MC33886 Motorola, MC33886 Datasheet - Page 15
MC33886
Manufacturer Part Number
MC33886
Description
5.0 A H BRIDGE
Manufacturer
Motorola
Datasheet
1.MC33886.pdf
(20 pages)
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torque, direction, dynamic braking, and PWM control), in
addition to the 5.0 A current capability, make the 33886 a very
attractive, cost-effective solution for controlling a broad range of
fractional horsepower DC motors. A pair of 33886 devices can
be used to control bipolar stepper motors in both directions. In
addition, the 33886 can be used to control permanent magnet
solenoids in a push-pull variable force fashion using PWM
control. The 33886 can also be used to excite transformer
primary windings with a switched square wave to produce
secondary winding AC currents.
page 2, the 33886 is a fully protected monolithic H-Bridge with
Fault Status reporting. For a DC motor to run the input
conditions need be as follows: D1 input logic Low, D2 input logic
High, FS flag cleared (logic High), with one IN logic Low and the
other IN logic High to define output polarity. The 33886 can
execute dynamic braking by simultaneously turning on either
both high-side MOSFETs or both low-side MOSFETs in the
output H-Bridge; e.g., IN1 and IN2 logic High or IN1 and IN2
logic Low.
load current of 5.0 A from a 40 V V+ source. An internal charge
pump supports PWM frequencies up to 10 kHz. An external
pull-up resistor is required for the open drain FS terminal for
fault status reporting.
PGND and AGND
ground terminals should be connected together with a very low
impedance connection.
V+
terminals must be connected together on the printed circuit
board with as short as possible traces offering as low
impedance as possible between terminals.
voltage drops below a V+ undervoltage threshold, the output
power stage switches to a tri-state condition and the fault status
flag is set and the Fault Status terminal voltage switched to a
logic Low. When the supply voltage returns to a level that is
above the threshold, the power stage automatically resumes
normal operation according to the established condition of the
input terminals and the fault status flag is automatically reset
logic High.
MOTOROLA ANALOG INTEGRATED CIRCUIT DEVICE DATA
Numerous protection and operational features (speed,
As shown in
The 33886 outputs are capable of providing a continuous DC
Power and analog ground terminals. The power and analog
V+ terminals are the power supply inputs to the device. All V+
V+ terminals have an undervoltage threshold. If the supply
Figure
1, Simplified Internal Block Diagram,
Freescale Semiconductor, Inc.
SYSTEM/APPLICATION INFORMATION
For More Information On This Product,
FUNCTIONAL TERMINAL DESCRIPTION
Go to: www.freescale.com
INTRODUCTION
two totem-pole half-bridge outputs. Two disable inputs (D1 and
D2) are for forcing the H-Bridge outputs to a high impedance
state (all H-Bridge switches OFF).
recovery, active current limiting, output short-circuit latch-OFF,
and overtemperature latch-OFF. An undervoltage shutdown,
output short circuit latch-OFF, or overtemperature latch-OFF
fault condition will cause the outputs to turn OFF (i.e., become
high impedance or tri-stated) and the fault output flag to be set
Low. Either of the Disable inputs or V+ must be “toggled” to
clear the fault flag.
unique and best described as using a junction temperature-
dependent active current “fold back” protection scheme. When
a short circuit condition is experienced, the current limited
output is “ramped down” as the junction temperature increases
above 160°C, until at 175°C the current has decreased to about
2.5 A. Above 175°C, overtemperature shutdown (latch-OFF)
occurs. This feature allows the device to remain in operation for
a longer time with unexpected loads, while still retaining
adequate protection for both the device and the load.
Fault Status (FS)
an active Low open drain structure requiring a pull-up resistor to
5.0 V. Refer to
IN1, IN2, D1, and D2
the outputs. These terminals are 5.0 V CMOS-compatible
inputs with hysteresis. The IN1 and IN2 independently control
OUT1 and OUT2, respectively. D1 and D2 are complimentary
inputs used to tri-state disable the H-Bridge outputs.
Low) in the disable state, outputs OUT1 and OUT2 are both tri-
state disabled; however, the rest of the device circuitry is fully
operational and the supply I
milliamperes. Refer to
ELECTRICAL CHARACTERISTICS
Two independent inputs (IN1 and IN2) provide control of the
The 33886 has undervoltage shutdown with automatic
The short circuit/overtemperature shutdown scheme is
This terminal is the device fault status output. This output is
These terminals are input control terminals used to control
When either D1 or D2 is set (D1 = logic High or D2 = logic
Table 1, Truth
Table 1, Truth
Q(standby)
Table, page 14.
current is reduced to a few
table, page 5.
Table, and
STATIC
33886
15
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