A PRIMARY Current (DC) electric motor is a rotating electrical gadget that converts direct current, of electrical energy, into mechanical energy. An Inductor (coil) inside the DC engine creates a magnetic field that creates rotary motion as DC voltage can be applied to its terminal. In the motor can be an iron shaft, wrapped in a coil of wire. This shaft consists of two set, North and South, magnets on both sides which in turn causes both a repulsive and attractive force, in turn, producing torque. ISL Products designs and manufactures both brushed DC motors and brushless DC motors. We tailor our DC motors size and functionality to meet your desired specs. Need help determining the right motor for the application? Have a look at our Motor Selection Tool.
A gear motor can be an all-in-one combination of a motor and gearbox. The addition of a gear check out a engine reduces the rate while raising the Transmission Chain torque output. The most important parameters in regards to equipment motors are quickness (rpm), torque (lb-in) and efficiency (%). In order to choose the most suitable gear motor for your application you need to first compute the load, quickness and torque requirements for the application. ISL Products offers a number of Spur Gear Motors, Planetary Gear Motors and Worm Equipment Motors to meet all application requirements. The majority of our DC motors can be complimented with among our unique gearheads, offering you a highly efficient gear motor remedy.
DC Gear Motor
Motor Selection Process
The motor selection process, at the conceptual design phase, could be challenging but our engineers are here to greatly help. We provide a concierge approach to our DC motors and gear motors projects. We of engineers work with you to provide the optimal component solution. The next key points will help you determine and choose the most likely motor or gear motor for our software. You can also use our DC Engine / Gear Motor Selection Instruction to greatly help us narrow down your specific motor/gear motor requirements.
Design Requirements – A style assessment phase where the product development requirements, design parameters, device features, and product optimization are studied.
Design Calculations – Calculations used to determine which motor will be the very best solution for the application. Design calculations determine equipment ratio, torque, rotating mass, service factor, overhung load, and tests analysis.
Types of DC Motors/Gearmotors – The most common electrical motors convert electrical energy to mechanical energy. These kinds of motors are driven by direct current (DC).
Brushed
Brushless (BLDC)
Planetary Gear Motors
Spur Gear Motors
Stepper
Coreless & Coreless Brushless
Servo
Gear heads
Motor Specifications – After the style calculations are performed, and the application parameters are defined, you may use this data to determine which engine or gear motor can best fit your application. Some of the most common specifications to consider 
when selecting a motor or gear motor will be:
Voltage
Current
Power
Torque
RPM
Life Expectancy / Duty Cycle
Rotation (CW or CCW)
Shaft Diameter and Length
Enclosure Restrictions