Future Propulsion Systems John Kirwan Chief Engineer Advanced Research & Development Driven to make a difference
Millions Light-duty hybrids expected to grow Annual hybrids sold forecasted to increase in the next 10 years: ~32 m by 2025 120 100 80 Source: IHS August 2018 8M 11M 33M 22M 57M 12M 14M 33M Electric vehicles Full hybrids & PHEVs 48V mild hybrids 60 40 20 52M 12M 33M 43M 10M 26M Alternate fuels Diesel GDi gasoline 19M PFI gasoline 0 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 Electrification mix unclear after 2023 as OEMs adjust to meet stringent regulatory targets 17M 2
Electrification: Combining functions to reduce size & cost Propulsion inverter + DC-to-DC Converter CIDD (Combined Inverter DC/DC) Eliminates extra DC cables and separate DC/DC housing Eliminates extra liquid cooling lines Fewer components to install in vehicle 3
Fuel Quantity [mg/pulse] Flow Shift [%] Design for High Pressure Multi-hole Injector M16 for 500+ bar Pressures 4 Multec 16 500+ bar 500+ bar customized elastomer interface Optimized: - internal fuel routing - magnetic performance - materials Decoupled armature-pintle assembly 6mm lower housing with machined seat Benefits Optimized injector fueling Noise reduction Drive wave form energy reduction 60 50 40 30 20 10 0 Flow curve at 350 and 600 bar fuel pressure 0 1 2 3 4 Pulse Width[ms] Multec 16 with up to 600 bar system pressure capability Status Advanced development validation completed 40% 30% 20% 10% 0% -10% -20% -30% -40% Flow shift after durability 0.35 0.6 0.85 1.1 1.35 1.6 Pulse Width[ms] 3 Sigma / My
48V edsf: Demonstrated Benefits 15+% CO 2 REDUCTION INCREASED LOW-END TORQUE 20%+ IMPROVED ACCELERATION (0-30 KPH) INCREASED CHARGING DURING DECELERATION SEAMLESS START-STOP PERFORMANCE Realizing the system synergies of powertrain technologies and capabilities 5
ARPA-E NEXTCAR Project 48V edsf with Intelligent Driving V2V Connected & ADAS systems Radar and Camera modules Navigation system V2X Cloud based Route Selection V2I Powertrain systems 48V mild hybrid Dynamic Skip Fire Powertrain controls 20%+ fuel economy improvement goal: 48V edsf with connected data 6
ARPA-E NEXTCAR Project 48V edsf with Intelligent Driving: Target Benefits 1%-2% improvement estimated for FTP City test cycle Connected Technologies: V2X sensors and ADAS systems: topography, surrounding environment and traffic conditions ~7% Fuel Savings Cloud Computing: Synergistically merge route information with powertrain control to minimize fuel consumption ~4% Additional Fuel Savings Intelligent driving targeting 10%+ real-world fuel efficiency improvement 7
NEXTCAR Project: Fuel Economy Evaluation Simulation results comparing Driver model Intelligent Driving controls Simulated Fuel Consumption Reduction for Route Scenario 19 Driver Model results: represent variation in model parameters. -23% -11% Intelligent Driving results: represent variation of aggressiveness parameter between Travel Time and Fuel Consumed. Simulated Intelligent Driving Controls Demonstrate Significant Potential Benefit 8
NEXTCAR Project: Fuel Economy Evaluation 15% 15% Fuel Consumption Evaluation on Test Track with NEXTCAR Development Vehicle 9
Summary Electrification penetration increasing rapidly to complement advanced internal combustion engines Connected and Automated Vehicle Systems provide new opportunities for propulsion system optimization Software, controls & system integration expertise critical for best value solutions Driven to make a difference 10