The 904 Series engines offer a compact power solution for off-highway applications in construction, agriculture and industrial.For our customers these compact, 4 cylinder engines provide excellent performance in power, peak and low speed torque, fuel consumption and transient response.Reliability and easy service access are integral to the design of the engines. It is available with a range of installation options to enable OEMs to minimise the size of the engine bay of their machines. EU Stage V
U.S. EPA Tier 4 Final
Japan MLIT Step 4
Maximum Power | — |
Maximum Torque | — |
Emissions | EU Stage V, U.S. EPA & CARB Tier 4 Final, Japan MLIT Step 4 |
The fuel consumption is optimised to match the operating cycles of a wide range of off-highway applications.
Hydraulic tappets, multi-vee belts and 500 hour service intervals enable low cost maintenance.
The engine has been designed using the latest predictive engineering methods, combined with an extensive field validation program to ensure reliable power in the toughest off-highway conditions.
Quality, reliability and consistency are assured. Our facilities worldwide employ the same efficient processes, the same tested and validated components, and the same stringent quality controls wherever your engines are manufactured.
We have designed the engine using components allowing the engine configuration to be altered to meet different emissions standards whilst keeping the same core.
This allows the OEMs to design one engine installation for different global regions, reducing cost and development time for the cooling pack, mounting, hydraulics and control interfaces.
Maximum Power | — |
Maximum Torque | — |
Rated Speed | 2000-2400 rpm |
Minimum Power | — |
Emissions | EU Stage V, U.S. EPA & CARB Tier 4 Final, Japan MLIT Step 4 |
Number of Cylinders | 4 inline |
Cycle | 4 stroke |
Bore | — |
Stroke | — |
Displacement | — |
Compression Ratio | 17.0:1 |
Aspiration | Turbocharged aftercooled |
Combustion System | Direct injection |
Rotation from Flywheel End | Anti-clockwise |
Aftertreatment | DOC+DPF or DOC+DPF+SCR |
Cooling System | Liquid |
Length | — |
Width | — |
Height | — |
Dry Weight | — |
Note 1 | *Final dimensions dependent on selected options |
The fuel consumption is optimised to match the operating cycles of a wide range of off-highway applications.
Hydraulic tappets, multi-vee belts and 500 hour service intervals enable low cost maintenance.
The engine has been designed using the latest predictive engineering methods, combined with an extensive field validation program to ensure reliable power in the toughest off-highway conditions.
Quality, reliability and consistency are assured. Our facilities worldwide employ the same efficient processes, the same tested and validated components, and the same stringent quality controls wherever your engines are manufactured.
We have designed the engine using components allowing the engine configuration to be altered to meet different emissions standards whilst keeping the same core.
This allows the OEMs to design one engine installation for different global regions, reducing cost and development time for the cooling pack, mounting, hydraulics and control interfaces.
Data not available.