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Provider of:
MTU Onsite Energy
300kW DS300D6
(800) 706-0906
DIESEL ENGINE-GENERATOR SETAIR CHARGE-AIR COOLING 300 kWe / 60 Hz / Standby208 - 600V
(Reference DP275D6S for Prime Rating Technical Data)
SYSTEM RATINGS
Standby DS300D6SPA DS300D6SJA DS300D6SVA DS300D6SWA DS300D6SRA DS300D6SNA
Voltage (L-L) 208V** 240V** 380V 440V 480V** 600V**Phase 3 3 3 3 3 3PF 0.8 0.8 0.8 0.8 0.8 0.8Hz 60 60 60 60 60 60kW 300 300 300 300 300 300kVA 375 375 375 375 375 375AMPS 1041 902 570 492 451 361skVA@30%Voltage Dip 760 760 640 860 1020 720Generator Model 433CSL6216 433CSL6216 433CSL6216 433CSL6216 432CSL6212 432PSL6246Temp Rise 130 °C/27 °C 130 °C/27 °C 130 °C/27 °C 130 °C/27 °C 130 °C/27 °C 130 °C/40 °CConnection 12 LEAD LOW WYE 12 LEAD HI DELTA 12 LEAD HI WYE 12 LEAD HI WYE 12 LEAD HI WYE 4 LEAD WYE
** UL 2200 Off ered
// Emissions – EPA Tier 3 Certifi ed
// Engine-generator set is designed and manufactured in facilities certifi ed to standards ISO 9001:2008 and ISO 14001:2004
// Seismic Certification – Optional– IBC Certifi cation– OSHPD Pre-Approval
// UL 2200 / CSA – Optional– UL 2200 Listed– CSA Certifi ed
// Performance Assurance Certification (PAC)- Engine-Generator Set Tested to ISO 8528-5 for
Transient Response- Verifi ed product design, quality and performance integrity- All engine systems are prototype and factory tested
// Power Rating- Accepts Rated Load in One Step Per NFPA 110- Permissible average power output during 24 hours of
operation is approved up to 85%.
CERTIFICATIONS AND STANDARDS
2 / // / 60 Hz 300 kWe
// Engine
Air CleanerOil PumpOil Drain Extension & S/O ValveFull Flow Oil FiltersClosed Crankcase VentilationJacket Water PumpThermostatsBlower Fan & Fan DriveRadiator - Unit MountedElectric Starting Motor - 24VGovernor – Electronic IsochronousBase - Formed SteelSAE Flywheel & Bell HousingCharging Alternator - 24VBattery Box & CablesFlexible Fuel ConnectorsFlexible Exhaust ConnectionEPA Certifi ed Engine
// Generator
NEMA MG1, IEEE and ANSI standards compliance for temperature rise and motor startingSustained short circuit current of up to 300% of the rated current for up to 10 secondsSelf-Ventilated and Drip-ProofSuperior Voltage WaveformDigital, Solid State, Volts-per-Hertz RegulatorNo Load to Full Load Regulation
Brushless Alternator with Brushless Pilot Exciter4 Pole, Rotating Field130 °C Maximum Standby Temperature Rise1 Bearing, SealedFlexible CouplingFull Amortisseur Windings125% Rotor Balancing3-Phase Voltage Sensing±1% Voltage Regulation100% of Rated Load - One Step3% Maximum Harmonic Content
// Digital Control Panel(s)
Digital MeteringEngine ParametersGenerator Protection FunctionsEngine ProtectionCAN Bus ECU CommunicationsWindows-Based SoftwareMultilingual CapabilityRemote Communications to RDP-110 Remote Annunciator16 Programmable Contact InputsUp to 11 Contact OutputsUL Recognized, CSA Certifi ed, CE ApprovedEvent RecordingIP 54 Front Panel Rating with Integrated GasketNFPA110 Compatible
STANDARD EQUIPMENT*
// MTU Onsite Energy is a single source supplier// Global Product Support// 2 Year Standard Warranty// 6R1600 Diesel Engine
- 10.5 Liter Displacement- Common Rail Fuel Injection- 4-Cycle
// Engine-generator resilient mounted// Complete Range of Accessories
// Generator- Brushless, Rotating Field Generator- 300% Short Circuit Capability- 2/3 Pitch Windings
// Digital Control Panel(s)- UL Recognized, CSA Certifi ed, NFPA 110- Complete System Metering- LCD Display
// Cooling System- Integral Set-Mounted- Engine Driven Fan
STANDARD FEATURES*
* Represents standard product only. Consult Factory/MTU Onsite Energy Distributor for additional confi gurations.
3 / // / 60 Hz 300 kWe
// Engine
Manufacturer MTUModel 6R1600G80SType 4-CycleArrangement Inline 6Displacement: L (Cu In) 10.5 (641)Bore: cm (in) 12.2 (4.8)Stroke: cm (in) 15 (5.91)Compression Ratio 17.5:1Rated RPM 1,800Engine Governor ECU 8Max Power: kWm (bhp) 343 (460)Speed Regulation ±0.25%Air Cleaner Dry
// Liquid Capacity (Lubrication)
Total Oil System: L (gal) 46 (12.2)Engine Jacket Water Capacity: L (gal) 45 (11.9)System Coolant Capacity: L (gal) 82 (21.7)
// Electrical
Electric Volts DC 24Cold Cranking Amps Under -17.8 °C (0 °F) 1,000
// Fuel System
Fuel Supply Connection Size (in) M 20x1.5 Male/#10 JIC FemaleFuel Return Connection Size (in) M 14x1.5 Male/#6 JIC FemaleMaximum Fuel Lift: m (ft) 5 (16)Recommended Fuel Diesel #2Total Fuel Flow: L/hr (gal/hr) 198 (60.4)
// Fuel Consumption
STANDBYAt 100% of Power Rating: L/hr (gal/hr) 77.1 (20.4)At 75% of Power Rating: L/hr (gal/hr) 60.1 (15.9)At 50% of Power Rating: L/hr (gal/hr) 45.7 (12.1)
// Cooling - Radiator System
STANDBYAmbient Capacity of Radiator: °C (°F) 50 (122)Max. Restriction of Cooling Air, Intake,and Discharge Side of Rad.: kPa (in. H20) 0.2 (0.8)Water Pump Capacity: L/min (gpm) 277 (73.1)Heat Rejection to Coolant: kW (BTUM) 154 (8,758)Heat Rejection to After Cooler: kW (BTUM) 90 (5,118) Heat Radiated to Ambient: kW (BTUM) 14 (796)
// Air Requirements
STANDBYAspirating: *m3/min (SCFM) 30 (1,059.4)Air Flow Required for Rad. Cooled Unit: *m3/min (SCFM) 492 (17,374) Remote Cooled Applications; Air Flow Required for Dissipation of Radiated Gen-set Heat for a Max of 25 °F Rise: *m3/min (SCFM) 126 (4,463.4)
* Air density = 1.184 kg/m3 (0.0739 lbm/ft3)
// Exhaust System
STANDBYGas Temp. (Stack): °C (°F) 440 (824)Gas Volume at StackTemp: m3/min (CFM) 72 (2,542.7)Maximum AllowableBack Pressure: kPa (in. H20) 15 (60.2)
APPLICATION DATA
4 / // / 60 Hz 300 kWe
EMISSIONS DATA
NOx + NMHC CO PM5.58 0.67 0.06
All units are in g/hp-hr and are EPA D2 cycle values.Emission levels of the engine may vary as a function of ambient temperature, barometric pressure, humidity, fuel type and quality, installation parameters, measuring instrumentation, etc. The data provided are laboratory results from one engine representing this rating. The data was obtained under controlled environmental conditions with calibrated instrumentation traceable to the United States National Bureau of Standards and in compliance with US EPA regulations found within 40 CFR Part 89. The weighted cycle value from each engine is guaranteed to be below the US EPA Standards at the US EPA defi ned conditions.
RATING DEFINITIONS AND CONDITIONS
// Standby ratings apply to installations served by a reliable utility source. The standby rating is applicable to varying loads for the duration of a power outage. No overload capability for this rating. Ratings are in accordance with ISO 8528-1, ISO 3046-1, BS 5514, AS 2789, and DIN 6271.
// Deration Factor:Altitude: Consult your local MTU Onsite Energy Power Generation Distributor for altitude derations.Temperature: Consult your local MTU Onsite Energy Power Generation Distributor for temperature derations.
WEIGHTS AND DIMENSIONS
SOUND DATA
Unit Type Standby Full LoadLevel 0: Open Power Unit (dBA) 87.2
System Dimensions (L x W x H) Weight (dry/less tank)Open Power Unit (OPU) 3,658 x 1,445 x 1,855 mm (144 x 56.875 x 73 in) 3,078 kg (6,785 lb)
Drawing above for illustration purposes only, based on standard open power 480 volt engine-generator set. Lengths may vary with other voltages. Do not use for installation design. See website for unit specifi c template drawings.
Materials and specifi cations subject to change without notice.C/F = Consult Factory/MTU Onsite Energy Distributor
Sound data is provided at 7 m (23 ft). Engine-generator set tested in accordance with ISO 8528-10 and with infi nite exhaust.
Weights and dimensions are based on open power units and are estimates only. Consult the factory for accurate weights and dimensions for your specifi c engine-generator set.
What makes the Marathon Electric approach unique?
Proven top performers in every respect, MAGNAPLUS®
generators offer powerful performance, reliable power generation,
and easy installation. With a full range of voltage regulator
configurations, MAGNAPLUS® provides application flexibility to
meet unique installation requirements. Ruggedly constructed
with solid state technology, Marathon’s SE350 voltage regulator,
included with all standard equipment, is a solid performer.
Marathon Electric: The experts in your field
As an independent manufacturer with more than fifty years of
experience as a leading supplier to the generator market ,
Marathon Electric is dedicated to designing and manufacturing
the highest quality electrical products.
MAGNAPLUS® offers a field-adaptable, permanent magnet generator,
coupled with the PM300 or DVR®2000E voltage regulator, for
installations requiring fault current support or for applications involving
non-linear loads. These regulators enhance generator performance
and offer additional features, meeting the needs of the most difficult
applications.
These unique design features make MAGNAPLUS® the ideal
general purpose generator for standby and prime power markets
such as:
Agricultural Marine
Commercial Construction
Telecommunications Rental Markets
Marathon’s commitment to long term customer support and an
intensive product development program means you get more:
Design & Application Experience
Advanced Testing Facilities
Technical Support Staff
Broad Product Line
1 361 to 431 PSL models are the alternate to CSL models and have equivalent performance and dimensions.2 PMG Option available as build-up only.3 Specialty and two bearing orders utilize these windings in place of 280 frame CSL models.
kWRatings
60 HertzThree Phase,12 Leads
1800 RPM0.8 Power Factor
40°C Ambient
Standard Models
Alternate Models3
Base Model
Bolt-OnPMG
OptionAvail.
kW Continuous Duty kW Standby Duty
Class F 105°C Class H 125°C Class F 130°C Class H 150°C
480Y/240Y 416Y/208Y 480Y/240Y 416Y/208Y 480Y/240Y 416Y/208Y 480Y/240Y 416Y/208Y281PSL1500 No 6 6.4 6.5 6.9 6.6 7 7 7.4281PSL1501 No 7.5 8 8.1 8.6 8.2 8.7 8.7 9.2281CSL1502 No 12 10 13 11 13 11 14 12282PSL1703 2 13.5 12.5 14.5 13 15 13.5 15.5 14282CSL1504 No 17.5 16 18 17 18 17 19 17.5282CSL1505 No 22 21 24 22 24 22 25 23283CSL1506 No 26 24 28 26 28 26 30 27283CSL1507 No 31 27 33 30 33 30 35 32284CSL1508 No 36 35 40 38 40 38 42 40284CSL1542 No 40 36 43 40 43 40 46 41
361CSL16001 Yes 45 40 48 42 48 42 50 45361CSL16011 Yes 55 50 60 55 60 55 65 58361CSL16021 Yes 65 60 70 65 70 65 76 68
362CSL16041 Yes 84 72 90 80 90 80 95 85362CSL16061 Yes 96 90 105 100 105 100 113 105
363CSL16071 Yes 125 110 135 125 135 125 150 135
431CSL62021 Yes 142 140 151 147 155 151 160 155431CSL62041 Yes 170 165 180 175 181 176 190 182431CSL62061 Yes 200 191 211 202 215 210 225 217431CSL62081 Yes 211 203 226 216 230 225 240 227432PSL6210 Yes 260 260 275 275 280 280 291 287432PSL6212 Yes 275 260 300 276 300 280 310 300433PSL6216 Yes 342 343 375 366 380 375 400 387433PSL6220 Yes 375 362 403 385 411 400 430 417
281PSL1502 No 10.5 10 11 10.5 11 10.5 12 11282PSL1704 2 15 15 16.5 16 16.5 16 17.5 17.5282PSL1705 2 20 20 21 21 21 21 22 22283PSL1706 2 25 23 27 25 27 25 29 28283PSL1707 2 30 28 33 30 33 30 35 33284PSL1708 Yes 32 32 35 35 35 35 40 40284PSL1742 Yes 36 36 40 40 40 40 45 42285PSL1700 Yes 43 40 45 45 45 45 50 47286PSL1701 Yes 52 50 58 55 58 55 62 58287PSL1702 Yes 58 55 62 60 62 60 67 63
Choice . . . abounds with more than 34 stock
models ranging from 5–430 kW (60 Hz) and
5–425 kVA (50 Hz). All three-phase generators
are 12-lead reconnectable, providing voltage
and phase flexibility. For applications requiring
price-sensible, dedicated single-phase
generators, Marathon Electric stocks 26
models. Standard and optional conduit box
designs are available to meet all customer
requirements and to ease installation of
accessories.
Easy Mount SAE Adapters . . . provided with
every generator, are designed with easy drive
disc access to simplify the mounting to all
popular engines. Generator foot mounting
location is unaffected by adapter changes.
Special adaptations for automotive engines are
available.
Class H Insulation System . . . utilizes an unsaturated
polyester varnish for optimal insulation life and
superior moisture protection. An epoxy overcoat
is added for increased environmental protection.
Field windings are wet wound with epoxy and
designed to withstand overspeeds of 125%. All
windings are 100% copper with class H insulation.
Linkboards . . . are standard to simplify voltage
reconnection and support lead termination.
SE350 Voltage Regulator . . . is encapsulated for
reliable performance in all environments. The
SE350 regulator provides 1% regulation,
underspeed protection, stability adjustment to
optimize transient performance, and EMI
filtering to commercial standards.
Optimized Electrical Design . . . with four-pole,
brushless features, utilizes a 2/3 pitch winding
to minimize harmonic distortion. The main
rotor, utilizing Marathon Electric’s unirotor
construction, provides exceptional waveshape
and voltage balance. The unirotor construction
method incorporates full amortisseur windings
facilitating parallel operation and non-linear
loads.
Enhanced Ventilation . . . created by a high
efficiency cast aluminum fan and optimized
internal air flow patterns, maximizes heat
transfer and minimizes hot spot differentials for
extended winding life. Durable aluminum alloy
fans avoid breakage problems associated with
steel weldments or plastic fans.
Fully Guarded . . . for operator safety and
generator protection. No rotating or electrically
energized parts are exposed. All openings are
covered by louvers or screens.
Heavy Duty Bearings . . . are double shielded
and pre-lubricated for the life of the bearing.
This helps resist contamination and ensures a
maximum bearing life.
Design Specs and Agency Approvals . . . are
important at Marathon. All MAGNAPLUS® units
meet NEMA MG1-32, BS5000, and IEC 34-1
requirements. MAGNAPLUS® generators are
also CE Certified, CSA Certified and fully UL
Listed. Marine versions are available to meet
American Bureau of Shipping, Lloyds, Det
Norske Veritas, or Nippon Kaiji Kyokai
requirements.
MAGNAPLUS
CZ Y
BA
B
2F
D
E
A
H
X
P
Frame Size A B BA C C with PMG D E 2F H P X Y Z
281PSL14.00 7.00 6.56 15.95
N/A13.75 6.25 5.00 8.00 13.55 18.56 6.86 3.50
(356) (178) (167) (405) (349) (159) (127) (203) (344) (471) (174) (89)
281CSL14.00 7.00 6.56 16.34
N/A13.75 6.25 5.00 8.00 13.55 18.56 6.86 3.50
(356) (178) (167) (415) (349) (159) (127) (203) (344) (471) (174) (89)
282PSL14.00 7.00 6.56 18.50 23.10 13.64 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (167) (470) (587) (346) (159) (127) (203) (344) (471) (227) (87)
282CSL14.00 7.00 6.56 18.35
N/A13.75 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (167) (466) (349) (159) (127) (203) (344) (471) (227) (87)
283PSL14.00 7.00 6.56 20.50 25.10 13.64 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (167) (521) (638) (346) (159) (127) (203) (344) (471) (227) (87)
283CSL14.00 7.00 6.56 20.83
N/A13.75 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (167) (529) (349) (159) (127) (203) (344) (471) (227) (87)
284PSL14.00 7.00 6.56 22.75 27.40 13.64 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (167) (578) (696) (346) (159) (127) (203) (344) (471) (227) (87)
284CSL14.00 7.00 6.56 22.83
N/A13.75 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (167) (580) (349) (159) (127) (203) (344) (471) (227) (87)
285PSL14.00 7.00 11.56 25.00 29.60 13.64 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (294) (635) (752) (346) (159) (127) (203) (344) (471) (227) (87)
286PSL14.00 7.00 11.56 27.00 31.60 13.64 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (294) (686) (803) (346) (159) (127) (203) (344) (471) (227) (87)
287PSL14.00 7.00 11.56 29.00 33.60 13.64 6.25 5.00 8.00 13.55 18.56 8.93 3.42
(356) (178) (294) (737) (853) (346) (159) (127) (203) (344) (471) (227) (87)
36116.00 9.50 7.00 24.96 30.06 17.35 7.00 7.00 9.00 18.19 27.85 12.44 3.52
(406) (241) (178) (634) (764) (441) (178) (178) (229) (462) (707) (316) (89)
36216.00 9.50 7.00 28.59 33.69 17.35 7.00 7.00 9.00 18.19 27.85 12.44 3.52
(406) (241) (178) (726) (856) (441) (178) (178) (229) (462) (707) (316) (89)
36316.00 9.50 10.50 31.72 36.81 17.35 7.00 7.00 9.00 18.19 27.85 12.44 3.52
(406) (241) (267) (806) (935) (441) (178) (178) (229) (462) (707) (316) (89)
43121.46 15.00 10.00 33.89 38.27 22.64 9.00 11.00 13.00 24.97 36.10 16.00 2.66
(545) (381) (254) (861) (972) (575) (229) (279) (330) (634) (917) (406) (68)
43221.46 15.00 10.00 37.39 41.77 22.64 9.00 11.00 13.00 24.97 36.10 16.00 2.66
(545) (381) (254) (950) (1061) (575) (229) (279) (330) (634) (917) (406) (68)
43321.46 15.00 10.00 42.39 46.77 22.64 9.00 11.00 13.00 24.97 36.10 16.00 2.66
(545) (381) (254) (1077) (1188) (575) (229) (279) (330) (634) (917) (406) (68)
Basic Model 432CSL6212 Test Report No. WC1905 Date: 6-2-05
TYPICAL SUBMITTAL DATA
Kilowatt ratings at 1800 RPM 60 Hertz 12 Leads
kW (kVA) 3 Phase 0.8 Power Factor Dripproof or Open EnclosureClass B Class F Class H
Voltage*80º C
Continuous 90º C Lloyds
95º C ABS
105º C British
Standard 105º C
Continuous 130º C Standby
125º C British
Standard 125º C
Continuous 150º C Standby
240/480 230 (288) 250 (313) 260 (325) 275 (344) 275 (344) 300 (375) 282 (353) 293 (366) 310 (388)
230/460 230 (288) 250 (313) 260 (325) 275 (344) 275 (344) 300 (375) 282 (353) 292 (365) 310 (388)
220/440 227 (284) 245 (306) 252 (315) 266 (333) 266 (333) 290 (363) 273 (341) 285 (356) 300 (375)
208/416 225 (281) 240 (300) 245 (306) 260 (325) 260 (325) 280 (350) 265 (331) 276 (345) 300 (375)
190/380 212 (265) 227 (284) 232 (290) 243 (304) 243 (304) 265 (331) 250 (313) 256 (320) 275 (344)
Rise by resistance method, Mil-Std-705, Method 680.1b. Rating per BS 5000.
Submittal Data: 240/480 Volts*, 375 kVA, 1800 RPM, 60 Hz, 3 Phase
Mil-Std-705B Mil-Std-705BMethod Description Value Method Description Value301.1b Insulation Resistance > 1.5 Meg 505.3b Overspeed 2250 RPM302.1a High Potential Test 507.1c Phase Sequence CCW-ODE ABC
Main Stator 2000 Volts 508.1c Voltage Balance, L-L or L-N 0.2%Main Rotor 1500 Volts 601.4a L-L Harmonic Maximum - Total 5.0%Exciter Stator 1500 Volts (Distortion Factor)Exciter Rotor 1500 Volts 601.4a L-L Harmonic Maximum - Single 3.0%PMG Stator 1500 Volts** 601.1c Deviation Factor 5.0%
401.1a Stator Resistance, Line to Line --- TIF (1960 Weightings) <50High Wye Connection 0.0222 Ohms 625.1c Mechanical Strength (High Wye Rotor Resistance 0.866 Ohms Connection, Sustained 3 Phase Exciter Stator 18.5 Ohms Short Circuit Current) (3) < 300%Exciter Rotor 0.116 Ohms 652.1a Shaft Current < 0.1 maPMG Stator 2.1 Ohms** 652.1a Main Stator Capacitance to
410.1a No Load Exciter Field Amps Ground 0.021 mfdat 480 Volts Line to Line 0.65 A DC
420.1a Short Circuit Ratio 0.39 Additional Prototype Mil-Std Methods421.1a Xd Synchronous Reactance 2.836 pu are Available on Request.422.1a X2 Negative Sequence
Reactance 0.205 pu -- Generator Frame 432423.1a X0 Zero Sequence Reactance 0.037 pu -- Type Ext. Voltage Regulated, Brushless425.1a X'd Transient Reactance 0.157 pu -- Insulation Class H426.1a X''d Subtransient Reactance 0.137 pu -- Coupling - Single Bearing Flexible
-- Xq Quadrature Synchronous -- Amortisseur Windings FullReactance 1.434 sec. -- Cooling Air Volume 1020 CFM
427.1a T'd Transient Short Circuit -- Exciter RotatingTime Constant 0.062 sec. -- Voltage Regulator SE350***
428.1a T''d Subtransient Short Circuit -- Voltage Regulation 1%***Time Constant 0.013 sec. -- Sensing 1 Phase***
430.1a T'do Transient Open CircuitTime Constant 1.84 sec.
432.1a Ta Short Circuit TimeConstant of Armature Winding 0.015 sec.
(3) Excitation support system or PMG required to sustain short circuit currents.
* Voltage refers to wye (star) connection, unless otherwise specified.
**Not supplied as standard equipment.
***DVR®2000E voltage regulator supplied with PMG option. DVR®2000E voltage regulation 1/4%, 1 or 3 Phase sensing.
MARATHON ELECTRIC MAGNAPLUS GENERATORS
Date: 6-2-05 Basic Model 432CSL6212 Test Report No. WC1905
TYPICAL DYNAMIC CHARACTERISTICS60 HERTZ
MARATHON ELECTRIC MAGNAPLUS GENERATORS
TYPICAL MOTOR STARTING CHARACTERISTICS
80
85
90
95
100
0 100 200 300 400 500
kW Output
% E
ffic
ien
cy
0
10
20
30
40
0 200 400 600 800 1000 1200
Locked Rotor kVA
% V
olt
age
Dip
80
85
90
95
100
0 100 200 300 400 500
kW Output
% E
ffic
ien
cy
TYPICAL GENERATOR EFFICIENCY
0.8 pf
416V 480V
0.8 pf
Voltage refers to wye (star) connection, unless otherwise specified.
0
1
0
10
20
30
0 100 200 300 400
LOAD APPLICATION
kW at 0.8 Power Factor
% V
olt
age
Dip
Rec
ove
ryT
ime
(Sec
.)
240/480V
240V DELTA 280/416V
0
10
20
30
0 100 200 300 400
LOAD REJECTION
kW at 0.8 Power Factor%
Vo
ltag
e R
ise
Rec
ove
ryT
ime
(Sec
.)
240V DELTA 280/416V
240/480
240/480V
240V DELTA 208/416V
1.0 pf 1.0 pf
240/480V
208/416V
SE350 DVR®2000E
0
1208/416V
240/480V
Digital Genset Controller DGC-2020
DESCRIPTION MTU Onsite Energy’s Digital Genset Controller (DGC-2020) is a highly advanced integrated genset control system. The DGC-2020 is perfectly focused, combining rugged construction and microprocessor technology to offer a product that will hold up to almost any environment and flexible enough to meet your application’s needs. This device provides genset control, transfer switch control, metering, protection and programmable logic in a simple, easy to use, reliable, rugged, and cost effective package.
HIGHLIGHTS ♦ UL Recognized, , CE approved ♦ NFPA-110 compatible♦ Microprocessor based♦ Windows-based software for optional remote operation
(Software can be downloaded at www.mtuonsitenergy.com)♦ Complete system metering♦ Expandable to meet customer needs♦ Optional accessories for Ethernet communication
DGC-2020_12pgBrochure_10-09
DIAGRAM
Front Panel LED Indicators: Run: Green - Indicates the DGC is in the RUN mode. Off: Red - Indicates the DCG is in the OFF mode. Auto: Green - Indicates the unit is in the AUTO mode of operation. Not in Auto: Red - Indicates unit is not in the AUTO mode. Supplying Load: Green - Indicates the system is supplying current to a connected load. Alarm: Red - Indicates an alarm situation by continuous illumination. Indicates a Pre-alarm by flashing.
Page 1
Digital Genset Controller DGC-2020
Standard Features Level 1 Level 2 Level 3
Generator Metering √ √ √
Engine Monitoring √ √ √
Genset Control √ √ √
Emergency Stop √ √ √
Engine Protection √ √ √
Windows-Based Software (BESTCOMSPlus) √ √ √
Automatic Transfer Switch Control √ √ √
Event Recording √ √ √
Suitable for use on rental gensets with Hi/Lo line sensing or single or three phase sensing override
√ √ √
SAE J1939 Engine ECU Communications (Expandable I/O Capability) √ √ √
Modbus Communications via RS-485 √ √ √
Multilingual Capability (English, Spanish, Chinese) √ √ √
Extremely Rugged, Fully Encapsulated Design √ √ √
16 Programmable Contact Inputs √ √ √
12 Programmable 2 Adc Form A Rated Contact Outputs √ √ √
Wide Ambient Temperature Range (-40 to -70°C / -40 to -158°F) √ √ √
NFPA110 Compatible √ √ √
HALT (Highly Accelerated Life Tests) Tested √ √ √
IP 54 Front Panel Rating with Integrated Gasket √ √ √
LCD Heater √ √ √
UL-508 Compatible √ √ √
UL Recognized, , CE Approved √ √ √
Current Sensing (5A CT Inputs) √ √ √
Generator Frequency - 50/60 Hz √ √ √
Battery Backup for Real Time Clock √ √ √
Generator Protection (27, 32, 40Q, 59, 81O, 81U) √ √ √
Generator Protection (47, 51) √ √
Internal Dial-Out Modem (Remote Dial-Out and Dial-In Capability)
√ √
Automatic Synchronizer √
DGC-2020_12pgBrochure_10-09 Page 2
Optional Accessories Level 1 Level 2 Level 3
Analog Extension Module 2020 (AEM-2020) √ √ √
Load Share Module 2020 (LSM-2020)
Ethernet √ √ √
Parallel (Must have autosync panel to loadshare) √
Contact Expansion Module 2020 (CEM-2020) √ √ √
Modbus RTU-TCP Gateway √ √ √
Remote Communications to RDP-110 Remote Annunciator Option √ √ √
Digital Genset Controller DGC-2020
DGC-2020_12pgBrochure_10-09 Page 3
FUNCTIONS
Genset Protection:
Generator (All Levels): Undervoltage (27) Overvoltage (59) ANSI Codes Reverse Power (32) Overfrequency (81O)
Loss of Excitation (40Q) Underfrequency (81U)
Generator (Level 2 / 3 only): Phase Imbalance (47) Generator Overcurrent (51) ANSI Codes
All Generator Protection features are programmable as alarms, pre-alarms, status or not used.
All alarms and pre-alarms can be enabled or disabled via the BESTCOMSPlus PC software or the front panel. Additional custom alarms and pre-alarms are available upon request.
Genset Metering:
♦ Generator parameters consist of 8 standard parameters including, but not limited to voltage, current, Hz, realpower (watts), apparent power (VA), and power factor. The view can be programmed to display up to 20parameters using the scrolling and time delay feature.
♦ Engine parameters include oil pressure, coolant temperature, RPM, battery voltage, fuel level, engine runtime,and various J1939 supported parameters.
Engine Control:
♦ Cranking Control: Cycle or Continuous (Quantity and Duration Fully Programmable)♦ Engine Cooldown: Smart Cooldown function saves fuel and engine life.♦ Successful Start Counter: Counts and records successful engine starts♦ Timers including, but not limited to:
• Engine Cooldown Timer• Engine Maintenance Timer• Pre-Alarm Time Delays for Weak/Low Battery Voltage• Alarm Time Delay for Overspeed• Alarm Time Delay for Sender Failure• Arming Time Delays after Crank Disconnect:
- Low Oil Pressure - High Coolant Temperature
Pre-Alarms (Warnings) Low Oil Pressure High Coolant Temperature Low Coolant Temperature Battery Overvoltage Weak Battery Battery Charger Failure Engine Sender Unit Failure Engine kW Overload (3 levels) Maintenance Interval Timer Low Coolant Level Low Fuel Level Fuel Leak Detect High Fuel Level
Engine: Alarms (Shutdowns) Low Oil Pressure High Coolant Temperature Low Coolant Level Low Fuel Level Overspeed Overcrank Engine Sender Unit Failure Fuel Leak/Fuel Sender Failure Emergency Stop Battery Charger Failure Critical Low Fuel Shutdown
Digital Genset Controller DGC-2020
FUNCTIONS Event Recording The DGC-2020 has an event recorder that provides a record of alarms, pre-alarms, engine starts, engine runtime loaded, engine runtime unloaded, last run date, and many other events that are all date and time stamped to help the user determine the cause and effect of issues related to the generator set. Contains 30 event records each retaining up to 99 occurrences in memory. Time, date and engine hour detail is available for the most current 30 occurrences within each event record.
Transfer Switch Control (Mains Failure) - Level 3 only The DGC-2020 monitors utility (mains) and determines if it is providing voltage that is suitable for the loads. If the utility (mains) goes beyond predetermined levels, the generator is started and the utility (mains) is disconnected from the load and the generator is connected. When the utility (mains) returns to acceptable levels for a sufficient time, the generator is disconnected and the utility (mains) is reconnected to the load. It also includes appropriate adjustable timers or time delays for establishing stable utility (mains) operation. Utility breakers must be electronically operated.
RS-485 Communications When utilized, the user can send and receive information from the DGC-2020 via the RS-485 communications port and Modbus-RTU protocol. This feature allows the DGC-2020 controlled genset to be fully integrated into the building management system. Please see the Instruction Manual for the Modbus register list.
Programmable Logic The DGC-2020 offers a very powerful, yet easy to use, programmable logic scheme for custom programming of the various inputs, outputs, alarms, and pre-alarms. It allows these elements to be integrated into a complete logic scheme so that the user can meet even the most complex specification. The Programmable Logic control includes the selection of logic gates and timers with drag-and-drop technology to make it fast and simple.
Remote Display Panel Annunciation The DGC-2020 can communicate to a remote display panel, Model RDP-110. This requires only two wires to annunciate all of the alarms and pre-alarms required by NFPA-110 Level I and II. External power is required.
Modem - Level 2 and 3 only A dial-out modem enables remote control, monitoring, and setting of the DGC-2020. When an alarm or pre-alarm condition occurs, the DGC-2020 can dial up to four telephone numbers, in sequence, until an answer is received and the condition is annunciated.
J1939 Communications J1939 CANBUS communications allows the DGC-2020 to communicate to the engine's ECU (Engine Control Unit) to gather critical engine information like oil pressure, engine coolant temperature, RPM, battery voltage, and many more. By utilizing the ECU, adding analog engine senders is no longer required. This can save substantial money for the installer. It also eliminates any errors or discrepancies between the ECU data and the data displayed on the DGC-2020 that may be present due to analog sender inaccuracies or incompatibility. A total of 47 engine parameters can be obtained via the ECU. You also can derive the added benefit of having access to the ECU's diagnostic troubleshooting codes, or DTCs. The DTCs provide information about the engine's operating conditions and communicates these via J1939, to the DGC, thus eliminating the need for hand-held service tools to diagnose simple engine issues. With the optional modem, the DTCs can be accessed remotely, and valuable service time can be saved by remote diagnostics and taking the right parts to fix the problem the first time.
DGC-2020_12pgBrochure_10-09 Page 4
Digital Genset Controller DGC-2020
DGC-2020_12pgBrochure_10-09 Page 5
Operating Power: ♦ Nominal: 12 or 24 Vdc♦ Range: 6 to 32 Vdc♦ Power Consumption:
- Sleep Mode: 5W with all relays non-energized - Typical Operational Mode: 14.2W - Run mode, LCD heater on, 6 relays energized
♦ Battery Ride Through: Withstands cranking ride-through down to 0 V for 50 ms (typical)
Current Sensing: 5 Amps AC Current Sensing Continuous Rating ..................... 0.1 to 5.0 Amps AC 1 Second Rating ........................ 10 Amps AC Burden ....................................... 1 VA
Voltage Sensing: ♦ Range: 12 to 576 V rms, line-to-line♦ Frequency Range:10 to 72 Hz for 50/60 style♦ Burden: 1 VA♦ 1 Second Rating: 720 V rms
Contact Sensing/Input Contacts: ♦ Contact sensing inputs include 1 emergency stop input and 16 programmable inputs. The factory utilizes up to (3)
of these inputs. The emergency stop input accepts normally closed, dry contacts. The remote emergency stop is limited to 75 ft. standard. Extended runs are available with optional relay. All programmable inputs accept normally open, dry contacts.
Engine System Inputs: ♦ Fuel Level Sensing Resistance Range: 33 to 240 Ω nominal♦ Coolant Temperature Sensing Resistance Range: 62.6 to 637.5 Ω nominal♦ Oil Pressure Sensing Resistance Range: 34 to 240 Ω nominal♦ Engine Speed Sensing:
- Magnetic Pickup - Voltage Range: 3 to 35 V peak (6 to 70 V peak-peak) - Frequency Range: 32 to 10,000 Hz - Generator Voltage Range: 12 to 576 V rms
Output Contacts: ♦ 15 Form A Total Programmable Outputs: (3) 30 Adc and (12) 2 Adc
- The factory typically utilizes (5) on each gen-set which can be reprogrammed as needed: (3) 30 Adc for Run, Start and Pre-Start (2) 2 Adc for Audible Alarm and Alarm Output
- (10) 2 Adc remain as user-defined outputs
SPECIFICATIONS
Metering: ♦ Generator Voltage (rms)
- Metering Range: 0 to 576 Vac (direct measurement), 577 to 9,999 Vac (through VT using VT ratio setting)- Accuracy: ±1.0% of programmed rated voltage or ±2 Vac
♦ Generator Current (rms) - Generator current is measured at the secondary windings of user-supplied 1 A or 5 A CTs. - Metering Range: 0 to 5,000 Aac - CT Primary Range: 1-5,000 Aac,in primary increments of 1 Aac - Accuracy: ±1.0% of programmed rated current or ±2 Aac
♦ Generator Frequency - Metering Range: 10 to 72 Hz (50/60 Hz), 10 to 480 (400 Hz) - Accuracy: ±0.25% or 0.05 Hz
♦ Apparent Power - Indicates total kVA and individual line kVA (4-wire, line-to-neutral or 3-wire, line-to-line). - Accuracy: ±3% or the full-scale indication or ±2 kVA
♦ Power Factor - Metering Range: 0.2 leading to 0.2 lagging - Accuracy: ±0.02
♦ Real Power - Indicates total kW and individual line kW (4-wire, line-to-neutral or 3-wire line-to-line) - Accuracy: ±3% of the full-scale indication or ±2 kW
♦ Oil Pressure - Metering Range: 0 to 145 psi or 0 to 1,000 kPa - Accuracy: ±3% of actual indication or ±2 psi or ±12 kPa (subject to accuracy of sender)
♦ Coolant Temperature - Metering Range: -40 to 410°F or -40 to 210°C - Accuracy: ±3% or actual indication or ±2° (subject to accuracy of sender)
♦ Fuel Level - Metering Range: 0 to 100% - Accuracy: ±2% (subject to accuracy of sender)
♦ Battery Voltage - Metering Range: 6 to 32 Vdc - Accuracy: ±3% of actual indication or ±0.2 Vdc
♦ Engine RPM - Metering Range: 0 to 4,500 rpm - Accuracy: ±2% of actual indication or ±2 rpm
♦ Engine Run Time - Engine run time is retained in nonvolatile memory. - Metering Range: 0 to 99,999 h, Update Interval: 6 min - Accuracy: ±1% of actual indication or ±12 min
♦ Maintenance Timer - Maintenance timer indicates the time remaining until genset service is due. Value is retained in nonvolatile memory.
- Metering Range: 0 to 5,000 h, Update Interval: 6 min - Accuracy: ±1% of actual indication or ±12 min
Digital Genset Controller DGC-2020
SPECIFICATIONS
DGC-2020_12pgBrochure_10-09 Page 6
Digital Genset Controller DGC-2020
Generator Protection Functions: ♦ Overvoltage (59) and Undervoltage (27)
- Pickup Range: 70 to 576 Vac- Activation Delay Range: 0 to 30 s
♦ Underfrequency (81U) and Overfrequency (81O)- Pickup Range: 45 to 66 Hz (50/60 Hz nominal), 360 to 440 Hz (400 Hz nominal)- Pickup Increment: 0.1 Hz (50/60 Hz nominal), 0.1 Hz (400 Hz nominal)- Activation Delay Range: 0 to 30 s
♦ Phase Imbalance (47): Level 2 and 3 only- Pickup Range: 5 to 100 Vac- Pickup Increment: 1 Vac- Activation Delay Range: 0 to 30 s, Activation Delay Increment: 0.1 s
♦ Overcurrent (51): Level 2 and 3 only- Pickup Range: 0.18 to 1.18 Aac (1 A current sensing), 0.9 to 7.75 Aac (5 A current sensing)- Time Dial Range: 0 to 30 s (fixed time curve), 0 to 9.9 (inverse curve time multiplier)- Inverse Time Curves: 17 selectable Time Overcurrent Characteristic Curves
Environmental: ♦ Temperature: Operating: -40 to 70°C (-40 to 158°F), Storage: -40 to 85°C (-40 to 185°F)♦ Humidity: IEC 68-2-38♦ Salt Fog: ASTM B 17-73, IEC 68-2-11 (tested while operational)♦ Ingress Protection: IEC IP54 for front panel♦ Shock: 15 G in 3 perpendicular planes♦ Vibration: 5 to 29 to 5 Hz: 1.5 G peak for 5 min.
29 to 52 to 29 Hz: 0.036" DECS-A for 2.5 min. 52 to 500 to 52 Hz: 5 G peak for 7.5 min.
Swept over the above ranges for 12 sweeps in each of 3 mutually perpendicular planes with each 15-minute sweep.
Agency Approvals: ♦ UL/CSA Approvals: "cURus" approved to UL 508 R and CSA C22.2 No.14♦ NFPA Compliance: Complies with NFPA Standard 110, Standard for Emergency and Standby Power.
CE Compliance: This product complies with the requirements of the following EC Directives: • Low Voltage Directive (LVD) - 73/23/EEC as amended by 93/68/EEC• Electromagnetic Compatibility (EMC) - 89/336/EEC as amended by 92/31/EEC and 93/68/EEC• EN 50178:1997 - Electronic Equipment for use in Power Installations• EN 61000-6-4:2001 - Electromagnetic Compatibility (EMC), Generic Standards, Emission Standard for Industrial
Environments• EN 61000-6-2:2001 - Electromagnetic Compatibility (EMC), Generic Standards, Immunity for Industrial
Environments
SPECIFICATIONS
♦ Reverse Power (32) - Pickup Range: –50 to 5%- Pickup Increment: 0.1%- Hysteresis Range: 1 to 10%- Hysteresis Increment: 0.1%- Activation Delay Range: 0 to 30 s- Activation Delay Increment: 0.1 s
♦ Loss of Excitation (40Q)- Pickup Range: –150 to 0%- Pickup Increment: 0.1%- Hysteresis Range: 1 to 10%- Hysteresis Increment: 0.1%- Activation Delay Range: 0 to 30 s- Activation Delay Increment: 0.1 s
DGC-2020_12pgBrochure_10-09 Page 7
ADDITIONAL SPECIFICATIONS
The DGC-2020 has been designed to provide maximum functionality at a minimum price. You only buy what you need. Below are options selected to help maximize the value provided by the DGC-2020.
Battery Backup for Real Time Clock - All Levels A ten-year (typical life) lithium battery is used to provide long-term maintenance of the real time clock setting. This battery is serviceable by removing the rear cover. The settings, programming, and event records are saved in nonvolatile memory and do not require battery backup.
Internal Dial-In / Dial-Out Modem - Levels 2 and 3 The DGC-2020 can provide long distance communications by including an internal modem. There are two modems available, one for U.S. and one for European telephone systems. When a modem is selected, the user can access the DGC-2020 from virtually anywhere via a telephone line. The user can control and monitor the genset as if standing right next to it. The DGC-2020 can also dial out for pre-programmed circumstances to alert the user of selected conditions.
Additional Generator Protection - Levels 2 and 3 In addition to the standard generator protection (27, 32, 40Q, 59, 81O, 81U), the DGC-2020 also can be equipped with a more sophisticated generator protection system. This option provides an overcurrent element (51) with 17 selectable time current characteristic curves and a voltage phase balance protection function (47).
Breaker Management - Level 3 only The DGC-2020 is capable of controlling the generator breaker and the mains breaker. The status of the breakers is determined by using BESTLogicPlus Programmable Logic to setup the GENBRK and MAINSBRK logic blocks. These logic blocks have outputs that can be configured to energize an output contact and control a breaker as well as inputs for breaker control and status. The DGC-2020 will attempt to close a breaker only after verifying that it can be closed. If the breaker cannot be closed, the close request will be ignored. Only one breaker can be closed at a time. Synchronization is required before closing the breaker to a live bus. Closure to a dead bus can be performed after meeting dead bus threshold and timing requirements set by the user.
Auto-Synchronizer - Level 3 only When the DGC-2020 is configured with this option, the user can select between 2 types of autosynchronizers, phase lock or anticipatory style. In both methods, the DGC-2020 adjusts generator frequency and voltage to match that of the bus (mains) via contact outputs, then connects the generator to the bus by closing the connecting breaker. When the control mode is set to Power Factor (PF) or kVar, the setpoint can be derived either from a user setting or from an analog input.
Multigen Management - Level 3 only Enabling sequencing on a networked group of load share units allows these units to manage load by starting and stopping appropriate units based on a factor of load demand and available capacity. The mode of operation is used to determine the order in which each generator in a group will contribute to the systems power production upon a demand start/stop request.
Modes of operation include: Staggered service time Balanced service time Largest size first Smallest size first Smallest unit ID
Digital Genset Controller DGC-2020
DGC-2020_12pgBrochure_10-09 Page 8
Digital Genset Controller DGC-2020
OPTIONAL ACCESSORIES
Analog Extension Module 2020 (AEM–2020) The optional AEM-2020 is a remote auxiliary device that provides additional DGC-2020 analog inputs and outputs. Its features include:
8 Analog Inputs: The AEM-2020 provides 8 analog inputs that are user-selectable for 4 to 20 mA or 0 to 10Vdc. Each analog input has under/over thresholds that can be configured as status only, alarm, or pre-alarm. When enabled, an out of range alarm alerts the user of an open or damaged analog input wire. The label text of each analog input is customizable.
8 RTD Inputs: The AEM-2020 provides 8 user-configurable RTD inputs for monitoring gen-set temperature.Each RTD input can be configured as status only, alarm, or pre-alarm to protect against high or low temperature conditions. When enabled, an out of range alarm alerts the user of an open or damaged RTD input wire. The label text of each RTD input is customizable.
2 Thermocouple Inputs: The AEM-2020 provides 2 thermocouple inputs for monitoring gen-set temperature.Each thermocouple input can be configured as status only, alarm, or pre-alarm to protect against high or low temperature conditions. When enabled, an out of range alarm alerts the user of an open or damaged thermocouple input wire. The label text of each thermocouple input is customizable.
4 Analog Outputs: The AEM-2020 provides 4 analog outputs that are user-selectable for 4 to 20 mA or 0 to 10Vdc. A wide selection of parameters including oil pressure, fuel level, generator voltage, and bus voltage can be configured as analog outputs. Refer to Section 4, BESTCOMSPlus Software, for a full list of parameter selections.
Communications via CANbus: A Control Area Network (CAN) is a standard interface that enablescommunication between the AEM-2020 and the DGC-2020.
Functionality of Inputs and Outputs assigned via BESTCOMSPlus software.
Input and Output Terminals
DGC-2020_12pgBrochure_10-09 Page 9
OPTIONAL ACCESSORIES Load Share Module 2020 (LSM-2020) with Ethernet Capability
The LSM-2020 is an easy to connect and use add-on module that allows the DGC-2020 to control VAR/PF and kW load sharing of a paralleled generator set. The LSM-2020 is remotely mounted and communicates to the DGC-2020 via J1939 CANbus communications. With the Level 3 controller, this module provides the flexibility to use the same model DGC-2020 gen-set controller for single unit (standalone power) applications and parallel gen-set applications. Pure flexibility is one of the benefits of the DGC-2020, and this add-on module enhances that.
Analog Input (Configurable): The LSM-2020 provides one analog input that is user-selectable for 4 to 20 mAor 0 to 10 Vdc. This input can be used to control the power factor (PF) or kVar setpoint when paralleled to the utility.
Analog Outputs: The LSM-2020 has (3) analog outputs—one connected to the voltage regulator and one tothe speed governor. There is also one output connected to the load sharing lines. All of these outputs can be selected via BESTCOMSPlus for 4-20 mA or ±10 Vdc. The analog outputs also can be scaled to adapt to the compatibility requirements of existing analog equipment.
Multiple Generator Management: This module adds demand start/stop control and generator sequencing tothe feature packed DGC-2020. The generator sequencing can be selected by priority number, generator size, service hours remaining, and balanced service hours. This sequencing function is even smart enough to determine if all the connected controllers are in the same mode.
Ethernet Port: The LSM-2020 also adds Ethernet communications to the many communications features ofthe DGC-2020. It is IP addressable and allows all of the functionality of BESTCOMSPlus to be utilized via Ethernet. Note: This option is only for use with the BESTCOMSPlus software. For other Ethernet options, please refer to the Modbus RTU-TCP Gateway (Netbiter RTU-TCP Gateway).
Communications via CANbus: The LSM-2020 is remotely mounted and communicates to the DGC-2020 viaSAE J1939 CANbus communications.
Typical LSM-2020 Connections
LSM-2020 Overall Dimensions
Digital Genset Controller DGC-2020
DGC-2020_12pgBrochure_10-09 Page 10
CEM-2020 Overall Dimensions
Contact Expansion Module 2020 (CEM-2020) The CEM-2020 is a remote device that provides additional DGC-2020 contact inputs and outputs giving the user flexibility to use the same model DGC-2020 genset controller for simple or more complicated applications that require contact functionality or duplication of contacts for remote annunciation. Its features include:
10 Contact Inputs: The CEM-2020 provides 10 programmable contact inputs with the same functionality asthe contact inputs on the DGC-2020.
24 Output Contacts: The CEM-2020 provides 24 Form C programmable output contacts with the samefunctionality as the output contacts on the DGC-2020. The output ratings of the Form C contacts are:
Alternate ratings shown in the following table may be used to allow a higher rating on selected contacts:
Communications via CANbus: The CEM-2020 communicates to the DGC-2020 via SAE J1939 CANbuscommunications and allows the user to program the functionality of these inputs and outputs in the BESTCOMSPlus software.
The user can add labels for the inputs and outputs that appear in BESTCOMSPlus, show up on the front panel, and in programmable logic. All the functionality can be assigned to these inputs and outputs as if they were an integrated part of the DGC-2020. The CEM-2020 module has all of the environmental ratings, like the DGC-2020, including a model for UL Class1 Div2 applications. The CEM-2020 terminals accept a maximum wire size of 12 AWG while the chassis ground requires 12 AWG wire. Flexibility is one of the benefits of the DGC-2020, and this add-on module enhances that benefit even further. The CEM-2020 is available for all levels, but is only functional for paralleling with Level 3.
Output No. Rating (Cont.) Additional Information 13-24 1 Adc @ 30 Vdc This is a gold flash contact for low current circuits. 25-36 4 Adc @ 30 Vdc
Digital Genset Controller DGC-2020
OPTIONAL ACCESSORIES
Output No. Rating (Cont.) Output No. Rating (Cont.)
13-24 25, 31, 36 7 Adc @ 30 Vdc
26 – 30 4 Adc @ 30 Vdc
32 -35 2 Adc @ 30 Vdc
1 Adc @ 30 Vdc
DGC-2020_12pgBrochure_10-09 Page 11
OPTIONAL ACCESSORIES Critical Low Fuel Shutdown
ModBus RTU-TCP Gateway connects the DGC-2020 with Ethernet and mobile networks. The gateway acts as a transparent bridge translating DGC-2020 Modbus registers allowing control systems, such as PLCs, SCADA, etc. to communicate over Ethernet. One gateway is required per generator allowing multiple generator sets to be accessed and monitored simultaneously. Note: This option does not work with BESTCOMSPlus software.
Features include: Connectivity between serial Modbus devices and the Modbus TCP RS-232, RS-485 and RS-422 connectivity Ethernet and mobile network connectivity 10/100 Mbit/s Ethernet Web-based configuration DIN rail mounting Network and serial status indicators
Below is a brief illustration of the integration of the RTU-TCP gateway with the DGC-2020 device.
Modbus RTU—Modbus TCP Gateway
DGC-2020 (Slave)
Modbus RTU Modbus TCP Modbus TCP (Master)
Modbus Gateway
DGC-2020_12pgBrochure_10-09 Page 12
Digital Genset Controller DGC-2020
Product Data Sheet MGL36500Electronic Trip Circuit Breaker , 500A, 3-Pole
Availability Stock Item: This item is normally stocked in our distribution facility.
Number of Poles 3-Pole
Approvals UL Listed - CSA Certified - IEC Rated
Wire Size #3/0 to 500 AWG/kcmil(Al/Cu)
Depth 8.10 Inches
Height 12.80 Inches
Width 8.30 Inches
Circuit Breaker Type Standard
For Use With Switchboards
Frame Type M-Frame
Sensor Rating 500A
Marketing Trade Name Powerpact
Voltage Rating 600Vac/250Vdc
Electronic Trip Unit Basic
Mounting Type Unit Mount
Interrupting Rating 65kA@240Vac - 35kA@480Vac - 18kA@600Vac
Circuit Breaker Rating 80% Rated
Weight 24 Pounds
Terminal Type Lugs (ON and OFF ends)
General Application Provides overload and short circuit protection
Technical Characteristics
Category 01205 - Circuit Breakers, Electronic Trip, 600 Vac, Type MGL & MJL, UL/CSA, Unit Mount
Discount Schedule DE2
GTIN 00785901661641
Package Quantity 1
Weight 29.09 lbs.
Availability Code Stock Item: This item is normally stocked in our distribution facility.
Returnability Y
Country of Origin US
Shipping and Ordering
As standards, specifications, and designs change from time to time, please ask for confirmation of the information given in this document.
1
Stand 26.02.2010 Anlage 3 zu TKK-Nr. 054-10
4
BR1600 Gendrive emission values at constant speed 1800 rpm EPA Tier 2/3
6R1600G80S
100% 75% 50% 25% 10%
Emission Unit 343 kW 257 kW 172 kW 86 kW 34 kW
NOx g/kWh 5,43 3,49 2,43 2,62 3,49
HC g/kWh 0,15 0,21 0,44 0,74 2,11
CO g/kWh 0,67 0,54 1,40 1,38 3,46
Emission (Nominal)1
EPA-3
PM g/kWh 0,055 0,075 0,163 0,343 0,505
FuelDiesel EN 590 orCertification fuel 5Y5 compliant to CFR 40 Part 89
6R1600G70S
100% 75% 50% 25% 10%
Emission Unit 312 kW 234 kW 156 kW 78 kW 31 kW
NOx g/kWh tbd
HC g/kWh
CO g/kWh
Emission (Nominal)1
EPA-3
PM g/kWh
FuelDiesel EN 590 orCertification fuel 5Y5 compliant to CFR 40 Part 89
6R1600G20S / 6R1600G40S
100% 75% 50% 25% 10%
Emission Unit 312 kW 234 kW 156 kW 78 kW 31 kW
NOx g/kWh tbd
HC g/kWh
CO g/kWh
Emission (Nominal)1
EPA-3
PM g/kWh
FuelDiesel EN 590 orCertification fuel 5Y5 compliant to CFR 40 Part 89
6R1600G10S
100% 75% 50% 25% 10%
Emission Unit 284 kW 213 kW 142 kW 71 kW 28 kW
NOx g/kWh tbd
HC g/kWh
CO g/kWh
Emission (Nominal)1
EPA-3
PM g/kWh
FuelDiesel EN 590 orCertification fuel 5Y5 compliant to CFR 40 Part 89
1 Emission data measurement procedures are consistent with those described in EPA CFR 40 Part 89, and ISO 8178-1 formeasuring NOx, HC, CO and PM. Data shown is based on steady state operating conditions of 25 °C and 960 mbar and dieselas specified in the tables. The nominal emission data shown is subject to instrumentation, measurement, facility, and engine-to-engine variations. Field emission test data are not guaranteed to these values. Emission data cannot be used to compare toEPA regulations which use values based on weighted cycle.
Industrial Tank Heaters
1500-5000 Watt
HIGHLIGHTS
♦ Weather Tight
♦ Conduit Connection
♦ Horizontal or Vertical Mounting
♦ Single Phase
SPECIFICATIONS
Stored Energy Systems
EnerGenius® NRG Features
Designed from the ground up for mission-critical reliability
• Precise charging and temperature compensation assure the
correct battery charge under all conditions.
• The industry-first BatterySENS feature warns of high
resistance battery or connections, so service can be
dispatched before engine start is needed.
The charger puts you in control. At any time, select from or change:
• Input: 120, 208 or 240 volts
• Output: 12 or 24 volts nominal (optional)
• Battery type from six standard settings
• Enabled or disabled automatic fast charging
• Enabled or disabled automatic temperature compensation,
or installation of optional remote temperature sensor.
Replace nearly any existing charger without planning ahead
• EnerGenius NRG is adaptable in the field to different
inputs, as well as to battery voltage and type.
Intelligent features prevent installation errors
• EnerGenius NRG won’t start if the battery is connected
backwards, disconnected or the wrong voltage.
• Each fault activates SENS unique “Battery Fault” alarm.
Intelligent design prevents system damage
• Industry-first load-dump protection clamps high voltage
transients.
• Class-leading surge suppression provides the best lightning
protection available.
Easy field battery upgrades
• In seconds select the new correct battery voltage from six
standard settings.
Engineered for top quality and reliability
• Highest possible ISO 9000 quality design and construction
• Finest industrial-grade components available
• UL, C-UL listed
• CE marked (50/60 Hz units)
EnerGenius® NRG Benefits
For the first time, your battery charger can warn you
before battery system problems threaten your mission-
critical application.
The new BatterySENS fault warning system, teamed with
extreme charging accuracy, helps prevent the No. 1 problem
with generator sets: failure to start. EnerGenius NRG is even
smart enough to detect installation errors, adjust in the field
to different inputs, and prevent “fried” electronics.
The Intelligent Engine-Start Battery Charger
Feature: Configurable to nearly any site
Benefit: Easiest field adjustments for any battery; can replace nearly any charger
Specifications• 120/208-240 volt AC input selector switch• 12/24 volt output field programmable (optional)• 6 discrete battery voltage programs• Lead-acid 12 or 24-volt
- Low or high S.G. flooded- Low or high S.G. VRLA
• Nickel cadmium- 12-volt: 9 or 10 cells- 24-volt: 18, 19 or 20 cells
• Enable or disable automatic fast charge• Enable or disable temperature compensation• Optional remote temperature sensor• Dead battery charge feature
Feature: Highest accuracy charging
Benefit: Best battery performance and longest battery life ensure engine start
Specifications• 10 or 20 amp output• Highest accuracy (+0.5%) line and
load regulation• 4-rate fast charge program• Temperature compensation
(enable or disable in field)• Optional remote temperature sensor
Feature: Wide range of standard functions
Benefit: Features needed to meet most specifications already engineered in
Automaticboost jumper
(enable ordisable)
Float voltageselect jumper
(six settingsavailable)
Battery range select jumper, 12 V or 24 V battery types (optional)
Battery current acceptance
Constant current charge High-ratetaper
charge
Maintainingcharge
Finishingcharge
Fast volt limit
Float volt limit
Charger in “fast charge mode”
Transition from fastcharge voltage tofloat voltage
Charger in “float mode”
Bat
tery
vol
tage
Transition from current limitto fast charge voltage limit
Current limit
Features, Benefits and Specifications
Standard 4-Rate Charging
Feature Standard Optional
Single phase input Field selectable 120/208-240 VAC, 60 Hz 120/208-240 VAC, 50/60 Hz
DC output 12 V output, 24 V output Field selectable 12/24 V output
Automatic equalize 4-rate charge profile Standard feature
Temperature compensation Enable or disable in the field Remote battery sensor
Circuit card tropicalization All boards coated Standard feature
Alarm contacts Single Form C summary alarm Individual alarm contacts meeting requirement of NFPA-110
Housing protection NEMA-1 (IP-20) Drip shield (IP 22) or NEMA 3R enclosure
Lightning protection Meets ANSI/EEE and EN standards Standard feature
C-UL listing to UL 1236 Category BBGQ Category BBHH: “Emergency Power Systems”
CE marked Non-standard Included in 50/60 Hz units
Feature: Comprehensive display and alarm system
Benefit: Gives the most complete system status and diagnosticsavailable. Optional alarm system “C” exceeds NFPA-110 requirements
Specifications• Digital meter accurate to +2% voltage and +5% amperes• Battery fault alarm indicates any of the following:
- Battery disconnected- Battery polarity reversed- Mismatched charger/battery voltage- Open charger to battery connection- Open battery cell or excessive internal resistance
Feature: Industry-first battery fault warningBenefit: Helps diagnose battery problems before engine
start is needed
Specifications• Charger issues a battery fault alarm if the battery: Becomes
disconnected, fails open circuit, or if internal resistancebecomes high
Feature: Ruggedized to the toughest specifications
Benefit: Reliable charger stays accurate despite severe real-world conditions to ensure dependable engine starting
Specifications• Electronic current limit prevents overloads• BatterySENS protects against reverse or wrong battery voltage• Operating temperature: -40C to +60C.
Meets full specification from -20C to +45C.• Thermal protection against excessive temperature• Humidity 5% to 95%, non-condensing• Conformally coated printed circuit card• Vibration resistance to UL 991, Class B (10A units only)• Lightning transient immunity to ANSI/IEEE C62.41 Cat. B
and EN 50082-2 heavy industrial
Feature: State-of-the-art mechanical design
Benefit: Anodized aluminum housing offers cool long-life operation
Specifications• Natural convection cooling• Corrosion-resistant housing with conduit knockouts• Terminal blocks for permanent installation
Alarm System Functions
Alarms 1 Alarms C
AC on LED LED
Float charge LED LED
Fast charge LED LED
Temp comp active LED LED
AC fail LED* LED and Form C contact
Low battery volts LED and Form C contact
High battery volts LED and Form C contact
Charger failure LED* LED and Form C contact
Battery fault LED* LED and Form C contact
* Alarms summed together in a single Form C contact
Features, Benefits and Specifications
Feature: Safety and EMC compliance
Benefit: Meets USA, Canada and European Unionstandards. Approved for use with UL 2200 gensets.
Specifications• C-UL listed to UL 1236• UL listed in category BBHH for “Emergency
Power Systems” (optional)• Complies with CSA 22.2 no. 107.2-M89• Meets FCC Part 15, Class B; EN50081-2• CE marked (50/60 Hz units) to EN 60335• Input and output fuses• Complies with NFPA-110 (requires optional alarms “C”)
Battery fault warning
H
W D
Amps Width Depth Height
10 7.66" (195 mm) 6.48" (165 mm) 12.50" (318 mm)
20 14.00" (356 mm) 6.73" (171 mm) 12.50" (318 mm)
Housing Dimensions
Stored Energy Systems
NRG - -
Model Output voltage Output current Input voltage- Frequency Alarm system code Alternate configurations
12: 12 volts 10: 10 amps H: 120/208-240 VAC 1: LEDs, plus single Factory use only24: 24 volts 20: 20 amps 50/60 Hz Form C summary22: 12/24 volts R: 120/208-240 VAC contact
60 Hz C: LEDs, plus Form Ccontacts required byNFPA 110
10-Amp Chargers
EnerGenius® NRG Ordering/Model Information
Output NFPA-110 Model* Net Weight Volts Amps Alarms Number Lbs. KG
12 10 No NRG12-10-R1 19 8.7
12 10 Yes NRG12-10-RC 19 8.7
24 10 No NRG24-10-R1 24 10.9
24 10 Yes NRG24-10-RC 24 10.9
12/24 10 No NRG22-10-R1 24 10.9
12/24 10 Yes NRG22-10-RC 24 10.9
* All models offer field selectable input120/208-240 volts. 60 Hz input is standardwith UL and C-UL listing. 50/60 Hz inputwith CE marking is optional.
Output NFPA-110 Model* Net Weight Volts Amps Alarms Number Lbs. KG
12 20 Yes NRG12-20-RC 39 17.7
24 20 Yes NRG24-20-RC 42 19.1
12/24 20 Yes NRG22-20-RC 42 19.1
* All models offer field selectable input120/208-240 volts. 60 Hz input is standardwith UL and C-UL listing. 50/60 Hz inputwith CE marking is optional.
20-Amp Chargers
Specification subject to change without notice.
Model Number Breakout
HIGHLIGHTS
MTU ONSITE ENERGYENCLOSURES
// Flexibility to meet site requirements
// Double doors create accessiblity
// Secure locking doors
// Steel or aluminum construction
// Sound attenuation options
// UL2200 Listed
// Durable exterior
// Factory assembled and installed
// Rodent proof construction
// High retention gloss paint
// Full line of accessories
// ISO 9001 : 2008
DEPENDABLEPOWER SOLUTIONS.IT’S ALL WE DO.
Weather Proof Enclosure (WPE)
// Protects the generator set and components from the
elements and reduces noise levels.
// Modular design.
Ultra Quiet Enclosure (UQE)
// Similar design to CQE with further dBa reduction for
larger generator sets.
//
//
// Bird screen.
// Available on 600 kW - 2 MW models.
Crystal Quiet Enclosure (CQE)
//
requirements.
// Sound attenunated polyether polyurethane foam 1.5” of
2.15 lbs/c3
// Interior mounted silencer.
// Available on 30 – 500 kW models.
Optional Enclosure Features
// UL listed fuel tanks
// Fixed, motorized or gravity louvers
// Scoops
// Rain cap
// Storm collar
// Interior lighting
// Electrical package
// Stainless steel
// Custom paint color
04-09
MTU Onsite Energy’s durable enclosure designs offer quality construction that will withstand the elements.
multiple packaging levels that work to reduce noise levels, protect, and conceal the engine generator set.
SOUND DATA DIESEL ENGINE-GENERATOR SET
230 - 300 kW Standby 210 - 275 kW Prime 60 Hz
Model
DP210D6S
DS230D6S
DP230D6S
DS250D6S
DP250D6S
DS275D6S
DP275D6S
DS300D6S
SOUND RATINGS dB(A) at 7 meters.
Level 0: Open Powered Unit. No enclosure.
Level 1: Weather proof enclosure constructed of heavy gauge steel or aluminum with fixed storm proof panels designed for 100 mph wind load rating. Enclosure consists of a bolted and welded construction with pre-mounted internal muffler, muffler clamps and brackets included. Double-door access with no center posts on both sides of the enclosure. Hinged, lockable doors.
Level 2: Level 1 enclosure with multiple baffles on the air intakes. Sound attenuated foam installed on baffles and enclosure walls.
Level 3: Level 2 enclosure with an additional air exhaust chamber for redirecting noise and air flow upward.
Note: 150 MPH wind rated enclosures are optionally available.
ENCLOSURE LEVEL IDENTIFICATION
NOTE: Sound pressure levels subject to instrumentation, measurement, installation and engine-generator set variability Sound power levels per ISO 8528 and ANSI S1.13-2005 Sound data measured with:
- full-rated load- standard radiator package- 12 gauge steel enclosures- infinite exhaust connection
NA = Not available for this power range.
Level 0
86.1
86.3
86.3
86.6
86.6
86.9
86.9
87.2
Level 3
69.1
69.7
69.7
69.8
69.8
69.9
69.9
70.1
Level 2
NA
NA
NA
NA
NA
NA
NA
NA
Level 1
80.2
80.3
80.3
80.5
80.5
80.9
80.9
81
EM PRODUCTS™™
PHILLIPS & TEMRO INDUSTRIES
Engine Exhaust Silencers
Model JC Series Critical Grade
1
2
3
7
4
5
6
7
Engine Exhaust Silencer & Accessories:1. Silencer 5. Mitered Exhaust2. Flex Connector 6. Elbows3. Mounting Band 7. Flange / Gasket
Standard Silencer Application
• Heavy-duty critical grade series silencer• Designed for heavy duty stationary, marine
systems and mobile power units• JC Series silencers provide a high degree of
silencing where the ambient noise level isvery low and a high quality silencer is re-quired
Standard Construction Features
• Aluminized steel standard for silencers up to26 inch body diameter
• Silencers larger than 28 inch body diameterstandard carbon steel
• All welded steel construction• Can be mounted vertically or horizontally• Standard high temperature (1200° F.) satin
black finish• Drains standard item• Standard npt inlet and discharge connections
on sizes 2 inch to 3.5 inch• Standard 125/150# ASA drilled plate flanges
on inlet and discharge of silencers 4 inch andlarger
• Multi-chamber design
Optional Construction Features and Accessories
• Stainless steel and aluminum construction• Special inlet and outlet connections• Special inlet and outlet locations• Special finishes available• Vertical mounting legs• Horizontal mounting saddles• Mounting bands• Horizontal and vertical shell legs• Special acoustical designs• Internal and external shell lagging• Inspection openings• Air leak tests• ASME code construction• Complete line of engine exhaust accessories
REV. 01/99 99EC-1000
REPRESENTATIVE ATTENUATION CURVEFOR "JC" SERIES SILENCER
0
5
10
15
20
25
30
35
40
63 125 250 500 1000 2000 4000 8000
OCTAVE BAND CENTER FREQUENCY(Hz)
AT
TE
NU
AT
ION
(dB
)
EM PRODUCTS™
™
PHILLIPS & TEMRO INDUSTRIES
Engine Exhaust Silencers Model JC Series – Critical Grade Average Attenuation Curve: 25 – 34 dBA
• Larger sizes available upon request.Dimensions in inches, weights in pounds. Dimensions and weights are nominal and may vary slightly with production models. Re-quest certified drawings for exact dimensions.
Model No. Part No. A B D WT
JCE-15 100070 1.5 6 30 10
JCE-02 100071 2 6 42 29
JCE-25 100072 2.5 8 42 38
JCE-03 100073 3 8 43 43
JCE-35 100074 3.5 10 55 72
JCE-04 100075 4 10 56 72
JCE-05 100076 5 12 68 81
JCE-06 100077 6 12 68 84
JCE-08 100078 8 18 92 249
JCE-10 100079 10 22 108 370
JCE-12 100080 12 26 120 506
JCE-14 100081 14 30 132 743
JCE-16 100082 16 36 160 1050
JCE-18 100083 18 42 174 1750
JCE-20 100084 20 48 203 2550
Model No. Part No. A B C E F WT
JCS-15 200380 1.5 6 27.75 5 5.25 10
JCS-02 200381 2 6 39.75 5.5 7.25 29
JCS-25 200382 2.5 8 39.88 6.5 7.38 38
JCS-03 200383 3 8 40.62 7 7.38 43
JCS-35 200384 3.5 10 53.0 8 9.25 72
JCS-04 200385 4 10 53.5 8.5 9.25 72
JCS-05 200386 5 12 65.62 10 12.25 81
JCS-06 200387 6 12 65.62 10 12.25 84
JCS-08 200388 8 18 90.50 13 16.5 249
JCS-10 200389 10 22 105.0 15 20.0 370
JCS-12 200390 12 26 117.5 17 21.5 506
JCS-14 200391 14 30 130.0 19 23.0 743
JCS-16 200392 16 36 157.0 22 29.0 1050
JCS-18 200393 18 42 171.5 25 33.0 1750
JCS-20 200467 20 48 199.0 27 36.0 2550
End Inlet/End Outlet Side Inlet/End Outlet
A B
DEnd Inlet/End Outlet
F
C
BAE
Side Inlet/End Outlet
1 1/2 inch to 3 1/2 inch stan-dard with male NPT con-nections; 4 inch and larger standard with 125/150# ANSI drilled plate flange connections.
Sub-Base Fuel Systems UL 142 Listed
Sub-Base_Fuel_Systems_Spec_09-2010
DESCRIPTION
MTU Onsite Energy’s sub-base fuel tanks are manufactured and listed per UL142 standards for steel above-ground tanks. UL142 assures that our tanks meet the structural and mechanical integrity requirements for mounting engine-generator sets directly on top, providing our customers with a safe and efficient fuel storage system. These tanks are intended for above-ground storage of non-corrosive, stable flammable and combustible liquids that have a specific gravity not exceeding that of water and are in accordance with the Flammable and Combustible Liquids Code, NFPA 30; the Standard for Installation of Oil Burning Equipment, NFPA 31; and the Automotive and Marine Service Station Code, NFPA 30A.
STANDARD FEATURES
Fuel supply standard (size may vary with engine-generator set model), fuel return, normal vent,emergency vent, manual fill, optional level alarm (plugged), level gauge, basin drain (plugged; tank drain if single wall or double wall), removable supply dip tube standard (size may vary with engine-generator set model), leak detection option (plugged), low level option (plugged).
Electrical stub-up area: Provides space for generator set electrical connections. Removable endchannel available, when stub-up selected.
Baffle: Separates cold engine supply fuel from hot returning fuel. Fuel level gauge: A direct-reading fuel level gauge.
OPTIONAL FEATURES
Electrical stub-up openings are available to provide internal generator set wiring capabilitiesthrough the base skid
High and low fuel level and rupture basin alarms Full pumping applications create a true day tank option list for additional electrical options
Sub-Base Fuel Systems UL 142 Listed
SUB-BASE DESIGN CONFIGURATIONS
MTU Onsite Energy has provided these four (4) representative sub-base drawings to assist in the specification process. The drawings represent actual views of sub-base fittings and construction features. The drawings below show typical options including rupture basins and electrical setup-up openings. Additional electrical, mechanical and plumbing options are also available. These drawings are for informational purposes only. Unit specific dimensional drawings are supplied by MTU Onsite Energy.
Standard Sub-Base Tank Sub-Base Tank with Electrical Stub-Up
Sub-Base Tank with Secondary Containment Sub-Base Tank with Secondary Containment and Electrical Stub-Up
Vibration Isolator Pads
Controls Noise and Vibration
VibPads_Spec_5-07
DESCRIPTION
These 18” square molded pads can be used to effectively control noise and vibration, particularly in
applications involving heavy machinery and equipment. They can be easily cut to any desired shape and
can be used in multiple layers to increase deflection. Available only in 50 durometer.
SPECIFICATIONS
♦ Single Pad
Pad is 1/4” thick
♦ Double Pad
Pad is 3/8” thick
HIGHLIGHTS
♦ Easily cut to any desired shape♦ Can be used in multiple layers to increasedeflection
SPECIFICATIONS
Vibration Isolator Pads
Controls Noise and Vibration
MTU ONSITE ENERGY– STANDBY LIMITED WARRANTY TWO (2) YEARS / 3,000 HOUR BASIC
1
LIMITED WARRANTY: Your MTU Onsite Energy product has been manufactured and inspected with care by experienced craftspeople. If you are the original consumer, MTU Onsite Energy warrants, for the limited warranty period indicated below, each product to be free from defects in materials and workmanship, and will perform under normal use and service from valid startup performed by MTU Onsite Energy. This Limited Warranty shall apply only when the product has been property installed, serviced, and operated in accordance with the applicable MTU Onsite Energy instruction manuals. If this Limited Warranty applies, the liability of MTU Onsite Energy shall be limited to the replacement, repair, or appropriate adjustment of the product, at MTU Onsite Energy’s option. This Limited Warranty does not apply to malfunctions caused by normal wear and tear, or by damage, unreasonable use, misuse, repair, or service by unauthorized persons.
LIMITED WARRANTY PERIOD: Engine Generator Set: Parts and labor for 24 (twenty-four) months will begin with the first commissioning of the product(s). In all cases, the warranty period will expire not later than 36 (thirty-six) months from the date of shipment ex-works MTU Onsite Energy or after 3,000 operation hours, whichever occurs first. Accessories: Parts and labor for one (1) year from date of shipment. For a description of accessories and items excluded from this Limited Warranty, review the listings on the reverse side of this document.
LIMITED WARRANTY CONDITIONS: Before there is any protection under this Limited Warranty, the distributor must: (1) complete the MTU Onsite Energy Warranty, Start-Up Validation and Pre - Inspection form and return it to MTU Onsite Energy within 60 days of the start-up date, and (2) complete the engine registration form and return it to the manufacturer as stated in the instructions with engine registration form (when applicable). In addition, this Limited Warranty is not valid or enforceable unless: (1) all supporting maintenance records is to be kept on file with the end user and made available upon request from factory, (2) the generator set is routinely exercised in accordance with operating instructions, and (3) the installation meets the general guidelines, standards, and recommendations as laid out in the Installation Guide provided with the product and all local standards and codes applicable in the location of installation.
Engine generator sets that are stored by Owner / Buyer longer than 180 days from date of shipment are subject to special requirements. Contact MTU Onsite Energy’s Service Center for instructions.
TO OBTAIN WARRANTY SERVICE: Warranty service may only be performed by MTU Onsite Energy authorized service providers. Service provided by unauthorized persons will void this Limited Warranty. Non-MTU Onsite Energy replacement part(s) will void this Limited Warranty. Contact your nearest MTU Onsite Energy Service Representative to obtain warranty service. For assistance in locating your nearest authorized service representative, see contact information at the bottom of this page.
THIS WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES EXPRESS OR IMPLIED. NO WARRANTIES SHALL BE IMPLIED OR OTHERWISE CREATED UNDER THE UNIFORM COMMERCIAL CODE, INCLUDING BUT NOT LIMITED TO A WARRANTY OF MERCHANTABILITY OR A WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE.
MTU ONSITE ENERGY SHALL NOT BE LIABLE FOR ANY CLAIM GREATER IN AMOUNT THAN THE PURCHASE PRICE OF THE PRODUCT AT ISSUE, AND IN NO EVENT SHALL MTU ONSITE ENERGY BE LIABLE FOR ANY SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES. STATE LAWS REGARDING THE RIGHTS OF CONSUMERS MAY VARY FROM STATE TO STATE.
1. The following items are not considered nor will they becovered under this Limited Warranty. If there arequestions as to coverage under this Limited Warranty,it is advisable to contact the factory in advance of filinga claim.a. Battery or batteries of any type or kind. The
battery manufacturer’s warranty, if any, is the onlywarranty that applies to batteries. Any warrantyclaim should be handled with the manufactureraccording to its policies.
b. Adjustments to fuel systems or governor systemat time of start-up or any time after. A warrantyclaim for such adjustments is acceptable onlywhen a defective part has been replaced,returned to the factory, and approved asdefective.
c. Normal maintenance costs, including but notlimited to adjustments, loose and/or leakingfittings or clamps, and tune-ups performed duringstart-up or anytime thereafter.
d. Due to shipping, manufacturer is not responsiblefor loose connections. All connections must bechecked at time of start-up.
e. Non-MTU Onsite Energy replacement part(s) willvoid this Limited Warranty.
MTU ONSITE ENERGY– STANDBY LIMITED WARRANTY TWO (2) YEARS / 3,000 HOUR BASIC
2
f. Products that are modified in any form without thewritten consent of MTU Onsite Energy will voidthis Limited Warranty.
g. Shipping damage of any type.h. Any installation errors or damage of the
equipment when shipped as ordered.i. Any overtime travel or labor to make repairs
under warranty.j. Any special access fees required to gain access
to MTU Onsite Energy equipment, including butnot limited to any training or safety policyrequirements to gain access.
k. Additional costs associated with inaccessibleinstallations, including but not limited to removaland reinstallation of the generator set.
l. Rental equipment used during warranty workincluding but not limited to generators, riggingequipment such as a crane or boom truck, loadbanks and special test equipment above factoryrequirements.
m. Excess mileage charges. Any authorized serviceprovider may perform warranty service anywhere,but will only be paid for mileage expenses fromthe nearest service center and limited to 400miles / 644 Kilometers roundtrip.
n. Any equipment not factory approved andengineered for use on MTU Onsite Energyproducts. This includes but is not limited toaftermarket items such as special fuel systems,enclosures, exhaust systems, or switch gear thathad been sought out and quoted by a third partyto be included in billing of the MTU Onsite Energyequipment.
o. Misuse or abuse during installation andthereafter.
p. Normal wear and tear, maintenance, andconsumable items that are not required as part ofa warranty repair.Consumable items include but are not limited tobelts, hoses, coolant, oil, filters, and fuses.
q. Acts of nature or acts of God such as lightning,wind, flood, tornado, hurricane or earthquake.
r. Any damage due to situations beyond the controlof the manufacturing of the product orworkmanship of the product.
s. Installation or operation outside the guidelines asstated in the Installation Guide and Owner’sManual.
t. Diesel engine “Wet Stacking” due to lightly loadeddiesel engines.
u. Misapplication of the equipment such as usageoutside the original design parameters as statedon the nameplate of the equipment.
v. Travel expense on portable equipment.w. Trailer lights, wiring, and brakes.
x. More than one trip to the job site because aservice vehicle was not stocked with normalservice parts.
y. Lodging expense of person(s) performing service,unless approved in advance by factory.
z. Engine fluids.aa. Units purchased at the Standby Power rating that
are being used in a prime power application. bb. Any repair labor time that is determined to be
excessive, e.g., two or more people performing a one-person job.
cc. Any expenses associated with investigating performance complaints in which no defect is found.
dd. Any associated costs for replacing components that are found not to be defective.
ee. Any adjustments covered in the start-up and inspection forms that are to be completed during start-up.
2. The accessories that are limited to one (1) year partsand labor from date of shipment include but are notlimited to:a. Cords, receptacles, and cord reelsb. Gas flex pipesc. Housing lights, space heaters, and associated
equipment
Rev. 20100420
MTU Onsite Energy has been producing superior engine
importance of reliable cost-effective products, and have
developed industry-leading test procedures to ensure we
customers will receive products of the highest quality. The
rigorous prototype testing including the following:
PROTOTYPE TEST PROCEDURES
Rated Load (NFPA 110)
models will produce the name-plated load in all conditions
within the design tolerance of the gen set.
Extended Run Testing
prototypes have been subjected to major run time testing.
Transient Response Analysis (ISO 8528-5)
undergone transient response analysis per ISO 8528-5.
Torsional Analysis
models have undergone torsional stress analysis.
Engine Cooling System
model.
Anticipatory Alarms & Shutdowns
function appropriately to protect the engine generator set from
any foreseen unnecessary failures.
Vibrational Analysis (ISO 8528-9)
models have undergone vibration analysis to ensure that each
engine generator coupling is balanced and that there is no
destructive resonant vibration.
PROTOTYPE TEST METHODS
MTU Onsite Energy performs prototype testing by following
the methods and guidelines established by MIL-STD-705c.
MTU Onsite Energy is proud to perform these stringent
procedures because they showcase engine generator set
superiority in providing precise power for all types of critical
applications including hospitals, data centers, UPS systems
and government and military installations.
TEST STANDARDS
MTU Onsite Energy engine generator sets are compliant with
many different codes and standards. MTU Onsite Energy’s
philosophy and performance are regularly reviewed to ensure
continuity with these codes and standards: UL2200, CSA,
EPA, NFPA 99—Health Care Facilities, NFPA 70—National
Electrical Code, NFPA 110—Standard for Emergency and
Standby Power Systems, Department of Labor and Industry,
ISO 8528-5—Generating Sets, and ISO 8528-9 Measurement
and Evaluation of Mechanical Vibrations. In addition: ISO 8528-
10--Measurement of airborne noise by the enveloping surface
method, IEEE 115--Test Procedures for Synchronous Machines,
NEMA MG 1--Motors and Generators, MIL-STD-705-c
PROTOTYPE TEST PROCEDURES & METHODS
MIL-STD-705C METHODS
Method Description
301.1c Insulation Resistance Test*
302.1b High Potential Test*
503.1c Start and Stop Test
505.2b Over Speed Protective Device Test
507.1d Phase Sequence Test (Rotation)
508.1d Phase Balance Test (Voltage)
510.1d Rheostat Range Test (as applicable)
511.1d Regulator Range Test
511.2c Frequency Adjustment Range Test (as applicable)
513.2a Indicating Instrument Test (Electrical)
515.1b Low Oil Pressure Protective Device Test
515.2b Over Temperature Protective Device Test
516.1a Controls, Direction of Rotation
640.1d Maximum Power Test
* Performed by Alternator OEM
FACTORY ACCEPTANCE TESTING
MTU Onsite Energy’s factory testing is performed with the
same extreme diligence and attention to detail that is given
to the prototype testing process. Every engine generator set
and ensures that the set will function in accordance to every
1.3% or better. This metering is calibrated a minimum of once
per year, and is directly traceable to the Bureau of Standards.
Factory Acceptance Testing Procedures:
// Insulation Resistance Inspection (301.1c)*
// High Potential Test (302.1b)*
// Alternator Over Speed (1 min.)*
// Engine Inspection
// Generator Inspection
// Resistances Inspection (401.1b)
– Exciter Field Stator
– Alternator Armatures
// Mounting & Coupling Inspection
// Engine Fuel Oil System Inspection
// Engine Lube Oil System Inspection
// Engine Cooling System Inspection
// DC Charging System Inspection
// Circuit Breaker Inspection
// Anticipatory Alarms and Shutdowns Inspection
(505.2b, 515.1b, 515.2b)
// Optional Equipment Inspection (513.2a)
// Load Test Inspection
– Regulator Range Test (511.1d)
– No Load Inspection
– MAX Load @ 1.0 P.F. (640.1d)
– MAX Load @ 0.8 P.F.
– Block Loads @ 0-25%, 0-50%, 0-75%, 0-100%
// Phase Balance and Sequence Inspection
(507.1d, 508.1d, 516.1a)
*Performed by Alternator OEM
Extended Run Factory Acceptance Testing:
In some cases, extended run testing may be requested.
performed in the following manner.
// 1.0 Power Factor
// Full name plate rated load.
// Standard readings taken every 15 minutes.
ACCEPTANCE TESTING
Standard witnessed factory tests must be scheduled and
approved at least four weeks prior to the engine generator
set’s scheduled shipping date. Any requests for witnessed
factory testing after this four week period must be approved
by the Regional Sales Manager and are subject to additional
fees.
FACTORY ACCEPTANCE TESTING
approved at least six weeks prior to the engine generator
set’s scheduled ship date. Any requests for witnessed
extended run testing after this six week period must be
approved by the Regional Sales Manager and are subject to
additional fees.
STANDARD READINGS RECORDEDDURING LOAD TEST INSPECTION
Run Time Frequency
AC Voltage Exciter Field Voltage
AC Amperage Exciter Field Current
kVA Lube Oil Pressure
Power Factor Ambient Temp.
ADDITIONAL FACTORY ACCEPTANCE TESTING
Additional testing is available upon request. The
following is a list of supplementary tests which
can be performed on MTU Onsite Energy engine
generator sets. Non-standard testing is subject to
additional charges.
MIL-STD-705C METHODS
Method Description
503.2c Start and Stop Test (remote control)
505.2b Over Speed Protective Device Test
602.1b Voltage Modulation
608.1b Frequency and Voltage Regulation, Stability and Transient Response Test
610.1b Voltage and Frequency Droop
614.1b Voltage and Frequency Regulation Test
619.2c Voltage Dip and Rise For Rated Load Test
670.1b Fuel Consumption Test (consult engineering)