Chinese manufacturers are setting new standards in functional integration with 12-in-1 electric axles. Suppliers like Schaeffler and ZF are countering with modular system architectures. An overview of the trends.
The Infimotion L300 drive unit is a 3-in-1 system with a release mechanism for high integration and low weight.
(Image: Vogel Communications Group/Stefan Hafen)
Manufacturers are particularly outdoing each other in China. BYD launched the first 12-in-1 electric axle in series production in 2024. In addition to the electric motor, transmission, and control unit, it includes a DC/DC converter, an onboard charger, a distribution box, a battery management system, a vehicle control unit, two booster modules for increased voltage and current during charging, and two functions for battery temperature management. Geely has followed suit with a similar 12-in-1 electric axle with slightly different functionality.
The goal of this forced function integration is to reduce components, development and production costs, as well as the overall effort. Additionally, it aims to achieve weight and space reductions and lower energy consumption. For example, the German Tier-1 supplier Schaeffler states that its 4-in-1 electric axle can save up to 14 percent energy and 10 percent costs compared to a 3-in-1 solution, thanks to the complete integration of thermal management – with the same installation space and improved functionality. An advantage of the integrated cooling circuit is heat harvesting, the targeted collection and dissipation of heat from the drive unit and its use for purposes such as cabin climate control or battery heating.
The Modular Principle
European electric axle manufacturers like Schaeffler and ZF do not focus exclusively on maximum integration but rather on moderate integration, with an increased emphasis on an intelligent module strategy and adaptation to the Software Defined Vehicle. At the IAA 2025, ZF is presenting its new "Select" platform, which consists of separate modular systems for electric machines, power electronics, reduction gears, and software. The electric motors include both permanent magnet and externally excited synchronous machines as well as asynchronous machines. A new development is the externally excited synchronous machine I2SM, which, through an improved rotor design and space-efficient construction, is intended to offer comparable performance data to a permanent magnet synchronous machine while eliminating the need for magnets and, therefore, rare earth elements.
Stators with different outer diameters, lengths, and wire geometries allow for various performance classes. Additionally, ZF leverages its expertise in gear construction for reduction gears in both axle-parallel and coaxial configurations. This enables various axle and drive layouts, including differential functionality.
The inverter modular system provides voltage levels of 400 and 800 volts. Defined assemblies and especially power switch modules are intended to offer greater flexibility in design and sourcing strategies. ZF also relies on standardized functions and interfaces for the converters, enabling future hardware and functionality expansions. The software for the electric drivetrain is modular and, according to ZF, can be easily expanded with additional functionalities or adapted for different drivetrain layouts. According to ZF, the Select platform is designed to enable tailored electric drives – more efficient, faster, and more versatile.
Gallery
E-Axles Tailored to Customer Requirements
Schaeffler relies on a similarly modular portfolio of system components for electric axles. According to the company, adapting an existing standard 3-in-1 electric axle (e-machine plus transmission plus power electronics) can reduce development costs for a new application by up to 80 percent compared to a new development. Scalability and modularity are also responses to diverging market needs: on the one hand, highly integrated "X-in-1" electric axles, and on the other hand, standard electric axles. The former (such as BYD and Geely) impress with many functions, very high efficiency, compact packaging, but require considerable development effort. The latter are a good and cost-effective base for individual applications, such as add-on all-wheel drives.
These drives, referred to as secondary axles, have only limited operating times, which allows for simplifications. Firstly, the power electronics of the electric axle can be housed in a central drivetrain control unit. Secondly, due to the temporary operating times of the add-on electric axle, less waste heat is generated, making an air-cooled electric axle without external liquid cooling sufficient, which significantly reduces the integration effort in the vehicle.
Operating Modes: Boosting and All-Wheel Drive Passages Off-Road
The dissipation of heat from critical points is managed, for example, through an internal oil circuit, whose reservoir is designed as a high-sump and directly transfers the heat to the housing and further to the air via convection. According to Schaeffler, such an electric axle with a peak output of 80 kilowatts has already been successfully tested. The intended operating modes of the electric axle (mainly boosting during acceleration or short all-wheel-drive phases off-road) have all been thermodynamically handled without the vehicle underbody being aerodynamically optimized for this application.
Date: 08.12.2025
Naturally, we always handle your personal data responsibly. Any personal data we receive from you is processed in accordance with applicable data protection legislation. For detailed information please see our privacy policy.
Consent to the use of data for promotional purposes
I hereby consent to Vogel Communications Group GmbH & Co. KG, Max-Planck-Str. 7-9, 97082 Würzburg including any affiliated companies according to §§ 15 et seq. AktG (hereafter: Vogel Communications Group) using my e-mail address to send editorial newsletters. A list of all affiliated companies can be found here
Newsletter content may include all products and services of any companies mentioned above, including for example specialist journals and books, events and fairs as well as event-related products and services, print and digital media offers and services such as additional (editorial) newsletters, raffles, lead campaigns, market research both online and offline, specialist webportals and e-learning offers. In case my personal telephone number has also been collected, it may be used for offers of aforementioned products, for services of the companies mentioned above, and market research purposes.
Additionally, my consent also includes the processing of my email address and telephone number for data matching for marketing purposes with select advertising partners such as LinkedIn, Google, and Meta. For this, Vogel Communications Group may transmit said data in hashed form to the advertising partners who then use said data to determine whether I am also a member of the mentioned advertising partner portals. Vogel Communications Group uses this feature for the purposes of re-targeting (up-selling, cross-selling, and customer loyalty), generating so-called look-alike audiences for acquisition of new customers, and as basis for exclusion for on-going advertising campaigns. Further information can be found in section “data matching for marketing purposes”.
In case I access protected data on Internet portals of Vogel Communications Group including any affiliated companies according to §§ 15 et seq. AktG, I need to provide further data in order to register for the access to such content. In return for this free access to editorial content, my data may be used in accordance with this consent for the purposes stated here. This does not apply to data matching for marketing purposes.
Right of revocation
I understand that I can revoke my consent at will. My revocation does not change the lawfulness of data processing that was conducted based on my consent leading up to my revocation. One option to declare my revocation is to use the contact form found at https://contact.vogel.de. In case I no longer wish to receive certain newsletters, I have subscribed to, I can also click on the unsubscribe link included at the end of a newsletter. Further information regarding my right of revocation and the implementation of it as well as the consequences of my revocation can be found in the data protection declaration, section editorial newsletter.
Another market niche is emerging with the advent of zone-oriented electric architectures and Software Defined Vehicles. In these, the drive control logic could be housed outside the electric axle in one of the vehicle's central computers. The electric axle, containing the traction motor and transmission, would then only integrate the power modules of the inverter. Schaeffler sees great market potential for such 2.5-in-1 axles.
Another development trend could be the integration of mechanical auxiliary functions. Here, Schaeffler leverages its clutch expertise and has developed a "wet" brake integrated into the electric axle housing. According to Schaeffler, the test vehicle with electromechanical actuation and six discs can provide braking power of up to 400 kW at the rear axle, thereby replacing conventional wheel brakes (along with their underutilization due to regenerative braking). Additionally, the complete encapsulation prevents brake dust from escaping into the environment.
Significantly closer to series production is a decoupling unit from Schaeffler, which, starting at the end of 2026, will disengage the 3-in-1 electric axle from the wheels in a production vehicle, thereby reducing drag losses. Such freewheel solutions can generally achieve a consumption advantage of up to seven percent in the WLTC cycle compared to a permanently engaged electric axle when operating in freewheel mode about 80 percent of the time.
Another electric axle innovation from Schaeffler is also nearing series production: the rigid axle made of formed sheets, to which an electric axle is mounted as a non-load-bearing system. This design trick allows the housing of the electric drive to be constructed very thin, offering a weight advantage of up to 40 kilograms compared to a conventional rigid axle with a structurally load-bearing electric axle housing. According to Schaeffler, this solution is set to go into series production in a pickup truck by 2028.
:quality(80)/p7i.vogel.de/wcms/66/08/660805a7af69a79b12c4d76fccc5b56b/0129347606v1.jpeg "Can real-time applications for motion or robotics, for example, be operated with virtual controllers in the data center? (Image:AI-generated)")
:quality(80)/p7i.vogel.de/wcms/30/d8/30d8972f1ee47667c699644237c46bd6/0129387994v1.jpeg "This is Romeo. This vertical take-off electric aircraft with hybrid drive was developed by ERC System from Ottobrunn and recently presented in Erding. It is still a drone, but Romeo is set to achieve what Volocopter and Lilium have failed to do ... (Image:ERC system)")
:quality(80)/p7i.vogel.de/wcms/aa/1e/aa1e17bc8df164e0281d77a96b84a41d/0129392569v1.jpeg "The new Gordie Howe International Bridge between Canada and the USA has become a divisive and threatening tool by Donald Trump instead of an economic connecting element ... (Image:Burnsen)")
:quality(80)/p7i.vogel.de/wcms/da/58/da58c363e5354da35941bd4b2fe56b5b/0128273113v1.jpeg "The Hirth serration of the TTD drills from Mapal ensures a very stable fit of the drill heads. This enables optimum torque transfer as well as high changeover and concentricity accuracies. (Image:Mapal)")
:quality(80)/p7i.vogel.de/wcms/d7/d9/d7d9db10c5514e5a22af1517fd962531/0128891375v1.jpeg "The new Machinery Ordinance also includes special regulations on digitalization and cyber security. The countdown is now on for companies. (Picture: ©khunkornStudio - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/cb/9c/cb9c788f7bd82466739e63c2403a06df/0129100353v1.jpeg "A rolling mill before modernization: downtimes, CO2 emissions and energy and maintenance costs are high. (Image:Deguma)")
:quality(80)/p7i.vogel.de/wcms/cd/fe/cdfe212a3b3206e2ff09dcdf71c11240/0129219561v1.jpeg "Extended S-series: The new Cobot models from Omron lift up to 30 kilograms and are now also protected against dust and water thanks to protection class IP65. (Image:Omron)")
:quality(80)/p7i.vogel.de/wcms/c3/6d/c36d161e7709095fd1de4cb9de27d927/0129133682v1.jpeg "Nanjing is Siemens' largest research and production center for CNC systems, drives and electric motors outside Germany. (Image:Siemens)")
:quality(80)/p7i.vogel.de/wcms/f5/c6/f5c6cefa374d48138dc702821d41c7c6/greenspeed-visual-home-1500x843v1v1.jpeg "The EU Green Speed project is laying the foundations for cleaner and more competitive production of lithium-ion batteries in Europe. (Image:greenSPEED Consortium / VIRTUAL VEHICLE)")
:quality(80)/p7i.vogel.de/wcms/ba/d0/bad011e604599660b5b2cdd50eb44755/stefanie-arnold-152236-4500x2530v1v1.jpeg "Materials researcher Stefanie Arnold wants to make energy storage more environmentally friendly with the help of hollow carbon spheres. (Image:Saarland University)")
:quality(80)/p7i.vogel.de/wcms/8f/ff/8fff835b941e411b6f988a183905309a/0129302533v1.jpeg "The Chair of AI Chip Design at the Technical University of Munich (TUM) has created the EU's first AI chip using modern 7-nanometer technology. In the picture: Chair holder Prof. Hussam Amrouch. (Image:Andreas Heddergott / TU Munich)")
:quality(80)/p7i.vogel.de/wcms/39/38/393873c2ed943bb715a6419d94049b63/geralt-entrepreneur-1340649-1280-1280x720v1v1.jpeg "Visual Components presents its forecast for production simulation in 2026. (Image:Pixabay)")
:quality(80)/p7i.vogel.de/wcms/89/e2/89e2226e826f23fb666222b66c737531/0129393966v1.jpeg "Chinese car manufacturers and suppliers want to produce small batches of brake-by-wire systems this year. (Image:Chery)")
:quality(80)/p7i.vogel.de/wcms/3b/2e/3b2efe1abd7a263adf9ef3a9b20d0392/0129406745v1.jpeg "A rectangular steering wheel? Yes, Peugeot is serious about this concept. But there is a lot of technology behind it. (Image:Peugeot)")
:quality(80)/p7i.vogel.de/wcms/21/8e/218e304ba65372854479aa52b4ccdbe5/0129271089v1.jpeg "Suppliers from Europe are currently facing a variety of challenges. Pictured: The Aumovio headquarters in Frankfurt am Main. (Image:Aumovio)")
:quality(80)/p7i.vogel.de/wcms/d2/40/d240b49c8edba464bf610f0e0b3628f0/p90629460-lowres-2250x1265v1.jpeg "(Source: BMW Group)")
:quality(80)/p7i.vogel.de/wcms/ec/69/ec69eeae41109e5e9849e397685b26e1/0129310204v1.jpeg "The surroundings in view at all times: Thanks to the very thin heating element, which is integrated directly into the internal lens design, this is possible. The advantages are the smaller space requirement with higher efficiency. (Image:VIA optronics)")
:quality(80)/p7i.vogel.de/wcms/5d/d4/5dd4c8a38ecab28d7588490fa32c3a38/0129334467v1.jpeg "This is what the factory in Wałbrzych, Poland, will look like. (Image:Sungrow Power Supply Co., Ltd.)")
:quality(80)/p7i.vogel.de/wcms/b6/01/b601f938f679791e60f3bba8d141968b/0129336204v1.jpeg "Biocomputing in medical electronics: the CL1 platform uses living neurons instead of silicon chips. Complex tasks can be learned in minutes. (Image:Reply)")
:quality(80)/p7i.vogel.de/wcms/5b/38/5b385ec75bff6e84b70a02c0c939dd2b/0129331527v1.jpeg "The TSMC site of Japan Advanced Semiconductor Manufacturing in Kumamoto, Japan. While the second fab currently under construction was initially only intended for the production of semiconductors using the N6 process, the contract manufacturer is currently negotiating with the Japanese government to possibly upgrade the site to N3 after all. (Image:JASM)")
:fill(fff,0)/images.vogel.de/vogelonline/companyimg/76800/76895/65.jpg "FAULHABER_120mm.jpg ()")
:fill(fff,0)/p7i.vogel.de/companies/67/eb/67eba621ef6ea/logo2.png "logo2 (Wuxi InfiMotion)"){kind=logo}
:quality(80)/p7i.vogel.de/wcms/54/11/5411a25c25de331fd4e504327583efff/0127702531v1.jpeg "Under the hood of the cross-coupe is a twin-rotor rotary engine with turbocharging. (Image:Michael Specht/SP-X)")
:quality(80)/p7i.vogel.de/wcms/68/36/6836ae3fe9bbedbeab4abc43d00ac9e8/0127743472v1.jpeg "More integration, efficiency, and range: E-axles still have significant optimization potential.(Image: Schaeffler)")
:quality(80)/p7i.vogel.de/wcms/af/1b/af1b853a648262cd8f366a30f79dd532/0127743476v1.jpeg "The externally excited synchronous machine I2SM from ZF is designed to offer comparable performance data to a permanently excited synchronous machine while eliminating the need for rare earths.(Image: ZF)")
:quality(80)/p7i.vogel.de/wcms/c6/7c/c67cc8f3ab80147ed8aa59d1b98802f7/bmw-1490x838v1.png "The sixth generation of the BMW drive system also does not require magnets or rare earth elements. (Image: BMW)")
:quality(80)/p7i.vogel.de/wcms/97/6b/976b8b47233ce9ba3ac56dca6ac6b3a9/0127259658v1.jpeg "The technologies in the Ferrari Elettrica. (Image:Ferrari)")
:quality(80)/p7i.vogel.de/wcms/58/63/5863c101435cf9c29ff718bf9bfd54a4/0128878544v1.jpeg "In all fully electric models of the BMW M Neue Klasse, two electric drive units on the front and rear axles, each with one electric motor per wheel, ensure typical BMW M driving performance. (Image: BMW AG)")