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Calculatoare Incorporate – Curs11

Calculatoare Incorporate – Curs11. ARM/MIPS EV Tendinte EV Avantaje Concepte esentiale New Beetle Electric Lab11 – Control Motor EV. Automotive – 200x. Pretul miscarii. Automotive 201x. De ce Electric Vehicle. Epuizarea resurselor bazate pe petrol Poluare Costuri ridicate

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Calculatoare Incorporate – Curs11

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  1. Calculatoare Incorporate – Curs11 ARM/MIPS EV Tendinte EV Avantaje Concepte esentiale New Beetle Electric Lab11 – Control Motor EV

  2. Automotive – 200x

  3. Pretul miscarii

  4. Automotive 201x

  5. De ce Electric Vehicle • Epuizarea resurselor bazate pe petrol • Poluare • Costuri ridicate • Existenta rezultate stiintifice aplicabile pentru: - motoare cu randament mare - baterii performante, - sisteme alimentare/incarcare, - computere pentru obtinere regimuri, functionare stabile si eficiente.

  6. Avantaje • Emisii poluante chimice - zero . Energia pentru incarcare poate fi generata in tehnologie green • Poluare fonica - zero . Aproape nu se aud in mers. • Eficiente - 85% din electricitatea consumata poate fi convertita in miscare. Vehicolele clasice au randament de max. 15-20%. • Costuri deplasare - costul “combustibilului” este de 15% din cel al benzinei . Benzina se va scumpi ! • Independenta - electricitatea necesara incarcarii bateriilor poate fi realizata acasa.

  7. Dezavantaje • Autonomie scazuta - cu un “plin” se parcurge 80-100 Km ( baterii LiIon) – nerocomandate pentru trasee lungi. ( Cu baterii recente – scumpe insa- se pot parcurge aprox. 300-400km) • Costuri mari pentru motor, controller si baterii. Exp: motor 2-4000$, controller 1500$, baterii 1-30 000 $; • Timpi mari alimentare – 2-6 ore incarcare baterii, • In viitor - scaderea preturilor pt. productia de masa , - dezvoltarea reteleor de PECO electric EXCELENT PENTRU URBAN VEHICLE!

  8. Solutie : conversie clasic-electric

  9. New Beetle - electric

  10. Rezervorul de “combustibil” .

  11. Componente principale

  12. Alternative motor

  13. AC Motor Siemens tip 1PV4133WS20 – 30KW

  14. AC - Alimentare

  15. NetGain DC Motor ModelWarP 9 Large com bars securely attached to arbor to prevent lifing Brushes pre-seated at over 90% Heavy duty brush holders Easy brush replacement Sealed steel high temp bearings 1 1/8" keyed drive shaft Insulation exceeds Class "H" ratings Internal cooling fan 5,500 RPM

  16. BLDC - http://www.adlee.com

  17. e-Scooter Motor &Controller http://www.adlee.com/e-scooter.htm

  18. Baterii posibile 1. Li-Polymer battery. While still quite rare if scaled up to usable in EV size and up front expensive, at least it became available. Treated right, can be less expensive in a long run than lead acid batteries. Require sophisticated BMS (battery management system). 2. Li-Ion battery. Not as expensive and LiP battery above, but the next best thing. Technical requirements are the same as for LiP battery. Advantages (to me) are worth trying these. Require sophisticated BMS (battery management system). 3. NiNaCl Zebra battery. Expensive, looks like sold to OEM only, and limited selection (well matched to AC system requirements though). 4. NiZn battery - relatively new player on the market - comparable to NiMH and NiCd and (recently became) far less expensive. 5. NiMH battery. Not available for non-technical reasons and may never be available to you and to me. 6. NiCd battery. Realistically available from SAFT (France) or its subdivision ALCAD (Sweden). Expensive up front, but cheap over its long life time. 7.  PbA Gel Cell battery - quite a few choices. 8. PbA AGM sealed deep cycle battery - quite a few choices9. PbA flooded battery - many choices.

  19. Controller/invertor The power inverter. Manufacturer - Siemens AGCost - $3,800 iAvailable from Metric Mind Engineering The power AC inverter is the main part of the electrical system of the car, and its role is simple - to convert the battery energy to the form useable for the AC motor, and to deliver right amount of this energy per driver's demand. While it doesn't sound too complicated, to perform this task flawlessly the electronics gets quite complex, and it is especially true for AC drive systems. Functions: - Convert (invert) the DC battery voltage to the 3 phase AC voltage;- Adjust AC voltage amplitude and frequency based on the drive current demand and instant conditions like RPM and torque- Provide regenerative braking turning the traction motor into a generator for recuperating kinetic energy back to the battery pack; so it has to convert generated 3 phase AC voltage back to DC before feeding the batteries,

  20. http://www.evconvert.com/resources/

  21. http://www.evconvert.com/resources/

  22. http://www.e3car.eu/

  23. http://www.avere.org

  24. PE – terminologie 2

  25. PE – terminologie 3

  26. Exp1 - TimerINT

  27. Timing INT

  28. BeanWizard – new Bean

  29. BeanWizard

  30. Freescale Automotive MCU/DSC

  31. Freescle Automotive 8 bit MCU

  32. Freescale Automotive 16 Bit MCU

  33. Embedded DSC

  34. DSC – Alternativa Freescale

  35. Platforma de dezvoltare cuDSC 58Fxxx

  36. Freescale 56F8365 Chip

  37. Sistem de dezvoltare cu56F8013

  38. Interfata LED-uri pt. depanare

  39. Interfata Kbd

  40. Platforma dezvoltare aplicatii cu 56F8013

  41. DSC56F8000 – Arhitectura Interna

  42. DSC 56F8000 – Model de programare I

  43. DSC 56F8000 – Model de programare II

  44. DSC 56F8000 – Model de programare III

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