How to Reverse AC Motors
March 23, 2018Motor rotation is essentially created by the manipulation of wires and magnetic fields. Thus, you can often reverse AC motors by switching the wire connections. […]
Posted in AC Motors, Blog Overview, How ToMotor rotation is essentially created by the manipulation of wires and magnetic fields. Thus, you can often reverse AC motors by switching the wire connections. […]
Posted in AC Motors, Blog Overview, How ToAs temperatures drop well below freezing in many parts of the country and snow continues to fall, winter equipment gets more and more use. For […]
Posted in Blog Overview, How To, Temperature, Efficiency & IPWhat is intermittent duty? Intermittent duty is when a motor or gear motor has a duty cycle that isn’t running continuously without any time of […]
Posted in AC Motors, Blog Overview, Brushless Motors, DC Motors, How To, Motor/Gearmotor SelectionNeed a quick guide to pump & fan power equations as they relate to fractional horsepower motors? We’ve created this just for you. Power – […]
Posted in Blog Overview, How ToWe’ve created a quick reference guide for common electrical power equations related to fractional horsepower motors. Power – AC Circuits Efficiency = (746 x Output […]
Posted in Blog Overview, How ToAdvertised efficiency of motors is a big deal in the market. Motor efficiency is a ratio of how well the motor converts electrical energy into mechanical […]
Posted in Blog Overview, How It Works, How To, UncategorizedMotor manufacturers try their best to match an off-the-shelf motor or gearmotor to specific customer requirements. Sometimes a perfect match can be made; however, it is […]
Posted in Blog Overview, How To, Motor/Gearmotor Selection, UncategorizedThose of us in the fractional horsepower motor and gear motor industry tend to throw terms around without taking time to check that everyone understands […]
Posted in Blog Overview, How It Works, How ToHere’s a quick reference for common fractional horsepower motor equations. Basic Motor Equations Torque [lb-ft] = (Horsepower * 5,250) / RPM Torque [lb-in] = (Horsepower * 63,025) / RPM […]
Posted in Blog Overview, How ToHere’s a quick reference guide to the different equations engineers use when calculating inertia in relation to motors and gearmotors.
Posted in Blog Overview, How To, The Groschopp Advantage, UncategorizedNarrow your search by selecting motor type, gearbox, voltage, and phase options for your desired motor.
Select a dominant variable: choose one of the three parameters to narrow your search. The selected variable determines which slider bar you will be able to manually move.
Use the slider corresponding to your dominant variable to further narrow your motor selection. The other sliders will automatically move to show available ranges based on the range of your selected variable.
Results will upload as your search criteria changes. If you have any questions regarding your results or how to use the search tool, you can chat with us using the green tab on the left-hand side of your screen.
Note: Groschopp Universal motors are custom built to fit your application so no additional options are available to narrow the search. Selecting the Universal motor type will prompt a message taking you to the Universal product page.
One of our team members would be happy to help. Contact us at 800-829-4135 or by email at sales@groschopp.com. You can also chat with us using the green tab on the left side of your screen.
Groschopp Universal motors are custom built to fit your application so no additional options are available to narrow the search. Standard frame sizes and motor features can be found on the Universal page.