NE of the most important considerations in the design of your robot
                                    is locomotion. You can use a propeller, or even a jet engine, to “blow” your ma-
                                    chine along, but these sorts of propellants are not allowed in most competitions
                                    and would prove to be quite ineffective anyway. Moving parts that actually touch
                                    the floor are the preferred method of providing controlled movement to your ro-
                                    bot, with wheels being the most chosen method.
                                      The following are some definitions used in this book:

                                        Speed reduction  Transforming high RPM and low torque power
                                         into low RPM, high torque power.
                                        Speed reducer  The device that does the speed reduction.
                                        Gear reduction  Speed reduction using gears.

                                        Power transmission  Every device and component that transmits power
                                         from the motor to the wheels (including the speed reducer).
                                        Transmission  A speed reducer with more than one reduction ratio. Note
                                         that a transmission is only one component in the “power transmission.”
                                         The two terms are not interchangeable.

                                      The purpose of the power transmission is to transmit the rotational energy
                                    from the motors to the wheels of the robot, and many different ways can be em-
                                    ployed to do this. The simplest way is to use a direct drive method. With this
                                    method, the wheel’s hub, or axle, is directly connected to the motor—either di-
                                    rectly on the output shaft of the motor or the output shaft of a gearmotor.
                                      A gearmotor is a single unit with a gearbox and a motor combined into one con-
                                    venient package. The gearbox is used to decrease the rotational speed of the motor
                                    to a more usable output shaft speed. Many electric motors’ rotational speeds range
                                    between 3000 to 20000 RPM. This speed is too fast for directly driving a robot’s
                                    wheels—unless you want your robot to move at warp speed. The gearbox also in-
                                    creases the actual torque of the electric motor to a much higher value on the output
                                    shaft. The higher torque will give your robot more pushing power.
                                      Although many robot builders use the gearmotor approach, some have used
                                    non-gearmotors to power the wheels directly. For example, the middle and heavy-
                                    weight entries from team Whyachi used direct-drive Magmotors in their robots.
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