A3986SLD-T Allegro MicroSystems, Inc., A3986SLD-T Datasheet - Page 11

A3986SLD-T

Manufacturer Part Number

A3986SLD-T

Description

DUAL H-BRIDGE MOSFET DRVR W/MICRO TRANS

Manufacturer

Allegro MicroSystems, Inc.

Datasheet

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C1A, C1B, C2A, and C2B High-side connections for the

bootstrap capacitors, CBOOTx, and positive supply for high-

side gate drivers. The bootstrap capacitors are charged to

approximately V

is low. When the output swings high, the voltage on this ter-

minal rises with the output to provide the boosted gate volt-

age needed for the high-side N-channel power MOSFETs.

The bootstrap capacitor should be ceramic and have a value

of 10 to 20 times the total MOSFET gate capacitance.

GH1A, GH1B, GH2A, and GH2B High-side gate drive

outputs for external N-channel MOSFETs. External series

gate resistors can be used to control the slew rate seen at

the gate, thereby controlling the di/dt and dv/dt at the motor

terminals. GHxx = 1 (high) means that the upper half of the

driver is turned on and will source current to the gate of the

high-side MOSFET in the external motor-driving bridge.

GHxx = 0 (low) means that the lower half of the driver is

turned on and will sink current from the external MOSFET’s

gate circuit to the respective Sxx pin.

S1A, S1B, S2A, and S2B Directly connected to the

motor, these terminals sense the voltages switched across the

load and define the negative supply for the floating high-side

drivers. The discharge current from the high-side MOSFET

gate capacitance flows through these connections which

should have low impedance traces to the MOSFET bridge.

GL1A, GL1B, GL2A, and GL2B Low-side gate drive

outputs for external N-channel MOSFETs. External series

gate resistors (as close as possible to the MOSFET gate)

can be used to reduce the slew rate seen at the gate, thereby

controlling the di/dt and dv/dt at the motor terminals.

GLxx = 1 (high) means that the upper half of the driver is

turned on and will source current to the gate of the low-side

MOSFET in the external motor-driving bridge. GLxx = 0

(low) means that the lower half of the driver is turned on and

will sink current from the gate of the external MOSFET to

the LSSx pin.

LSS1 and LSS2 Low-side return path for discharge of the

gate capacitors, connected to the common sources of the

low-side external FETs through low-impedance traces.

REG

when the associated output Sxx terminal

Dual Full-Bridge MOSFET Driver

Motor Control

Motor speed and direction is controlled simply by two logic

inputs, and the microstep level is controlled by a further two

logic inputs. At power-up or reset, the translator sets the

DACs and phase current polarity to the initial Home state

(see figures 2 through 5 for home-state conditions), and sets

the current regulator for both phases to mixed-decay mode.

When a step command signal occurs on the STEP input, the

translator automatically sequences the DACs to the next

level (see table 3 for the current level sequence and current

polarity).

The microstep resolution is set by inputs MS1 and MS2 as

shown in table 1. If the new DAC level is higher or equal to

the previous level, then the decay mode for that full-bridge

will be slow decay. If the new DAC output level is lower

than the previous level, the decay mode for that full-bridge

will be set by the PFD1 and PFD2 inputs. This automatic

current-decay selection improves microstepping performance

by reducing the distortion of the current waveform due to the

motor BEMF.

STEP

the translator and advances the motor one increment. The

translator controls the input to the DACs as well as the direc-

tion of current flow in each winding. The size of the incre-

ment is determined by the state of the MSx inputs.

MS1 and MS2

to select the microstepping format, per table 1. Changes to

these inputs do not take effect until the next STEP input ris-

ing edge.

DIR

of the motor. When low, the direction is “clockwise” and

“counterclockwise” when high. A change on this input does

not take effect until the next STEP rising edge.

Internal PWM Current Control

Each full-bridge is independently controlled by a fixed off-

time PWM current control circuit that limits the load current

in the phase to a desired value, I

with Microstepping Translator

This Direction input determines the direction of rotation

A low-to-high transition on the STEP input sequences

These Microstep Select inputs are used

115 Northeast Cutoff

1.508.853.5000; www.allegromicro.com

Allegro MicroSystems, Inc.

Worcester, Massachusetts 01615-0036 U.S.A.

TRIP

. Initially, a diagonal pair

A3986SLD-T Allegro MicroSystems, Inc., A3986SLD-T Datasheet - Page 11

A3986SLD-T

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