A3953 データシートの表示(PDF) - Allegro MicroSystems
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A3953 Datasheet PDF : 14 Pages
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3953
FULL-BRIDGE
PWM MOTOR DRIVER
During braking, when the MODE input is high, the
peak current limit can be approximated by:
≈ ITRIP BRAKE MH
VREF
RS
CAUTION: Because the kinetic energy stored in the motor
and load inertia is being converted into current, which
charges the VBB supply bulk capacitance (power supply
output and decoupling capacitance), care must be taken
to ensure the capacitance is sufficient to absorb the
energy without exceeding the voltage rating of any
devices connected to the motor supply.
Brake Operation - MODE Input Low. During braking,
with the MODE input low, the internal current-control
circuitry is disabled. Therefore, care should be taken to
ensure that the motor’s current does not exceed the
ratings of the device. The braking current can be mea-
sured by using an oscilloscope with a current probe
connected to one of the motor’s leads, or if the back-EMF
voltage of the motor is known, approximated by:
IPEAK BRAKE ML ≈
VBEMF – 1V
RLOAD
RC Fixed Off-Time. The internal PWM current-control
circuitry uses a one shot to control the time the driver(s)
remain(s) off. The one-shot time, tOFF (fixed off-time), is
determined by the selection of an external resistor (RT)
and capacitor (CT) connected in parallel from the RC
timing terminal to ground. The fixed off-time, over a range
of values of CT = 470 pF to 1500 pF and RT = 12 kΩ to
100 kΩ, is approximated by:
tOFF ≈ RT x CT
The operation of the circuit is as follows: when the
PWM latch is reset by the current comparator, the voltage
on the RC terminal will begin to decay from approximately
0.60VCC. When the voltage on the RC terminal reaches
approximately 0.22VCC, the PWM latch is set, thereby
enabling the driver(s).
RC Blanking. In addition to determining the fixed off-time
of the PWM control circuit, the CT component sets the
comparator blanking time. This function blanks the output
of the comparator when the outputs are switched by the
internal current-control circuitry (or by the PHASE,
BRAKE, or ENABLE inputs). The comparator output is
blanked to prevent false over-current detections due to
reverse recovery currents of the clamp diodes, and/or
switching transients related to distributed capacitance in
the load.
During internal PWM operation, at the end of the tOFF
time, the comparator’s output is blanked and CT begins to
be charged from approximately 0.22VCC by an internal
current source of approximately 1 mA. The comparator
output remains blanked until the voltage on CT reaches
approximately 0.60VCC.
When a transition of the PHASE input occurs, CT is
discharged to near ground during the crossover delay
time (the crossover delay time is present to prevent
simultaneous conduction of the source and sink drivers).
After the crossover delay, CT is charged by an internal
current source of approximately 1 mA. The comparator
output remains blanked until the voltage on CT reaches
approximately 0.60VCC.
When the device is disabled, via the ENABLE input,
CT is discharged to near ground. When the device is re-
enabled, CT is charged by an internal current source of
approximately 1 mA. The comparator output remains
blanked until the voltage on CT reaches approximately
0.60VCC.
For 3.3 V operation, the minimum recommended
value for CT is 680 pF ± 5 %. For 5.0 V operation, the
minimum recommended value for CT is 470 pF ± 5%.
These values ensure that the blanking time is sufficient to
avoid false trips of the comparator under normal operating
conditions. For optimal regulation of the load current, the
above values for CT are recommended and the value of
RT can be sized to determine tOFF. For more information
regarding load current regulation, see below.
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