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Engine control

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FISITA F2006P039, FPGA Based Engine Feedback Control Algorithms ... Oscilloscope. Throughput 50MHz. Delay 120ns. Asynchrounous operation. In cycle HR analysis! ... – PowerPoint PPT presentation

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Title: Engine control


1
Engine control KCFP reference group
meeting January 2007
Carl Wilhelmsson, PhD student Per Tunestål, Dr.
Dr. Ass. Prof. Bengt Johansson, Dr. Prof.
2
Outline
  • Current control path results 2006
  • Undergoing work, not yet published
  • Outlook
  • Questions, comments and suggestions

3
Publications 2006
  • SAE 2006-01-0205, The Effect of Displacement on
    Air-Diluted Multi-Cylinder HCCI Engine
    Performance
  • IFP E-COSM, Model based engine control using
    ASICs A Virtual heat release sensor
  • FISITA F2006P039, FPGA Based Engine Feedback
    Control Algorithms

4
FPGA Based Engine Control algorithms
  • Throughput 50MHz
  • Delay 120ns
  • Asynchrounous operation
  • In cycle HR analysis!

Simulated engine
Oscilloscope
Signal conditioning
5
Planned Papers 2007
  • JSAE, SAE, Operation strategy of a Dual Fuel HCCI
    Engine with VGT
  • IFAC, An Ultra High Bandwidth Automotive Rapid
    Prototype System
  • SAE?, FPGAs in Automotive Control Applications, a
    Survey

6
(No Transcript)
7
Operation strategy of a Dual Fuel HCCI Engine
with VGT
8
Conclusions
  • Natural gas seems to be a badly suited fuel for
    pure HCCI operation
  • A operational strategy for the described engine
    was developed and analyzed
  • It was possible to increase the maximum
    achievable load with 2 bar using the described
    strategy and turbocharger
  • The limiting factor among the ones regulated by
    the operational strategy are the emissions of
    NOx
  • The increased load range comes to an cost in net
    indicated efficiency compared to a not
    supercharged engine

9
Rapid prototype system
10
Rapid prototype goals
  • Simulink provides flexibility for control of
    peripheral equipment (turbo, fuel rail pressure
    etc)
  • Simulink provides flexibility for between cycle
    combustion control
  • Standard COTS components and open communication
    protocols provides flexibility
  • FPGA provides less flexible ultra bandwidth
    control possibilities

11
FPGAs in Automotive Control
  • Application examples
  • Automotive
  • Feedback control
  • Modelling
  • Design methodologies
  • Design layouts
  • Mixed systems
  • Possibilities/drawbacks
  • Cost
  • Performance
  • Design
  • Performance outlook

12
Technical development plan
  • Obtained direct injected Diesel engine with state
    of the art common rail system
  • Setup Matlab/simulink rapid prototype environment
    with FPGA as described in IFAC paper

13
Goals
  • En deepen FPGA knowledge and design skill
  • Setup test equipment enabling ultra high
    bandwidth control research
  • Increase combustion related, control oriented
    modelling activity
  • Increase the work with hardware driven ultra
    bandwidth control oriented models

14
Suggestions?
  • Timescale
  • Technical
  • Investigational
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