A3195LU Ver la hoja de datos (PDF) - Allegro MicroSystems
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A3195LU Datasheet PDF : 10 Pages
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3195
PROTECTED, HIGH-TEMP.,
ACTIVE PULL-DOWN
HALL-EFFECT LATCH
INTERNAL PROTECTIVE FEATURES
ISO
Pulse No.
1
2
3a
3b
4
5
6
7
Test
Inductive Turn Off (Negative)
Inductive Turn Off (Positive)
Capacitive/Inductive Coupling (Neg)
Capacitive/Inductive Coupling (Pos)
Reverse Battery
Load Dump (ISO)
(DIN)
Ignition Coil Disconnect
EXTERNAL PROTECTION REQ’D
Field Decay (Negative)
Test Conditions (at TA = +25°C)
VS = -100 V, RS = 10 Ω, tr = 1 µs, td = 2 ms
VS = 90 V, RS = 10 Ω, tr = 1 µs, td = 50 µs
VS = -150 V, RS = 50 Ω, tr = 50 ns, td = 100 ns
VS = 100 V, RS = 50 Ω, tr = 50 ns, td = 100 ns
VS = -14 V, td = 20 s
VS = 86.5 V, RS = 0.5 Ω, tr = 5 ms, td = 400 ms
VS = 120 V, RS = 0.5 Ω, tr = 100 ns, td = 400 ms
VS = -300 V, RS = 30 Ω, tr = 60 µs, td = 300 µs
VS = -80 V, RS = 10 Ω, tr = 5 ms, td = 100 ms
0.9 VS
VS
0.1 VS
12 V
0
tr
td
Dwg WH-008
Power supply voltage transients, or device output short circuits, may
be caused by faulty connectors, crimped wiring harnesses, or service
errors. To prevent catastrophic failure, internal protection against
overvoltage, reverse voltage, output overloads have been incorporated
to meet the automotive 12 volt system protection requirements of ISO
DP7637/1 and DIN 40839-1. A series-blocking diode or current-limiting
resistor is required in order to survive pulse number six.
Output Overloads. Current through the output source transistor is
sensed with a low-value on-chip aluminum resistor. The voltage drop
across this resistor is fed back to control the base drive of the output
stage. This feedback prevents the output transistor from exceeding its
maximum current density rating by limiting the output current to between
-26 mA and -70 mA. Under short-circuit conditions, the device will
dissipate an increased amount of power (PD = VOUT x ILIMIT) and the
output transistor will be thermally stressed.
Current through the active pull-down is
limited to between 8 mA and 25 mA.
Overvoltage. The device protects itself
against high-voltage transients by shutting
OFF the output source driver and all supply-
referenced active components, reducing the
supply current, and minimizing device
power dissipation. Overvoltage shutdown
can occur anywhere between 28 V and
55 V and device operation above 28 V
cannot be recommended. The device will
continue to operate, with increased power
dissipation, for supply voltages above the
internal clamp voltage but below the over-
voltage shutdown. Under a sustained
overvoltage, the device may be required to
dissipate an increased amount of power
(PD = VCC x ICC) and the device may be
thermally stressed (see above).
Output Voltage. The output is
clamped with an on-chip Zener diode to
prevent supply overvoltage faults from
appearing at the output when the field is
less than BRP.
When any fault condition is removed,
the device returns to normal operating
mode.
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
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