PBL37770/1SOS datasheet, PDF - EEWORLD Datasheet

Datasheet> All Categories > Other integrated circuit (IC)> The signal circuit> PBL37770/1SOS

PBL37770/1SOS: DescriptionStepper Motor Controller, 1.8A, BIPolar, PDSO20, SOIC-20; CategoryOther integrated circuit (IC) The signal circuit; File Size137KB，8 Pages; ManufacturerEricsson; Websitehttp://www.ericsson.com

Download Datasheet Parametric Compare View All

PBL37770/1SOS Overview

Stepper Motor Controller, 1.8A, BIPolar, PDSO20, SOIC-20

PBL37770/1SOS Parametric

Parameter Name	Attribute value
Maker	Ericsson
Parts packaging code	SOIC
package instruction	SOP,
Contacts	20
Reach Compliance Code	unknown
ECCN code	EAR99
Analog Integrated Circuits - Other Types	STEPPER MOTOR CONTROLLER
JESD-30 code	R-PDSO-G20
length	12.8 mm
Number of functions	1
Number of terminals	20
Maximum output current	1.8 A
Package body material	PLASTIC/EPOXY
encapsulated code	SOP
Package shape	RECTANGULAR
Package form	SMALL OUTLINE
Certification status	Not Qualified
Maximum seat height	2.65 mm
Maximum supply voltage (Vsup)	5.25 V
Minimum supply voltage (Vsup)	4.75 V
Nominal supply voltage (Vsup)	5 V
surface mount	YES
technology	BIPOLAR
Terminal form	GULL WING
Terminal pitch	1.27 mm
Terminal location	DUAL
width	7.5 mm

PBL37770/1SOS Preview

February 1999

PBL 377 70/1

High Performance

Stepper Motor Drive Circuit

Description

PBL 377 70/1 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 377 17/1 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 3717/2 industry-standard driver.

Two PBL 377 70/1 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 - 60 V.

• Designed for unstabilized motor

supply voltage.

• Current levels can be selected in

steps or varied continuously.

• Thermal overload protection.

VCC

Schmitt

Trigger

Phase

≥1

Time

Delay

≥1

VMM

≥1

B /1

P 70

≥1

Output Stage

–

Monostable

t = 0.69 • R • C

off

T T

0/1

PBL 377 70/1

GND

Current Sensor

16-pin plastic batwing DIP

28-pin plastic PLCC package*

20-pin SOIC-package

Figure 1. Block diagram.

* To be released

PBL 377 70/1

Maximum Ratings

Parameter

Pin no. (refers to DIP)

Symbol

Min

Max

Unit

Voltage

Logic supply

Motor supply

Logic inputs

Comparator input

Reference input

Current

Motor output current

Logic inputs

Analog inputs

Temperature

Operating junction temperature

Storage temperature

3, 14

7, 8, 9

1, 15

7, 8, 9

10, 11

-0.3

-1800

-10

-40

-55

+1800

°C

+150

Recommended Operating Conditions

Parameter

Symbol

Min

Typ

Max

Unit

Logic supply voltage

Motor supply voltage

Motor output current

Operating junction temperature

Rise time logic inputs

Fall time logic inputs

4.75

-1500

-20

5.25

+1500

+125

°C

µs

V CC

Schmitt

Trigger

Time

Delay

≥1

Phase

I OL

≥1

–

Output Stage

Monostable

t = 0.69 • R • C

off

T T

1 kΩ

56 kΩ

820 pF

1Ω

4,5,

–

GND

12,13

VCH

Current Sensor

PBL 377 70/1

Pin no. refers

to DIL package

820 pF

Figure 2. Definition of symbols.

PBL 377 70/1

Electrical Characteristics

Electrical characteristics over recommended operating conditions. C

= 820 pF, R

= 56 kohm.

Parameter

Ref.

Symbol fig. Conditions

Min

Typ

Max

Unit

General

Supply current

Total power dissipation

Turn-off delay

Thermal shutdown junction temperature

Logic Inputs

Logic HIGH input voltage

Logic LOW input voltage

Logic HIGH input current

Logic LOW input current

Analog Inputs

Comparator threshold voltage

Input current

= 20 to 40 V, I

= I

= HIGH.

= 20 to 40 V, I

= I

= LOW,

= 23 kHz

= 28 kHz, I

= 1000mA, V

= 36 V

Note 2, 4.

= 24 kHz, I

= 1000mA, V

= 12 V

Note 2, 4.

= 28 kHz, I

= 1300m A, V

= 36 V

Note 3, 4.

= 28 kHz, I

= 1500mA, V

= 36 V

Note 3, 4.

= +25°C, dV

/dt

≥

50 mV/µs.

1.9

1.7

2.7

3.5

2.3

2.1

3.2

2.5

170

2.0

µs

°C

µA

µs

= 2.4 V

= 0.4 V

= 5.0 V, I

= I

= LOW

= 5.0 V, I

= HIGH, I

= LOW

= 5.0 V, I

= LOW, I

= HIGH

0.8

-0.4

400

240

-20

415

250

430

265

Motor Outputs

Lower transistor saturation voltage

Lower diode forward voltage drop

Upper transistor saturation voltage

Output leakage current

Monostable

Cut off time

off

= 1000mA

= 1300, A

= 1000mA

= 1300m A

= 1000 A

= 1300mA

= I

= HIGH, T

= +25°C

= 10 V, t

≥

µs

0.5

0.8

1.3

1.5

1.1

1.3

0.8

1.3

1.6

1.8

1.3

1.6

100

Thermal Characteristics

Parameter

Ref.

Symbol Fig. Conditions

Min

Typ

Max

Unit

Thermal resistance

Rth

J-BW

DIL package.

Rth

J-A

15 DIL package. Note 2.

Rth

J-BW

PLCC package.

Rth

J-A

15 PLCC package. Note 2.

Rth

J-BW

SO package

Rth

J-A

SO package

°C/W

Notes

1. All voltages are with respect to ground. Currents are positive into, negative out of specified terminal.

2. All ground pins soldered onto a 20 cm

PCB copper area with free air convection. T

= +25°C.

3. DIL package with external heatsink (Staver V7) and minimal copper area. Typical Rth

J-A

= 27.5°C/W. T

= +25°C.

4. Not covered by final test program.

PBL 377 70/1

GND

N/C

B 1

MM 3

GND

CC 8

1 9

Phase

GND

B 1

MM 3

GND

CC 6

1 7

Phase

GND

MM 12

GND

N/C

A 6

N/C

GND

B 10

N/C

PBL

377 70/1SO

PBL

377 70/1N

PBL 377 70/1QN

N/C

Phase

Figure 3. Pin configurations.

Pin Description

SOIC

DIP

PLCC*

Symbol

Description

3, 18

4-7,

14-17

3,14

4-5,

12-13

4,12

1-3,9,

13-17,28

GND

Phase

Motor output B, Motor current flows from M

to M

when Phase is high.

Clock oscillator. Timing pin connect a 56 kΩ resistor and a 820 pF in parallel between T

and Ground.

Motor supply voltage, 10 to 55 V. Pin 3(12) and pin 14(4) should be wired together.

Ground and negative supply. Note these pins are used for heatsinking. Make sure that all

ground pins are soldered onto a suitable large copper ground plane for efficient heat sinking.

Logic voltage supply normally +5 V.

Logic input. It controls, together with the I0 input, the current level in the output stage.

The controlable levels are fixed to 100, 60, 20, 0%.

Controls the direction of the motor current of M

and M

outputs. Motor current flows from

to M

when the phase input is high.

Logic input. It controls, together with the I1 input, the current level in the output stage. The

controlable levels are fixed to 100, 60, 20, 0%.

Comparator input. This input senses the instaneous voltage across the sensing resistor,

filtered through an RC Network.

Reference voltage. Controls the threshold voltage of the comparator and hence the output

current.Input resistance: typically 6.8 kΩ

20%.

Motor output A, Motor current flows from M

to M

when Phase is high.

Common emitter. Connect the Sence resistor between this pin and ground.

* To be released

CC 18

PBL 377 70/1

Functional Description

The PBL 377 70/1 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 M

to M

and low

input from terminal M

to M

. A Schmitt

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

and I

inputs determines the current level

in the motor winding. Three fixed current

levels can be selected according to the

table below.

Motor current

| V

– V

50 %

off

t + t

on off

on +

off

Figure 4. Definition of terms.

current levels. The motor current is

sensed as a voltage drop across the

current sensing resistor, R

, 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 activated 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, t

off

, which is determined by

the timing components R

and C

off

= 0.69 • R

• C

The single pulse switches off the

power feed to the motor winding,

causing the winding to decrease during

off

If a new trigger signal should occur

during t

off

, 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 V

is applied across

the motor winding, the current rise

follows the equation:

= (V

/ R) • (1 - e

-(R

•t)/L

)

High level

Medium level

Low level

Zero current

100%

60%

20%

R = Winding resistance

L = Winding inductance

= time

(see figure 6, arrow 1)

The motor current appears across the

external sensing resistor, R

, as an

analog voltage. This voltage is fed

through a low-pass filter, R

, 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).

The specific values of the different

current levels are determined by the

reference voltage V

together with the

value of the sensing resistor R

The peak motor current can be

calculated as follows:

= (V

• 0.080) / R

[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

More (Only the first 5 pages are displayed. Please Download Datasheet to view the full content.) >

PBL37770/1SOS Related Products

	PBL37770/1SOS	PBL37770/1QNT	PBL37770/1QNS
Description	Stepper Motor Controller, 1.8A, BIPolar, PDSO20, SOIC-20	Stepper Motor Controller, 1.8A, BIPolar, PQCC28, PLASTIC, LCC-28	Stepper Motor Controller, 1.8A, BIPolar, PQCC28, PLASTIC, LCC-28
Maker	Ericsson	Ericsson	Ericsson
Parts packaging code	SOIC	QLCC	QLCC
package instruction	SOP,	QCCJ,	QCCJ,
Contacts	20	28	28
Reach Compliance Code	unknown	unknown	unknown
ECCN code	EAR99	EAR99	EAR99
Analog Integrated Circuits - Other Types	STEPPER MOTOR CONTROLLER	STEPPER MOTOR CONTROLLER	STEPPER MOTOR CONTROLLER
JESD-30 code	R-PDSO-G20	S-PQCC-J28	S-PQCC-J28
length	12.8 mm	11.505 mm	11.505 mm
Number of functions	1	1	1
Number of terminals	20	28	28
Maximum output current	1.8 A	1.8 A	1.8 A
Package body material	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY
encapsulated code	SOP	QCCJ	QCCJ
Package shape	RECTANGULAR	SQUARE	SQUARE
Package form	SMALL OUTLINE	CHIP CARRIER	CHIP CARRIER
Certification status	Not Qualified	Not Qualified	Not Qualified
Maximum seat height	2.65 mm	4.57 mm	4.57 mm
Maximum supply voltage (Vsup)	5.25 V	5.25 V	5.25 V
Minimum supply voltage (Vsup)	4.75 V	4.75 V	4.75 V
Nominal supply voltage (Vsup)	5 V	5 V	5 V
surface mount	YES	YES	YES
technology	BIPOLAR	BIPOLAR	BIPOLAR
Terminal form	GULL WING	J BEND	J BEND
Terminal pitch	1.27 mm	1.27 mm	1.27 mm
Terminal location	DUAL	QUAD	QUAD
width	7.5 mm	11.505 mm	11.505 mm

Recommended Resources

Internal circuit principle of TA8173

Dimming, charging, emergency desk lamp circuit

Touch switch circuit with four dimming states

Small battery charger circuit

Accurate FM tuning indication circuit

Computer motherboard circuit diagram 810 4_01

Do you dare to look at the 2015 bill?: It's 2016 now, Alipay has released the bill for 2015, have you checked it? Are you surprised? Alipay spent so much in one year :pleased:...; newnew0601 Talking

Output voltage problem: I would like to ask an expert about voltage. For example, is the maximum output voltage of 7805 only 5V? Is the maximum output voltage of ur133-1.5 only 1.5V? Thank you. When I use it for constant cur...; fhy.01 Analog electronics

About LCD display subroutine: I would like to ask, does anyone have the subroutine of the PIC16F1397 LCD driver? I need it urgently! If you have it, can you leave me a message? Thank you!...; lc258 stm32/stm8

How to make it display unsuccessful when formatting with FAT?: My device does not support fat format now. If I format it with fat, it will not work properly. But now I can format it successfully with fat on PC. This brings hidden dangers to subsequent operations....; ningwenguo Embedded System

High score help bsp from windows ce 5.0 to 6.0 encountered problems..: After about a week, finally only the driver part is not done, and several drivers have not been compiled. Please give me some advice, and try to get the top score within this week. I will post it imme...; lacky8 Embedded System

[Atria Development Board AT32F421 Review] 1. Unboxing and lighting: [i=s]This post was last edited by ddllxxrr on 2021-4-6 19:59[/i]I received the email this morning and started the review in the evening. First, the photos:The information is at https://pan.baidu.com/s...; ddllxxrr Domestic Chip Exchange

Shortcut: A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 AA AB AC AD AE AF AG AH AI AJ AK AL AM AN AO AP AQ AR AS AT AU AV AW AX AY AZ B0 B1 B2 B3 B4 B5 B6 B7 B8 B9 BA BB BC BD BE BF BG BH BI BJ BK BL BM BN BO BP BQ BR BS BT BU BV BW BX BY BZ C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 CA CB CC CD CE CF CG CH CI CJ CK CL CM CN CO CP CQ CR CS CT CU CV CW CX CY CZ D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 DA DB DC DD DE DF DG DH DI DJ DK DL DM DN DO DP DQ DR DS DT DU DV DW DX DZ

Popular Components