Kohler 14RES, 20RES, 14RESL, 20RESL Installation Manual

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Page 1

Installation

Residential/Commercial Generator Sets

Models:

14/20RES

14/20RESL

Controller:

RDC Residential Digital Controller

DC Digital Controller

TP-6733 8/11a

Page 2

California Proposition 65

WARNING

Engine exhaust from this product contains chemicals known to the State of California to cause cancer, birth defects, or other reproductive harm.

Product Identification Information

Generator Set Identification Numbers

Record the product identification numbers from the generator set nameplate(s).

Model Designation

Specification Number

Serial Number

Accessory Number Accessory Description

Engine Identification

Record the product identification information from the engine nameplate.

Manufacturer

Model Designation

Serial Number

Controller Identification

Record the controller description from the generator set operation manual, spec sheet, or sales invoice.

Controller Description

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Table of Contents

Product Identification Information 2............................................................

Safety Precautions and Instructions 5........................................................

Introduction 9...............................................................................

Startup and Registration 9.....................................................

Service Assistance 10........................................................................

Section 1 Installation 11......................................................................

1.1 General 11..............................................................

1.2 Lifting 11...............................................................

1.3 Generator Set Inspection 11...............................................

1.4 Location and Mounting 11.................................................

1.4.1 Exhaust Requirements 11.........................................

1.4.2 Mounting Area 12................................................

1.5 Dimension Drawings 12...................................................

1.6 Fuel Requirements 17....................................................

1.6.1 Fuel Supply 17..................................................

1.6.2 Fuel Pipe Size 17................................................

1.7 Fuel Conversion 18......................................................

1.7.1 Fuel Conversion, 14RES/RESL 20.................................

1.7.2 Fuel Conversion, 20RES/RESL 21.................................

1.8 Electrical Connections 22.................................................

1.8.1 Electrical Lead Entry 22...........................................

1.8.2 Power Supply 22.................................................

1.8.3 Field-Connection Terminal Block 23................................

1.8.4 Grounding 25....................................................

1.8.5 Battery Charger 25...............................................

1.9 Controller Fuse F3 25....................................................

1.10 Battery 26...............................................................

1.11 Accessories 28..........................................................

1.11.1 Regulator Heater 28..............................................

1.11.2 Carburetor Heater 29.............................................

1.12 Prestart Installation Check 30..............................................

1.13 Set Exerciser 30.........................................................

1.14 Controller Configuration 31................................................

1.14.1 Firmware Version Number 31......................................

1.14.2 System Parameters 31............................................

1.14.3 RDC Controller Configuration 32...................................

1.15 Voltage and Frequency Adjustments, RDC Controller 32......................

1.15.1 Voltage Adjustment 34............................................

1.15.2 Frequency Adjustment 34.........................................

Section 2 Wiring Diagrams 35................................................................

Appendix A Abbreviations 41..................................................................

Appendix B Electrical Lead Entry Template 43...................................................

TP-6733 8/11 Table of Contents 3

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Notes

TP-6733 8/114

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Safety Precautions and Instructions

IMPORTANT SAFETY INSTRUCTIONS.

Electromechanical equipment, including generator sets, transfer switches, switchgear, and accessories, can cause bodily harm and pose life-threatening danger when improperly installed, operated, or maintained. To prevent accidents be aware of potential dangers and act safely. Read and follow all safety precautions and instructions. SAVE THESE INSTRUCTIONS.

This manual has several types of safety precautions and instructions: Danger, Warning, Caution, and Notice.

DANGER

Danger indicates the presence of a hazard that will cause severe

personal injury, death,or substantial property damage.

WARNING

Warning indicates the presence of a hazard that can cause severe

personal injury, death, or substantial property damage.

CAUTION

Caution indicates the presence of a hazard that will or can cause minor personal injury or property damage.

NOTICE

Notice communicates installation, operation, or maintenance information that is safety related but not hazard related.

Safety decals affixed to the equipment in prominent places alert the operator or service technician to potential hazards and explain how to act safely. The decals are shown throughout this publication to improve operator recognition. Replace missing or damaged decals.

Accidental Starting

WARNING

Accidental starting. Can cause severe injury or death.

Disconnect the battery cables before working on the generator set. Remove the negative (--) lead first when disconnecting the battery. Reconnect the negative (--) lead last when reconnecting the battery.

Disabling the generator set. Accidental starting can cause severe injury or death. Before

working on the generator set or connected equipment, disable the generator set as follows: (1) Move the generator set master switch to the OFF position. (2) Disconnect the power to the battery charger. (3) Remove the battery cables, negative (--) lead first. Reconnect the negative (--) lead last when reconnecting the battery. Follow these precautions to prevent starting of the generator set by an automatic transfer switch, remote start/stop switch, or engine start command from a remote computer.

Battery

WARNING

Sulfuric acid in batteries. Can cause severe injury or death.

Wear protective goggles and clothing. Battery acid may cause blindness and burn skin.

WARNING

Explosion. Can cause severe injury or death. Relays in the battery charger cause arcs or sparks.

Locate the battery in a well-ventilated area. Isolate the battery charger from explosive fumes.

Battery electrolyte is a diluted sulfuric acid. Battery acid can cause severe injury or death. Battery acid

can cause blindness and burn skin. Always wear splashproof safety goggles, rubber gloves, and boots when servicing the battery. Do not open a sealed battery or mutilate the battery case. If battery acid splashes in the eyes or on the skin, immediately flush the affected area for 15 minutes with large quantities of clean water. Seek immediate medical aid in the case of eye contact. Never add acid to a battery after placing the battery in service, as this may result in hazardous spattering of battery acid.

Battery acid cleanup. Battery acid can cause severe injury or death.

Battery acid is electrically conductive and corrosive. Add 500 g (1 lb.) of bicarbonate of soda (baking soda) to a containerwith4L(1gal.)ofwaterand mix the neutralizing solution. Pour the neutralizing solution on the spilled battery acid and continue to add the neutralizing solution to the spilled battery acid until all evidence of a chemical reaction (foaming) has ceased. Flush the resulting liquid with water and dry the area.

TP-6733 8/11 5Safety Precautions and Instructions

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Battery gases. Explosion can cause severe injury or death. Battery gases

can cause an explosion. Do not smoke or permit flames or sparks to occur near a battery at any time, particularly when it is charging. Do not dispose of a battery in a fire. To prevent burns and sparks that could cause an explosion, avoid touching the battery terminals with tools or other metal objects. Remove all jewelry before servicing the equipment. Discharge static electricity from your body before touching batteries by first touching a grounded metal surface away from the battery. To avoid sparks, do not disturb the battery charger connections while the battery is charging. Always turn the battery charger off before disconnecting the battery connections. Ventilate the compartments containing batteries to prevent accumulation of explosive gases.

Battery short circuits. Explosion can cause severe injury or death.

Short circuits can cause bodily injury and/or equipment damage. Disconnect the battery before generator set installation or maintenance. Remove all jewelry before servicing the equipment. Use tools with insulated handles. Remove the negative (--) lead first when disconnecting the battery. Reconnect the negative (--) lead last when reconnecting the battery. Never connect the negative (--) battery cable to the positive (+) connection terminal of the starter solenoid. Do not test the battery condition by shorting the terminals together.

Engine Backfire/Flash Fire

WARNING

Fire. Can cause severe injury or death.

Servicing the air cleaner. A sudden backfire can cause severe injury or death. Do not operate the generator

set with the air cleaner removed.

Servicing the fuel system. A flash fire can cause severe injury or death.

Do not smoke or permit flames or sparks near the carburetor, fuel line, fuel filter, fuel pump, or other potential sources of spilled fuels or fuel vapors. Catch fuels in an approved container when removing the fuel line or carburetor.

Combustible materials. A fire can cause severe injury or death.

Generator set engine fuels and fuel vapors are flammable and explosive. Handle these materials carefully to minimize the risk of fire or explosion. Equip the compartment or nearby area with a fully charged fire extinguisher. Select a fire extinguisher rated ABC or BC for electrical fires or as recommended by the local fire code or an authorized agency. Train all personnel on fire extinguisher operation and fire prevention procedures.

Exhaust System

WARNING

Carbon monoxide. Can cause severe nausea, fainting, or death.

The exhaust system must be leakproof and routinely inspected.

Generator set operation. Carbon monoxide can cause severe nausea, fainting, or death. Carbon monoxide

is an odorless, colorless, tasteless, nonirritating gas that can cause death if inhaled for even a short time. Avoid breathing exhaust fumes when working on or near the generator set. Never operate the generator set inside a building. Never operate the generator set where exhaust gas could seep inside or be drawn into a potentially occupied building through windows, air intake vents, or other openings.

Carbon monoxide detectors. Carbon monoxide can cause severe nausea, fainting, or death. Install

carbon monoxide detectors on each level of any building adjacent to the generator set. Locate the detectors to adequately warn the building’s occupants of the presence of carbon monoxide. Keep the detectors operational at all times. Periodically test and replace the carbon monoxide detectors according to the manufacturer’s instructions.

Carbon monoxide symptoms. Carbon monoxide can cause severe nausea, fainting, or death. Carbon

monoxide is a poisonous gas present in exhaust gases. Carbon monoxide is an odorless, colorless, tasteless, nonirritating gas that can cause death if inhaled for even a short time. Carbon monoxide poisoning symptoms include but are not limited to the following:

D Light-headedness, dizziness D Physical fatigue, weakness in

joints and muscles

D Sleepiness, mental fatigue,

inability to concentrate or speak clearly, blurred vision

D Stomachache, vomiting, nausea If experiencing any of these symptoms and carbon monoxide poisoning is possible, seek fresh air immediately and remain active. Do not sit, lie down, or fall asleep. Alert others to the possibility of carbon monoxide poisoning. Seek medical attention if the condition of affected persons does not improve within minutes of breathing fresh air.

Do not smoke or permit flames or sparks near fuels or the fuel system.

TP-6733 8/116 Safety Precautions and Instructions

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Fuel System

Hazardous Noise

CAUTION

WARNING

Explosive fuel vapors. Can cause severe injury or death.

Use extreme care when handling, storing, and using fuels.

The fuel system. Explosive fuel vapors can cause severe injury or death. Vaporized fuels are highly

explosive. Use extreme care when handling and storing fuels. Store fuels inawell-ventilatedareaawayfrom spark-producing equipment and out of the reach of children. Never add fuel to the tank while the engine is running because spilled fuel may ignite on contact with hot parts or from sparks. Do not smoke or permit flames or sparks to occur near sources of spilled fuel or fuel vapors. Keep the fuel lines and connections tight and in good condition. Do not replace flexible fuel lines with rigid lines. Use flexible sections to avoid fuel line breakage caused by vibration. Do not operate the generator set in the presence of fuel leaks, fuel accumulation, or sparks. Repair fuel systems before resuming generator set operation.

Gas fuel leaks. Explosive fuel vapors can cause severe injury or death. Fuel leakage can cause an

explosion. Check the LP vapor gas or natural gas fuel system for leakage by using a soap and water solution with the fuel system test pressurized to 6--8 ounces per square inch (10--14 inches water column). Do not use a soap solution containing either ammonia or chlorine because both prevent bubble formation. A successful test depends on the ability of the solution to bubble.

CAUTION

Hazardous noise. Can cause hearing loss.

Never operate the generator set without a muffler or with a faulty exhaust system.

Engine noise. Hazardous noise can cause hearing loss. Generator sets

not equipped with sound enclosures can produce noise levels greater than 105 dBA. Prolonged exposure to noise levels greater than 85 dBA can cause permanent hearing loss. Wear hearing protection when near an operating generator set.

Hazardous Voltage/ Moving Parts

WARNING

Hazardous voltage. Can cause severe injury or death.

Operate the generator set only when all guards and electrical enclosures areinplace.

WARNING

Hazardous voltage. Backfeed to the utility system can cause property damage, severe injury, or death.

If the generator set is used for standby power, install an automatic transfer switch to prevent inadvertent interconnection of standby and normal sources of supply.

Moving parts.

Welding the generator set. Can cause severe electrical equipment damage.

Never weld components of the generator set without first disconnecting the battery, controller wiring harness, and engine electronic control module (ECM).

Grounding electrical equipment. Hazardous voltage can cause severe injury or death. Electrocution

is possible whenever electricity is present. Ensure you comply with all applicable codes and standards. Electrically ground the generator set, transfer switch, and related equipment and electrical circuits. Turnoff the main circuit breakers of all power sources before servicing the equipment. Never contact electrical leads or appliances when standing in water or on wet ground because these conditions increase the risk of electrocution.

Welding on the generator set. Can cause severe electrical equipment damage. Before welding on the

generator set perform the following steps: (1) Remove the battery cables, negative (--) lead first. (2) Disconnect all engine electronic control module (ECM) connectors. (3) Disconnect all generator set controller and voltage regulator circuit board connectors. (4) Disconnect the engine batterycharging alternator connections. (5) Attach the weld ground connection close to the weld location.

Connecting the battery and the battery charger. Hazardous voltage can cause severe injury or death.

Reconnect the battery correctly, positive to positive and negative to negative, to avoid electrical shock and damage to the battery charger and battery(ies). Have a qualified electrician install the battery(ies).

TP-6733 8/11 7Safety Precautions and Instructions

Page 8

Short circuits. Hazardous voltage/current can cause severe injury or death. Short circuits can

cause bodily injury and/or equipment damage. Do not contact electrical connections with tools or jewelry while making adjustments or repairs. Remove all jewelry before servicing the equipment.

Electrical backfeed to the utility. Hazardous backfeed voltage can cause severe injury or death. Install

a transfer switch in standby power installations to prevent the connection of standby and other sources of power. Electrical backfeed into a utility electrical system can cause severe injury or death to utility personnel working on power lines.

Hot Parts

WARNING

Hot engine and exhaust system. Can cause severe injury or death.

Do not work on the generator set until it cools.

Servicing the exhaust system. Hot parts can cause severe injury or death. Do not touch hot engine parts.

The engine and exhaust system components become extremely hot during operation.

Notice

NOTICE

Canadian installations only.For standby service connect the output of the generator set to a suitably rated transfer switch in accordance with Canadian Electrical Code, Part 1.

Heavy Equipment

WARNING

Unbalanced weight. Improper lifting can cause severe injury or death and equipment damage.

Do not use lifting eyes. Lift the generator set using lifting bars inserted through the lifting holes on the skid.

Servicing the engine heater. Hot parts can cause minor personal injury or property damage. Install the

heater before connecting it to power. Operating the heater before installation can cause burns and component damage. Disconnect power to the heater and allow it to cool before servicing the heater or nearby parts.

TP-6733 8/118 Safety Precautions and Instructions

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This manual provides installation instructions for Residential/Commercial model 14/20RES or 14/20RESL generator sets. See Figure 1. Refer to TP-6734, Operation Manual, for generator set operation and maintenance instructions.

The generator set is approved for use in stationary applications in locations served by a reliable utility power source.

Have an authorized distributor/dealer install the generator set outdoors according to the instructions in this manual. The generator set installation must comply with the National Electrical Code (NEC) and local code requirements. Do not install this generator set indoors.

Information in this publication represents data available at the time of print. Kohler Co. reserves the right to change this publication and the products represented without notice and without any obligation or liability whatsoever.

Read this manual and carefully follow all procedures and safety precautions to ensure proper equipment operation and to avoid bodily injury. Read and follow the Safety Precautions and Instructions section at the beginning of this manual.

Introduction

zaa28533

Figure 1 14/20RES/RESL Generator Set

Startup and Registration

When the generator set is installed, complete the startup and installation checklists supplied with the startup notification form. Complete and sign the startup notification form and register the unit using the Kohler online Warranty Processing System.

TP-6733 8/11 9

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Service Assistance

For professional advice on generator set power requirements and conscientious service, please contact your nearest Kohler distributor or dealer.

D Consult the Yellow Pages under the heading

Generators—Electric.

D Visit the Kohler Power Systems website at

KohlerPower.com.

D Look at the labels and stickers on your Kohler product

or review the appropriate literature or documents included with the product.

D Call toll free in the US and Canada 1-800-544-2444.

D Outside the US and Canada, call the nearest regional

office.

Headquarters Europe, Middle East, Africa (EMEA)

Kohler Power Systems 3 rue de Brennus 93200 Saint Denis France Phone: (33) 1 49 178300 Fax: (33) 1 49 178301

Asia Pacific

Power Systems Asia Pacific Regional Office Singapore, Republic of Singapore Phone: (65) 6264-6422 Fax: (65) 6264-6455

China

North China Regional Office, Beijing Phone: (86) 10 6518 7950

(86) 10 6518 7951 (86) 10 6518 7952

Fax: (86) 10 6518 7955

East China Regional Office, Shanghai Phone: (86) 21 6288 0500 Fax: (86) 21 6288 0550

India, Bangladesh, Sri Lanka

India Regional Office Bangalore, India Phone: (91) 80 3366208

(91) 80 3366231

Fax: (91) 80 3315972

Japan, Korea

North Asia Regional Office Tokyo, Japan Phone: (813) 3440-4515 Fax: (813) 3440-2727

Latin America

Latin America Regional Office Lakeland, Florida, USA Phone: (863) 619-7568 Fax: (863) 701-7131

TP-6733 8/1110

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Section 1 Installation

1.1 General

Have an authorized distributor/dealer install the generator set outdoors according to the instructions in this manual. Do not install this generator set indoors.

Use the specifications provided here only in the initial planning. Use the generator set and transfer switch dimension drawings and wiring diagrams for installation.

1.2 Lifting

WARNING

Unbalanced weight. Improper lifting can cause severe injury or death and equipment damage.

Do not use lifting eyes. Lift the generator set using lifting bars inserted through the lifting holes on the skid.

Model Weight, kg (lb.)

14RES/RESL 186 (410)

20RES/RESL 227 (500)

Figure 1-1 Approximate Weights

Approximate generator set weights are shown in Figure 1-1. Use lifting bars inserted through the holes in the skid to lift the unit. See the dimension drawings on the following pages for lifting hole locations.

1.3 Generator Set Inspection

Complete a thorough inspection of the generator set. Check for the following:

1. Inspect the generator set for loose or damaged parts or wires. Repair or tighten any loose parts before installation.

2. Check the engine oil. Fill, if necessary, with the recommended viscosity and grade of oil. Use synthetic oil, API (American Petroleum Institute) Service Class SG or higher. See TP-6734, Operation Manual, for additional information.

1.4 Location and Mounting

See the dimension drawings on the following pages for the generator set dimensions and fuel and electric inlet locations. The drawing dimensions are shown in millimeters, with inches in brackets.

Install the generator set outdoors. Provide the minimum clearance around the generator set shown in the clearance drawings on the following pages. Locate the generator set so that the hot exhaust does not blow on plants or other combustible materials. Do not install the generator set where exhaust gas could accumulate and seep inside or be drawn into a potentially occupied building.

1.4.1 Exhaust Requirements

WARNING

TP-6733 8/11 11Section 1 Installation

Carbon monoxide. Can cause severe nausea, fainting, or death.

The exhaust system must be leakproof and routinely inspected.

Generator set operation. Carbon monoxide can cause severe nausea, fainting, or death. Carbon monoxide is an

odorless, colorless, tasteless, nonirritating gas that can cause death if inhaled for even a short time. Avoid breathing exhaust fumes when working on or near the generator set. Never operate the generator set inside a building. Never operate the generator set where exhaust gas could seep inside or be drawn into a potentially occupied building through windows, air intake vents, or other openings.

Page 12

The exhaust system is complete for generator sets installed outdoors. Do not install this generator set indoors.

Figure 1-2 gives the exhaust temperature at rated load. The engine exhaust mixes with the generator set cooling air at the exhaust end of the enclosure. Mount the generator set so that the hot exhaust does not blow on plants or other combustible materials. Maintain the clearances shown in Figure 1-7 in Section 1.5.

Temperature,

Exhaust

Exhaust gas exiting the enclosure at rated kW, _C(_F)

_C(_F)

260 (500)

Figure 1-2 Exhaust Flow and Temperature

The generator set requires correct air flow for cooling and combustion. The inlet and outlet openings in the sound enclosure provide the cooling and combustion air. Figure 1-3 shows the locations of the cooling air intake and exhaust vents. Inspect the air inlet and outlet openings inside and outside the housing to ensure that the air flow is not blocked.

REAR VIEW

1. Air intake

2. Exhaust outlet

tp6733

Figure 1-3 Cooling Air Intake and Exhaust

1.4.2 Mounting Area

The generator set is shipped on a plastic mounting pad. Prepare a flat, level mounting area covered with a weed barrier and gravel or a concrete mounting pad. Set the plastic mounting pad directly on the gravel or concrete. Do not install the mounting pad directly on grass, wood, or other combustible materials. See Figure 1-7 in Section 1.5.

The generator set is designed to operate with all enclosure panels and internal baffling in place. If during installation, maintenance or repair the unit must be operated without the complete enclosure and baffling as shipped from the factory make sure the exhaust panel is removed as well.

1.5 Dimension Drawings

The generator set dimension drawings are shown on the following pages.

TP-6733 8/1112 Section 1 Installation

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Figure 1-4 Dimension Drawing ADV-8423, Sheet 1

TP-6733 8/11 13Section 1 Installation

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Figure 1-5 Dimension Drawing ADV-8423, Sheet 2

TP-6733 8/1114 Section 1 Installation

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Figure 1-6 Dimension Drawing ADV-8423, Sheet 3

TP-6733 8/11 15Section 1 Installation

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Figure 1-7 Dimension Drawing ADV-8423, Sheet 4

TP-6733 8/1116 Section 1 Installation

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1.6 Fuel Requirements

The generator set operates using natural gas or LP vapor fuel. The generator set is EPA-certified for both natural gas and LP vapor fuels.

The fuel system installation must comply with the NEC and local codes.

1.6.1 Fuel Supply

Because of variable climates and geographical considerations, contact the local fuel supplier for fuel system planning and installation. Figure 1-8 lists the recommended fuel ratings and other fuel supply information for natural gas and LP vapor fuels.

Natural

Fuel type

Gas

Fuel supply inlet 1/2 NPT

Fuel supply pressure, kPa (in. H

O),

1.3--2.7 (5--11)

Fuel flow rate, maximum, Btu/hr.:

14RES/RESL 193,000 203,000

20RES/RESL 281,000 340,000

Nominal Fuel Rating, Btu/ft.

Natural gas 1000

LP vapor 2500

Figure 1-8 Fuel Supply

Verify that the output pressure from the primary gas utility (or LP tank) pressure regulator is 1.7--2.7 kPa (7--11 in. water column) and that the utility gas meter flow rate is sufficient to supply the generator set at rated load plus all other gas-consuming appliances. See

Vapor

1.7--2.7 (7--11)

Figure 1-10 for fuel consumption. Contact the fuel supplier for flow rate information or a gas meter upgrade.

The dimension drawing in Section 1.5 shows the location of the fuel inlet connection. Use flexible sections to prevent fuel line breakage caused by vibration. Hold the fuel solenoid valve with a wrench when tightening the fuel connections. Protect all fuel lines from machinery or equipment contact, adverse weather conditions, and environmental damage.

1.6.2 Fuel Pipe Size

Ensure that the fuel pipe size and length meet the specifications in Figure 1-9. Measure the pipe length from the primary gas pressure regulator to the pipe connection on the generator set fuel inlet. Add 2.4 m (8 ft.) to the measured length for each 90 degree elbow. Compare the total pipe length with the chart in Figure 1-9 to find the required pipe size.

Contact local LP provider for LP installation information.

Minimum Gas Pipe Size Recommendation, in. NPT

14RES/RESL 20RES/RESL

Pipe

Length,

m (ft.)

8 (25) 3/4 3/4 1 3/4

15 (50) 1 3/4 1 1

30 (100) 1 1 11/4 1

46 (150) 11/4 1 11/4 11/4

61 (200) 11/4 1 11/4 11/4

Natural

Gas

(193,000

Btu/hr.)

LP Vapor

(203,000

Btu/hr.)

Figure 1-9 Fuel Pipe Size Recommendations

Natural

Gas

(281,000

Btu/hr.)

LP Vapor

(340,000

Btu/hr.)

Fuel Type % Load

100%

Natural Gas

LP Vapor

LP vapor conversion factors:

8.58 ft.

0.535 m

36.39 ft.

=1lb.

=1kg

= 1 gal.

75%

50%

25%

100%

75%

50%

25%

Figure 1-10 Fuel Consumption

TP-6733 8/11 17Section 1 Installation

Fuel Consumption, m3/hr. (cfh)

14RES/RESL 20RES/RESL

60 Hz 50 Hz 60 Hz 50 Hz

5.4 (193) 4.9 (175) 8.0 (281) 6.4 (225)

4.7 (163) 4.2 (148) 6.9 (243) 5.4 (189)

3.5 (124) 3.1 (108) 4.6 (161) 3.9 (139)

2.6 (93) 2.4 (84) 3.6 (127) 2.9 (103)

2.3 (81) 2.1 (74) 3.9 (136) 2.9 (102)

2.1 (75) 1.9 (68) 3.1 (109) 2.4 (85)

1.8 (60) 1.5 (53) 2.3 (82) 1.8 (63)

1.2 (45) 1.1 (40) 1.7 (59) 1.3 (47)

Nominal fuel rating:

Natural gas: 37 MJ/m LP vapor: 93 MJ/m

(1000 Btu/ft.3)

(2500 Btu/ft.3)

Page 18

1.7 Fuel Conversion

The multi-fuel system allows conversion from natural gas to LP vapor (or vice-versa) in the field while maintaining emissions-standard compliance. A trained technician or an authorized distributor/dealer can convert the fuel system.

Figure 1-11 shows the fuel system components. Figure 1-12 shows the revised fuel system.

Disabling the generator set. Accidental starting can cause severe injury or death. Before working on the

generator set or connected equipment, disable the generator set as follows: (1) Move the generator set master switch to the OFF position. (2) Disconnect the power to the battery charger. (3) Remove the battery cables, negative (--) lead first. Reconnect the negative (--) lead last when reconnecting the battery. Follow these precautions to prevent starting of the generator set by an automatic transfer switch, remote start/stop switch, or engine start command from a remote computer.

WARNING

Accidental starting. Can cause severe injury or death.

WARNING

Explosive fuel vapors. Can cause severe injury or death.

Use extreme care when handling, storing, and using fuels.

TP-6733 8/1118 Section 1 Installation

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(Enlarged to show detail)

1. Regulator

2. Fuel block (not shown; see Figure 1-13) or LP orifice location (see Figure 1-15)

3. Regulator vent hose (20RES/RESL only)

Figure 1-11 Original Fuel System

GM66563

4. Fuel solenoid valve and digital spark advance ignition (DSAI) leads

5. Fuel inlet, 1/2 in. NPT female

DSAI Lead Connection

GM80110

1. Regulator

2. Fuel block (not shown; see Figure 1-13) or LP orifice location (see Figure 1-15)

3. Fuel solenoid valve and digital spark advance ignition (DSAI) leads

4. Fuel inlet, 1/2 in. NPT female

DSAI Lead Connection

Figure 1-12 Revised Fuel System

TP-6733 8/11 19Section 1 Installation

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1.7.1 Fuel Conversion, 14RES/RESL

Two fuel connections on the fuel block allow fieldconversion between natural gas and LP vapor. The fuel metering valves are factory-set and sealed to comply with applicable emission standards and to provide the best possible hot and cold starting.

Note: Do not adjust the factory-sealed fuel-metering

adjustments on the fuel block. Changing the fuelmetering adjustments may violate federal or state laws.

Use the following procedure to convert from natural gas (NG) to LP vapor. The procedure includes moving the fuel connection from the natural gas to the LP port, plugging the natural gas port, and disconnecting the leads for the digital spark advance ignition (DSAI). See Figure 1-11 or Figure 1-12 for the fuel system component locations.

Procedure to convert from NG to LP, 14RES/RESL

1. Press the OFF button on the generator set controller and remove the F3 fuse (located in the service access area).

2. Disconnect the power to the battery charger.

Natural gas setup shown

GM66563

1. Fuel block

2. Fuel metering valves—factory-sealed, do not adjust

3. Fuel inlet, 1/2 in. NPT

4. Hose fitting

5. Plug

Figure 1-13 Fuel Block, 14RES/RESL

13. Reconnect the generator set engine starting battery leads, negative (--) lead last.

3. Disconnect the generator set engine starting battery, negative (--) lead first.

4. Turn off the fuel supply.

5. Remove the hose clamp and fuel hose from the hose fitting in the fuel block. See Figure 1-13.

6. Remove the hose fitting from the natural gas outlet port in the fuel block. See Figure 1-13.

7. Remove the plug from the LP port in the fuel block. See Figure 1-13.

8. Clean the plug with a dry cloth or brush, apply fresh pipe sealant, and install the plug into the natural gas outlet port.

9. Clean the hose fitting with a dry cloth or brush, apply fresh pipe sealant to the threads, and install the fitting into the LP port.

Note: Do not adjust the fuel metering valves.

10. Slide the hose onto the hose fitting and secure it with the clamp.

14. Reconnect power to the battery charger.

15. Install the F3 fuse and start the generator set by pressing the RUN button on the generator set controller.

16. Check for leaks using a gas leak detector.

17. Run the generator set and check the operation. Use the controller to adjust the output and stability if necessary. See Section 1.15 for instructions.

18. Press the OFF button to to shut down the generator set.

Conversion from LP to Natural Gas

To convert from LP vapor to natural gas, follow the fuel conversion procedure above, moving the hose fitting to the natural gas port and plugging the LP port. Connect the DSAI leads for natural gas. See Figure 1-14.

Fuel DSAI Leads 65 and N

Natural Gas Connect lead 65 to N

LP Disconnect

11. Disconnect the DSAI leads for LP. The DSAI leads are located near the fuel solenoid valve. See Figure 1-11 or Figure 1-12.

12. Connect and turn on the new fuel supply.

Figure 1-14 DSAI Connection

TP-6733 8/1120 Section 1 Installation

Page 21

1.7.2 Fuel Conversion, 20RES/RESL

For LP vapor fuel, an orifice is used in the fuel line. The unit is typically shipped set up for natural gas, with the loose orifice tied near the fuel solenoid valve. To convert to LP vapor, install the orifice and disconnect the spark advance leads as described below. See Figure 1-15 for the fuel system component locations.

Procedure to Convert from NG to LP, 20RES/RESL

Note: LP setup

shown

1. Press the OFF button on the generator set controller and remove the F3 fuse (located in the service access area).

2. Disconnect the power to the battery charger.

3. Disconnect the generator set engine starting battery, negative (--) lead first.

4. Turn off the fuel supply.

5. Remove the hose clamp and fuel hose from the hose fitting. See Figure 1-15.

6. Insert the orifice into the hose fitting. See Figure 1-15.

7. Slide the hose onto the hose fitting and secure it with the clamp.

8. Disconnect digital spark-advance module (DSAI) leads 65 and N5 for LP. The DSAI leads are located near the fuel solenoid valve. See Figure 1-11 or Figure 1-12.

9. Connect and turn on the new fuel supply.

10. Reconnect the generator set engine starting battery leads, negative (--) lead last.

11. Reconnect power to the battery charger.

12. Reinstall fuse F3 and start the generator set by pressing the RUN button on the generator set controller.

GM66563

1. LP orifice

2. Hose fitting

3. Regulator

4. Fuel inlet, 1/2 in. NPT female

5. Vent hose

Figure 1-15 Fuel Regulator and LP Orifice,

20RES/RESL

13. Check for leaks using a gas leak detector.

14. Run the generator set and check the operation. Use the controller to adjust the output and stability if necessary. See Section 1.15 for instructions.

15. Press the OFF button to shut down the generator set.

Conversion from LP to Natural Gas

To convert from LP vapor to natural gas, remove the fuel orifice and connect the DSAI leads together.

Fuel DSAI Leads 65 and N

Natural Gas Connect lead 65 to N

LP Disconnect

Figure 1-16 DSAI Connections

TP-6733 8/11 21Section 1 Installation

Page 22

1.8 Electrical Connections

1.8.1 Electrical Lead Entry

WARNING

Hazardous voltage. Backfeed to the utility system can cause property damage, severe injury, or death.

If the generator set is used for standby power, install an automatic transfer switch to prevent inadvertent interconnection of standby and normal sources of supply.

Grounding electrical equipment. Hazardous voltage can cause severe injury or death. Electrocution is possible

whenever electricity is present. Ensure you comply with all applicable codes and standards. Electrically ground the generator set, transfer switch, and related equipment and electrical circuits. Turn off the main circuit breakers of all power sources before servicing the equipment. Never contact electrical leads or appliances when standing in water or on wet ground because these conditions increase the risk of electrocution.

Electrical backfeed to the utility. Hazardous backfeed voltage can cause severe injury or death. Install a transfer

switch in standby power installations to prevent the connection of standby and other sources of power. Electrical backfeed into a utility electrical system can cause severe injury or death to utility personnel working on power lines.

NOTICE

Canadian installations only. For standby service connect the output of the generator set to a suitably rated transfer switch in accordance with Canadian Electrical Code, Part 1.

Have an authorized distributor/dealer or a licensed electrician make the following electrical connections. The electrical installation must comply with the National Electrical Code (NEC) class 1 wire designation and all applicable local codes. Canadian installations must comply with the Canadian Electrical Code (CEC) and applicable local codes.

Ground the generator set from the GRD terminal inside controller compartment according to applicable codes.

Drill or punch holes in the enclosure for the electrical conduit in the locations shown in Figure 1-17. A full-scale dimensioned template for the hole locations is printed in Appendix B. See page 43.

ADV--7876

Note: See Appendix B for a full-scale template

with dimensions.

1. 1/2 NPT female fuel inlet

2. ATS signal electrical lead entry point

3. Utility voltage electrical lead entry point

Figure 1-17 Electrical Lead Entry Locations

1.8.2 Power Supply

Power must be supplied to the generator set location for the battery charger and the optional accessories shown in Figure 1-18. The power source must be GFCI protected. The power to the accessories must be available at all times, i.e. the circuit must be powered by the utility source and backed up by the generator.

Connect power to the utility power connection points on the terminal block. See Section 1.8.3 and the wiring diagrams in Section 2 for connection details. See Figure 1-18 for the power requirements for the battery charger and accessories.

Power Requirement, Max.

Equipment

Battery charger (standard) 192 1.6

Carburetor heater (optional)

Battery heater (optional) 110 0.92

Watts Amps Vol t s

37 0.33

Figure 1-18 Power Requirements

120

TP-6733 8/1122 Section 1 Installation

Page 23

1.8.3 Field-Connection Terminal Block

Procedure

The generator set is equipped with a field-connection terminal block located in the air inlet area near the junction box. Leads have been factory-installed from the junction box to the terminal block for easy field wiring.

See the dimension drawing in Section 1.5 for the terminal block location. See Figure 1-19 or Figure 1-20 for terminal block details. Refer to the terminal block decal for connections and cable sizes. Also see Section 2, Wiring Diagrams.

Note: The connections on the revised terminal block

are arranged in a different order than the original. Be sure to follow the connections shown on the decal on the generator set.

Route AC leads through flexible conduit. Ensure that the leads and conduit do not interfere with the operation of the generator set or obstruct the service areas. Route low-voltage communication leads through separate conduit.

1. Drill holes for the conduit fittings. See the Figure 1-17 and Appendix B for the recommended electrical inlet locations. Feed the cables through the openings.

2. Connect the leads from the transfer switch emergency source lugs to the L1 and L2 connections on the generator set terminal block.

3. Connect the neutral (L0) and ground (GRD) leads from the ATS and the main panel to the corresponding connection points on the terminal block. See Section 1.8.4, Grounding.

GM66565

GM80177

1. Terminal block

2. Decal

Figure 1-20 Revised Terminal Block

1. Field-connection terminal block

2. Decal

Figure 1-19 Original Field-Connection Terminal Block

TP-6733 8/11 23Section 1 Installation

Page 24

4. Connect the ATS or remote start/stop switch. Route low-voltage communication leads through separate conduit.

a. For a Model RRT transfer switch: Connect

the Model RRT transfer switch interface panel to connections ATS1--ATS4. See Figure 1-21.

b. For a remote start/stop switch or Model RDT

or RSB transfer switch: Connect the engine start leads from the transfer switch or remote start switch to terminals 3 and 4 on the terminal block. Route the engine start leads through separate conduit from the AC power and load leads.

Note: To ensure that the controller recognizes the

Model RRT transfer switch, connect leads ATS1 through ATS4 to the terminal block before connecting the engine starting battery.

Generator Set

GM66565

5. Connect utility power to the terminal block connections labelled Utility. Connect to a circuit that is supplied by the utility source and backed up by the generator. The power source must be GFCI protected. See Section 1.8.2 for more information about the utility power requirement.

ATS

ADV-7598

Customer connections 12--24 AWG

1. 14/20RES/RESL generator set field-connection terminal block

2. Controller interface module location on the ATS, typical

3. Interface module connector P14

4. ATS1 through ATS4 on generator set field-connection terminal block

Figure 1-21 Model RRT Transfer Switch Connection to Generator Set Terminal Block

GM63552

TP-6733 8/1124 Section 1 Installation

Page 25

1.8.4 Grounding

1.9 Controller Fuse F3

Ground the generator set. The grounding method must comply with NEC and local codes. Connect the grounding strap to the generator set ground lug, terminal GND inside the controller compartment.

Generator sets are shipped with the generator neutral bonded (connected) to the generator ground in the junction box. The requirement for having a bonded (grounded) neutral or ungrounded neutral is determined by the type of installation. At installation, the neutral can be grounded at the generator set or lifted from the ground stud and isolated if the installation requires an ungrounded neutral connection at the generator. The generator set will operate properly with the neutral either bonded to ground or isolated from ground at the generator.

Various regulations and site configurations including the National Electrical Code (NEC), local codes, and the type of transfer switch used in the application determine the grounding of the neutral at the generator. NEC Section 250 is one example that has a very good explanation of the neutral grounding requirements for generators.

To prevent controller reset during installation, remove controller fuse F3 before connecting or disconnecting the battery cables. See Figure 1-22 for the F3 fuse location in the controller’s service access area.

Service Access Area

1.8.5 Battery Charger

A battery charger is factory-installed in the battery compartment to keep the starting battery fully charged. The battery charger’s DC leads are factory-connected to the battery. Supply power to the generator set for the battery charger and carburetor heater as described in Sections 1.8.2 and 1.8.3. Plug the battery charger’s power cord into the receptacle on the bottom of the controller junction box.

Refer to the generator set operation manual for battery charger operation information.

1. Controller’s service access area (remove cover)

2. Controller fuse F3

Figure 1-22 F3 Fuse Location

TP-6733 8/11 25Section 1 Installation

Page 26

1.10 Battery

WARNING

Battery acid cleanup. Battery acid can cause severe injury or death. Battery acid is electrically conductive and

corrosive. Add 500 g (1 lb.) of bicarbonate of soda (baking soda) to a container with 4 L (1 gal.) of water and mix the neutralizing solution. Pour the neutralizing solution on the spilled battery acid and continue to add the neutralizing solution to the spilled battery acid until all evidence of a chemical reaction (foaming) has ceased. Flush the resulting liquid with water and dry the area.

Sulfuric acid in batteries. Can cause severe injury or death.

Wear protective goggles and clothing. Battery acid may cause blindness and burn skin.

WARNING

Explosion. Can cause severe injury or death. Relays in the battery charger cause arcs or sparks.

Locate the battery in a well-ventilated area. Isolate the battery charger from explosive fumes.

Battery electrolyte is a diluted sulfuric acid. Battery acid can cause severe injury or death. Battery acid can cause

blindness and burn skin. Always wear splashproof safety goggles, rubber gloves, and boots when servicing the battery. Do not open a sealed battery or mutilate the battery case. If battery acid splashes in the eyes or on the skin, immediately flush the affected area for 15 minutes with large quantities of clean water. Seek immediate medical aid in the case of eye contact. Never add acid to a battery after placing the battery in service, as this may result in hazardous spattering of battery acid.

Battery gases. Explosion can cause severe injury or death. Battery gases can cause an explosion. Do not smoke

or permit flames or sparks to occur near a battery at any time, particularly when it is charging. Do not dispose of a battery in a fire. To prevent burns and sparks that could cause an explosion, avoid touching the battery terminals with tools or other metal objects. Remove all jewelry before servicing the equipment. Discharge static electricity from your body before touching batteries by first touching a grounded metal surface away from the battery. To avoid sparks, do not disturb the battery charger connections while the battery is charging. Always turn the battery charger off before disconnecting the battery connections. Ventilate the compartments containing batteries to prevent accumulation of explosive gases.

Battery short circuits. Explosion can cause severe injury or death. Short circuits can cause bodily injury and/or

equipment damage. Disconnect the battery before generator set installation or maintenance. Remove all jewelry before servicing the equipment. Use tools with insulated handles. Remove the negative (--) lead first when disconnecting the battery. Reconnect the negative (--) lead last when reconnecting the battery. Never connect the negative (--) battery cable to the positive (+) connection terminal of the starter solenoid. Do not test the battery condition by shorting the terminals together.

Connecting the battery and the battery charger. Hazardous voltage can cause severe injury or death.

TP-6733 8/1126 Section 1 Installation

Page 27

Use a 12-volt group 51 battery with a minimum rating of 500 cold cranking amps at 0_F. The generator set uses a negative ground with a 12-volt engine electrical system. See Figure 1-23 for battery connections. Make sure that the battery is correctly connected and the terminals are tight.

Note: The generator set will not start and circuit board

damage may occur if the battery is connected in reverse.

Use the following procedure to install and connect the battery.

Battery Installation Procedure

1. Remove controller fuse F3. The fuse is located in the controller service access area. See Figure 1-22.

2. Ensure that the starting battery is fully charged before placing the battery in service.

1. To positive (+) terminal on starter solenoid.

2. To ground (--) terminal on or near starter motor.

EZ-273000-J

Figure 1-23 Typical Battery Connection

See the dimension drawing in Section 1.5 for the engine starting battery location on the air intake side of the generator set. Standard battery cables provide easy connection to the battery.

To prevent controller reset during installation, remove controller fuse F3 before connecting or disconnecting the battery cables. See Figure 1-22 in Section 1.9 for the F3 fuse location in the controller’s service access area.

3. Clean the battery posts and/or adapters if necessary.

4. Install the battery post adapters, if needed.

5. Place the battery in the housing.

6. Connect the positive (+) lead to the engine starting battery.

7. Connect the negative (--) lead to the engine starting battery.

8. Install controller fuse F3.

Refer to the generator set operation manual and the battery manufacturer’s instructions for battery maintenance instructions.

If the battery is disconnected for service or replacement, the exercise settings on the RDC/DC controller are lost. Set the exerciser after installing and connecting the battery. See Section 1.13, Set Exerciser.

TP-6733 8/11 27Section 1 Installation

Page 28

1.11 Accessories

Have accessories installed by an authorized distributor/ dealer or a licensed electrician. Follow the installation instructions provided with each kit. Use separate conduit for AC and DC leads to reduce the possibility of electrical interference. Verify that the leads and conduit do not interfere with the operation of the generator set or obstruct the service areas. Verify that the electrical installation complies with the National Electrical Code (NEC) and all applicable local codes. See Section 2, Wiring Diagrams, for more information regarding generator set electrical connections.

1.11.1 Regulator Heater

The regulator heater kit is designed for Model 20RES and 20RESL generator sets. The regulator heater kit is recommended in addition to the carburetor heater for reliable engine starting in temperatures below --18_C (0_F). See Figure 1-24 for heater specifications.

Regulator Heater

Heater rating 120 VAC, 60 W

Thermostat

Pad diameter 127 mm (5 in.)

Cord length 610 mm (24 in.)

4_C/13_C (40_F/55_F) Snap action

Figure 1-24 Regulator Heater Specifications

The regulator heater requires a source of 120 VAC power. The generator set is equipped with two 120 VAC receptacles, one of which is used for the battery charger. If another accessory such as the carburetor heater or battery heater is also used, the installer will need to provide another receptacle for the regulator heater. The circuit should be ground fault protected.

To install the regulator heater kit, follow the instructions in TT-1569, provided with the kit. Figure 1-25 shows the installed regulator heater kit.

GM79141

1. Regulator heater pad GM79142

2. Regulator mounting screws M933-06035-60, qty. 2 (re-use existing nuts)

3. Heater power cord

Figure 1-25 Installed Regulator Heater Kit, shown

with original fuel system

(for 20RES/RESL)

TP-6733 8/1128 Section 1 Installation

Page 29

1.11.2 Carburetor Heater

An optional carburetor heater is recommended for improved cold starting in locations where the ambient temperature drops below 0_C (32_F). The carburetor heater prevents condensation and carburetor icing. The heater turns on when the temperature at the thermostat falls below approximately 4_C(40_F) and turns off when the temperature rises above approximately 16_C (60_F). The carburetor heaters are shown in Figure 1-26.

To install the carburetor heater, follow the instructions provided with the kit. Figure 1-27 shows the installed carburetor heater kit installed for a 14 kW generator set. Figure 1-28 shows the location for the carburetor heater kit on a 20 kW generator set.

The heater thermostat is installed in the cord. Figure 1-26 shows the location of the thermostat on the power cord. The heater power cord and thermostat are located in the generator set housing air intake area/ battery compartment.

Note: Do not place the heater thermostat inside the

generator set engine compartment. The thermostat must be exposed to the ambient air.

1. Carburetor heater (air cleaner removed to show heater)

2. Carburetor heater power cord

Figure 1-27 14RES/RESL Carburetor Heater

tp6195

The heater requires a continuous source of power. Plug the carburetor heater into one of the 120 VAC receptacles provided.

14RES/RESL Carburetor Heater

GM19463

20RES/RESL Carburetor Heater

GM57968

1. Power plug

2. Thermostat

3. Heater

tp6514

1. Carburetor heater location

Figure 1-28 20RES/RESL Carburetor Heater

Location on Engine (bulkhead removed to show heater location)

Figure 1-26 Carburetor Heaters

TP-6733 8/11 29Section 1 Installation

Page 30

1.12 Prestart Installation Check

1.13 Set Exerciser

Review the entire installation section. Inspect all wiring and connections to verify that the generator set is ready for operation. Check all items in the following Prestart Checklist.

Prestart Checklist

Air Cleaner. Check that a clean air cleaner element is

installed to prevent unfiltered air from entering the engine. See the generator set operation manual for instructions.

Air Inlets. Check for clean and unobstructed air inlets.

Battery. Check for tight battery connections. Consult

the battery manufacturer’s instructions regarding battery care and maintenance.

Enclosure. Check that all enclosure panels and internal baffling are in place.

Exhaust System. Check for exhaust leaks and blockages. Check the muffler condition.

D Inspect the exhaust system components for cracks,

leaks, and corrosion. Check for tight exhaust system connections.

D Check for corroded or broken metal parts and replace

them as needed.

D Check that the exhaust outlet is unobstructed.

Set the exerciser to automatically run the generator set on the desired day and time every week. See TP-6734, Operation Manual, for detailed descriptions of the unloaded and loaded exercise operation.

Procedure to Set the Exerciser

1. Press the AUTO button on the controller.

2. Press the down arrow button (RDC) or the exercise button (DC) to start an unloaded exercise. The engine starts and runs a 20-minute unloaded variable-speed exercise with system diagnostics. EnLd is displayed.

3. If the generator set is connected to a Kohlerr Model RRT transfer switch, the exercise can be changed to a loaded exercise by pressing the down arrow button (RDC) or the exercise button (DC) again after the engine has started. ELdis displayed.

4. After 20 minutes, verify that the exercise ends and the engine shuts down automatically. After a loaded exercise, the engine runs for 5 minutes or until cool, and then shuts down.

The exercise will run every seven days at the same time that the exercise was started.

Other transfer switches: For a loaded exercise with a transfer switch other than a Kohlerr Model RRT, refer to the transfer switch operation manual for instructions.

Oil Level. Maintain the oil level at or near, not over, the full mark on the dipstick.

Operating Area. Check for obstructions that could block the flow of cooling air. Keep the air intake area clean. Do not leave rags, tools, or debris on or near the generator set.

TP-6733 8/1130 Section 1 Installation

Page 31

1.14 Controller Configuration

1.14.1 Firmware Version Number

The controller configuration for each generator model is set at the factory and should not normally require changes.

An authorized Kohler distributor/dealer can adjust the RDC controller configuration and generator set performance using the RDC controller keypad. Use the select and arrow buttons to change settings or adjust performance as described in the following sections.

Note: The DC controller cannot be adjusted from the

controller keypad.

An authorized Kohler distributor/dealer can adjust the controller configuration and generator set performance on both the RDC and DC controllers using Kohlerr SiteTecht software and a personal computer. Contact an authorized Kohler distributor/dealer for service.

Adjust the controller configuration with the generator set off. Adjust the generator set performance with the generator set running.

To check the firmware version number on the RDC controller, hold the select button and the up arrow button for about 5 seconds, until the firmware version number appears on the display. See Figure 1-31. On the DC controller, the firmware version number is displayed during the first 2 seconds of the engine start cycle.

The manufacturer may release new versions of controller firmware. An authorized Kohlerr distributor or dealer can update the controller firmware in the field. Kohlerr SiteTecht software and a personal computer are required. See TP-6701, SiteTech Software Operation maunal, for instructions.

1.14.2 System Parameters

The controller configuration for each generator model is set at the factory and should not normally require changes. The controller will display fault code NoEC (no engine configuration setting) if the configuration is not set.

The controller’s configuration mode allows adjustment of the system parameters listed in this section. Use the instructions in this section to check the configuration after installation and change it to match the settings shown in Figure 1-30 for your application, if necessary.

1. LED display

2. Up button

3. Select button

4. Down/Exercise button

5. Service access

6. RUN button and LED

7. AUTO button and LED

8. OFF button and LED

An authorized distributor or dealer can use a personal computer running Kohlerr SiteTecht software to set the system parameters, if desired. The controller will display Uu---- if the voltage and frequency are not set to one of the standard combinations shown in Figure 1-30.

Definition

Parameter Setting

System voltage and frequency *

Engine Configuration *

* Factory-set for each model.

Uu01 1 60 120/240

Uu06 1 50 115/230

Uu07 DO NOT USE

Uu11 DO NOT USE

Uu15 DO NOT USE

Uu16 DO NOT USE

Uu19 DO NOT USE

Uu21 DO NOT USE

Uu22 DO NOT USE

Ec13 14RES/RESL

Ec14 20RES/RESL

Phases Hz VA C

Figure 1-30 Controller Configuration Parameters

Figure 1-29 RDC Residential Digital Control

TP-6733 8/11 31Section 1 Installation

Page 32

1.14.3 RDC Controller Configuration

In order to prevent inadvertent changes, a code is required to enter configuration mode. With the controller in OFF, hold the select button and press the up arrow button for 5 seconds. The controller display will show the software version. Press the arrow buttons in the following order to enter configuration mode: down, up, down, up, down, up.

Follow the instructions in Figure 1-31 to enter the configuration mode while the engine is not running and then step through the following parameters. Use the up (∧) and down (∨) arrow buttons to select the appropriate settings for the application.

1.15 Voltage and Frequency Adjustments, RDC Controller

WARNING

Hazardous voltage. Can cause severe injury or death.

Operate the generator set only when all guards and electrical enclosures areinplace.

Moving parts.

If no buttons are pressed for one minute, the controller will automatically exit the configuration mode without saving any changes. Start the configuration procedure over again from the beginning if the controller exits the configuration mode before the settings have been saved.

Note: Be sure to save your settings before exiting the

configuration mode. The controller reverts to the last saved settings when the OFF button is pressed.

System voltage/frequency setting (Uu). Select the system voltage and frequency from the table in Figure 1-30.

Note: The Uu parameter sets the system’s rated

voltage and frequency. To adjust the output (measured) voltage and frequency, see Section

1.15, Voltage and Frequency Adjustments.

Engine configuration (Ec). The engine configuration must match the generator set engine type. See Figure 1-30.

Short circuits. Hazardous voltage/current can cause severe injury or death. Short circuits can cause bodily injury

and/or equipment damage. Do not contact electrical connections with tools or jewelry while making adjustments or repairs. Remove all jewelry before servicing the equipment.

The generator output voltage and frequency can be adjusted, if necessary. Have adjustments performed by an authorized distributor/ dealer or service technician. The generator set must be running during performance adjustments.

Note: A digital multimeter that measures voltage and

frequency is required for these adjustments.

Use a digital multimeter to check the output voltage and frequency. If output voltage or frequency is not within specifications, use the controller keypad to adjust the output voltage and engine speed (frequency) while the generator set is running. See Figure 1-29. The flowchart in Figure 1-31 outlines the adjustment procedures.

Note: Be sure to save your changes as instructed in

Figure 1-31 before exiting configuration mode.

Changes in voltage and speed adjustments are lost if not saved before the generator set shuts down. The generator set continues to run with the new settings until it shuts down but then reverts to the previous settings at the next startup if the changes have not been saved.

Note: The DC controller cannot be adjusted from the

controller keypad.

An authorized Kohler distributor/dealer can adjust the voltage and frequency on both the RDC and DC controllers using Kohlerr SiteTecht software and a personal computer. Contact an authorized Kohler distributor/dealer for service.

TP-6733 8/1132 Section 1 Installation

Page 33

Hold select and up

buttons for 5 seconds

Software version

number displayed

u1.0

u2.0

Enter pass code

SAUE

Generator Set

Running?

Yes

RUN mode

Coarse Voltage Adjust

1P33

Press

Fine Voltage Adjust

1P36

Coarse Gain Adjust

2P14

Fine Gain Adjust

2P17

OFF mode

Adjust

System Voltage Setting

1uU

Engine Configuration

Adjust Setting

Ec 1 4

Adjust

Engine Governor

Speed Adjust

4P 1

Engine Governor

Gain Adjust

Figure 1-31 Controller Configuration and Performance Adjustments, RDC controller

TP-6733 8/11 33Section 1 Installation

Adjust

YES

Save Changes

Save Changes?

SAUE

Discard Changes

Exit Setup

Page 34

1.15.1 Voltage Adjustment

1.15.2 Frequency Adjustment

Note: Refer to the flowchart in Figure 1-31 during the

following procedure.

Voltage Adjustment Procedure

1. With the generator set off, connect a digital multimeter to the output leads or an electrical outlet on the load side of the generator set. Set the meter to measure AC voltage.

2. Start the generator set by pressing the RUN button on the RDC controller.

3. Use the RDC controller to adjust the voltage (parameter 1P) until the output voltage reaches the desired value. Refer to the flowchart in Figure 1-31 for instructions to adjust the output voltage. See Figure 1-32 for the approximate change in voltage per step.

Voltage Change per

Measured

Voltage, VAC

85--180 1P00--99 5 0.5

180--360 1P00--99 7 0.7

ADC

Display

Step, VAC

Coarse Fine

Figure 1-32 Voltage Adjustment (approximate)

4. Adjust the voltage stability (gain, parameter 2P) to minimize light flicker.

The engine speed determines the generator output frequency; 60 Hz units operate at 3600 rpm and 50 Hz units run at 3000 rpm. Adjust the engine governor speed and gain to set the output frequency and stability using the following procedure.

Note: Refer to the flowchart in Figure 1-31 during the

following procedure.

Frequency Adjustment Procedure

Note: Refer to the flowchart in Figure 1-31 during the

following procedure.

1. Attach a frequency meter to the AC output leads or an electrical outlet on the load side of the generator set.

2. Start and run the generator set until it reaches normal operating temperature (at least 10 minutes).

3. Adjust engine governor speed (parameter 4P) to obtain a frequency reading of 60 Hz (or 50 Hz if appropriate). See Figure 1-33.

4. Check stability with the generator set running and with no load applied. If the generator set speed is unstable, hunts, or surges, adjust the engine governor gain, parameter 5P, until the generator set becomes stable with no hunting or surging. (Increasing the gain slows the governor response.)

5. Readjust the voltage, if necessary.

6. Save settings. See Figure 1-31.

7. Stop the generator set.

Note: Volts-per-hertz parameter 3P can be adjusted

only by a Kohlerr authorized distributor/dealer using a personal computer and Kohlerr SiteTecht software.

5. Check the frequency reading. Repeat steps 3 and 4 if necessary to obtain the rated frequency and stable operation.

6. Save settings. See Figure 1-31.

50 Hz

Setting

00 3420 57 2850 47.5

50 3600 60 3000 50

99 3776 63 3150 52.5

RPM

60 Hz

Frequency RPM Frequency

Figure 1-33 Engine Speed Settings

TP-6733 8/1134 Section 1 Installation

Page 35

Section 2 Wiring Diagrams

Figure 2-1 lists the wiring diagram numbers and page numbers.

Note: The revised design uses the revised fuel system

and the revised field-connection terminal block layout shown in Figure 1-20.

Original Design

(see Figure 1-19)

Wiring Diagram Description

Schematic Diagram ADV-7697 36 ADV-8033 37

Point-to-Point Wiring Diagram GM69754 38 GM79591 39

Drawing Number Page Drawing Number Page

Revised Design

(see Figure 1-20)

Figure 2-1 Wiring Diagrams and Schematics

TP-6733 8/11 35Section 2 Wiring Diagrams

Page 36

Figure 2-2 Schematic Diagram, ADV-7697 (original)

TP-6733 8/1136 Section 2 Wiring Diagrams

Page 37

Figure 2-3 Schematic Diagram, ADV-8033 (revised)

TP-6733 8/11 37Section 2 Wiring Diagrams

Page 38

Figure 2-4 Point-to-Point Wiring Diagram, GM69754 (original)

TP-6733 8/1138 Section 2 Wiring Diagrams

Page 39

Figure 2-5 Point-to-Point Wiring Diagram, GM79591 (revised)

TP-6733 8/11 39Section 2 Wiring Diagrams

Page 40

Notes

TP-6733 8/1140 Section 2 Wiring Diagrams

Page 41

Appendix A Abbreviations

The following list contains abbreviations that may appear in this publication.

A, amp ampere ABDC after bottom dead center AC alternating current A/D analog to digital ADC advanced digital control;

adj. adjust, adjustment ADV advertising dimensional

Ah amp-hour AHWT anticipatory high water

AISI American Iron and Steel

ALOP anticipatory low oil pressure alt. alternator Al aluminum ANSI American National Standards

AO anticipatory only APDC Air Pollution Control District API American Petroleum Institute approx. approximate, approximately APU Auxiliary Power Unit AQMD Air Quality Management District AR as required, as requested AS as supplied, as stated, as

ASE American Society of Engineers ASME American Society of

assy. assembly ASTM American Society for Testing

ATDC after top dead center ATS automatic transfer switch auto. automatic aux. auxiliary avg. average AVR automatic voltage regulator AWG American Wire Gauge AWM appliance wiring material bat. battery BBDC before bottom dead center BC battery charger, battery

BCA battery charging alternator BCI Battery Council International BDC before dead center BHP brake horsepower blk. black (paint color), block

blk. htr. block heater BMEP brake mean effective pressure bps bits per second br. brass BTDC before top dead center Btu British thermal unit Btu/min. British thermal units per minute C Celsius, centigrade cal. calorie CAN controller area network CARB California Air Resources Board CAT5 Category 5 (network cable) CB circuit breaker CC crank cycle cc cubic centimeter CCA cold cranking amps ccw. counterclockwise CEC Canadian Electrical Code cert. certificate, certification, certified cfh cubic feet per hour

analog to digital converter

drawing

temperature

Institute

Institute (formerly American Standards Association, ASA)

suggested

Mechanical Engineers

Materials

charging

(engine)

cfm cubic feet per minute CG center of gravity CID cubic inch displacement CL centerline cm centimeter CMOS complementary metal oxide

com communications (port) coml commercial Coml/Rec Commercial/Recreational conn. connection cont. continued CPVC chlorinated polyvinyl chloride crit. critical CSA Canadian Standards

CT current transformer Cu copper cUL Canadian Underwriter’s

CUL Canadian Underwriter’s

cu. in. cubic inch cw. clockwise CWC city water-cooled cyl. cylinder D/A digital to analog DAC digital to analog converter dB decibel dB(A) decibel (A weighted) DC direct current DCR direct current resistance deg., ° degree dept. department dia. diameter DI/EO dual inlet/end outlet DIN Deutsches Institut fur Normung

DIP dual inline package DPDT double-pole, double-throw DPST double-pole, single-throw DS disconnect switch DVR digital voltage regulator

PROM, EEPROM

E, emer. emergency (power source) ECM electronic control module,

EDI electronic data interchange EFR emergency frequency relay e.g. for example (exempli gratia) EG electronic governor EGSA Electrical Generating Systems

EIA Electronic Industries

EI/EO end inlet/end outlet EMI electromagnetic interference emiss. emission eng. engine EPA Environmental Protection

EPS emergency power system ER emergency relay ES engineering special,

ESD electrostatic discharge est. estimated E-Stop emergency stop etc. et cetera (and so forth)

substrate (semiconductor)

Association

Laboratories

e. V. (also Deutsche Industrie Normenausschuss)

electrically-erasable programmable read-only memory

engine control module

Association

Agency

engineered special

exh. exhaust ext. external F Fahrenheit, female FHM flat head machine (screw) fl. oz. fluid ounce flex. flexible freq. frequency FS full scale ft. foot, feet ft. lb. foot pounds (torque) ft./min. feet per minute ftp file transfer protocol ggram ga. gauge (meters, wire size) gal. gallon gen. generator genset generator set GFI ground fault interrupter

GND, gov. governor gph gallons per hour gpm gallons per minute gr. grade, gross GRD equipment ground gr. wt. gross weight H x W x D height by width by depth HC hex cap HCHT high cylinder head temperature HD heavy duty HET high exhaust temp., high

hex hexagon Hg mercury (element) HH hex head HHC hex head cap HP horsepower hr. hour HS heat shrink hsg. housing HVAC heating, ventilation, and air

HWT high water temperature Hz hertz (cycles per second) IBC International Building Code IC integrated circuit ID inside diameter, identification IEC International Electrotechnical

IEEE Institute of Electrical and

IMS improved motor starting in. inch in. H in. Hg inches of mercury in. lb. inch pounds Inc. incorporated ind. industrial int. internal int./ext. internal/external I/O input/output IP internet protocol ISO International Organization for

J joule JIS Japanese Industry Standard k kilo (1000) K kelvin kA kiloampere KB kilobyte (2 KBus Kohler communication protocol kg kilogram

ground

engine temp.

conditioning

Commission

Electronics Engineers

O inches of water

Standardization

bytes)

TP-6733 8/11 Appendix 41

Page 42

kg/cm

kgm kilogram-meter kg/m

kilograms per square centimeter

kilograms per cubic meter kHz kilohertz kJ kilojoule km kilometer kOhm, kΩ kilo-ohm kPa kilopascal kph kilometers per hour kV kilovolt kVA kilovolt ampere kVAR kilovolt ampere reactive kW kilowatt kWh kilowatt-hour kWm kilowatt mechanical kWth kilowatt-thermal L liter LAN local area network L x W x H length by width by height lb. pound, pounds

lbm/ft

pounds mass per cubic feet LCB line circuit breaker LCD liquid crystal display LED light emitting diode Lph liters per hour Lpm liters per minute LOP low oil pressure LP liquefied petroleum LPG liquefied petroleum gas LS left side L

LWL low water level

sound power level, A weighted

LWT low water temperature m meter, milli (1/1000) M mega (10

units), male

cubic meter

/hr. cubic meters per hour /min. cubic meters per minute

when used with SI

mA milliampere man. manual max. maximum MB megabyte (2

bytes) MCCB molded-case circuit breaker MCM one thousand circular mils meggar megohmmeter MHz megahertz mi. mile mil one one-thousandth of an inch min. minimum, minute misc. miscellaneous MJ megajoule mJ millijoule mm millimeter mOhm, mΩ milliohm MOhm, MΩmegohm MOV metal oxide varistor MPa megapascal mpg miles per gallon mph miles per hour MS military standard ms millisecond m/sec. meters per second mtg. mounting MTU Motoren-und Turbinen-Union MW megawatt mW milliwatt μF microfarad N, norm. normal (power source) NA not available, not applicable nat. gas natural gas

NBS National Bureau of Standards NC normally closed NEC National Electrical Code NEMA National Electrical

Manufacturers Association

NFPA National Fire Protection

Association Nm newton meter NO normally open no., nos. number, numbers NPS National Pipe, Straight NPSC National Pipe, Straight-coupling NPT National Standard taper pipe

thread per general use NPTF National Pipe, Taper-Fine NR not required, normal relay ns nanosecond OC overcrank OD outside diameter OEM original equipment

manufacturer OF overfrequency opt. option, optional OS oversize, overspeed OSHA Occupational Safety and Health

Administration OV overvoltage oz. ounce p., pp. page, pages PC personal computer PCB printed circuit board pF picofarad PF power factor ph., ∅ phase PHC Phillipsr head Crimptiter

(screw) PHH Phillipsr hex head (screw) PHM pan head machine (screw) PLC programmable logic control PMG permanent magnet generator pot potentiometer, potential ppm parts per million PROM programmable read-only

memory psi pounds per square inch psig pounds per square inch gauge pt. pint PTC positive temperature coefficient PTO power takeoff PVC polyvinyl chloride qt. quart, quarts qty. quantity R replacement (emergency)

power source rad. radiator, radius RAM random access memory RDO relay driver output ref. reference rem. remote Res/Coml Residential/Commercial RFI radio frequency interference RH round head RHM round head machine (screw) rly. relay rms root mean square rnd. round RO read only ROM read only memory rot. rotate, rotating rpm revolutions per minute RS right side RTDs Resistance Temperature

Detectors

RTU remote terminal unit RTV room temperature vulcanization RW read/write SAE Society of Automotive

Engineers scfm standard cubic feet per minute SCR silicon controlled rectifier s, sec. second SI Systeme international d’unites,

International System of Units SI/EO side in/end out sil. silencer SMTP simple mail transfer protocol SN serial number SNMP simple network management

protocol SPDT single-pole, double-throw SPST single-pole, single-throw spec specification specs specification(s) sq. square sq. cm square centimeter sq. in. square inch SMS short message service SS stainless steel std. standard stl. steel tach. tachometer TB terminal block TCP transmission control protocol TD time delay TDC top dead center TDEC time delay engine cooldown TDEN time delay emergency to

normal TDES time delay engine start TDNE time delay normal to

emergency TDOE time delay off to emergency TDON time delay off to normal temp. temperature term. terminal THD total harmonic distortion TIF telephone influence factor tol. tolerance turbo. turbocharger typ. typical (same in multiple

locations) UF underfrequency UHF ultrahigh frequency UIF user interface UL Underwriter’s Laboratories, Inc. UNC unified coarse thread (was NC) UNF unified fine thread (was NF) univ. universal URL uniform resource locator

(web address) US undersize, underspeed UV ultraviolet, undervoltage V volt VAC volts alternating current VAR voltampere reactive VDC volts direct current VFD vacuum fluorescent display VGA video graphics adapter VHF very high frequency W watt WCR withstand and closing rating w/ with WO write only w/o without wt. weight xfmr transformer

TP-6733 8/1142 Appendix

Page 43

Appendix B Electrical Lead Entry Template

Use the full-scale drawing in Figure 2 to mark the openings for the electrical conduit, if desired. See Section 1.8.1 for more information.

SCALE: FULL Note: Dimensions are in mm.

Figure 2 Template, Electrical

TP-6733 8/11 Appendix 43

GM78090

Page 44

Notes

TP-6733 8/1144 Appendix

Page 45

Notes

TP-6733 8/11 45

Page 46

Notes

TP-6733 8/1146

Page 47

Page 48

TP-6733 8/11a

KOHLER CO. Kohler, Wisconsin 53044 Phone 920-457-4441, Fax 920-459-1646 For the nearest sales/service outlet in the US and Canada, phone 1-800-544-2444 KohlerPower.com

Kohler Power Systems Asia Pacific Headquarters 7 Jurong Pier Road Singapore 619159 Phone (65) 6264-6422, Fax (65) 6264-6455

Kohler 14RES, 20RES, 14RESL, 20RESL Installation Manual

Specifications and Main Features

Frequently Asked Questions

User Manual