INFINEON TLE4976-1H

High Precision Hall-Effect Switch
TLE4976-1H
Data Sheet Version 1.0
2003-11-20
Features
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2-wire current interface 6/14 mA
3.0V to 24V supply voltage operation
Operation from unregulated power supply
High sensitivity and high stability of the magnetic
switching points
High resistance to mechanical stress by Active
Error Compensation
Reverse battery protection (-18V)
Superior temperature stability
Peak temperatures up to 195°C without damage
Low jitter (typ. 1µs)
High ESD performance (±8kV HBM)
Digital output signal
Unipolar version
SMD package P-SC59-3-2 (SOT-23 compatible)
Type
TLE4976-1H
Ordering Code
Q62705K0710
P-SC59-3-2
Package
P-SC59-3-2
Functional Description
The TLE4976-1H is an integrated circuit Hall-effect sensor designed specifically for highly
accurate applications with a current interface. Precise magnetic switching points and high
temperature stability are achieved by active compensation circuits and chopper
techniques on chip.
TLE4976-1H
Circuit Description
The chopped Hall IC Switch comprises a Hall probe, bias generator, compensation
circuits, oscillator, and a current output.
The bias generator provides currents for the Hall probe and the active circuits.
Compensation circuits stabilize the temperature behavior and reduce technology
variations.
The Active Error Compensation rejects offsets in signal stages and the influence of
mechanical stress to the Hall probe caused by molding and soldering processes and
other thermal stresses in the package. This chopper technique together with the threshold
generator and the comparator ensures high accurate magnetic switching points.
Vs
1
Voltage Regulator
ESD
(reverse polarity protected)
Oscillator
&
Sequencer
Bias and Compensation
Circuits
Comparator
with
Hysteresis
+
Amplifier
Chopped
Hall Probe
-
Filter
3
GND
2
NC
Figure 1 Block Diagram
Data Sheet
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TLE4976-1H
Pin Configuration
Figure 2: Pin Configuration (SOT-23 pin compatible)
Pin Definition and Functions
Pin
1
2
3
Symbol
VS
NC
GND
Data Sheet
Function
Supply voltage
No internal connection
Ground
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TLE4976-1H
Absolute Maximum Ratings
Tj = -40 to 150°C
Parameter
Supply Voltage
Supply Current through
protection device
Junction Temperature
Symbol
VS
Is
min.
-18
-18
-18
-50
Tj
-
max.
18
24
26
+50
Unit
V
Conditions
for 1h (RS+RL > 75 Ohm)
for 5min (RS+RL > 75 Ohm)
mA
155
°C
for 2000 h (not additive)
165
for 1000 h (not additive)
175
for 168 h (not additive)
195
for 3x1 h (additive)
Storage Temperature
TS
-40
150
°C
Magnetic Flux Density
B
unlimit.
mT
Note: Stresses above those listed here may cause permanent damage to the device.
Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
ESD Protection
Human Body Model (HBM) tests according to:
EOS/ESD Association Standard S5.1-1993 and Mil. Std. 883D method 3015.7
Parameter
ESD Voltage
Symbol
VESD
max.
±8
Unit
kV
Conditions
HBM, R= 1.500 Ohm,
C= 100pF; TA = 25°C
Operating Range
Parameter
Supply Voltage
Junction Temperature
Data Sheet
Symbol
VS
Tj
min.
3.0
3.0
-40
typ.
-
4/9
max.
18
24
150
175
Unit
V
Conditions
for 5min (RS+RL > 100 Ohm)
°C
for 168 h
2003-11-20
TLE4976-1H
AC/DC Characteristics
over operating range, unless otherwise specified. Typical values correspond to VS=12V
and TA=25°C.
Parameter
Supply Current low
Supply Current high
Reverse Current
Output Fall Time
Output Rise Time
Chopper Frequency
Switching Frequency
2)
Delay Time
3)
Output Jitter
Symbol
ISlow
IShigh
ISR
tf
tr
fOSC
fSW
td
tQJ
min.
5
12
0
0
-
typ.
6
14
0.4
0.4
320
13
1
max.
7
17
0.2
1.6
1.6
1)
15
-
Unit
mA
mA
mA
µs
µs
kHz
kHz
µs
µsRMS
Conditions
B<Brp; VS = 3.0V .. 18V
B>Bop; VS = 3.0V .. 18V
VS= -18V
RS= 100 Ohm; Figure 3
RS= 100 Ohm; Figure 3
Typ. Value for Square-Wave
Signal 1kHz
Typ. Value for
∆B/∆t>12mT/ms
VS >= 3.0V
BREP
Repeatability of magnetic
40
µTRMS
4)
thresholds
5)
Power-On Time
tPON
13
µs
6)
Thermal Resistance
RthJA
100
K/W
P-SC59-3-2
1)
To operate the sensor at the max. switching frequency, the value of the magnetic signal
amplitude must be 1.4 times higher than for static fields. This is due to the -3dB corner frequency
of the low pass filter in the signal path.
2)
Systematic delay between magnetic threshold reached and output switching.
3)
Jitter is the unpredictable deviation of the output switching delay.
4)
BREP is equivalent to the noise constant.
5)
Time from applying VS >= 3.0 V to the sensor until the output state is valid.
6)
Thermal resistance from junction to ambient.
e.g.: VS=12.0 V, RS=100 Ohms, IShigh_typ=14 mA => Power Dissipation Pdis=148.4 mW.
In TA = Tj – (RthJA * Pdis) = 175 °C – (100 K/W * 0.1484 W) => TA = 160.1 °C
Magnetic Characteristics
over operating range, unless otherwise specified. Typical values correspond to VS=12V.
Parameter
Operate Point
TLE4976-1H
Symbol
BOP
Release Point
TLE4976-1H
BRP
Hysteresis
TLE4976-1H
BHYS
Temperature
Compensation of
Magnetic Thresholds
Tj [°C]
min.
typ.
max.
-40
25
150
5.5
5.5
5.5
9.25
9.25
9.25
11.0
11.0
11.0
-40
25
150
5.0
5.0
5.0
7.25
7.25
7.25
10.5
10.5
10.5
-40
25
150
0.5
0.5
0.5
2.0
2.0
2.0
3.0
3.0
3.0
-
-
0
-
Unit
mT
Conditions
mT
mT
TC
ppm/°C
Positive magnetic fields related with south pole of magnet to the branded side of package.
Note: Typical characteristics specify mean values expected over the production spread.
Data Sheet
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TLE4976-1H
Timing Diagram
A p p lie d
m a g n e tic
fie ld
B OP
B RP
IS
90%
tf
tr
td
td
10%
Figure 3: Timing Definition
Figure 4: Output Signal
Data Sheet
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TLE4976-1H
Package Dimensions
1.1 ±0.1
3 ±0.1
0.1
M
2.8 -0.1
+0. 2
3
1
0.15 MAX.
+0.15
0.1
1.6 -0.3
+0.05
-0.1
0.45 ±0.15
3 x 0.4
2
0.1 M
0.95
0.95
(0.55)
0.15 -0+0.0. 1
5
0°...8° MAX.
Figure 5: Package Dimension
Figure 6: Foot print (SOT-23 compatible)
Data Sheet
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TLE4976-1H
Figure 7: Distance from Package to Die
Figure 8: Marking
Data Sheet
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TLE4976-1H
TLE4976-1H
Revision History:
Version 1.0
Previous Version:
Page
Subjects (major changes since last revision)
2003-11-20
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Technologies Offices in Germany or the Infineon Technologies Companies and
Representatives worldwide: see our webpage at http://www.infineon.com
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Edition 2001-02-22
Published by Infineon Technologies AG
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D-81541 München
© Infineon Technologies AG 2000
All Rights Reserved.
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Data Sheet
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