The success of future machines, either capable of artificial intelligence or guided by men, is based on the accuracy of their movements and the crystal-clear communication with the commands given.
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Our innovative technology will open new horizons in many different branches of engineering, like space and terrestrial vehicles, robotics and the production and manipulation of very clean and green energy.
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Servos and Robotics
A Servo Motor concept is defined by “A motor that obey commands, that leads to a specific steady positioning”. Their main role takes place basically in the automated industry, more specifically in robotics, however is also used in the RC (remote control) for guidance of different equipments through a human interface, and range from hobbies and toys to the development of highly sophisticated drones and robots . So far the servo motor industry is constantly upgrading to “keep up to date” with Software Developers and new mathematical algorithms that get very proprietary and selective requiring unique and dedicated designs.
Further on, we will be establishing comparisons in detail (text, graphics and videos) related to Axless versus existing servos , in future pages and subdomains of this site.
Normally a servo motor have two feeding cables (unless is based on a stepper motor, or has the servo controller circuit built in) the signal in of Positive and Negative through this cables will dictate the rotation sense, the difference of a Stepper Motor is that it consist of three or four separate coils that will lead to a specific positioning and each coil has its independent wirings. In any of this events the signal is sent to the Servo Motor from an electronic controller, that evaluates the high level commands sent by the Client (Automated Program or Human Interface) and converts them in low level commands to Servo Motor plain positive (+) or negative(-) signals.
Except for the stepper motors (that has independent coil wirings) motors employed in servos are based on regular motors, meaning they will develop high RPM’s the milisecond a power signal is sent to them, this fact forces the servo motor to be engaged to gear boxes, in order to reduce mechanically the high RPM’s, gain torque forces and also to “stay in place” when signal stops. Also, to control properly this movements, the servo motor must be surrounded by peripherals or exterior sensors that constantly must be rectifying the errors (positive-negative feedback control) of positioning ,acceleration and torque data related to the Client program spec’s.
Axless trademark and all the patents, including those in patent pending status, evoked in the description of these technologies, in this site and all its sub domains, are protected under U.S and International laws. Axless Corp. an its affiliates reserves all the rights to the entire project, as to be granting licenses world wide in all the applications related to Axless Development Technologies.
Licenses subject to restrictions, Axless Space and some branches of Axless Robotics applications, are subject to approval by the Federal Administrations that regulate those fields, and may vary according to the Country of issuance. Licenses WILL NOT BE GRANTED to middle transaction companies to resell or sub license to third parties. NO LICENSES WILL BE GRANTED for the use in war or warlike purposes at all.
Axless has been designed for the benefit, peace and progress, to generate clean and green energy in order to reach higher civilizations levels for the entire planet, Not to contribute to its destruction.
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