ZF Friedrichshafen AG Ernst-Sachs-Straße 62 D-97424 Schweinfurt Germany
ZF Friedrichshafen AG Ernst-Sachs-Straße 62 D-97424 Schweinfurt Germany Phone:+49 9721 98-0 Fax: +49 9721 98-2290 www.zf.com Electric Motors for Hybrid Drives For Passenger Cars Driveline and Chassis Technology © ZF Friedrichshafen AG-PC&CV-Electric Motors-09/2011 and Commercial Vehicles 1 Comfort, Performance, Environmental Protection: Powertrain Components and Systems for Passenger Cars and Commercial Vehicles Hybrid Module The demands placed on suppliers in the automotive sector are changing dramatically. Increasingly, suppliers are being called upon to integrate components into complex systems – a development task that can only succeed on the basis of close partnerships with vehicle manufacturers. The future will bring continued demands for reduced fuel consumption, emissions, weight and installation space, along with enhanced comfort, safety, and driving dynamics. To meet these goals, innovative solutions and new products are essential. The hybrid module combines ZFs’ core areas of exper- A special highlight is the possibility of integrating the tise in the driveline – the electric motor, torsional dam- module into existing driveline architectures without ping, and wet clutch – superbly integrated and mutually taking up additional installation space. ZF has taken responsibility here, demonstrating expertise in generating comprehensive solutions with its integrated powertrain systems. In doing so, it consistently pursues a systems approach in developing and manufacturing new products and technologies that represent real advances. ZF provides overall solutions that meet the demands of overall systems. DynaStart®, the electric motor from ZF, forms the basis effectiveness, and functionality in conjunction with the for electrifying the driveline. Used in passenger cars, other hybrid system components. The electric motor is commercial vehicles and construction machines, the available with internal or external rotor, depending on electric motor ensures outstanding efficiency, cost- the needs of individual applications. adjusted. DynaStart® One example: As a powertrain specialist and manufacturer of electric drives, ZF can also provide superior integration for the full spectrum of hybrid powertrain designs and thus offer production-ready solutions that are already reducing fuel consumption and emissions for the vehicles of tomorrow. Electric drives: The DynaStart® product range External diameter [mm] Electric active length [mm] Max. current [A] Max. torque [Nm] Max. n [rpm] SG269 270 80 440 230 6,500 SG345 345 110 350 500 4,500 SG430 430 160 350 1,100 4,500 External diameter [mm] Electric active length [mm] Max. current [A] Max. torque [Nm] Max. n [rpm] SG280 280 55 230 165 6,500 SG280 280 75 240 265 6,500 SG325 325 56 325 210 6,500 Internal rotor type 0 0 200 50 400 100 600 150 800 200 External rotor type 0 10 100 20 200 30 300 40 400 50 ■ Voltage [V] ■ Max. power [kW] 2 3 Hybrid Technology – Future-oriented and Environmentally Friendly Installation concepts for electric motors of parallel hybrid drivelines in cars Front-longitudinal Front-longitudinal motor positionmotor position Front-transverse Front-transverse motor positionmotor position Front-longitudinal Front-longitudinal motor motor position position More than ever before, our society is focus- Comprehensive experience in powertrain technology at ZF en- ing on preserving the environment, the cli- sures that these new systems can also be integrated into existing mate, and fossil fuels. ZF has been working power-trains in order to meet all energy conversion and vibrational together with car makers for years now on damping requirements. This integration expertise, which allows to hybrid strategies that significantly lower fuel combine the entire range of powertrain functions into complex sys- consumption and CO2 emissions. A num- tems, is the key to introducing hybrid technology on a broad scale. Front-transverse Front-transverse motor motor position position ber of systems are already ready for series production, and they also set new standards for cost-efficiency. Hybrid module operations Ready Ready Ready forfor start-stop forstart-stop start-stop operation: operation: operation: Dynamic Dynamic Dynamic starter: starter: starter: Recuperation: Recuperation: Recuperation: The The The electric electric electric motor motor motor is is running, isrunning, running, and and and can can can start start start upup the upthe the combustion combustion combustion engine engine engine in in fractions infractions fractions of of aof second a asecond second byby engaging byengaging engaging thethe the start-up start-up start-up clutch. clutch. clutch. The The The start-up start-up start-up clutch clutch clutch is is engaged, isengaged, engaged, and and and thethe the torque torque torque brings brings brings thethe the engine engine engine to toto thethe the right right right torque torque torque level level level in in less inless less than than than 0.20.2 0.2 second. second. second. Brake Brake Brake energy energy energy is is not isnot not wasted wasted wasted asas heat, asheat, heat, but but but rather rather rather stored stored stored asas electric aselectric electric energy. energy. energy. Boost: Boost: Boost: Coasting Coasting Coasting mode: mode: mode: Purely Purely Purely electric electric electric drive: drive: drive: When When When starting starting starting upup up oror or accelerating, accelerating, accelerating, the the the combustion combustion combustion engine's engine's engine's torque torque torque is is is boosted boosted boosted byby by torque torque torque from from from the the the electric electric electric motor. motor. motor. Especially Especially Especially atat at low low low rpm rpm rpm levels, levels, levels, this this this can can can fillfill fill gaps gaps gaps inin in the the the combustion combustion combustion engine's engine's engine's torque torque torque curve. curve. curve. For For For full full full use use use ofof of roll roll roll energy, energy, energy, e.g. e.g. e.g. onon on downhill downhill downhill gradients. gradients. gradients. Touching Touching Touching the the the gas gas gas pedal pedal pedal retrieves retrieves retrieves full full full engine engine engine function. function. function. For For For example, example, example, driving driving driving inin in noise noise noise protected protected protected oror or non-emission non-emission non-emission zones, zones, zones, oror or when when when maneuvering maneuvering maneuvering inin in tight tight tight spaces. spaces. spaces. Electric drives: Overview Mild hybrid Power [kW] Torque [Nm] Voltage [V] Ready Ready Ready forfor for start-stop start-stop start-stop operation: operation: operation: External diameters [mm] Electric active length [mm] Fuel reduction Functions 4 Delivery truck City bus PlugIn hybrid Full hybrid Full hybrid 4–20 20–70 50–100 25–130 100–200 100–250 100–500 100–500 250–600 500–1,200 42–450 120–650 250–650 150–650 560–720 240–345 Recuperation: Recuperation: Recuperation: 240–480 345–480 240–325 Dynamic Dynamic Dynamic starter: starter: starter: 240–345 50–80 55–105 55–105 55–105 100–200 up to 15 % up to 30 % up to 50 % up to 50 % up to 35 % Generator Start-stop Boost The The The electric electric electric motor motor motor is is running, is running, running, and and and can can can start start start upup up the the the combustion combustion combustion engine engine engine Recuperation inin in fractions fractions fractions ofof of a second aa second second byby by engaging engaging engaging the the the start-up start-up start-up clutch. clutch. clutch. Electrical range [km] Full hybrid Passenger car Generator Generator Start-stop Start-stop Boost Boost The The The start-up start-up start-up clutch clutch clutch is is engaged, is engaged, engaged, and and and the the the torque torque torque brings brings brings the the the engine engine engine toto to Recuperation Recuperation the the the right right right torque torque torque level level level inElectric in in less less less than than than Electric drive drive 0.2 0.2 0.2 second. second. second. operation operation 1...5 15...45 Generator Generator Start-stop Start-stop Boost Boost Brake Brake Brake energy energy energy is is is not not not wasted wasted wasted asas as heat, heat, heat, but but but rather rather rather stored stored stored asas as electric electric electric energy. energy. energy. Recuperation Recuperation Electric drive Electric drive operation operation 1...5 1...5 5 The Hybrid Module – Integrating all Operations The system: Hybrid module characteristic degree of efficiency (Udc 202 V, electric) 300 250 Booster torque 200 The task: The technology: Hybrid drives combine the high torque of The permanent excited synchronous motor that was developed electric drives at low rpm levels with the by ZF features extremely short axial dimensions and superior dominant torque of combustion engines power. The module‘s operations include vibration damping, tor- at high rpm ranges. Putting the efficiency que transmission, dynamic starter, clutch actuation, and electric and emission advantages into practice power generation. Its starter clutch separates the powertrain Combustion engine 150 of components across the entire range of to operate fully electrically and to convert braking energy into operating conditions. In particular, the electric energy without loss of friction in the combustion engine. 0 relatively high degree of technical com- The hybrid module enables the combustion engine to be started 0 plexity – due to two drivelines in a single with minimal electromotor torque. During start-up, the electric vehicle – requires a network approach that motor accelerates the rotor and the clutch disc in fractions of a links different system structures. second. The clutch then engages and the inertia of the rotating 24 22 20 18 16 14 93 % 10 8 Electric drive with 25 kW at 202 nom. V 50 from the combustion engine, which allows the vehicle both 26 12 100 requires mastering the complex interplay Mechanical power [kW] Torque [Nm] Power boost: More torque 92 % 91 % 89 % 87 % 83 % 6 80 % 4 2 Booster operation 1,000 2,000 0 3,000 4,000 0 1,000 2,000 3,000 4,000 5,000 rpm [1/min] 6,000 rpm [1/min] masses boosts the combustion engine up to or even above idling ZF is developing hybrid drives that meet rpm. This process takes place so quickly that drivers don‘t even this systems approach. notice it. The clutch has torque transfer capability of levels over 1,000 Nm. The hybrid module from ZF: Integrated into the existing transmission architecture Hybrid module consisting of electric motor, booster clutch, and actuator Benefits ■■ Dramatic reduction in fuel consumption and emissions ■■ Very fast and quiet engine start and therefore comfortable start-stop operation ■■ Recuperation of electric energy from braking ■■ Improved driving dynamics thanks to power boost for combustion engine during acceleration ■■ Purely electric operation (no emissions) by separating the combustion engine from the driveline Engine separator clutch The engine separator clutch ensures comfortable separation or activation of the combustion engine Electric motor The electric motor ensures high performance density with optimum efficiency Transmission input hub Torsional damping to reduce torsional vibrations Engine side 6 Stator laminated core with coils Rotor with permanently excited magnetic poles Transmission side 7 Integration Expertise Installation space saved As a result of joint research and develop- Thanks to its expertise in powertrain components, ment work with vehicle manufacturers ZF Friedrichshafen AG can integrate start-up, shift, vibrational and other partners ZF has developed mild damping, and actuation elements. For example, the extremely and full hybrids with both internal and flat starter clutch with sin-tered facings make powerful hybrid external rotors. These electric drives can solutions possible for front-transverse applications as well. This be integrated into new or already existing ensures not only environmental but also economic advantages powertrains without sacrificing any known for vehicle manufacturers. Integration solution Benefits ■■ Greater efficiency and cost effectiveness ■■ Simple adaptation and integration ■■ Considerable installation space saved compared to conventional solution driveline functions. – 30 % Power Electronics – Key Components for More Efficiency in the Driveline ZF offers modularly scalable systems from a single source for the electrification of the driveline. Products ranging from the complete hybrid system and defined assemblies to single components such as the inverter or DC/DC converter can be provided. The added value of a modular construction system from a single source for ZF customers: They can optimally integrate their own systems into the provided environment and the consistent system design accelerates the design and development of new variants. 0 20 40 60 80 100 120 140 160 180 200 Length [mm] Conventional solution Electric motor Torsional damper Clutch Addition installation space (releaser) 8 9 DynaStart® – The Basis for Hybridization in Passenger Cars The task: ensures a high degree of cost-effectiveness for vehicle manufac- As a specialist for start-up elements, ZF turers, because they can continue to work with existing vehicle has been developing electric motors for concepts. The DynaStart® starter generator from ZF has been parallel hybrids that meet extremely high specially developed for parallel hybrid solutions – short instal- demands for performance density and cost lation length, high energy efficiency, and sufficiently robust to effectiveness. Ambitious fuel consumption achieve superior results in the complex environment between targets and reductions in CO2 emissions the engine and the transmission. can be reached – combined at the same time with improvements in driving perfor- The DynaStart® starter generator is available with an internal or mance and comfort. external rotor. Permanently excited neodymium iron boron mag- Performance density Benefits ■■ Optimum performance and torque density ■■ High torque at low rpm levels: start-up, start-stop ■■ Minimum axial length, smallest installation space requirements ■■ Available with external or internal rotor 55 mm Electric active length nets are used so no electric current is needed to excite the field. The technology: This means that the power electronics can be smaller. In contrast The first mild hybrid entered series pro- to conventional electric motors, completely automatically wound duction in Europe in 2009 with a starter coils are used on specially formed laminated cores. This robust generator from ZF. With an installation design allows for cost-effective series production. Compact and powerful – only two of many features that characterize the DynaStart® electric motor from ZF. length of 65 mm and 15 kW of power, the DynaStart® electric motor is helping to re- Electric motors have been produced in Schweinfurt for standard- duce fuel consumption and CO2 emissions series applications since May of 2008 – and with every use they by up to 15%. Thanks to no additional in- make a substantial contribution to reducing emissions and con- stallation space requirements, ZF also serving resources. Rotor with permanently excited magnetic poles Stator laminated core with coils DynaStart® – Electric motor for passenger cars Engine connection Mild hybrid SG325 Technical data ■■ Permanently excited synchronous machine ■■ External operating principle, air-cooled ■■ Fixed installation on crankshaft ■■ External diameter 325 mm ■■ Motor power 12 kW (for 105 V and 6,000 rpm) ■■ Maximum cold-start torque 220 Nm (for 325 A) 10 11 DynaStart® – Economical Solution for Commercial Vehicles Connection to power electronics Stator laminated core with coils The task: The technology: Use of urban delivery vehicles, city buses, Designed as a full hybrid and embedded in transmission systems and construction machines are all domi- from ZF Friedrichshafen AG, the DynaStart® electric motor pro- nated by fuel-intensive, frequent start-up vides torque levels of up to 1,200 Nm with a maximum power of and operating procedures and short driv- 200 kW. Extensive tests ensure operational safety and suitability ing distances. This yields an enormous for daily use. This means no limits in driving performance or com- potential for saving fuel costs and the pos- fort even for purely electric operations. Despite its high level of sibility of significantly reducing exhaust power, DynaStart® is integrated into existing transmission archi- and noise emissions. In short, the ideal tecture with no additional installation space requirements. Rotor with permanently excited magnetic poles area of application for hybrid vehicles. For construction machines, driving operations represent the secondary area of application. For them, the primary benefit of driveline electrification is to support auxiliary drives or to run them entirely. DynaStart® – Electric motor for commercial vehicles Hybrid transmission systems: HyTronic for trucks (1), EcoLife for buses (2), S-Matic for agricultural machines (3), and ERGOPOWER for construction machines (4) 1 3 12 Benefits ■■ Optimum economic returns from hybridization ■■ Reduced fuel consumption, exhaust emissions, noise emissions ■■ Outstanding overall performance for delivery vehicle, city bus, and construction machine applications ■■ Greater cost effectiveness ■■ Use of proven technologies ■■ Production of sophisticated hybrid transmission systems 2 4 13 Passenger Car Product Portfolio Commercial Vehicle Product Portfolio Powertrain Technology Chassis Technology Powertrain Technology Chassis Technology Transmissions Axles Transmissions Axles Manual and automatic transmissions transmissions Dual clutch Front and rear axle systems Corner modules Chassis Components Driveline Components Gearshift systems Clutch systems flywheels Damper modules and damping systems Electronic components Torque converters Axle drives Differentials Manual and automatic transmissions Hybrid systems Front and rear axle systems Hybrid systems Dual-mass Bevel gear sets Powertrain suspension systems Stabilizers Stabilizer links Suspension joints Tie rods Control arms Wheel carriers systems Crash-absorption elements mounts Precision plastics parts Leveling Chassis Electronic Driveline Components Chassis Components Gearshift systems Damper modules and damping systems Steering systems converters Electronic components Clutch systems Dual-mass flywheels Retarder systems Differentials Axle drives Torque PTOs Bevel gear sets Powertrain suspension systems V-links Torque rods Suspension joints mounts Tie rods Stabilizers Cabin suspensions Precision plastics parts 4-point links Chassis Electronic components components Steering Systems Steering Systems Hydraulic power steering systems Mechanical, hydraulic, and electric power steering systems Steering pumps Steering columns systems Steering pumps Rear-axle steering Steering columns Steering accessories Steering accessories 8HP, 9HP, HIS, AKC, VECTOR-DRIVE, ARS, CDC, and DynaStart are registered trademarks of ZF Friedrichshafen AG. Servolectric is a registered trademark of ZF Lenksysteme GmbH. 14 15
© Copyright 2024