Lincoln Electric SVM 122-A service manual Output Mode and CONTROL, Rectification and Feedback

Page 42

Section TOC

Master TOC

E-3

E-3

THEORY OF OPERATION

FIGURE E.3 – OUTPUT MODE AND CONTROL, RECTIFICATION AND FEEDBACK

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CONTROL

TRANSFORMER

POWER

 

 

 

SWITCH

 

 

MAIN

 

 

 

 

 

TRANSFORMER

 

 

R

 

 

 

E

 

 

 

C

 

 

 

O

 

 

 

N

 

 

 

N

 

 

 

E

 

 

 

C

 

 

 

T

 

INPUT

 

 

 

CONTACTOR

 

 

 

 

 

T

115VAC

 

REMOTE

E

S

TO

CONTROL

R

T

CONTROL

 

M

R

BOARD

 

I

I

 

 

N

 

 

P

 

 

A

 

 

L

 

 

 

 

FAN

 

 

 

42VAC

 

 

14 PIN

 

 

AMPHENOL

OUTPUT

ARC FORCE

 

 

 

CONTROL

CONTROL

 

 

 

 

PART OF

 

 

 

 

MODE

 

 

 

 

SWITCH

 

 

 

 

 

 

FEEDBACK

 

CONTROL BOARD

 

 

NEGATIVE

 

 

 

 

OUTPUT

G

S

 

PART

TERMINAL

A

I

 

OF

 

T

G

 

MODE

 

 

SWITCH

 

E

N

 

 

 

 

 

 

A

 

 

 

 

L

 

 

 

 

S

 

 

OUTPUT

 

 

 

 

 

 

 

 

CHOKE

 

 

F

 

 

 

PART

E

 

 

 

OF

E

 

 

 

MODE

D

 

 

 

SWITCH

B

START

 

 

 

A

BOARD

 

 

 

C

 

 

 

 

 

 

OUTPUT

K

 

 

 

 

 

 

 

CAPACITORS

 

 

 

 

 

 

 

POSITIVE

 

 

 

 

OUTPUT

 

 

 

 

TERMINAL

SCR / DIODE

SHUNT

REED

 

SWITCH

 

 

 

HYBRID BRIDGE

 

 

 

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OUTPUT MODE AND CONTROL, RECTIFICATION AND FEEDBACK

The three-phase AC output from the main transformer secondary is rectified and controlled through the SCR/ diode bridge. Output current and voltage is sensed at the shunt and output terminals. This feedback infor- mation is processed in the control board. The control board compares the commands of the Mode Switch, the Arc Force Control (constant current mode only), and the Output Control (or remote control) with the feedback information and sends the appropriate gate firing signals to the SCR/diode bridge.

A “dry closure” of leads #2 and #4, either at the termi- nal strip or the 14 pin amphenol, signals the control board to apply gate firing signals to the SCR/ Diode Bridge, which creates a DC voltage at the output of the bridge assembly. If the Mode Switch is in the constant voltage (FCAW/GMAW) mode, this DC voltage is fil- tered by the Output Capacitors.

The heavy current carrying portion of the Mode Switch is connected between the output choke, which stores energy and provides current filtering, and the negative output terminal. Depending upon the mode selected, different portions of the choke are needed. In the constant current mode (CC), the entire choke is connected into the welding output cir- cuit. When constant voltage (CV) is required, only part of the choke is utilized.

The starting circuit board function is to momentarily change the inductance effect that the choke has on the welding circuit. This is accomplished by changing the amount of “pinch” or arc control windings that are active in the output choke. When weld current is established, the reed switch closes and the start board becomes inactive.

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NOTE: Unshaded areas of Block Logic Diagram are the subject of discussion.

IDEALARC DC-400

LINCOLN ®

ELECTRIC

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Contents Safety Depends on You Idealarc TMDC-400Safety California Proposition 65 WarningsElectric Shock can kill Cylinder may explode if damaged Précautions DE Sûreté Master Table of Contents for ALL Sections Table of Contents Installation Section Installation Technical Specifications Idealarc DC-400Lifting Safety PrecautionsSelect Suitable Location TiltingInput Supply Connections Input ConnectionsGround Connection Electric Shock can killInput Wire and Fuse Size Figure A.3 Input Power Supply ConnectionsReconnect Procedure Input Supply Connection DiagramOutput Connections Figure A.6 Output Terminal ConnectionsWire Feeder Connections Cycle 500 Amp 50% DutyCycle Operation Section Safety Instructions OPERATIONB-2Operating Instructions Operation General DescriptionControls and Settings Figure B.1 Case Front ControlsOperation Welding Operation Remote ControlWelding Procedure Recommendations Operating StepsNA-3 Automatic Wire Feeder ARC Striking with the NA-3 Start BoardNA-5 Automative Wire Feeder LN-8 Semiautomatic Wire FeederAuxiliary Power Overload ProtectionTable of Contents Accessories Field Installed Options OPTIONS/ACCESSORIESFactory Installed Option Diode OptionMultiprocess Switch Operation ConnectionsRemote Output Control K857 with K864 Adapter Plug or K775 Remote Control Adapter Cable K864K843 Amptrol Adapter Installation Instructions Amptrol Adapter Cable K843K843 Amptrol Adapter Installation Instructions Amptrol and Hi-Freq. Kit The Amptrol will startCapacitor Discharge Circuit K828-1 Automatic Wire FeedersConnecting the NA-3 to the Idealarc DC-400 Terminal Strip HI-FREQ KIT K799 for Codes 8634 and Above onlyConnecting the NA-5 to the Idealarc DC-400 Terminal Strip Cable Plug K597-XX Input Cable Assembly Idealarc DC-400 To NA-3 or NA-5 InputSemiautomatic Wire Feeders Connecting the LN-7 to the Idealarc DC-400 14-PIN AmphenolConnecting the LN-7 to the Idealarc DC-400 Terminal Strip Accessories Accessories Figure C.11 Idealarc DC-400/LN-742 Connection Diagram Table of Contents Maintenance Routine and Periodic Maintenance Figure D.1 General Component Locations Table of Contents Theory of Operation Section Contactor and Main Theory of OperationInput Line Voltage TransformerOutput Mode and CONTROL, Rectification and Feedback Protective Devices and Circuits SCR Operation Figure E.4 SCR OperationTable of Contents Troubleshooting & Repair Section Troubleshooting & Repair HOW to USE Troubleshooting GuidePC Board Troubleshooting Procedures PC Board can be damaged by static electricityTroubleshooting Guide Output ProblemsPerform the Main Transformer Rectifier Bridge Test Tifier Bridge Test Output Problems Test Perform the SCR/Diode Rec Tifier Bridge Test Function Problems Form the SCR/Diode Rectifier Welding Problems Portion of your body. Clean Trolyte in these capacitors isToxic. Avoid contact with any Make sure welding process is Input Contactor Test DescriptionMaterials Needed Test Procedure Input Contactor TestTest for Contact Continuity Figure F.2 Input Contactor Test ConnectionsControl Transformer T2 Voltage Test Control Transformer T2 Voltage Test Figure F.3 Control Transformer and Lead LocationsTroubleshooting & Repair Main Transformer T1 Voltage Test Main Transformer T1 Voltage Test Figure F.6 Main Secondary Lead Test Points Troubleshooting & Repair Plug P1 Phase Angle Winding Voltages Figure F.8 Control Board Plug P1 LocationStatic SCR/DIODE Rectifier Bridge Test Static SCR/DIODE Rectifier Bridge Test Figure F.9 Control Board and Snubber Board Plug LocationsSCR Test Active SCR Test Active SCR Test P1 and P3 Locations Plug P5 LocationFigure F.15 Heat Sink Test Points Figure F.16 SCR Tester Circuit and SCR Connections Scope Settings CH1Maximum Output Setting no Load Troubleshooting & Repair Troubleshooting & Repair Troubleshooting & Repair 2V/Div Troubleshooting & Repair Input Contactor CR1 CLEANING/REPLACEMENT Input Contactor CR1 CLEANING/REPLACEMENT Cleaning ProcedureContactor Replacement Procedure FAN Motor and Blade Removal and Replacement FAN Motor and Blade Removal and Replacement ProcedureSCR/DIODE Rectifier Assembly Removal and Replacement SCR/DIODE Rectificer Assembly Removal and ReplacementSCR Removal and Replacement SCR Removal and Replacement Special InstructionsProcedure for the 1/2 Inch Wide Spring Figure F.21 1/2 Wide Leaf SpringClamping Procedure For 1/4-28 CAP Screws Clamping Procedure For 1/4-20 CAP ScrewsProcedure for Inch Wide SpringAfter Replacing the SCRs Mounting of Stud Type Diodes to Aluminum Heat Sinks Mounting of Stud Type Diodes to Aluminum Heat SinksDiode Stud Foot Inch Size Pounds Main Transformer Removal and Replacement Main Transformer Removal & Replacement Removal of Lift BailRemoval of Choke and TOP Iron Assembly Figure F.26 Choke RemovalReassembly of Transformer Coils Figure F.27 Epoxy MIX Application AreasFigure F.28 Coil Lead Placement Figure F.30 Primary Thermostat Location Reassembling the Main Transformer Into the Machine Reassemble the Lift BailRetest After Repair Input volts/Phase/Hertz Maximum Idle Amps Maximum Idle KWMode Input Hertz Open Circuit Volts Input Idle Amps and WattsMaximum Acceptable Output Voltage AT Minimum Ouput Settings Mode Control Settings LoadRetest After Repair Table of Contents Electrical Diagrams Section Idealarc DC400 Wiring Diagram Codes 9847 LOW VoltageWiring Diagram Code Only. It may not be accurate for allControl PC Board G2588 Layout Control DC400Starting PC Board M14520 Layout TP2Snubber PC Board M15370 Layout Control PC Board G2588 Schematic 2586Starting PC Board M14520 Schematic General InformationSnubber PC Board M15370 Schematic General Information
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