Electrical diagrams, Invertec, Power to board – Lincoln Electric INVERTEC SVM129-B User Manual

Page 122: Sense board, Current, Digital logic, Ramp pinch, Current error amp, B.pt, Analog logic

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G-6

ELECTriCAL DiAGrAMs

iNvErTEC

sTT

& sTT

J28

50V

0.1

C413

+15V_REM

50V

0.1

C411

+15V_REM

REM

METER_2

METER_1

PB_SCALED

J28

15.0K

R437

10.0K

R431

OCI4

Vcc

GND

HP2231

0.01

FILE: G2781_1D1

+PWR

+VIN

-PWR

+VIN

+PWR

-VIN

POWER

BOARD

Input- Current

Feedback

Vac In

COMMON CONNECTION

FRAME CONNECTION

LAST NO. USED

129, 211, 314, 475

165, 242, 345, 564

117, 211, 310, 424

VOLTAGE NET

to Control Panel

Analog Logic I/O

to Control Panel

Analog Logic I/O

C-

D-

R-

SUPPLY

LABELS

1/4W

(UNLESS OTHERWISE SPECIFIED)

UNLESS OTHERWISE SPECIFIED)

200 SERIES- TRIGGER CIRCUIT

100 SERIES- ARC SENSE CIRCUIT

REFERENCE DESIGNATOR SERIES DEFINITIONS

GENERAL INFORMATION

1A, 400V

RESISTORS = Ohms (

MFD

CAPACITORS =

ELECTRICAL SYMBOLS PER E1537

DIODES =

( .022/50V

(SHEET 2)

UNLESS OTHERWISE SPECIFIED)

(SHEET 2)

+15V

COMM

PHA OUTPUT

PHB OUTPUT

ON HOLES SIZES PER E-2056

ON 2 PLACE DECIMALS IS + .O2

UNLESS OTHERWISE SPECIFIED TOLERANCE

3SEC

ARC_START

WITH PUBLISHED STANDARDS

ON 3 PLACE DECIMALS IS + .OO2

ON ALL ANGLES IS + .5 OF A DEGREE
MATERIAL TOLERANCE ("t") TO AGREE

Ch'ge.Sht.No.

+5.1V

-PWR

-VIN

J28

39
20V

C469

2N4401

J27

J28

33.2K

R485

X18

J27

J28

X22

Remote
Control

J27

J28

Darlington

Drive- Output

STT CONTROL

Q10

POWER SUPPLY SOURCE POINT

SCHEMATIC (Sheet 1 of 2)

DZ20

EARTH GROUND CONNECTION

OCI7

SHT.
NO.

X36

SUP'S'D'G.

04/12/94

SCALE

DATE

NONE

CLEVELAND, OHIO U.S.A.

DR.

MLD

300 SERIES- DIGITAL LOGIC CIRCUIT
400 SERIES- ANALOG LOGIC CIRCUIT

THE LINCOLN ELECTRIC CO.

SUBJECT

CHK.

EQUIP.

(SHEET 1)

TYPE

(SHEET 1)

NAND

10K

N.A. SINCE COMPONENTS OR CIRCUITRY ON A PRINTED CIRCUIT BOARD MAY CHANGE

NUMBER.

WITHOUT AFFECTING THE INTERCHANGEABILITY OF A COMPLETE BOARD, THIS DIAGRAM MAY

NOTES :

NOT SHOW THE EXACT COMPONENTS OR CIRCUITRY OF CONTROLS HAVING A COMMON CODE

PINCH SLOW RAMP

COMMAND SIGNAL

BALL

PINCH KNEE

KEEP_ALIVE LEVEL

PINCH FAST RAMP

BACKGND

P_BOOST

PINCH RAIL

RAMP

FUSE

KEEP_ALIVE LEVEL

TAILOUT

BACKGND

OFF

J27

C453

100K

R496

X30

10.0K

R536

100

R481

MILD

> .045 DIA WIRE

< .035 DIA WIRE

CURRENT FEEDBACK

1V/100A

WIRE TYPE SELECT

WIRE SIZE SELECT

SENSE
BOARD

1014

NAND

+15V POWER SUPPLY FOR

DIGITAL, TRIGGER & ANALOG SECTIONS

10K

STAINLESS

18 VAC

lm350

1014

INTEGRATOR

CURRENT

COUNTER

DUAL FF

PWM

POWER PLANE

COUNTER

GROUND PLANE

X35

1.0

35V

C423

X36

332K

R522

X35

10.0K

R510

68.1K

R513

J27

200V

.33

C464

47.5K

R519

10V

DZ9

1.0
35V

C412

R526

10.0

R466

.25

R467

X25

SG3846

10V

DZ20

1N914

D412

2.5V

10K

POWER

POTS

CONTROL

10 VDC

REMOTE_POTS

+15V

C461

2.67K

R544

75.0

R504

100

R489

J27

X33

TL431

REF

SS_WIRE

1.0
35V

C404

2.67K

R545

1.0
35V

C402

2.67K

R406

12V

DZ11

1.0

35V

C446

1.0

35V

C460

1.0

35V

C400

C401

D407

100

R404

+15V

12V

DZ10

D400

C403

12V

DZ18

10.0K

R403

2.67K

R546

/PB_LOCAL

NAND

+15V

2N4401

/ARC

X14

10K

R320

OCI1

HP2231

LT1014

X24

4066B

X30

LM2901

X23

50V

0.1

C459

1N4936

D303

50V

0.1

C427

100V

330p

C306

+15V

/PINCH

/PWM_SYNC

NAND

/Q2

VDD

SET 2

CLOCK 2

/Q1

CLOCK 1

VSS

RESET 1

MC14013B

SET 1

RESET 2

X19

50V

0.1

C428

3.92K

R457

X17

X14

100V

330p

C305

OCI3

HP2231

4.75K

R319

OCI3

HP2231

4.75K

R318

X16

+15V

ARC_START

/PWM_SYNC

START_RESET

NAND

PINCH SIGNAL
TO FE (SHEET 2)
FOR ENERGY
CONTROL OPTION

"DIGITAL LOGIC"

GROUND PLANE

BALL_OR_FUSE

NAND

OP AMP

NAND

POWER PLANE

COMPARATOR

SWITCH

ENABLE (SHEET 2)

ENERGY CONTROL OPTION

PINCH LATCH

P_BOOST ONLY AFTER

P_BOOST TIME (SHEET 2)

ENERGY CONTROL OPTION

H = A>100

V=ARC

KEEP IN P_BOOST

UNTIL ARC STARTS

X16

150K

R422

SLOW RAMP

Q8
2N4401

3.32K

R426

GND

SYNC

X25

V+

Vref

CLIM

OUTB

COMP

I-

I+

V-

OUTA

SHUT

Vin

SG3846

P_BOOST COMMAND

C473

L= .035

H= .045

( SHEET 2 )

Verror

X22

100

R405

1us MIN PULSEWIDTH

15.0K

R453

3us MAX DEADTIME

10K

R425

1N4936

D401

500

1.00K

R427

47.5K

R419

100K

R424

100A/ms

RAMP

PINCH

1014

X21

1.00K

R428

X24

100V

47p

C410

475K

R421

47.5K

R420

100K

R416

X21

X31

X21

20V

C465

15.0K

R410

1000A/ms

FAST RAMP

50V

.018

C418

CURRENT
ERROR AMP

GENERATOR

WAVEFORM

SAWTOOTH

1.8

20V

C419

2N4401

COMMAND

6.81K

R411

100V

100p

C472

Q10

2N4401

47.5K

R409

COMMAND

LOCAL_POTS

+15V

+5.1V

LOCAL

+15V

NAND

MC14538B

TIMER

OP AMP

GROUND PLANE

LM224

375us

+5 VOLT

POWER

METER

2.5V

LM224

POWER PLANE

2.67K

R508

10.0K

R527

X34

X26

TL431

REF

1.0

35V

C448

D413

C314

X34

C463

10.0K

R528

12V

DZ19

10.0

R484

10.0

R483

1.0
35V

C462

4093B

X11

50V

0.1

C433

50V

0.1

C432

50V

0.1

C467

50V

0.1

C466

LT1014

X35

4093B

X12

MC14538B

X10

50V

0.1

C445

LM224

X34

50V

0.1

C443

50K

R301

4.7

35V

C440

+15V

J28

50V

0.1

C439

50V

0.1

C442

50V

0.1

C456

50V

0.1

C441

MC14040

X32

MC14040

X20

1N4007

D307

1400V

.0047

C310

243

R337

1000

35V

C311

C312

1N4007

D308

J28

2.67K

R541

500

2.67K

R543

2.67K

R542

100

20V

C313

MC14013B

X19

1N4007

D306

1N4007

D309

ADJ

OUT

s18395-23

D310

X23

100K

OCI6

HP2231

X22

1N4936

D302

1N914

D424

X31

10.0K

R444

X36

4.75K

R537

100

R525

D402

100V

330p

C471

D410

PRI_FB

PB_START

+15V

ARC

+15V

PINCH

CFB

+15V

PINCH

PWM_EN

1014

NAND

1014

PB_START SIGNAL
TO FE (SHEET 2)
FOR ENERGY
CONTROL OPTION

( SHEET 2 )

1014

OVERCURRENT

TRIP TIMING

X30

LOCAL

P BOOST

X21

X24

10K

.294V

1014

2901

PINCH LIMIT

500A MAX

)

PINCH COMMAND

2901

B.PT

LM224

"ANALOG LOGIC"

X34

8.25K

R530

15.0K

R550

1.00K

R532

X23

15.0K

R407

10K

R414

X23

10K

R412

50V

.0047

C407

X24

200

R413

/HOT_START

LOCAL_POTS

PB_SCALED

X34

1.0
35V

C409

15V

DZ12

100K

R471

47.5K

R415

OCI2

HP2231

4093B

X13

10.0K

R540

RST

4.75K

R302

GROUND PLANE

POWER PLANE

NAND

OP AMP

FROM FE (SHEET 2)

ARC/SHORT DETECT

C300

ARC

+15V

/BALL

PINCH

METER_1

METER_2

+15V

REMOTE

PWM_EN

RAMP

+5.1V

P BOOST

OUTA

+15V

OUTB

10.0K

R539

10.0K

R529

OCI4

HP2231

OCI4

HP2231

OCI5

HP2231

100V

330p

C470

X29

50V

.0047

C422

50V

.0047

C414

OCI5

HP2231

D419

X22

50V

820p

C416

D418

D404

4.75K

R468

C415

D417

RST

X10

OCI4

HP2231

OCI4

HP2231

/ARC

+15V

/RAMP

RAMP

START_RESET

LM224

RAMP IN

P BOOST

120us

+1.42V

CURRENT LEVEL

"KEEP ALIVE"

SCALED_BGND

PWM OUTPUT

TO FRONT END

( SHEET 2 )

CIRCUIT

ISOLATED

(SHEET 2)

332

R430

D405

DARLINGTON

/DON_MIN

150us MIN

ON TIME

COUNTER

NAND

DON_MIN

X15

VDD

Q12

MC14040

VSS

Q11

Q10

X20

X15

X16

4.75K

R557

50V

0.1

C307

RST

X10

1N4936

D421

1N4936

D301

10.0K

R325

1.00K

R345

DISABLE OPTION TO START

NAND

H= OPTION ENABLED
L= NO OPTION

4.75K

R323

1N4936

D422

4.75K

R322

1N4936

D420

LM224

X29

BOOST TIME LIMIT

50V

0.1

C458

1.3 msec PLASMA

NAND

PWM_SYNC

OP AMP

/PB_OPTION

+15V

PINCH

PB_START

+15V

NAND

10.0K

R324

1.0

35V

C309

50V

0.1

C308

/HOT_START

ARC_START

+15V

H= OPTION PB TIME
L= LOCAL PB TIME

X31

X15

OCI2

Vcc

GND

HP2231

50V

0.1

C429

50V

0.1

C425

4066B

X31

10K

R455

/RESET

CFB

RESET

+5.1V

OUTA OUTB

50V

0.1

C426

X12

SWITCH

X14

10K

R316

10.0K

R310

PWM

2901

1V=100A

NAND

3.1V

1014

RST

X35

X17

15.0K

R554

C304

4066B

X22

50V

0.1

C457

CFB

/PINCH

+5.1V

+15V

OVERCURRENT TRIP

X35

+15V

FUSE

+15V

50V

0.1

C438

DV/DT

NAND

FROM FE (SHEET 2)

DV/DT LEVEL DETECT

4093B

X18

4093B

X14

4066B

X21

4093B

X36

X11

X16

D305

OCI1

HP2231

50V

0.1

C468

D300

FUSE

+15V

PINCH

ARC

+15V

NAND

FUSE GEN.

DV/DT

1ms

REPETITIOUS

PINCH LIMITER

COUNTER

FORCES THIRD CONSECUTIVE

PINCH TO BREAK INTO ARC

DV/DT KILLER

NAND

SWITCH

NAND

BALL

/KILLER

KILL_RC

NAND

PINCH KILLER Varc
ADJUST FE (SHEET 2)

NAND

KILLER

KILL_START

750us

/KILLER

BALL_OR_FUSE

NAND

4.75K

R340

OCI2

HP2231

50V

0.1

C434

50V

0.1

C435

50V

0.1

C436

50V

0.1

C444

50V

0.1

C437

4093B

X17

4093B

X16

4093B

X15

VDD

Q12

MC14040

VSS

Q11

Q10

X32

X17

C302

X13

2N4401

X11

10.0K

R333

4.75K

R305

X13

100V

330p

C303

10K

R314

2N4403

X13

4.75K

R334

X11

50V

2700p

C475

4.75K

R306

332K

R562

X12

5.62K

R303

100V

100p

C301

X36

D411

X12

10.0K

R509

1N914

D423

X11

X28

150K

R524

100K

R559

12Vdc

CR1

/RESET

/ARC

PINCH

+15V

/BALL

/PINCH

ARC

/RESET

+15V

+5.1V

+15V

FUSE

START

FUSE_RESET

NAND

AMPS>100

NAND

/ARC

NAND

BALL_DELAYED

OUTPUT DISABLE

OVERCURRENT

/BALL_DELAYED

/(BALL & SHORT)

OVERCURRENT FAULT

( SHEET 2 )

TO TRIGGER CIRCUIT

ARC

RESET
PULSE

NAND

/BALL_RC

NAND

/KILLER

2901

NAND

/ARC

NAND

/RESET

NAND

150us FUSE ENTRY

ARC KILLER PULSE

1N4936

D416

X17

X13

ARC

/RAMP

+15V

SHORT OR 500K POT

500K

TAIL OUT

BACKGROUND COMMAND

NAND

INCREASE TAILOUT

DURING HOT START

10.0

R434

82.5K

R443

C406

267K

R490

10.0K

R435

D414

X31

1.00M

10.0K

R445

50V

0.1

C450

50V

2700p

C417

D409

X24

D403

REMOTE_POTS

X29

/HOT_START

+15V

HOT_START

REMOTE

+15V

ARC_START

1.0

35V

C447

D408

HOT_START

REMOTE

LOCAL

DURING HOT START

11% BACKGROUND INCREASE

LM224

Unused Devices

LM224

TIMING

HOT START

GENERATOR

10K

LM224

J27

100

R491

J27

2.67K

R547

2.67K

R549

10.0

R492

2.67K

R548

100

R493

J27

2.67K

R495

X29

20.0K

R498

150K

R497

D415

12V

DZ16

X30

C455

C454

+15V

D406

12V

DZ15

10.0K

R478

12V

DZ17

1.0
35V

C452

X29

1.0

35V

C451

C449

C405

+15V

X23

10K

R328

2N4401

J28

D304

X18

J28

100

R470

50V

0.1

C424

OCI3

Vcc

GND

HP2231

+15V

/PB_OPTION

/PB_LOCAL

P BOOST

SS_WIRE

+15V

OPTO

H = STAINLESS

L = MILD

L=DISABLE LOCAL PB TIME

ISOLATOR

BOARD

2901

H= OPTION PB TIME

15V

DZ8

TO FE (SHEET 2)
FOR ENERGY CONTROL
OPTION

WIRE TYPE POSITION

X18

+5.1V

L=DISABLE OPTION PB TIME

DARL. DRIVE

OCI6

HP2231

100

R433

50V

0.1

C430

X18

5-19-95

5-24-96E

2781-A

-A

G-6

schematic - Control PC Board - Codes 10151 - 11092 - (G2781 sheet 1 of 2)

NOTE:

Lincoln Electric assumes no responsibility for liablilities resulting from board level troubleshooting. PC Board repairs will invalidate your factory warranty. individual Printed Circuit Board Components are not available from Lincoln Electric. This information is provided
for reference only. Lincoln Electric discourages board level troubleshooting and repair since it may compromise the quality of the design and may result in danger to the Machine Operator or Technician. Improper PC board repairs could result in damage to the machine.

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