Belt Drive RPM Calculation – A Simple Yet Powerful Engineering Formula In many industrial applications, motors drive pumps, fans, conveyors, and other equipment through belt and pulley arrangements. Understanding how pulley diameter affects speed is essential for proper equipment selection and performance optimization. Basic Formula: Driven RPM = (Driver RPM × Driver Pulley Diameter) ÷ Driven Pulley Diameter Example: Motor RPM = 1440 RPM Motor Pulley Diameter = 100 mm Pump Pulley Diameter = 125 mm Pump RPM = (1440 × 100) ÷ 125 Pump RPM = 1152 RPM Key Points: Larger driven pulley = Lower output RPM Smaller driven pulley = Higher output RPM Proper belt tension and pulley alignment improve efficiency and belt life Actual RPM may be slightly lower due to belt slip and mechanical losses Understanding pulley ratio calculations helps engineers during equipment sizing, troubleshooting, and performance improvement projects. Post navigation Forward & Reverse Motor Control Circuit Explained Rectifier Circuits Explained – How AC is Converted into DC
