Data center specialist — Rolls-Royce engineering, best fuel efficiency, highest power density in class
30–3250 kW26 modelsdiesel
Why buyers choose MTU
Best fuel efficiency — 5-10% better than CAT or Cummins, compounding to ~$98K savings over 4 years at 1,000 kW
Highest power density — best kW/liter ratio means the most compact footprint for the power output
0-100% load step — meets NFPA 110 requirements in a single step
20,000-30,000 hour overhaul intervals — longest in the industry
US manufacturing — engines built in Mankato, MN and Aiken, SC
Who MTU is for
Hyperscale data centers (1 MW+), high-duty-cycle applications running 2,000+ hours per year, space-constrained footprints, and long-term asset holders who optimize on total cost of ownership.
What to consider before specifying MTU
*Only ~40 US dealers — parts waits of 2-5 days in secondary markets
*Lowest resale value of the Big 3 premium brands
*10-20% purchase premium over comparable Cummins units
*Fuel quality sensitivity — requires cleaner fuel than some competitors
MTU generators, built by the Rolls-Royce Power Systems division, are engineered for one market above all others: data centers. The fuel efficiency numbers tell the story — MTU diesel engines run 5-10% more efficiently than CAT and Cummins at equivalent loads, which translates to approximately $98,000 in savings over four years for a single 1 MW unit. Data centers that deploy 10-50 MW of backup generation can measure that advantage in millions of dollars across a fleet lifecycle. Combined with the highest power density in the industry — more kilowatts per square foot of generator footprint — MTU earns its specification in facilities where both operating cost and floor space carry a premium.
The Rolls-Royce engineering pedigree is genuine. MTU engines are designed for the kind of sustained, high-load operation that data center testing protocols and extended utility outages demand. The quality of the rotating assembly and fuel injection systems is reflected in the efficiency numbers, and MTU's power density advantage means fewer units to achieve the same total backup capacity — which reduces not just floor space but also fuel storage, cooling, and maintenance infrastructure.
The limitation is support infrastructure. MTU maintains roughly 40 authorized service locations in the US, a fraction of CAT's approximately 200 or Generac's 10,000-plus. For Tier III and IV data centers with on-site mechanical staff and national service agreements, that thin network is a non-issue — the generators are maintained by the facility's own team. For distributed commercial applications, hospitals, or any site that depends on a local dealer showing up within hours of a failure, MTU's coverage gaps represent genuine operational risk. Resale values also trail Caterpillar, and parts lead times can run longer due to the German-engineered supply chain. MTU is the right choice when fuel efficiency and power density drive the decision — but only when the buyer has the service infrastructure to support it.
Frequently asked questions
What is the fuel savings ROI for MTU generators?
At 1 MW continuous load, MTU's 5-10% fuel efficiency advantage over CAT and Cummins translates to approximately $98,000 in savings over four years. For data centers running multiple megawatts of backup capacity with regular testing and occasional extended outages, that savings scales linearly and can offset MTU's purchase premium within the first deployment cycle.
How does MTU's thin dealer network affect buyers?
MTU has roughly 40 authorized service locations in the US, compared to CAT's approximately 200 and Generac's 10,000-plus. For data centers and industrial facilities with on-site maintenance staff or national service contracts, the thin network is manageable. For distributed commercial sites that rely on local dealer emergency response, MTU's coverage gaps are a real operational risk.
Does MTU manufacture in the United States?
MTU operates manufacturing and assembly facilities in the US, including its Aiken, South Carolina plant. However, core engine components are engineered in Germany, and the global supply chain means lead times can be longer than domestic-focused manufacturers like Cummins or Generac, particularly for custom configurations.
Key specs at a glance
Power range
30–3250 kW standby
Fuel types
natural-gas, lpg, diesel
Engine OEMs
MTU, Doosan, PSI, John Deere
Alternator OEMs
Leroy-Somer, MTU
Phase options
1-phase, 3-phase
Models in library
26
When to Specify MTU
✓Best fuel efficiency in the large-frame class — 5-10% better than CAT or Cummins, compounding to significant savings at 1MW+ over a multi-year asset life
✓Highest power density (kW per liter) in the premium segment — reduces footprint for space-constrained data centers
✓20,000-30,000 hour overhaul intervals are the longest in the industry, minimizing maintenance downtime
✓Meets NFPA 110 in a single 0-100% load step without stagger-loading
✓Best choice for hyperscale data centers (1MW+), high-duty-cycle applications (2,000+ hours/year), and long-term asset holders optimizing on TCO
Industrial/data center standby at 600 kW. Diesel at 40 gph, 12-cyl V platform, PMG for UPS and motor starting.
600 kW diesel standby generator with MTU 12V1600G80S 21.0L common-rail V12 engine, EPA Tier 2, 208–600V three-phase, PMG alternator, ADEC isochronous governor. 3737 x 1899 x 2137 mm.
Tier 23-phasecommercial-standbyindustrial-standby
M
MTU
MTU 12V1600 DS750
750 kW diesel standby — 12V1600 sweet spot. Same footprint as DS600/DS900, 50°C radiator, 51 gph, Leroy-Somer alternator.
750 kW standby · Diesel · Liquid-cooled
Healthcare/data center/high-rise standby at 750 kW. Diesel at 51 gph, compact for sub-MW class, SCAQMD + NFPA 110.
750 kW Tier 2 diesel standby generator. mtu 12V1600G71S engine, 22.44L V-12 with turbocharging and aftercooling, LSA 49.3 M8 alternator.
Tier 23-phasecommercial-standbyindustrial
M
MTU
MTU 12V1600 DS900
900 kW diesel standby — max output from 12V1600 platform. Same footprint as DS600/DS750, 62 gph, 996 kWm gross. Compact sub-MW.
900 kW standby · Diesel · Liquid-cooled
Large commercial/data center standby at 900 kW. Diesel at 62 gph, compact 178 in footprint, 40°C radiator rating.
900 kW Tier 2 diesel standby generator. mtu 12V1600G91S engine, 22.44L V-12 with turbocharging and aftercooling, LSA 49.3 L9 alternator.
Tier 23-phasecommercial-standbyindustrial
M
MTU
MTU 12V2000 DS800
800 kW diesel standby — MTU 2000-series V12, 23.9L. Medium-voltage 4,160V option, EUP injection, separate intercooler circuit, 59 gph.
800 kW standby · Diesel · Liquid-cooled
Industrial/hospital standby at 800 kW. Diesel at 59 gph, 4,160V medium-voltage available, 20K-hr overhaul interval.
800 kW diesel standby generator with MTU 12V2000G85TB 23.9L V12 engine, EPA Tier 2, 208–4160V including medium voltage, electronic unit pump injection, ADEC governor. 4675 x 2292 x 2341 mm, 17,379 lb.
Data center continuous power at 1,600 kW DCCP. Diesel at 111 gph, flagship 12-cyl, HVO renewable fuel compatible.
1,750 kW standby / 1,600 kW DCCP diesel generator from MTU (Rolls-Royce). 57.2L V12 engine, EPA Tier 2 + SCAQMD, 380-13,800V. Maximum continuous output from the 12-cylinder Series 4000.
Tier 23-phasedata-centerhospital-large
M
MTU
MTU 16V2000 DS1000
1 MW standby from compact Series 2000 — 35.7L V16 at under 19,000 lb. Half the weight of Series 4000, 208-4,160V, water-to-air charge cooling.
1 MW standby · Diesel · Liquid-cooled
Compact 1 MW commercial/industrial standby. Diesel at 66.6 gph, lightweight for rooftop installs, N+1 paralleling arrays.
1,000 kW standby / 900 kW prime diesel generator from MTU (Rolls-Royce). 35.7L V16 engine, EPA Tier 2, 208-4,160V. Compact 1 MW class genset from the Series 2000 platform.
Data center / hospital 2 MW standby. Diesel at 143 gph, DCCP Uptime Tier III/IV, parts shared with DS2250/DS2500.
2,000 kW standby / 1,800 kW prime diesel generator from MTU (Rolls-Royce). 76.3L V16 engine, EPA Tier 2 + SCAQMD, 380-13,800V. Entry point to the 16-cylinder Series 4000 platform.
Tier 23-phasedata-centerhospital-large
M
MTU
MTU 16V4000 DS2250
2,250 kW standby / 2,045 kW DCCP — true 2 MW continuous from 76.3L V16. Same footprint as DS2000/DS2500, EPA Tier 2 + SCAQMD.
2.3 MW standby · Diesel · Liquid-cooled
Hyperscale data center at 2 MW continuous. Diesel at 163 gph, DCCP Uptime Tier III/IV, sweet spot for 1.8 MW IT loads.
2,250 kW standby / 2,045 kW prime diesel generator from MTU (Rolls-Royce). 76.3L V16 engine, EPA Tier 2 + SCAQMD, 380-13,800V. Mid-range 16-cylinder Series 4000 for data center and mission-critical applications.
Tier 23-phasedata-centerhospital-large
M
MTU
MTU 16V4000 DS2500
2,500 kW standby — max output from 16-cyl Series 4000. 76.3L V16 at ~3,350 bhp, EPA Tier 2 + SCAQMD, 380-13,800V, HVO compatible.
2.5 MW standby · Diesel · Liquid-cooled
Maximum single-frame standby at 2.5 MW. Diesel at 179 gph, standby-only rating, same footprint as DS2000/DS2250.
2,500 kW standby diesel generator from MTU (Rolls-Royce). 76.3L V16 engine, EPA Tier 2 + SCAQMD, 380-13,800V. Maximum output from the 16-cylinder Series 4000 platform.
Tier 23-phasedata-centerhospital-large
M
MTU
MTU 20V4000 DS2800
2,800 kW diesel standby — MTU 20V4000 95.4L V20. Medium/high-voltage to 13.8kV, ADEC ±0.25%, 20K-hr overhaul, 186 gph.
2.8 MW standby · Diesel · Liquid-cooled
Utility-scale standby at 2.8 MW. Diesel at 186 gph, 480V-13.8kV direct MV connection, 62,000 lb installation.
2800 kW diesel standby generator with MTU 20V4000G83 95.4L 20-cylinder V common-rail engine, EPA Tier 2, 380V–13.8kV including medium voltage, ADEC governor, 7626 x 3099 x 3569 mm, 62,056 lb.
Tier 23-phasecommercial-standbyindustrial-standby
M
MTU
MTU 20V4000 DS3250
3,250 kW diesel standby — top of the MTU product line. 95.4L V20 at 3,490 kWm, 480V-13.8kV, standby-only, 223 gph.
3.3 MW standby · Diesel · Liquid-cooled
Maximum single-unit standby at 3.25 MW. Diesel at 223 gph, 480V-13.8kV medium-voltage, 65,000+ lb power plant.
3250 kW diesel standby generator with MTU 20V4000G83L 95.4L 20-cylinder V common-rail engine, EPA Tier 2, 480V–13.8kV medium and high voltage, ADEC governor. 7766 x 3099 x 3569 mm, 65,369 lb.
Tier 23-phasecommercial-standbyindustrial-standby
M
MTU
MTU 3R0096 DS30
Compact 30 kW diesel standby on John Deere 3029 platform. 2.6 gph full load, 50°C radiator, NFPA 110 single-step load acceptance.
30 kW standby · Diesel · Liquid-cooled
Small commercial standby for offices and light-industrial sites under 30 kW. Diesel at 2.6 gph, UL 2200 eligible.
30 kW EPA Tier 3 diesel standby generator with John Deere 3029TFG89 engine, 2.9 L 3-cylinder, 1800 rpm. Unit-mounted radiator rated for 50°C ambient. UL 2200 offered.
Tier 33-phasecommercial-standbylight-industrial
M
MTU
MTU 4R0113 DS100
100 kW diesel standby with turbo JD 4045HF285 and JDEC electronic isochronous governor (±0.25%). SCAQMD certified, OSHPD eligible.
100 kW standby · Diesel · Liquid-cooled
Commercial/healthcare standby at 100 kW. Diesel at 8.2 gph, SCAQMD + NFPA 110 single-step load, data center edge.
100 kW EPA Tier 3 diesel standby generator with John Deere 4045HF285 engine, 4.5 L turbocharged-aftercooled 4-cylinder, JDEC electronic isochronous governor.
Tier 33-phasecommercial-standbylight-industrial
M
MTU
MTU 4R0113 DS50
50 kW diesel standby with mechanical injection John Deere 4045TF280. Simple maintenance, no ECU — robust cold-start, 4.6 gph full load.
50 kW standby · Diesel · Liquid-cooled
Small commercial standby for offices and retail under 50 kW. Diesel at 4.6 gph, mechanical governor for straightforward service.
50 kW EPA Tier 3 diesel standby generator with John Deere 4045TF280 engine, 4.5 L 4-cylinder mechanical injection, 1800 rpm. UL 2200 offered, 50°C radiator.
Tier 33-phasecommercial-standbylight-industrial
M
MTU
MTU 6R0113 DS150
150 kW diesel standby on JD 6068HF285 inline-6. Smoother vibration than 4-cyl alternatives, SCAQMD certified, OSHPD eligible, 11.8 gph.
150 kW standby · Diesel · Liquid-cooled
Healthcare and commercial standby at 150 kW. Diesel at 11.8 gph, 6-cyl smooth operation, NFPA 110 single-step load.
150 kW EPA Tier 3 diesel standby generator with John Deere 6068HF285 engine, 6.8 L turbocharged-aftercooled 6-cylinder inline, JDEC governor, 1800 rpm.
Tier 33-phasecommercial-standbylight-industrial
M
MTU
MTU 6R0113 DS200
200 kW diesel standby — max output from the JD 6068 platform. 15.5 gph, SCAQMD certified, OSHPD eligible, isochronous ±0.25%.
200 kW standby · Diesel · Liquid-cooled
Healthcare and commercial standby at 200 kW. Diesel at 15.5 gph, highest R-series inline output, data center edge.
200 kW EPA Tier 3 diesel standby generator with John Deere 6068HFG85 engine, 6.8 L turbocharged 6-cylinder inline, JDEC electronic isochronous governor, 1800 rpm.
Tier 33-phasecommercial-standbylight-industrial
M
MTU
MTU 6R0135 GS150
150 kW natural gas standby (100 kW on LP). Doosan 8.1L with 3-way catalyst, dual-fuel NG/LP capable. No diesel storage needed.
150 kW standby · Natural Gas / LPG · Liquid-cooled
Commercial NG standby at 150 kW. 1,539 CFH natural gas, dual-fuel option for fuel redundancy, EPA certified with catalyst.
