Generac Power Systems 5412, 5411, 5413, 5415 Simple AC Generator, More Sophisticated AC Generator

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Section 1

GENERATOR FUNDAMENTALS

A Simple AC Generator

Figure 1-4 shows a very simple AC Generator. The generator consists of a rotating magnetic field called a ROTOR and a stationary coil of wire called a STATOR. The ROTOR is a permanent magnet which consists of a SOUTH magnetic pole and a NORTH magnetic pole.

As the ROTOR turns, its magnetic field cuts across the stationary STATOR. A voltage is induced Into the STATOR windings. When the magnet’s NORTH pole passes the STATOR, current flows in one direc- tion. Current flows in the opposite direction when the magnet’s SOUTH pole passes the STATOR. This con- stant reversal of current flow results in an alternating current (AC) waveform that can be diagrammed as shown in Figure 1-5.

The ROTOR may be a 2-pole type having a single NORTH and a single SOUTH magnetic pole. Some ROTORS are 4-pole type with two SOUTH and two NORTH magnetic poles. The following apply:

1.The 2-pole ROTOR must be turned at 3600 rpm to produce an AC frequency of 60 Hertz, or at 3000 rpm to deliver an AC frequency of 50 Hertz.

2.The 4-pole ROTOR must operate at 1800 rpm to deliver a 60 Hertz AC frequency or at 1500 rpm to deliver a 50 Hertz AC frequency.

STATOR

ROTOR

MAGNETIC FIELD

Figure 1-4. – A Simple AC Generator

 

CURRENT

VOLTAGE

(+)

 

 

0

180

360

(-)

 

 

 

ONE CYCLE

 

Figure 1-5. – Alternating Current Sine Wave

A More Sophisticated AC Generator

Figure 1-6 represents a more sophisticated generator. A regulated direct current is delivered into the ROTOR windings via carbon BRUSHES AND SLIP RINGS. This results in the creation of a regulated magnetic field around the ROTOR. As a result, a regulated volt- age is induced into the STATOR. Regulated current delivered to the ROTOR is called “EXCITATION” cur- rent.

OUTPUT

120 V

STATOR STATOR

 

 

 

 

 

 

240 V

 

 

 

 

 

 

 

 

 

AC

120 V

 

 

 

 

 

 

 

 

 

 

 

 

 

CURRENT

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

BRUSHES

 

 

 

 

 

 

 

 

DC

 

 

 

SLIP

 

 

 

 

 

 

RINGS

Figure 1-6. – A More Sophisticated Generator

See Figure 1-7 (next page). The revolving magnet- ic field (ROTOR) is driven by the engine at a con- stant speed. This constant speed is maintained by a mechanical engine governor. Units with a 2-pole rotor require an operating speed of 3600 rpm to deliver a 60 Hertz AC output. Engine governors are set to maintain approximately 3720 rpm when no electrical loads are connected to the generator.

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Contents Diagnostic Repair Manual Safety Table of Contents Section Electrical Data 78-79 Magnetism Electromagnetic FieldsElectromagnetic Induction Simple AC Generator More Sophisticated AC GeneratorGenerator Operating Diagram Field Boost Generator AC Connection SystemConnection for 120 Volts Only Rotor Assembly Stator AssemblyBrush Holder Excitation Circuit ComponentsCrankcase Breather DescriptionControl Panel Component Identification Control Panel ComponentsInsulation Resistance Testers Cleaning the GeneratorEffects of Dirt and Moisture Drying the GeneratorStator Insulation Resistance Testing Rotor Insulation Testing Rotor InsulationTesting Stator Insulation MegohmmeterMeasuring AC Voltage MetersVOM Measuring DC VoltageMeasuring Current Measuring ResistanceElectrical Units Ohm’s LawIntroduction Operational AnalysisCircuit Condition Cranking Circuit Condition Running Circuit Condition Shutdown Battery Cables BatteryRecommended Battery Printed Circuit BoardStart-Stop Switch Amp FuseStart-Stop Switch Starter Contactor Relay Starter MotorIf Problem Involves AC Output Problem 1 Voltage & Frequency Are Both High or LowTest Troubleshooting Flowcharts Proble 5 Priming Function Does Not Work Gasoline Models Problem 6 Engine Will Not Crank Test 26 Check Test 20 Check Check Fuel Wire 14 Power Good Troubleshooting Flowcharts Problem 8 Engine Starts Hard and Runs Rough Gasoline Units Problem 8 Engine Starts Hard and Runs Rough LP Units LOW OIL Pressure Flashes on SW1 LED Problem 10 7.5A F1 Fuse Blowing YESTest 2 Check Stepper Motor Control ProcedureTest 1 Check No-Load Voltage Frequency DiscussionSix Pin J2 Connector Wire Colors Test 4 Fixed Excitation Test/Rotor Amp DrawFixed Excitation Test, Step B Test 5 Check Field Boost Test 6 Test Stator DPE WindingTest 7 Check Sensing Leads / Power Windings Stator Excitation WindingStator Power Winding Leads Test 8 Check Brush LeadsTest 10 Check Rotor Assembly Test 9 Check Brushes & Slip RingsTest 12 Check Load Voltage Frequency SchematicTest 11 Check Main Circuit Breaker Test 13 Check Load Watts AmperageTest 14 Try Cranking the Engine Test 15 Check Fuel PumpTest 17 Check Battery & Cables Test 18 Check Power Supply to Printed Circuit BoardTest 16 Check 7.5 Amp Fuse Test 19 Check Continuity of Wire Test 20 Check Start-Stop SwitchTest 21 Check Power Supply to Wire Test 22 Check Starter Contactor RelayTest 23 Check Starter Contactor Test 24 Check Starter MotorChecking the Pinion PinionTools for Starter Performance Test Minimum rpm 4500 Maximum Amps Test 25 Check Fuel Supply To Carburetor GASTest 26 Check Wire 14 Power Supply 29. Fuel RegulatorTest 27 Check Wire Test 28 Check Fuel Solenoid Gasoline ModelsTest 29 Check Ignition Spark Tools RequiredTwo Ignition Testers Generac P/N 0C5969Test 31 Check and Adjust Ignition Magnetos Test 30 Check Spark Plugs37. Setting Ignition Magneto Armature Air Gap Test 32 Check Valve Adjustment Checking Flywheel MagnetFlywheel KEY Test 33 Check Carburetion Test 34 Check Choke SolenoidTo Control Solenoid PanelTest 36 Check Oil Pressure Switch Test 37 Check Wire 86 for Continuity Test 38 Test Oil Temperature SwitchTest 39 Check Wire 85 for Continuity Test 40 Test Choke HeaterTest 41 Check LPG Fuel Solenoid Section Exploded Views QTY Description Enclosure Drawing No G3881-C Enclosure Door Views Screw Plastite HI-LOW #10X3/8 Engine Accessories Drawing No G7718-B QTY Description 48,49 Square Head Plug Rotor & Stator Drawing No G3953-b NUT TOP Lock FL M8-1.25 Charts Generator Specifications Nominal Resistances of Generator Windings at 68fElectrical Data Electrical Data OG7515 REV. a

5410, 5414, 5415, 5413, 5411 specifications

Generac Power Systems has established itself as a leading manufacturer of backup power solutions, particularly known for its range of generators designed for both residential and commercial use. Among their noteworthy products are the Generac models 5412, 5411, 5413, 5415, and 5414. Each of these generators showcases innovative technologies and features that enhance reliability, efficiency, and ease of use.

The Generac 5412 is a versatile model equipped with a robust 10 kW output, making it suitable for powering essential home appliances during outages. It operates using a 1.0 L engine that runs on natural gas or propane, providing flexibility in fuel options. The Quiet-Test feature is a notable characteristic, as it allows for a self-test at a reduced volume, minimizing noise disruptions during routine checks.

Moving to the Generac 5411, this generator offers a higher output capacity of 13 kW. It integrates advanced load management technology, which ensures that power is allocated efficiently among connected devices. This model also features a Mobile Link remote monitoring system, enabling users to check generator status and performance from anywhere via a smartphone app.

The Generac 5413 is tailored for larger residential needs, delivering an impressive 16 kW output. It boasts a durable all-weather aluminum enclosure designed for longevity against the elements. The 5413's integrated wifi connectivity allows for real-time monitoring and alerts, ensuring that homeowners are always informed of their generator's operating status.

For those seeking a balance of power and efficiency, the Generac 5415 offers 20 kW of output while maintaining a compact design. This model is enriched with the patented G-Flex technology, allowing it to adjust engine speed based on the load requirements, thereby conserving fuel and reducing noise levels. Additionally, the 5415 comes with an intuitive user interface for effortless operation and programming.

Finally, the Generac 5414 rounds out the lineup with its strong 24 kW capability. This model is particularly known for its Smart Management modules, which facilitate the safe and efficient distribution of power. Its intuitive design also includes a user-friendly control panel for straightforward operation, ensuring that homeowners, regardless of technical expertise, can utilize the system effectively.

In summary, Generac Power Systems’ 5412, 5411, 5413, 5415, and 5414 generators exemplify advanced power technology, tailored for reliability and user convenience. Whether for essential home functions or more extensive power needs, these models provide effective solutions to ensure that homes remain powered during outages.