Wednesday, November 13, 2019
Essay --
SoftPot Rotary Potentiometer: Rotary potentiometer is provided at knee joint of the exoskeleton. Whenever the patient is having intent to walk, the rotary potentiometer calculates the respective torque. In response to that a feedback signal is provided to the actuation system to exert equivalent force to interact with the input torque. The feedback system is designed so well that it updates the status of input torque in fraction of a second and as a result exoskeleton keeps working accordingly; and works well with frequent torque changes. Rotary potentiometer works on the principle of resistance change. It is provided with a very fine needle/flip which rotates over the resistive ring. More the angle of rotation more will be the value of resistance observed between the terminal and the rotating flip. It is the measured resistance that tells about the angle of rotation of the joint and torques produced. Therefore, whenever rotational movement is observed the value of resistance of the respective potentiometer is changed and the signal is fed to the controller to take proper action. This helps in maintaining the exoskeleton motion according to the suggested profile and keeping it in the right motion. The rotary potentiometer used in our proposed design is SoftPot rotary potentiometer which is a miniaturized product with slim and sleek design. It can easily be placed along the bearings of the rotary joints and gives output in terms of analog electrical signals which are proportional to the angle of rotation. This sensor is very thin and compact in design with a wide range of operational resistances. Range of resistance change may vary between 100Ohms to 10,000Ohms; also the response of this sensor is much linear; therefore, the positi... ...e with a frequency rate multiplied by the movement. When you rotate the gyroscope, you may notice a so called Coriolis acceleration. In fact, the gyroscope is a spinner, rotating around a vertical axis, fixed in a frame which can articulate around horizontal axis, attached to another frame rotating around the third axis. Thus, we can conclude: no matter how rotate a spinner, it always has an ability to remain in the upright position. The transmitters accepts the signal about the spinner's orientation towards the frames, and the processor defines how the frame must be located with respect to gravity. Regardless to the types of stabilization the system, it can be the power system stabilization (used in two-stage gyroscopes), the tracer system stabilization force (also on a two-level gyroscopes) and the indicator system stabilization (in three-stage gyroscopes). .
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