Yamaha E75BMHL Outboard Engine 2-Stroke
Yamaha E75BMHL Outboard Engine 2-Stroke for Sale At Marine Outboards Motors LLC in U.S.A
Yamaha E75BMHL Outboard Engine specifications
Engine Specification
Engine type: 2-stroke
Displacement: 1140 cm³
No. of cylinders/configuration: 3/In-line
Bore x stroke: 82.0 mm x 72.0 mm
Prop shaft output at mid range: 55.2kW / 5,000 rpm
Full throttle operating range: 5,000 – 6,000 rpm
Fuel Induction System: 3-Carb
Ignition / advance system: Microcomputer
Starter system: Electric
Gear ratio: 2.00 (26/13)
Yamaha outboard engine 75HP Dimensions
Recommended boat transom height: L:520mm
Weight with propeller: 120.0 kg
Yamaha E75BMHL Outboard Engine Additional features
Control: Remote
Trim & tilt method: Power Trim and Tilt
Lighting Coil / Alternator: 12V – 10A with rectifier/regulator
Working Class Heroes.
For more than thirty years Yamaha has been supplying reliable, heavy-duty outboards to the most demanding boaters of all : the people who make their living on the water. These Enduro outboards are designed from the bottom up to take the strain of long continuous hours of hard use.
Years of rigorous testing have produced features that make the difference between a motor that goes the distance and those that quit along the way.
*Weight refers to shortest shaft length, and is measured without motor oil, gear-case oil and propeller (except models 25 hp and under, which include a standard propeller). All Jet model weights include the jet pump assembly (weight estimated).
All our engines work perfectly on salty waters and fresh waters.
One advantage of a 2-stroke engine is that it weighs less than a comparable 4-stroke outboard motor. That is because there are fewer moving parts in a 2-stroke engine than inside a 4-stroke engine. A con of 2-stroke engines is an increase in pollution and often an increase in fuel consumption.
Because combustion takes place with each revolution of the crankshaft with a 2-stroke, this format puts out more power than a 4-stroke engine and the power has more instantaneous delivery.