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Tetra Pak Template 2001
MECHATRONICS PROGETTO del CONTROLLO di MACCHINE AUTOMATICHE per l’IMPACCHETTAMENTO (MOTION CONTROL for PACKAGING MACHINES) Davide Borghi Mechatronics The Course Course characteristics: multi-discipline contents Course Goal: “speak the same language” and be able to design the machine “as a whole” (not mechanics and motors separately). Course Limitations: no time to go deeply in each subject, so I will try to give you the tools and hints to investigate further; not everybody is interested to deepen every subject, so don’t worry if sometimes you miss some parts… Mechatronics Index Mechatronics in the Packaging World Mechatronics on packaging machines …bits of history Where is the Performance Limit? (motor => electronics => mechanics) Multiaxes systems (e.g.: A3-Flex, DIMC, PT) Programming Interface: RS-Logix5000 IEC1131-3 Application Program Example Brushless Motors Electric Motor’s Choice (kinematic chain, torque characteristics, field weakening deflussaggio) Stator Re-Winding (riavvolgim. motore) Brushless motors technology Resolvers and Encoders Linear Motors Torque Motors (1/2) PID Control PID Theory Serial (Rockwell Kinetix) and Parallel (Danaher SAM) PID Digital PID & Feed Forward Vibrations Analysis Control-Motor-Load relationships Bandwidth PID – bandwidth relationships Vibration measurements Sizing Planetary gearboxes versus direct-drive Servo-System Design EMC hints Trouble Shooting of a rig solution (in fase di prima verifica) Packaging Machines Motion Architecture Mechatronics Index (2/2) Drives AC brushless drive DC brushless drive Resolver to Digital Converter Regenerative breaking (Recupero in rete) Control Strategies Clark&Park Transforms IPxx Protection Servo System TroubleShooting on the field THE END Mechatronics Bibliography 1. Luciano Bonometti: “Convertitori di Potenza e Servomotori Brushless”, Editoriale Delfino, Milano, 1996 2. Hughes: "Electric Motors and Drives", 1993, Heinemann, 348pp., codice RS: 912076 3. CYMEX: Cyber Motion Explorer, CD-ROM, Alpha getriebebau GmbH [email protected] 4. “THE MOTION BOOK” version 4.0, Rockwell Automation/Allen-Bradley – 2004 www.ab.com/motion 5. “DSP Solution for Permanent Magnet Synchronous Motor”, Texas Instruments 6. Ashish Tewari, “Modern Control Design With MATLAB and SIMULINK” 7. Dean C. Karnopp, Donald L. Margolis, Ronald C. Rosenberg “System Dynamics : Modeling and Simulation of Mechatronic Systems” 8. D.M. Auslander, J.R. Ridgely, J.D. Ringgenberg, David M. Auslander “Control Software for Mechanical Systems: Object Oreiented Design in a Real Time World” 9. Gabriele Canini, Cesare Fantuzzi “Controllo del moto per macchine automatiche”, Pitagora Editrice, Bologna 2003 10. Claudio Melchiorri “Traiettorie per azionamenti elettrici”, Progetto Leonardo, Bologna 2000 11. “Tecniche di misura digitale lineare e angolare”, Heidenhain 12. “Intelligent Control Systems Using Soft-Computing Methodologies”, Ali Zilouchian, Mo Jamshidi, CRC Press Mechatronics Bibliography: internet links 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. Bosch internet site: http://app10.bosch.de//en/default.htm Danaher Motion internet site: http://www.danaher.com/ Elau internet site: http://www.elau.de/english/framesets/frhomenic.htm HDD internet site: http://www.hdd.se/ Kollmorgen internet site: http://www.kollmorgen.de/, http://www.kollmorgen.com/ Mektron – Pacific Scientific internet site: http://www.mektroninc.com/pacsci.html Pacific Scientific internet site: http://www.industry.net/c/mn/017k3 Parker internet site: http://www.parker-emd.com/uk/ Rexroth – Indramat internet site: http://www.indramat.com/ Texas Instruments internet sites: http://www.ti.com/, http://www.ti.com/sc/momentum/dm2sa2x6t4, B&R internet site: http://www.br-automation.com/welcome.htm Baldor internet site: http://www.baldor.com/ Festo internet sites: http://www.festo.com/, http://www.festo.com/food/eng/index.htm GE-Fanuc internet site: http://www.gefanuc.com/index.asp HydraForce Hydraulic Cartridge Valves internet site: http://www.hydraforce.com/ Rockwell Automation internet site: http://www.automation.rockwell.com/ SERCOS related links: http://www.sercos.com/links.htm Siemens Machine Control Systems – Packaging internet site: http://www.aut.sea.siemens.com/machine/systems/packaging.html Stegmann encoders: http://www.stegmann.de/english/html/produkte/index.html Mechatronics Why Automation? The machine makes FAULTS that can be: 1. 2. 3. 4. Detected Measured Corrected Predicted Man makes ERRORS that, not always, can be: 1. 2. 3. 4. Detected Measured Corrected Predicted Mechatronics Mechatronics: what’s in a name… Mechanical system control is undergoing a revolution in which the primary determinant is becoming the control software. This is enabled by developments in electronics and computer technology. Mechatronics (Yaskawa Electric, 1970): “new kind of mechanical system where the electronics take the decision- making function formerly performed by mechanical components…” Mechatronics (now, 2004): …there has been a shift from electronics to software as primary decision-making software, the definition thus becoming: “The application of complex automatic decision-making to the operation of physical systems”. Real time software differs from conventional software in that its results must not only be numerically and logically correct: they must also be delivered at the correct time; it must embody the concept of duration. Mechatronics Parts of a mechatronic system Other Components Operator Interface e.g. communication i.e. human factors Computation i.e. SW + HW Actuation Feedback i.e. energy conversion, power modulation i.e. energy conversion, signal processing Target System Mixture of: mech., fluid., therm., chem., electrical Mechatronics General Control System set point controller actuator PLANT sensor Mechatronics Analog Controller + D - + + P I + S Digital Controller clock host DSP DAC PID DIGITAL WORLD PA M Load ANALOG WORLD ADC sensor Mechatronics ANALOG vs. DIGITAL Controllers Cons Pros ANALOG DIGITAL Huge bandwidth (no sampling) Resolution Easy design Diagnostics Programmable (SW) Not depending on environment (temp., pressure, humidity, …) Deterministic behaviour Advanced Algorithms * Memory HMI Time-dep. Performances Temperature drift HW design: no easy change Trimmers Quantization (discr. represent.) Truncation (16x16=32bit) Limit Cycles Register Overflow Sampling Rate Mechatronics *Examples of Advanced Algorithms that can be implemented on Digital Controllers: • • • • • • • • • • • • • • Kalman Filters (optimal observer) LQR – Linear Quadratic Regulator (optimal controller) Adaptive Control Possibility to handle non-linear systems Fuzzy Logics Neural Networks DNA Computing Time Sharing Multitasking FFT – Fast Fourier Transform (time => frequency) Debugging Functions HMI – Human Machine Interface Data Logging Data Communications (Field Bus) Sensorless Algorithms Mechatronics “Il Mondo del Packaging” others… Toys Cigarettes Tissues Personal Care Beauty Care Solid Food Semi-Solid Food Pastorized Liquid Food Aseptic Liquid Food BeveChocolate rages Pharmaceutical Mechatronics Raw Material Supply (e.g.: trees) The Packaging Material Converting (e.g.: carton layers) T h e Fill Food Treatment Cap P a c k a g e Label Card Board Packing Palletize (e.g.: UHT, Past.) The Product Food Supply (e.g.: cows) Mechatronics Mechatronics Openings Mechatronics Filling Machine animation Mechatronics Filling Machine (cont’d) Mechatronics Packaging Line Mechatronics Esempio di Packaging Line Mechatronics ...at the customer site Mechatronics Distribution Equipment Macchine automatiche situate dopo la macchina riempitrice (filling machine) • Accumulators • Cap Applicators • Card-Board Packers • Film Wrappers • Handle Applicators • Straw Applicators • etc.. Mechatronics Mechatronics on Packaging Machines Mechatronics Packaging Line Monitoring System modem Automatic data logging Data transfer - modem/diskette Data analysis - off line software An excellent tool to analyse and improve performance & quality Mechatronics 3 Generations of Motion Control I Generation: Fully ANALOG II Generation : ANALOG and DIGITAL III Generation : Fully DIGITAL and INTEGRATED with STANDARD IEC1131-3 programming languages Mechatronics Bits of history… The Typewriter Servo : Packaging Machines = Electronics : Typewriter Mechanical Electromechanical Electric Electronic Word Processor PC with impact Printer PC with laser printer PC with ink jet printer Email chronology Mechatronics Where is the performance limit? First the limit was in the Motor due to the backlash in the key slot and/or other backlashes or static/starting friction (that is the same thing since with applied current there’s no motion). Then the limit became the Electronics due to the low band-width. Now the limit is the system Resonance Frequency due to elasticity and inertias. 1) limit the gains (bw =G/J) 2) Notch or Low Pass Filter 3) high stiffness (direct drive solution) In 2) and 3) I can have high gains (0.01” or 1nm accuracy) high resolution sincos encoder Mechatronics Multiaxes Systems Industrywide Interface Industry Guideline Compliant Machine Interface Motion Network Sensor Network Machine Controller Drive Drive Drive Drive Drive Drive M M M M M M OEM Core Competency Mechatronics Modular Software & Software modeling Machine Machine supervisor Machine controller Module Module Module Module supervisior Module supervisior Module Module supervisior Module supervisior Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Sub Module Mechatronics Modular Software & Software modeling (cont’d) Packaging Line Line Supervisor Line Controller Mechatronics Multiaxes Systems (cont’d) animazione Packaging Machine: 3-50 axes: toward 100 axes machines on the long run (Human Body: 150 axes, i.e. 300 muscles with 2 muscles to give one complete degree of freedom) Each motor has a: • winding (power) cable • feedback cable (encoder or resolver) • PTC temperature sensor wirings and, if present, brake wirings Each power cable is attached to a drive (one drive generally drives one motor). Mechatronics Multiaxes Systems (cont’d) The ideal partition line has to be found: Controller, Profile Generator Field bus Position, Position, Position, Speed, Position, Speed, Position, Speed, Current Loop Speed, Current Loop Speed, Current Loop Current CurrentLoop Loop MM MM M …for having the field bus DC-bus band-width as low as possible. Solution: close every loop in the drive or integrate the electronics in the motor (but I would have the DC bus running through the whole machine for having breaking/acceleration actions balanced among all axes, as a mechanical shaft would do). Mechatronics Programming Interface With a field bus, the axis becomes only an object of the bus: I can connect the PC to any bus point for monitoring/accessing any bus device Mechatronics HW Architecture: example 1 4ms coarse update rate (7 axes) 125ms pos. loop Mechatronics HW Architecture: example 2 4ms coarse update 125ms pos. loop ControlLogix MPL Motors Kinetix 6000 RS Logix 5000 Mechatronics SW: IEC1131-3 General Approach • LADDER for process logics with boolean and continuous environment • SFC when pending from motion commands to be terminated • ST when heavy bunch of code need to be written in a “linear” form • FBD for continuous algorithms such as design PID Mechatronics Mechatronics Motion Application Flow Chart Mechatronics Motion Application Flow Chart DETAILED Mechatronics Start End Machine Power On Start Machine Power Off Drive Active Drive Enable Motion Application Enable of the driver logic part and power (contactors between three phase line and driver) Denergize Denergize done Drive error solved De-energize the motor and Open the two contactors Before and after the driver Safety Stop In this state are execute all the phase for ab emmergency stop Drive status Ok UML (high-level) Axis Denergize Idle Motor Moving This state describe a waiting phase for the motor drive Disable of the power in the drive This is a macro state that collect all the moving phases of the motors Drive error OR Axis Denergize Energise Enable power for the driver and the contactors between the driver and the axis. Synchr onize Home Searching Energize Synchronize done Home done Home request Ready To Run Motor Start Run Production Production phase. Stop Axes Energize Done Home Done Servo Energized Safety Stop Stop Done Condition to start for the state Stop Prod. In this state are executed all the procedure for a normal stop or end production Stop Done “Other Routine(s)” E.g. volume change or Machine slow inching Stop Stop “Other Routine(s)” Mechatronics SFC Application Main (example 1) Mechatronics A3-Flex Rockwell SW Architecture (example 1) Periodic Task Very high priority ST ErrorST Detection Error SFC Manager Error Handler ST Single Instructions Periodic or Cont. Task Low priority Periodic Task High priority ST SFC Main SFC SFC Home Search., ON-OFF servos, ST PLC Logics Motion Control SFC resets run-stop prod., mainten.-service routines SFC SFC SingleST Instructions Group of move.s Single move.s JSRs Ladder Single Instructions Mechatronics “Flat” Implementation: example 2 Mechatronics Structured Text Code Sample ST (not IEC1131-3) Language Mechatronics IEC1131-3 Code Sample video IEC1131-3 Languages: ST, SFC, Ladder, FBD Mechatronics The approach has been: Profiles calculation UML design Mech. Design SFC+ST implementation for motion Debugging LADDER Implementation for PLC Manufacturing Assembly Mechatronics