHigh vs. VDD
7.2 IOFFHigh vs. TJ
Ioff, Temp = -40degC
Ioff, Temp = 150 degC
7
Ioff, Vdd = 2.7V
Ioff, Vdd = 24V
7
Off Supply Current (mA)
6.5
Off Supply Current (mA)
3.9
2.9
2.4
6
5.5
6.5
6
5.5
5
5
4.5
4.5
-40
-20
0
20
40
60
80
100
120
140
2
160
6
10
14
18
22
26
7.6 ION vs. VDD
7.5 ION vs. TJ
15.8
Ion, Vdd = 2.7V
Ion, Vdd = 24V
Ion, Temp = -40degC
Ion, Temp = 150 degC
15
14.8
15.3
14.6
14.8
On Supply Current (mA)
On Supply Current (mA)
Ioff, Temp = -40degC
Ioff, Temp = 150 degC
4.5
Ioff, Vdd = 2.7V
Ioff, Vdd = 24V
4
14.3
13.8
13.3
14.4
14.2
14
13.8
13.6
13.4
13.2
12.8
-40
-20
0
20
40
60
80
100
120
140
160
13
2
390109224100 Rev. 1
Page 8 of 14
6
10
14
18
22
June/13
26
MLX92221-AAA
2-Wire Hall Effect Latch
7.7 VDD de-rating UA package
7.8 VDD de-rating TSOT package
26
UA(TO-92 3L)
22
14
[V]
VDDmax, [V]
18
10
6
2
-40
0
390109224100 Rev. 1
40
o
TA, [ C]
80
120
160
Page 9 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
8 Application Information
8.1 Typical Automotive Application Circuit
ECU
C1
10nF
VCC
Notes:
1. For proper operation, a 10nF bypass capacitor should be
placed as close as possible to the VDD and ground(GND) pin.
For complete emissions protection a C1 = 68nF is
recommended.
2. The TEST pin is to be left open or connected to GND.
MLX92221 / 41
VDD
TEST
GND
VHSENSE
RSENSE
100
8.2 Automotive and Harsh, Noisy
Environments Application Circuit
8.3 Strobing VDD application (used for
reduced self-heating)
ECU
ECU
D1
(optional,
see Note 2)
VCC
C1
68nF
MLX92221 / 41
MLX92241
VDD
(optional,
see Note 3)
VHSENSE
C1
68nF
VCC
TEST
DZ1
MLX92221 / 41
VDD
GND
TEST
GND
VHSENSE
RSENSE
100
RSENSE
100
Notes:
1. For proper operation, a 10nF to 100nF bypass capacitor should be placed as close
as possible to the VDD and ground pin.
2. The device could tolerate negative voltage down to -24V, so if negative transients
over supply line VPEAK< -29V are expected, usage of the diode D1 is recommended.
Otherwise only RSENSE is sufficient.
When selecting the resistor RSENSE, three points are important:
- the resistor has to limit IDD/IDDREV to 50mA maximum
- the resistor has to withstand the power dissipated in both over voltage
conditions (VRSENSE2/RSENSE)
- the resulting device supply voltage VDD has to be higher than VDD min
(VDD = VCC – RSENSE.IDD)
3. The device could tolerate positive supply voltage up to +27V (until the maximum
power dissipation is not exceeded), so if positive transients over supply line with
VPEAK> 32V are expected, usage a zener diode DZ1 is recommended. The RSENSE-DZ1
network should be sized to limit the voltage over the device below the maximum
allowed.
VDD
South Pole
12 V
ON phase
(1ms)
IDD
weak South or B = null
OFF phase
(1s)
t
IONtyp
Valid IDD
state
Valid IDD
state
IOFFtyp
tON
tON
t
Notes :
1. Given strobe timing is exemplary only .
2. For proper operation , a 10nF to 100nF bypass capacitor should be placed as
close as possible to the V DD and ground pin .
390109224100 Rev. 1
Page 10 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
9 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 following test methods:
Reflow Soldering SMD’s (Surface Mount Devices)


IPC/JEDEC J-STD-020
Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices
(classification reflow profiles according to table 5-2)
EIA/JEDEC JESD22-A113
Preconditioning of Nonhermetic Surface Mount Devices Prior to Reliability Testing
(reflow profiles according to table 2)
Wave Soldering SMD’s (Surface Mount Devices) and THD’s (Through Hole Devices)


EN60749-20
Resistance of plastic- encapsulated SMD’s to combined effect of moisture and soldering heat
EIA/JEDEC JESD22-B106 and EN60749-15
Resistance to soldering temperature for through-hole mounted devices
Iron Soldering THD’s (Through Hole Devices)

EN60749-15
Resistance to soldering temperature for through-hole mounted devices
Solderability SMD’s (Surface Mount Devices) and THD’s (Through Hole Devices)

EIA/JEDEC JESD22-B102 and EN60749-21
Solderability
For all soldering technologies deviating from above mentioned standard conditions (regarding peak temperature,
temperature gradient, temperature profile etc) additional classification and qualification tests have to be agreed
upon with Melexis.
The application of Wave Soldering for SMD’s is allowed only after consulting Melexis regarding assurance of
adhesive strength between device and board.
http://www.melexis.com/Assets/Soldering-Application-Note-and-Recommendations-5446.aspx
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/quality.aspx
10 ESD Precautions
Electronic semiconductor products are sensitive to Electro Static Discharge (ESD).
Always observe Electro Static Discharge control procedures whenever handling semiconductor products.
390109224100 Rev. 1
Page 11 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
11 Package Information
11.1 UA (TO92 - 3L)
1.50+/-0.10
4.10+/-0.20
+0.10
0.74 - 0.11
+0.10
2.62 - 0.11
+0.15
1.00 - 0.10
0.127 MAX
3.00+/-0.20
Notes:
0.46
7° Typ
7° Typ
1. All dimensions are in millimeters
2. Package dimension exclusive molding flash.
3. The end flash shall not exceed 0.127 mm on
the top side.
+0.03
- 0.03
0.00
0.15
Marking:
+0.11
0.55 - 0.10
1st Line : xxx – last three digits from lot number
2nd Line : yww
14.50+/-0.5
y - last digit of year
ww - calendar week
0.38+/-0.03
1.27+/-0.055
2.54
0.38+/-0.03
+/-0.055
45° NOM
7° NOM
Hall plate location
0.9
0.41
0.45
Notes:
1. All dimensions are in millimeters
Marked side
1
2
3
Pin №
Name
Type
Function
1
VDD
Supply
Supply Voltage pin
2
GND
Ground
Ground pin
3
TEST
I/O
Analog & Digital I/O
390109224100 Rev. 1
Page 12 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
11.2 SE (TSOT-3L) Package Information
2.75 BSC
1.00 MAX
1.60 BSC
0.88 - 0.03
SEATING PLANE
+0.02
see note 2
+0.025
0.075 - 0.050
1. All dimensions are in millimeters
1.90 BSC
0.30
0.45
0.95 BSC
see note 3
2.90 BSC
Notes:
2. Outermost plastic extreme width does not include mold flash or
protrusions. Mold flash and protrusions shall not exceed 0.15mm
per side.
3. Outermost plastic extreme length does not include mold flash or
protrusions. Mold flash and protrusions shall not exceed 0.25mm
per side.
4. The lead width dimension does not include dambar protrusion.
Allowable dambar protrusion shall be 0.07mm total in excess of the
lead width dimension at maximum material condition.
0.50 BSC
TOP VIEW
5. Dimension is the length of terminal for soldering to a substrate.
SIDE VIEW
12° REF.
TYP.
6. Dimension on SECTION B-B’ applies to the flat section of the lead
between 0.08mm and 0.15mm from the lead tip.
7. Formed lead shall be planar with respect to one another with
0.076mm at seating plane.
BASE METAL
0.10 R.
MIN.
0.15
0.20
WITH PLATING
~
0.10 R.
MIN.
0.40+/-0.10
SEATING PLANE
+0.023
4°+/-4
0.127 - 0.007
0.20
B’
+0.05
B
0.35 - 0.10
0.30
0.45
see note 5
0.575 REF.
SECTION B-B’
see note 6
END VIEW
Hall plate location
1.51
0.80
0.28
Notes:
1. All dimensions are in millimeters
Package line
TOP VIEW
END VIEW
SE Pin №
Name
Type
Function
1
VDD
Supply
Supply Voltage pin
2
TEST
I/O
Analog & Digital I/O
3
GND
Ground
Ground pin
Table 1: SE Package pinout
Note: Test pin to be left open or connected to GND in the application
390109224100 Rev. 1
Page 13 of 14
June/13
MLX92221-AAA
2-Wire Hall Effect Latch
12 Disclaimer
Devices sold by Melexis are covered by the warranty and patent indemnification provisions appearing in its Term
of Sale. Melexis makes no warranty, express, statutory, implied, or by description regarding the information set
forth herein or regarding the freedom of the described devices from patent infringement. Melexis reserves the
right to change specifications and prices at any time and without notice. Therefore, prior to designing this product
into a system, it is necessary to check with Melexis for current information. This product is intended for use in
normal commercial applications. Applications requiring extended temperature range, unusual environmental
requirements, or high reliability applications, such as military, medical life-support or life-sustaining equipment are
specifically not recommended without additional processing by Melexis for each application.
The information furnished by Melexis is believed to be correct and accurate. However, Melexis shall not be liable
to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss
of profits, loss of use, interrupt of business or indirect, special incidental or consequential damages, of any kind, in
connection with or arising out of the furnishing, performance or use of the technical data herein. No obligation or
liability to recipient or any third party shall arise or flow out of Melexis’ rendering of technical or other services.
© 2012 Melexis NV. All rights reserved.
For the latest version of this document, go to our website at
www.melexis.com
Or for additional information contact Melexis Direct:
Europe, Africa:
Americas:
Asia:
Phone: +32 1367 0495
E-mail: [email protected]
Phone: +1 248-306-5400
E-mail: [email protected]
Phone: +32 1367 0495
E-mail: [email protected]
ISO/TS 16949 and ISO14001 Certified
390109224100 Rev. 1
Page 14 of 14
June/13
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