Pulse Width Modulation, Minimum Output | Lincoln Electric SVM150-A

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E-6

E-6

THEORY OF OPERATION

FIGURE E.6 – TYPICAL IGBT OUTPUTS

MINIMUM OUTPUT

2 sec								(Dwell or Off Time)
					48	sec




				50		sec
				50		sec

MAXIMUM OUTPUT

(Dwell or Off Time)

48 sec

50sec

PULSE WIDTH MODULATION

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The term PULSE WIDTH MODULATION is used to describe how much time is devoted to conduction in the cycle. Changing the pulse width is known as MODU- LATION. Pulse Width Modulation (PWM) is the varying of the pulse width over the allowed range of a cycle to affect the output of the machine.

MINIMUM OUTPUT

By controlling the duration of the gate signal, the IGBT is turned on and off for different durations during a cycle. The top drawing shows the minimum output sig- nal possible over a 50-microsecond time period.

The positive portion of the signal represents one IGBT group conducting for 2 microsecond. The dwell time (off time) is 48 microseconds. Since only 2 microseconds of the 50-microsecond time period is devoted to conduct- ing, the output power is minimized.

MAXIMUM OUTPUT

By holding the gate signals on for 48 microseconds and allowing only 2 microseconds of dwell time (off time) during the 50-microsecond cycle, the output is maxi- mized. The darkened area under the top curve can be compared to the area under the bottom curve. The more darkened area under the curve, the more power is present.

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RANGER 250

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Lincoln Electric SVM150-A service manual Pulse Width Modulation, Minimum Output, Maximum Output

Contents

Ranger TM Safety Ranger Electric Shock can kill ARC Rays can burnFumes and Gases can be dangerous Welding Sparks can cause fire or explosion Cylinder may explode if damagedIii Précautions DE Sûreté Sûreté Pour Soudage a L’Arc Master Table of Contents for ALL Sections Table of Contents Installation Section Installation Technical Specifications Ranger 250 K1725-1/K1725-2Weight Speed RPM Safety Precautions Location and Ventilation Additional Safety Precautions Electrical Output Connections Welding Output Cables Figure A.1 Ranger 250 Output Connections Cable Installation Auxiliary Power ReceptaclesStandby Power Connections Cable Cable Size for Amps Length 100% Duty Cycle Figure A.2 Connection of the Ranger 250 to Premises Wiring Table of Contents Operation Section Safety Instructions OperationOperating Instructions Design Features Controls and Settings Engine Controls Figure B.1 Case Front Panel Controls Engine Operation Welding ControlsBefore Starting the Engine Check and fill the engine oil level Starting the Engine Stopping the EngineBREAK-IN Period Welder Operation General InformationTable B.1 Typical Ranger 250 Fuel Consumption Stick Welding Constant Current CC-STICK WeldingPipe Welding Table B.2 Typical Current RANGES1 for Tungsten ELECTRODES2 Auxiliary Power Wire WELDING-CVTIG Welding ARC Gouging Simultaneous Welding and Auxiliary Power Loads Table B.4 Ranger 250 Simultaneous Welding and Power Loads Table of Contents Accessories OPTIONS/ACCESSORIES Field Installed OptionsTIG Welding Accessories Semiautomatic Fcaw and MIG Welding Accessories Connection of Lincoln Electric Wire Feeders Accessories Place the Weld Terminals switch Return to Section TOC To Section TOC Accessories Terminals Remotely Controlled Figure C.7 Ranger 250/LN-742 Connection Diagram Connection of the LN-742 to Ranger 250 see Figure C.7 Ranger Table of Contents Maintenance Routine and Periodic Maintenance Engine Maintenance Table D.2 Onan Engine Maintenance Schedule Frequency Maintenance Required AIR Cleaner Service Air Pre-Cleaner ServiceEngine OIL Change Engine Oil Refill Capacities Air Filter Paper Element Service Spark Plug ServiceFuel Filter Service Engine Adjustment Overspeed is Hazardous Battery Maintenance Cleaning the BatteryCharging the Battery Optional Spark Arrestor WELDER/GENERATOR Maintenance Figure D.1 Major Component Locations Table of Contents Theory of Operation Section Theory of Operation General Description Weld WINDINGS, RECTIFIER, Power Module and Feedback Return to Analog Power Board and Control Board Figure E.4 Analog Power Board and Control Board Insulated Gate Bipolar Transistor Igbt Operation Pulse Width Modulation Minimum OutputMaximum Output Switch 85VDC Diode Chopper Technology Fundamentals Ranger Table of Contents Troubleshooting & Repair Section Troubleshooting & Repair HOW to USE Troubleshooting Guide PC Board Troubleshooting Procedures PC Board can be damaged by static electricity Troubleshooting Guide Observe Safety GuidelinesDetailed in the beginning of this manual Test Stator Voltage Test Engine Function Problems Engine Problems Troubleshooting & Repair Engine Problems Welding Problems Case Cover Removal and Replacement Procedure Test DescriptionMaterials Needed Case Cover Removal and Replacement Procedure Removal ProcedureReplacement Procedure Power Module Capacitor Discharge Procedure Power Module Capacitor Discharge Procedure Test Procedure Idler Solenoid Test Idler Solenoid Test Figure F.3 Idler Solenoid Leads Engine Throttle Adjustment Test Engine Throttle Adjustment Test Strobe-Tach Method Figure F.5 High Idle Adjustment Frequency Counter Method Oscilloscope Method Vibratach Method Rotor Resistance Test Rotor Resistance Test Figure F.7 Rotor Brush Leads Slip Rings Brushes Flashing and Rotor Voltage Test Oil Pressure Switch Test Flashing and Rotor Voltage Test Figure F.9 Field Diode Rectifier Bridge and Filter Capacitor Stator Voltage Tests Stator Voltage Tests To test the 120 VAC windingTo test the 240 VAC winding Field Rectifier Bridge Retaining TAB Cable Capacitor To test the field winding Figure F.12 14-PIN Amphenol PIN Assignments To test the feeder winding Choke To test the stator weld windings Analog Power PC Board Voltage Test Analog Power PC Board Voltage Test Figure F.14 Analog Power PC Board +20 VDC +5 VDC+15 VDC 15 VDC Output Rectifier Bridge Test Output Rectifier Bridge Test Figure F.15 Plug J41 and Resistor R3 Locations When all tests are complete Power Module Test Other PC board components could be faultyDescription Power Module Test Figure F.17 Power Module Connections Tor terminal on the power module chopper Check Igbt for Shorts Figure F.19 Diode Module Test Heat Sink Terminals Check Diode Module Flywheel Alternator Test Flywheel Alternator Test Figure F.20 Plug J51 PIN Location Scope Settings Normal Open Circuit Voltage Waveform 120VAC SupplyHigh Idle no Load Normal Open Circuit Voltage Waveform Stick MAX Control POT High Idle no Load Normal Weld Voltage Waveform Stick CC Machine Loaded to 250 Amps AT 25 Volts Normal Open Circuit Voltage Waveform Wire CV TAP Normal Weld Voltage Waveform Wire CV Machine Loaded to 250 Amps AT 28 Volts Description Power Module Assembly Removal and Replacement ProcedureRemoval Power Module Assembly Removal and ReplacementReplacement Power Module PC Board Removal and Replacement Figure F.22 Diode MODULE/POWER Module Assembly Details Figure F.23 Diode Module Mounting Details Power Capacitor Removal and Replacement Power Capacitor Removal and Replacement Output Rectifier Bridge and Choke Removal and Replacement Output Rectifier Bridge and Choke Output Rectifier Output Choke ENGINE/STATOR/ROTOR Removal and Replacement ENGINE/STATOR/ROTOR Removal and Replacement Engine Preparation and Lead Disconnection Troubleshooting & Repair Figure F.28 Stator Leads Front Panel Stator Lead Disconnection Figure F.29 ENGINE/STATOR/ROTOR Assembly Removal Engine/Stator/Rotor Assembly Removal Procedure Stator/Rotor Assembly Removal Figure F.30 Stator and Rotor Removal Reassembly Notes Rotor/Stator/Engine Reassembly Lead Reconnection Checklist General Notes on Reassembly Auxiliary Power Output Volt Wire Feeder PowerRetest After Repair Engine Output Electrical Diagrams Table of Contents Electrical Diagrams Section Ranger 250 Kohler Wiring Diagram Wiring Diagram Ranger 250 Kohler Ranger 250 Onan Wiring Diagram Wiring Diagram Ranger 250 Onan 4ELECTRICAL DIAGRAMSG-4 Control INTER-CONNECTION Diagram Schematic Complete Machine Output Terminal Schematic Analog Control Power Supply Schematic Battery Printed Circuit Board Schematic Bypass Printed Circuit Board Schematic Chopper Printed Circuit Board 19462 M Schematic Display Printed Circuit Board 24660S Schematic Weld Control Printed Circuit Board Sheet Electrical Diagrams Electrical Diagrams Electrical Diagrams Electrical Diagrams SVM Error Reporting Form