1 / 25

European Heavy-Duty OBD Update

European Heavy-Duty OBD Update. GRPE, Geneva 29-30 May 2001 Dr Paul Greening European Commission. Political mandate. Directive 1999/96/EC requires that by end 2000, Commission must propose: heavy-duty vehicle durability; heavy-duty vehicle in-use conformity testing;

amos
Télécharger la présentation

European Heavy-Duty OBD Update

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. European Heavy-Duty OBDUpdate GRPE, Geneva 29-30 May 2001 Dr Paul Greening European Commission

  2. Political mandate • Directive 1999/96/EC requires that by end 2000, Commission must propose: • heavy-duty vehicle durability; • heavy-duty vehicle in-use conformity testing; • heavy-duty vehicle OBD. • and deal with issues regarding measurement of low PM mass for Euro 4.

  3. OBD scope - diesel engines • OBD monitoring of the engine plus any downstream emission control system: • applicable to new diesel engines from 1st October 2005 (Euro 4).

  4. OBD scope - diesel vehicles • OBD monitoring of the engine plus any downstream emission control system: • diagnostic interface between the ECU and other vehicle electronic systems that provide an input to or receive an output from the ECU; • applicable to new vehicles with diesel engines from 1st October 2008 (Euro 5).

  5. Mode Speed Load 1 idle - 2 A 100 3 B 50 4 B 75 5 A 50 6 A 75 7 A 25 8 B 100 9 B 25 10 C 100 11 C 25 12 C 75 13 C 50 European Steady Cycle (ESC) Load 100 8% 8% 9% 75 5% 10% 5% 5% 10% 5% 50 5% 10% 5% 25 15% 0 50 75 100 A C B idle Engine speed

  6. OBD demonstration test • OBD monitoring likely to be evaluated over the ESC test cycle. Why ? • ESC provides sufficient steady-state driving (4 min. idle mode, 2 min. per mode) to enable system monitoring to be demonstrated; • ESC modes may be too long; • ESC also has transient elements between modes (max. 20 sec. per mode change).

  7. European Transient Cycle (ETC) 110 95 n/s 100 90 T/Tmax(n) 90 85 80 80 70 75 ) in % /s 60 70 50 65 Normalized Engine Torque (T/Tmax(n)) in % 40 60 Normalized Engine Speed (n 30 55 20 50 10 45 0 40 -10 35 -20 30 -30 25 0 200 400 600 800 1000 1200 1400 1600 1800 Time in s

  8. OBD demonstration test • What about the ETC test ? • Supposed to represent ‘real’ European HDV driving; • ETC does offer some steady-state driving periods but the variation in engine load is probably too great; • Presently reviewing OBD monitoring capability over the ETC.

  9. Sensors • NOx sensors: • Siemens-NGK electro-chemical sensor is available for test purposes; • Light duty applications this year (0-500ppm range); NOx sensor for HDV applications mid- 2003 (0-1500ppm range); • Other manufacturer sensors at similar stage of development; • Cross-sensitivity to NH3.

  10. Sensors • NH3 sensors: • Necessary for SCR applications to monitor NH3 slip; • Few automotive developments so still far from production. • Particulate sensors: • Pressure drop over trap; • Sooting, ultrasound, laser-induced incandescence sensors under development.

  11. OBD monitoring functionality • Today, big problem is setting appropriate OBD threshold limits for monitoring deNOx and DPF; • sensor developments for application in 2005 (Euro 4) uncertain; • Durability needs to be defined; • For 2005 propose to monitor deNOx, DPF or combined deNOx-DPF only for major functional failure.

  12. OBD monitoring functionality • What is major functional failure of deNOx or DPF: • removal or replacement of systems; • lack of reagent for SCR; • electrical failure of SCR actuators; • breakdown of NOx trap; • breakdown of DF: • major melting of trap substrate; • clogged filter resulting in P out of range.

  13. Failure analysis • For type-approval, the manufacturer will have to declare the parameters used as a basis for major functional failure: • provide an analysis of potential failures in the emission control system; • detail effect of failures on emissions; • information remains confidential; • Directive 98/12 requires this for ABS.

  14. OBD monitoring thresholds • OBD ‘threshold limits’ will be applicable for diesel engines without after-treatment dealing with either the emission of NOx or particulate; • Major functional failure plus NOx and particulate threshold limits for 2005; • Only thresholds for 2008; • No need for diesel HC and CO thresholds.

  15. OBD monitoring thresholds • Threshold levels will be defined to: • be realistic for 2005; • be progressive for 2008, to push sensor development; • take account of the political process; • 2008 ‘threshold only’ concept should be reviewed by end of 2004 to assess progress in sensor development.

  16. General requirements • Similar in concept to light-duty vehicle OBD with defined minimum monitoring: • reduction in efficiency of deNOx; • functionality & integrity of DPF; • combined deNOx-DPF systems; • fuel injection equipment for functionality and continuity; • [lack of cylinder combustion]; • other emission-related components.

  17. General requirements • Activation and de-activation of malfunction indicator: • will include for lack of SCR reagent; • can be de-activated after 40 engine warm-up cycles or 100 engine running hours, whichever first; • If MI activated due to lack of reagent, MI may be switched back to previous state of activation after [urea] re-fill.

  18. General requirements • Provisions for unrestricted access for repair etc; • Provisions for deficiencies included, similar to light-duty EOBD: • Two deficiencies; • Allowed for two years (three years); • No deficiency if: • complete lack of diagnostic monitor; • OBD thresholds are exceeded.

  19. General requirements • Anti-tampering, like passenger cars, to cover, e.g: • manipulation of hardware, software, calibration parameters; • data modification; • addition of new devices that could affect OBD monitoring; • exemptions from requirements possible based on certain criteria.

  20. Temporary disablement • If fuel level below 20% capacity; • During the permitted functioning of an ‘auxiliary control device’ (2001/27/EC); • During exceptional control strategies such as limp-home or security/safety strategies; • When power-take off units are active; • During periodic regeneration of DPF or deNOx.

  21. Engine family • Take on-board the provisions of ISO 16185 to define: • general engine family concept; • OBD engine family concept.

  22. Small OBD families • Less than 500 units per year world-wide: • OBD required but monitoring of engine and after-treatment only with respect to major functional failure; • Less than 50 units per year world-wide: • OBD required but monitoring of engine and after-treatment only with respect to circuit continuity.

  23. Enforcement • Running hours since activation of malfunction indicator; • Reviewing the possible use of more than 1 freeze-frame as FI-FO buffer for an on-board fault history coupled with running hours/distance.

  24. Access to diagnostic data • Similar in concept to light-duty vehicle OBD; • through standard connector; • common connector for light-duty vehicles and heavy-duty vehicles? • Provisions to allow the use of an on-board diagnostic facility (in place of off-board scan tools) if it offers the same level of diagnostic access.

  25. HDV OBD - next steps • Commission proposal is due in June; • Further proposals will come later: • gas engine OBD; • OBD test cycle based on WHDC; • enhanced running time/fault code storage procedure as enhanced in-use conformity procedure; • replacement parts.

More Related