CTP10ELF04MAA00

Product Description

In the motion control industry, numerous companies have established a reputation for themselves through research, product diversity, and innovative technologies. Kollmorgen is the combined initiative of 30+ companies, each one boasting its own specialty and experience in the consumer market. The top of the line products developed as a result of this combined effort are perceived as some of the best by industrialists all around the world.

The CT Step Motor Series by Kollmorgen is one of its highly well-received product ranges. Through innovative technologies and a standout design, these motors offer wide-scale applications coupled with remarkable functionality to the end user. The cooling system installed in CT motors is state of the art. Instead of a regular housing, the shell and end caps are made of Aluminum, which has better thermal properties. Due to this alteration, these motors are able to dissipate excess heat quickly to the environment, which in turn allows them to operate at much higher speeds for longer periods of time, and sustain higher loads as well.

The construction incorporates high voltage insulation which is an essential part of the design. It minimizes leakages and improves voltage ratings of the motor. In addition to this, CT stepper motors are installed with rugged bearings that allow engineers to mount loads directly on the shaft without any fear of misalignments. The CTP10ELF04MAA00 Step Motor from the CT series is a great option for industrial motion systems. It has a step size of 1.8^o (200-step revolution) with an accuracy of +/- 5%, short stack 2 phase configuration with 4 leads, and a frame size of 17. It is capable of producing a torque of 0.30Nm, has a rated voltage of 12.5 VDC, and rated current of 0.40 amps DC. It is designed to deliver unhindered performance in the entire temperature range of -20^o-40^oC. The CTP10ELF04MAA00 Step Motor by Danaher Motion is undoubtedly one of the best solution for your industrial problems and a must-buy for engineers looking to optimize their motion systems.