pbl3775so ETC-unknow, pbl3775so Datasheet - Page 5

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pbl3775so

Manufacturer Part Number

pbl3775so

Description

Dual Stepper Motor Driver

Manufacturer

ETC-unknow

Datasheet

1.PBL3775SO.pdf (8 pages)

Current page: 5 of 8
Download datasheet (162Kb)

Figure 5. Output stage with current paths

during turn-on, turn-off and phase shift.

Functional Description

Each channel of the PBL 3775/1

consists of the following sections: an

output H-bridge with four transistors and

four recirculation diodes, capable of

driving up to 750 mA continuous current

to the motor winding,

a logic section that controls the output

transistors, an S-R flip-flop, and a com-

parator. The clock-oscillator is common

to both channels.

by switching the output current to the

windings. This is done by sensing the

peak current through the winding via a

current-sensing resistor R

connected in series with the motor

winding. As the current increases, a

voltage develops across the sensing

resistor, which is fed back to the

comparator. At the predetermined level,

defined by the voltage at the reference

input V

flop, which turns off the upper output

transistor. The turn-off of one channel is

independent of the other channel. The

current decreases until the clock

Motor Current

Constant current control is achieved

R

, the comparator resets the flip-

1

3

Fast Current Decay

Slow Current Decay

1

2

2

V

R

MM

S

S

, effectively

3

Time

Figure 6. Typical stepper motor driver application with PBL 3775/1.

oscillator triggers the flip-flops of both

channels simultaneously, which turns on

the output transistors again, and the

cycle is repeated.

switching transients at turn-on, the

PBL 3775/1 includes a digital filter. The

clock oscillator provides a blanking

pulse which is used for digital filtering of

the voltage transient across the current

sensing resistor during turn-on.

off and phase shift are shown in figure 5.

Applications Information

Current control

The regulated output current level to the

motor winding is determined by the

voltage at the reference input and the

value of the sensing resistor, R

peak current through the sensing

resistor (and the motor winding) can be

expressed as:

I

With a recommended value of 0.5 ohm

for the sensing resistor R

M,peak

To prevent erroneous switching due to

The current paths during turn-on, turn-

= 0.1•V

+5 V

+5 V

GND (V

12 k

4 700 pF

R

14

13

16

10

CC

/ R

9

7

11

)

S

Phase

Dis

V

Phase

Dis

V

RC

R1

R2

0.1 F

1

2

[A]

5,

17, 18

GND

1

2

S

V

6,

, a 2.5 V

CC

12

PBL 3775/1

C

S

1

8

. The

0.47

V

R S

MM1

2

4

E

1

15

C

reference voltage will produce an output

current of approximately 500 mA. R

should be selected for maximum motor

current. Be sure not to exceed the

absolute maximum output current which

is 850 mA. Chopping frequency, winding

inductance and supply voltage also

affect the current, but to much less

extent.

sensing resistor should be a 0.5 - 1.0 W

precision resistor, i. e. less than 1%

tolerance and low temperature

coefficient.

Current sense filtering

the recovery of the recirculation diodes

and the capacitance of the motor

winding. To prevent this spike from

reseting the flip-flops through the

current sensing comparators, the clock

oscillator generates a blanking pulse at

turn-on. The blanking pulse pulse

disables the comparators for a short

time. Thereby any voltage transient

across the sensing resistor will be

ignored during the blanking time.

V

2

At turn-on a current spike occurs, due to

MM2

For accurate current regulation, the

19

0.47

R S

M

M

M

M

21

E

A1

B1

A2

B2

2

0.1 F

3

1

20

22

Pin numbers refer

to DIL package.

GND (V

+

10 F

STEPPER

MOTOR

PBL 3775/1

V

MM

MM

)

S

5

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