| A linear motor is-simply speaking-an
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| | Low-acceleration linear motors are
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| electric motor that uses a linear force
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| | designed to accelerate an object up to a
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| mechanism to generate the power needed
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| | continuous stabile speed, while
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| for a said application. In contrast to a
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| | high-acceleration linear motors will
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| rotational electric motor (found in
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| | accelerate an object up to a very high
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| automobiles, appliances, and
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| | speed and then release the object.
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| commonly-used electrical equipment), a
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| | Typically, the low-acceleration linear
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| linear motor generates its energy output
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| | motor will be engineered with one winding
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| through exclusively linear scientific
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| | system on one side of the motor and
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| principles; i.e. there is no torque or
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| | magnets on the other side to create the
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| rotation to produce accelerated force
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| | electromagnetic repulsion necessary for
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| through the electrical current magnetic
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| | successful application force; this is
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| field relationship. Linear motors are
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| | called linear synchronous design. The
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| used for a variety of purposes, which
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| | high-acceleration linear motor will
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| include high velocity trains, military
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| | generally be constructed of a three-phase
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| weaponry, spacecraft exploration, robotic
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| | winding on one side and a conductor plate
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| technologies, medical advancement, and
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| | on the other side of the motor to meet
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| automated engineering systems whose job
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| | the intended engineering objective; this
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| is to produce mass amounts of a specified
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| | is called linear induction design.Linear
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| product.There are two basic types of
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| | motors offer a number of advantages in
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| linear motors: low-acceleration and
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| | this ever-evolving technological world.
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| high-acceleration. Low-acceleration
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| | Whether the high power application your
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| motors are typically used for
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| | company or organization requires
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| applications in which endurance is
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| | necessitates a low- or high-accelerated
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| favored over high bursts of
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| | lateral motor system, linear motors
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| electromechanical power or energy. These
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| | assure faster acceleration and higher
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| types of linear motors are engineered for
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| | velocities as well as higher success
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| Maglev trains, automated applications
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| | rates in automated accuracy,
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| systems, etc. High-acceleration motors
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| | repeatability, and long-term
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| are the more common of the two, and
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| | reliability.Alexis Gibrault has written
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| produce higher velocity outputs for
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| | many articles and discussions on linear
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| shorter amounts of time; such as used in
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| | motors, engineering, and the world of
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| firearms, military equipment, spacecraft
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| | technology.
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| propulsion, and the like.
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