Lincoln Electric SVM192-A service manual Perform the Rotor Voltage Test

Page 40

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F-4

TROUBLESHOOTING AND REPAIR

F-4

Observe Safety Guidelines detailed in the beginning of this manual.

PROBLEMS

 

POSSIBLE AREAS OF

RECOMMENDED

(SYMPTOMS)

 

MISADJUSTMENT(S)

COURSE OF ACTION

 

 

 

 

 

 

 

OUTPUT PROBLEMS

 

 

Major Physical or Electrical Damage

1.

Contact your local Lincoln

1. Contact The Lincoln Electric

is Evident.

 

Authorized Field Service Facility.

Service Dept. 1-888-935-3877.

No weld output and no auxiliary

1.

Check the brushes for wear and

1. Perform the Rotor Voltage Test.

power. Engine runs normally.

 

proper contact to the rotor slip

2. Check

for the presence of

 

 

rings.

12VDC (at the pc board) from

 

 

 

 

 

 

lead #216 to frame ground. This

 

 

 

is the “flashing” voltage and is

 

 

 

present only when the Start,

 

 

 

Run, Stop switch S3 is in the

 

 

 

“Start” position. If the 12 VDC is

 

 

 

missing check the leads, switch-

 

 

 

es and

connections assoc ated

 

 

 

w th the lead #216. See Wiring

 

 

 

Diagram.

 

 

 

Check for the presence of 12

 

 

 

VDC (at the pc board) from lead

 

 

 

#224 to frame ground. This is

 

 

 

the supply voltage to the board

 

 

 

and is present when the engine

 

 

 

is running and the S3 switch is in

 

 

 

the “Run” position. If the 12VDC

 

 

 

is missing check the leads,

 

 

 

switches and connections asso-

 

 

 

ciated with the lead #224. See

 

 

 

Wiring Diagram.

3. If Rotor Voltage Test is normal,Rotor

Resistanceth pr formTest. the

4. If the Rotor Voltage TestAuxiliaryis NOT andnormal,FieldperformWindingthe Voltage Test. Then check the Field Diode Bridge (D2) and the Field

Capacitor (C1). Replace if nec- essary. If the Field Bridge and Field Capacitor are good, then the Printed Circuit Board may be faulty. Replace.

CAUTION

If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, contact the Lincoln Electric Service Department for technical troubleshooting assistance before you proceed. Call 1-888-935-3877.

EAGLE™ 10,000

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Contents Eagle 10,000 ISAFETYi Eagle 10,000Safety Electric Shock can kill ARC Rays can burnFumes and Gases Can be dangerousPowered equipment Welding CuttingCylinder may explode Sparks can cause fire or If damaged ExplosionPrécautions DE Sûreté Sûreté Pour Soudage a L’ArcMaster Table of Contents for ALL Sections Table of Contents Installation Section Technical Specifications Eagle 10,000 K2343-1,K2343-2 InstallationHeight Width Depth Weight Safety Precautions Machine GroundingSpark Arrester TowingVehicle Mounting Fuel Gasoline Fuel onlyFollow vehicle manufacturer’s instructions Do not overfill tank, fuel expansion may cause overflowAdditional Safety Precautions High Altitude Operation Angle of OperationLifting Location / VentilationConnection of Lincoln Electric Wire Feeders Additional Safety PrecautionsInstructions Welder OperationAuxiliary Power 120/240 Volt Dual Voltage ReceptacleDuplex Receptacles Motor StartingElectrical Device USE with the Eagle 10,000 These Devices WithoutAdditional Resistive Type LoadsAuxiliary Power While Welding Simultaneous Welding and PowerStandby Power Connections Connection diagram shown Eagle 10,000Connection of Eagle 10,000 to Premises Wiring Figure A.1Table of Contents Operation Section Engine Switch OperationGeneral Description Welder Controls Function and OperationRange Switch OPERATIONB-3Eagle 10,000 Approximate Fuel Consumption Control DialSTARTING/SHUTDOWN Instructions BREAK-IN PeriodStarting the Engine Stopping the EngineWire Feed Welding Processes Welding ProcessTIG Constant Current Welding ARC GougingTypical Current Ranges 1 for Tungsten ELECTRODES2 Summary of Welding ProcessesTable of Contents Accessories Section Optional Equipment Field Installed AccessoriesK1745-1 GAS Cylinder Holder Wire Feed Recommended EquipmentPlasma Cutting Stick TIG WeldingEagle 10,000 Table of Contents Maintenance Section Maintenance Safety PrecautionsEngine OIL Change Engine OIL Refill CapacitiesAIR Cleaner and Other Maintenance OIL Filter ChangeEngine Adjustments Figure D.1 Major Component Locations Eagle 10,000 1TABLE of CONTENTS-THEORY of Operation Section E-1 BATTERY, STARTER, ENGINE, ROTOR, STATOR, and Idler Solenoid Theory of OperationRotor Field Feedback Auxiliary Power Figure E.3 Rotor Field Feedback and Auxiliary PowerWeld WINDING, REACTOR, and Range Switch Output BRIDGE, CHOKE, and Output Terminals1TABLE of Contents Troubleshooting and Repair F-1 2TROUBLESHOOTING and REPAIRF-2 HOW to USE Troubleshooting GuideTroubleshooting and Repair PC Board Troubleshooting ProceduresPerform the Rotor Voltage Test Problems Possible Areas Symptoms Misadjustments Recommended Course of ActionProblems Symptoms Possible Areas MisadjustmentsRotor Voltage2. PTestrform Engine Problems Wiring Charging Circuit Test BridgePerformTestthe. Output Rectifier Eagle 10,000 Test Description Rotor Voltage TestMaterials Needed Remove the case top, then reinstall the fuel cap Test ProcedureRotor Voltage Test Rotor Resistance Test Rotor Resistance Test Remove the case top, then replace the fuel capTroubleshooting and Repair Eagle 10,000 Auxiliary and Field Winding Test To test the 115 VAC winding Auxiliary and Field Winding TestTo test the 230 VAC winding To test the field winding Eagle 10,000 Output Rectifier Bridge Test Output Rectifier Bridge Test Figure F.4 Location of Output Rectifier LeadsCharging Circuit Test Charging Circuit Test Figure F.5 Location of Voltage RegulatorEngine Throttle Adjustment Test Engine Throttle Adjustment Test Strobe-tach MethodFigure F.7 Frequency Counter MethodEngine Throttle Adjustment Test Oscilloscope Method Vibratach MethodNormal Open Circuit Voltage Waveform 115VAC Supply Scope SettingsHigh Idle no Load Output Control AT Maximum Machine Loaded Typical DC Weld Output Waveform CC ModeMachine Loaded to 200 Amps AT 26 VDC Abnormal Open Circuit DC Weld Voltage Waveform Normal Open Circuit DC Weld Voltage Waveform CC Mode Brush Removal and Replacement Brush Removal and Replacement ProcedureSlip Rings Figure F.9 Brush LEADS/BRUSHES Retained with Cable TIEEagle 10,000 Printed Circuit Board Removal Replacement Replacement Printed Circuit Board RemovalTroubleshooting and Repair Eagle 10,000 43TROUBLESHOOTING and REPAIRF-43 Output Rectifier Bridge Removal Replacement44TROUBLESHOOTING and REPAIRF-44 Output Rectifier Bridge Removal45TROUBLESHOOTING and REPAIRF-45 Eagle 10,000 ENGINE/ROTOR Removal and Replacement InstructionsENGINE/ROTOR Removal and Replacement Figure F.12 Component LOCATIONS, ENGINE/ROTOR RemovalEngine and Rotor Removal Procedure Rotor Removal Procedure Figure F.13 Engine and Rotor Removed from Stator THRU-BOLTReassembly Procedure Replacement KIT S20788ENGINE/ROTOR Removal Auxiliary Power Receptacle OUTPUT1 Retest After RepairEngine Output Welder DC OUTPUT1Table of Contents Diagram Section Electrical Diagrams Eagle 10,000 KohlerWiring Diagram Code 11397 M21271 Schematic Complete Machine Code 11096 L12259 TerminalSchematic Complete Machine Code 11397 L13104 Torroid Core located onSchematic IDLER/FIELD Control P.C. Board L12197

SVM192-A specifications

Lincoln Electric's SVM192-A is a standout model in the sphere of welding machines, renowned for its advanced technology and versatility, making it a preferred choice among welding professionals and industrial applications. This single-phase inverter-based machine balances performance and portability, providing users with a reliable solution for a variety of welding tasks.

One of the key features of the SVM192-A is its capacity to perform multiple welding processes. It supports MIG, TIG, and stick welding, which allows users to switch between different techniques depending on the project requirements. This multi-functionality enhances the machine's utility, making it viable for various applications ranging from home projects to professional fabrication works.

The SVM192-A is equipped with Lincoln Electric’s proprietary technologies, including the advanced inverter technology, which ensures high efficiency and power output while maintaining a compact size. This inverter technology not only improves arc stability but also reduces power consumption and heat generation, making it a more eco-friendly option.

Key characteristics of the SVM192-A include a user-friendly digital display that provides clear settings for amperage, voltage, and other parameters, enabling precise control during welding. The machine also features a robust construction, designed to withstand tough working environments, ensuring longevity and minimal downtime.

Moreover, the SVM192-A incorporates safety features designed to protect the user and the machine, including overcurrent and thermal overload protection. This prioritization of safety ensures a worry-free operation, allowing welders to focus on their craft without the distraction of potential hazards.

Portability is another significant advantage of the SVM192-A. Weighing in at a lightweight design, it is easy to transport, making it ideal for mobile operations or jobs that require moving the equipment frequently.

In summary, the Lincoln Electric SVM192-A embodies versatility, efficiency, and durability, making it an exceptional choice for both novice and experienced welders. Its ability to handle multiple welding processes, combined with advanced technologies and user-friendly features, positions it as a top contender in the welding equipment market, suitable for a wide range of applications in various sectors.
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