Mechatronics: an introduction
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1 Mechatronics: an introduction CY3L2-08-8A W.S. Harwin, January Actuators and transmissions (Power converters) Figure 1 energy flow Measures: Power to weight ratios, efficiency, maximum stress, maximum strain, maximum speed, maximum torque. Repeatability, resolution, accuracy. Actuators, are usually the package, but consider two variants, transforming one form of energy into another, and one changing the flow and effort relationship across ports. Ultrasound motors then for example use piezo-ceramics to transduce electrical energy into mechanical energy, then use the elastomer ring to match the linear small displacement to a rotary large displacement. Within the transducing element there may be different forms of energy storage eg electric motor takes electrical power and converts this to a B-field, and hence to a force. Two primary variants of operation Cyclic output: e.g. muscles/joints, cranes and robot limbs, power steering and tele-operation. Set-points with perturbation. Conveyor belts, helicopter rotor-blades, internal combustion engines. The guralp seismometers. Reversible field effected materials Electrostrictive - Piezo ceramic ERFs MRFs (Electro-rheological fluids, Magneto-rheological fluids) Magnetostrictive Reversible electronic and Ionic effected materials EAPs PAMPs gels etc -possibly muscle Faraday effect and electrostatic attraction DC motors Micromachines Reversible thermal changed materials Liquid crystals, SMAs (Shape memory alloys) fluid expansion Pneumatic/hydraulic Thermal expansion IC engines, steam engines
2 E_Field B-Field Passive actuators (controlable dampers ERF's MRF's Reversable materials Piezoelectric Magnetostrictive Maxwell actuators Electrostatic motors (micro machines Solinoids/Moving coils/electric motors Definitions Efficiency = Powerout Powerin volumetric power density Powerout Volume, mass power density Powerout Mass passivity, passive if E t = 0 t f v d E 0 t Passive actuators don't move without external power. Force/displacement curves Agonist pairs or Actuator spring pairs Frequency characteristics For mass dominated actuators we can consider a cyclic action that moves both the internal
3 (intrinsic) actuator mass and the external load mass. Assume that the actuator has a maximum force capacity of Fmax M =M intrinsic M load if x = A c sin t F =Ma= M 2 A c sin t Huber and Ashby graphs
4 2. Cable and belt transmissions Leather belt transmissions were common between 1830 and 1930 as a means of transmitting power from a drive shaft, that might be connected to a water mill or steam engine, to machines in a workshop. The use of belt transmissions declined with the introduction of electric motors in the 1930 s although belt transmissions still find a place for low power mechanisms. Cable transmissions have several similarities to belt transmissions and are growing in popularity for robotic applications. These advantages include Very low backlash - this is a major problem with reversing gears in a transmission mechanism Small frictional losses in the system an important consideration if the transmission mechanism is designed to be backdrivable. Low inertia an advantage when looking at systems with high accelerations Large mechanical advantage is possible. In contrast to gears, a cable transmission can be designed to have a very small driver wheel and a very large driven wheel. Consider the pulley arrangement shown in figure 1. If the torque balance on the input pulley is considered then, if the upper cable is at tension f l and the lower cable is at tension f h then the following formulae can be derived. f h r in =T in f l r in f l r out =T out f h r out These two equations can be combined to derive the gear or transmission ratio as
5 r out r in = T out T in =n r out Region of slip Low tension cable f l High tension cable f h Power in T in in r in Power out T out out Region of slip Figure 2 : Cable transmission We now consider a unit mass of cable or belt going around the two pulleys. This unit mass of cable will have an unstretched length of l 0 =1/m, where m is the mass/unit length of the cable While this constant mass is on the high tension side of the transmission it will be stretched by an amount Δl= f h l 0 EA Where E is the a bulk modulus for a particular cable winding related to the Youngs modulus, and A is the area of the circle that just encompasses the cable. Likewise on the low tension side of the transmission it will be stretched by an amount Δl= f l l 0 EA For a boundary around either pulley the mass of cable travelling left to right on the top cable must, in any second, be the same as the mass of cable travelling right to left on the lower cable. Thus the speed of the cable at the higher tension must be V h = l 0 T 1 f h / EA where T is the time taken for unit mass to pass any point. Likewise for the cable at the lower tension V l = l 0 T 1 f l / EA As the cable gets laid onto the pulley it does so in its stretched condition. Thus the above formula can be used to derive a modified gear or transmission ratio for the angular velocity of the assembly. ω in =n V h =n 1 f h / EA ω out V l 1 f l / EA Thus to get any movement across the transmission a small amount of the mechanical advantage is lost. As the cable leaves a pulley it must accelerate or decelerate while on the pulley so as to extend or contract to the condition of the unsupported cable, that is it must stretch as it is taken
6 onto the high tension side, and shrink as it is taken onto the low tension side. The angle that this happens over is given by the basic equation for a cable slipping around a drum, that is θ= 1 μ log e f h log e f l where is the coefficient of friction between the cable and the pulley. The efficiency of the transmission can now be estimated from the input and output power. η= Pout Pin = 1 f h / EA 1 f l / EA 1 f h f l EA since, in general, EA will be large when compared to the tension in the cable this efficiency is still close to one. It can be seen that to get any transmission of power, the cable must slip as it leaves the pulley. Clearly this does not happen in the similar case of a toothed belt leaving a toothed pulley. Does this mean that toothed belts are a better solution? The answer is no. A toothed belt must go through the same process of stretch and shrink as it goes around the toothed pulley. This will either happen as an instantaneous process as the belt tooth snaps away from the pulley, or by the toothed belt riding up on the teeth of the pulley in order to gain enough extension to reach the high tension condition. A similar argument applies as the toothed belt leaves the pulley on the low tension side. Although other transmission systems are possible in robotics, there are clear advantages to a well designed cable transmission, as evidenced by the WAM (whole arm manipulator) robot manufactured by Barrett Technologies and the PHANToM haptic interface manufactured by Sensable Devices. Reference: W.T. Townsend and J.K. Salisbury The efficiency limit of belt and cable drives Journal of mechanisms, transmissions and automation in design, 110 pp Ultrasound Motors Based on piezoelectric effect Benefits High torque at low speeds (no need for gearing) Silent, lightweight, compact, However Poor start torque characteristics One example is in the autofocus lens motors of cannon cameras Piezoelectric effect Either or Apply a force to a piezoelectric material to generate an electric field. Apply an electric field to a piezoelectric material to generate a force
7 In fig 6.3: Stress in dielectric (the piezoelectric material) is d = F A where A is the area of the plates/material. With no E field this causes a strain = h h. Thus Youngs Modulus M youngs = d Piezoelectric stress constant gives relationship between material stress and Electric field E V h and piezoelectric effect gives g= E d Thus simplified relationship is d =M youngs E g The piezoactuator also has an associated capacitance and it is possible to resonate the electrical system so as to maximise the E-Field and thus the piezoelectic effect. Note material is anisotropic in both g and Myoungs., so complete figures would relate stress to tensile and shear strains in each axis as well as E-field in each axis. Ultrasound motor construction and operation Three layers 1. Piezoelectric stack 2. Elastic body 3. Coupling ring
8 E.M Field actuators Electric Motors Force on a charge in an Electrical and Magnetic field is as follows If we assume a wire of cross sectional area So, length l, in a uniform field, B then the total number of charges in the wire is
9 Also if the mean charge velocity is v then the current in the wire is Assuming that the wire is only in a magnetic field, then the force due to a current i is Set up the motor as follows (Two pole motor, 1 winding) The force on one strand of wire in the armature is thus Hence the torque generated on one loop is Typically current passes into the armature via brushes to a number of commuting segments. Thus the torque must be averaged over the angle it is applied Can calculate the mean torque by integration, let m= number of windings x number of poles/2 Hence motor torque equation is
10 Faradays induction law Where a wire is moving in a magnetic field, a voltage is created. This is implicit in Faradays law that states For our armature We are looking at the area of the loop as projected onto the plane normal to the magnetic field.if the loop Thus the total flux coupled with the coil is The constant is identical to that for the induced torque, although they are often quoted as different numbers in motor specifications, the torque constant in units of torque/current, and the generator constant as Volts / revolution speed. The armature also will have a resistance and an inductance when entirely separated from the magnetic field. Hence one approximation for the action of the motor is
11 Armature shear Consider an ideal motor where the winding causes an average shear over the armature of Overall torque is then T =2 r 2 l where r is the armature radius and l is the field washed length. This formula can be rewritten as T =2V where V is the volume of the armature. motor type Torque/unit rotor volume Stress KNm /m 3 KN /m 2 Industrial servo Aerospace machines Liquid cooled generator Types of motor Permanent Magnet motors Permanent magnet motors use permanent magnets to provide a constant uniform B field, thus all the terms for the force and velocity equations can be grouped in a single constant.
12 Pancake motor Brushless DC motors Brushless motors use a permanent magnet as the rotor and use electronic commutation to determine which of 3n windings to energise. Shunt wound and series wound motors Some motors use separate rotor and stator windings connected in either series or shunt (parallel) with the armature to provide the magnetic field. For a series motor the B field is roughly proportional to current (all other factors fixed), so
13 Stepper and switched reluctance motors Motor Type Permanent Magnet Brushless DC motor Series wound DC Shunt wound DC Printed Circuit Motor Permanent magnet stepper motor Variable reluctance stepper motor Piezo electric motor Start torque Rotor Inertia Table 1: Characteristics of DC motors Cost Relia bility Electronic commutation? Comments High Med Low Good No Small size, linear High Low High Very high Med Low Good No Med Med Low Good No High Low High Good No Med Med Med Good Yes Low Med Low Good Yes Low Low High very good Yes Linear, common in small motor applications Widely used with both AC and DC current supplies Constant torque for a wide range of velocities Low rotor inertia makes it suitable for applications requiring high acceleration Good positioning possible providing torque limit not exceeded Good positioning possible providing torque limit not exceeded Very good Yes Operates at low speeds without need for gearing
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