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What is PBL3770AQNT?

This electronic component, produced by the manufacturer "Ericsson", performs the same function as "High Performance Stepper Motor Drive Circuit".


PBL3770AQNT Datasheet PDF - Ericsson

Part Number PBL3770AQNT
Description High Performance Stepper Motor Drive Circuit
Manufacturers Ericsson 
Logo Ericsson Logo 


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February 1999
PBL 3770A
High Performance
Stepper Motor Drive Circuit
Description
PBL 3770A is a bipolar monolithic circuit intended to control and drive the current in
one winding of a stepper motor. It is a high power version of PBL 3717 and special
care has been taken to optimize the power handling capability without suffering in
reliability.
The circuit consists of a LS-TTL compatible logic input stage, a current sensor, a
monostable multivibrator and a high power H-bridge output stage. The circuit is
pin-compatible with the PBL 3717 industry-standard driver.
Two PBL 3770A and a small number of external components form a complete
control and drive unit for LS-TTL or microprocessor-controlled stepper motor
systems.
Key Features
• Half-step and full-step operation.
• Switched mode bipolar constant
current drive
• Wide range of current control
5 -1800 mA.
• Wide voltage range 10 - 45 V.
• Designed for unstabilized motor
supply voltage.
• Current levels can be selected in
steps or varied continuously.
• Thermal overload protection.
Phase
I
1
I0
VR
GND
VCC
VMM
VMM
Schmitt
Trigger
Time
Delay
1
1
1
&&&&
1
1
MA
MB
+
+
+
Current Sensor
C
Output Stage
Monostable
toff = 0.69 • RT • CT
TE
PBL 3770A
Figure 1. Block diagram.
16-pin plastic batwing DIP
28-pin plastic PLCC package
20-pin SO
1

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PBL3770AQNT equivalent
PBL 3770A
Functional Description
The PBL 3770A is intended to drive a
bipolar constant current through one
winding of a 2-phase stepper motor.
Current control is achieved through
switched-mode regulation, see figure 5
and 6.
Three different current levels and zero
current can be selected by the input
logic.
The circuit contains the following
functional blocks:
• Input logic
• Current sense
• Single-pulse generator
• Output stage
Input logic
Phase input. The phase input
determines the direction of the current in
the motor winding. High input forces the
current from terminal MA to MB and low
input from terminal M to M . A Schmitt
BA
trigger provides noise immunity and a
delay circuit eliminates the risk of cross
conduction in the output stage during a
phase shift.
Half- and full-step operation is
possible.
Current level selection. The status of I
0
and I1 inputs determines the current level
in the motor winding. Three fixed current
levels can be selected according to the
table below.
Motor current
High level
100%
I0 I1
LL
Medium level 60% H L
Low level
20% L H
Zero current
0% H H
The specific values of the different
current levels are determined by the
reference voltage V together with the
R
value of the sensing resistor RS.
The peak motor current can be
calculated as follows:
im = (VR • 0.080) / RS [A], at 100% level
The motor current can also be
continuously varied by modulating the
voltage reference input.
Current sensor
The current sensor contains a reference
voltage divider and three comparators
for measuring each of the selectable
current levels. The motor current is
| V MA – V MB |
Normalized
1
t on
1/2
t off
VE
V
CH
V
CM
V
CL
1
f=
s
ton + t off
Figure 4. Definition of terms.
t
td
D=
ton
t on + t off
t
sensed as a voltage drop across the
current sensing resistor, RS, and
compared with one of the voltage
references from the divider. When the
two voltages are equal, the compara-tor
triggers the single-pulse generator. Only
one comparator at a time is activa-ted by
the input logic.
Single-pulse generator
The pulse generator is a monostable
multivibrator triggered on the positive
edge of the comparator output. The
multivibrator output is high during the
pulse time, toff , which is determined by
the timing components RT and CT.
toff = 0.69 • RT • CT
The single pulse switches off the
power feed to the motor winding,
causing the winding to decrease during
toff .
If a new trigger signal should occur
during toff , it is ignored.
Output stage
The output stage contains four
transistors and two diodes, connected in
an H-bridge. Note that the upper
recirculation diodes are connected to the
circuit externally. The two sinking
transistors are used to switch the power
supplied to the motor winding, thus
driving a constant current through the
winding. See figures 5 and 6.
Overload protection
The circuit is equipped with a thermal
shut-down function, which will limit the
junction temperature. The output current
will be reduced if the maximum permis-
sible junction temperature is exceeded.
It should be noted, however, that it is not
short circuit protected.
Operation
When a voltage VMM is applied across
the motor winding, the current rise
follows the equation:
im = (VMM / R) • (1 - e-(R • t ) / L )
R = Winding resistance
L = Winding inductance
t = time
(see figure 6, arrow 1)
The motor current appears across the
external sensing resistor, RS, as an
analog voltage. This voltage is fed
through a low-pass filter, RCCC, to the
voltage comparator input (pin 10). At the
moment the sensed voltage rises above
the comparator threshold voltage, the
monostable is triggered and its output
turns off the conducting sink transistor.
The polarity across the motor winding
reverses and the current is forced to
circulate through the appropriate upper
protection diode back through the source
transistor (see figure 6, arrow 2).
After the monostable has timed out,
the current has decayed and the analog
5


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