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Logistics and transportation industry: Bosch launches service platform in Europe ...

06.12.2023

Press release

Connected mobility

Logistics and transportation industry: Bosch launches service platform in Europe ...

Stuttgart, Germany – Bosch’s digital logistics platform L.OS, targeted for simplifying IT processes in the transport and logistics industry, is celebrating a successful market launch. In Europe, India, and the U.S., the Bosch offering has already won 50 customers. 20 logistics companies each from Germany and India and ten from the U.S. are among the first L.OS customers. In addition, the integration of more than 50 service providers into the digital marketplace is already underway. Last year, Bosch announced a s trategic collaboration with the U.S. cloud provider Amazon Web Services (AWS) to digitalize logistics . The transportation and logistics industry is the backbone of the global economy. Bosch sees great market opportunities for its logistics services driving efficiency improvement. The technology company aims to generate global sales of some 500 million euros with logistics services by 2030, and has set up a separate unit with more than 400 associates for its digital platforms business. With L.OS, Bosch has ushered in the digital age for freight carriers, fleet owners and logistics service providers. Our logistics platform offers a complete ecosystem and software environment for using and combining services from different providers. For Bosch, the transportation and logistics industry is strategically important...says Dr. Markus Heyn, member of the Bosch board of management and chairman of the Mobility business sector. Open platform for providers of logistics solutions Using the digital L.OS platform, logistics and transportation companies across the globe will have quick and easy access to IT services, and thus be able to operate more efficiently and sustainably. The distinctive feature of L.OS is that it is open to all providers of logistics solutions and facilitates the smooth interplay of disparate services and data. For freight carriers and freight companies, this presents a chance to reap far greater benefit from the opportunities of digitalization for themselves in accordance with their individual needs or requirements in the respective country without having to set up resource- and cost-intensive IT projects of their own. In India, for example, Bosch’s proprietary “TrakZeus” positioning solution for efficient fleet and transportation management as well as route and parking planning has been available on L.OS from the start. The “Digital CN” solution allows transport documents such as e-way bills to be digitized quickly and easily, so that they can be transmitted securely via cell phone. In Europe, L.OS has been launched with a first service integration enabling secure truck parking booking as an extra feature for existing transportation management systems, while in the U.S., a dedicated transportation management system simplifies and manages operations for fleets. New Bosch operating unit to build digital platforms In July 2023, Bosch established its new, transnational “Mobility Platform and Services” operating unit to build digital platforms. More than 400 associates in Europe, India, and the U.S. are responsible for the further development and support of Bosch digital platforms. This currently includes for example “Mobility Marketplace”, a neutral digital ecommerce marketplace as well as “ParkZeus”, an integrated parking platform, and the “Logistics Operating System” L.OS. “The establishment of a dedicated unit underscores the great importance Bosch attaches to the digitalization of mobility empowered by cloud-based platforms. We want to enable companies to come together to co-create, innovate and solve complex problems of mobility through our platforms. Together, we’re driving the vision of sustainable and safe mobility enabled by digital platforms and the inclusivity it brings with it.,” says Sandeep Nelamangala, the executive director responsible for the digital platforms business at Bosch.

TSMC, Bosch, Infineon, and NXP Establish Joint Venture to Bring Advanced Semicon ...

08.08.2023

Press release

Connected mobility

TSMC, Bosch, Infineon, and NXP Establish Joint Venture to Bring Advanced Semicon ...

Hsinchu, Stuttgart, Munich, Eindhoven, Aug 8, 2023 – TSMC (TWSE: 2330, NYSE: TSM), Robert Bosch GmbH, Infineon Technologies AG (FSE: IFX / OTCQX: IFNNY), and NXP Semiconductors N.V. (NASDAQ: NXPI) today announced a plan to jointly invest in European Semiconductor Manufacturing Company (ESMC) GmbH, in Dresden, Germany to provide advanced semiconductor manufacturing services. ESMC marks a significant step towards construction of a 300 mm fab to support the future capacity needs of the fast-growing automotive and industrial sectors, with the final investment decision pending confirmation of the level of public funding for this project. The project is planned under the framework of the European Chips Act. The planned fab is expected to have a monthly production capacity of 40,000 300 mm (12-inch) wafers on TSMC’s 28/22 nanometer planar CMOS and 16/12 nanometer FinFET process technology, further strengthening Europe’s semiconductor manufacturing ecosystem with advanced FinFET transistor technology and creating about 2,000 direct high-tech professional jobs. ESMC aims to begin construction of the fab in the second half of 2024 with production targeted to begin by the end of 2027. The planned joint venture will be 70 percent owned by TSMC, with Bosch, Infineon, and NXP each holding 10 percent equity stake, subject to regulatory approvals and other conditions. Total investments are expected to exceed 10 billion euros consisting of equity injection, debt borrowing, and strong support from the European Union and German government. The fab will be operated by TSMC. “This investment in Dresden demonstrates TSMC’s commitment to serving our customers’ strategic capacity and technology needs, and we are excited at this opportunity to deepen our long-standing partnership with Bosch, Infineon, and NXP,” said Dr. CC Wei, Chief Executive Officer of TSMC. “Europe is a highly promising place for semiconductor innovation, particularly in the automotive and industrial fields, and we look forward to bringing those innovations to life on our advanced silicon technology with the talent in Europe.” Dr. Stefan Hartung, chairman of the Bosch board of management: “Semiconductors are not only a crucial success factor for Bosch. Their reliable availability is also of great importance for the success of the global automotive industry. Apart from continuously expanding our own manufacturing facilities, we further secure our supply chains as an automotive supplier through close cooperation with our partners. With TSMC, we are pleased to gain a global innovation leader to strengthen the semiconductor ecosystem in the direct vicinity of our semiconductor plant in Dresden.” Semiconductors are not only a crucial success factor for Bosch. Their reliable availability is also of great importance for the success of the global automotive industry. Apart from continuously expanding our own manufacturing facilities, we further secure our supply chains as an automotive supplier through close cooperation with our partners. With TSMC, we are pleased to gain a global innovation leader to strengthen the semiconductor ecosystem in the direct vicinity of our semiconductor plant in Dresden....said Dr. Stefan Hartung, chairman of the Bosch board of management “Our joint investment is an important milestone to bolster the European semiconductor ecosystem. With this, Dresden is strengthening its position as one of the world’s most important semiconductor hubs that is already home to Infineon’s largest frontend site,” said Jochen Hanebeck, CEO of Infineon Technologies. “Infineon will use the new capacity to serve the growing demand particularly of its European customers, especially in automotive and IoT. The advanced capabilities will provide a basis for developing innovative technologies, products and solutions to address the global challenges of decarbonization and digitalisation.” “NXP is very committed to strengthening innovation and supply chain resilience in Europe,” said Kurt Sievers, President and CEO of NXP Semiconductors. “We thank the European Union, Germany, and the Free State of Saxony for their recognition of the semiconductor industry’s critical role and for their true commitment to boost Europe’s chip ecosystem. The construction of this new and significant semiconductor foundry will add much needed innovation and capacity for the range of silicon required to supply the sharply increasing digitalization and electrification of the automotive and industrial sectors.”About Infineon Infineon Technologies AG is a global semiconductor leader in power systems and IoT. Infineon drives decarbonization and digitalization with its products and solutions. The company has around 56,200 employees worldwide and generated revenue of about €14.2 billion in the 2022 fiscal year (ending 30 September). Infineon is listed on the Frankfurt Stock Exchange (ticker symbol: IFX) and in the USA on the over-the-counter market OTCQX International over-the-counter market (ticker symbol: IFNNY). Further information is available at www.infineon.com . Follow us: Twitter – Facebook – LinkedIn About NXP Semiconductors NXP Semiconductors N.V. (NASDAQ: NXPI) brings together bright minds to create breakthrough technologies that make the connected world better, safer and more secure. As a world leader in secure connectivity solutions for embedded applications, NXP is pushing boundaries in the automotive, industrial & IoT, mobile, and communication infrastructure markets while delivering solutions that advance a more sustainable future. Built on more than 60 years of combined experience and expertise, the company has approximately 34,500 team members in more than 30 countries and posted revenue of $13.21 billion in 2022. Find out more at www.nxp.com . About TSMC TSMC pioneered the pure-play foundry business model when it was founded in 1987, and has been the world’s leading dedicated semiconductor foundry ever since. The Company supports a thriving ecosystem of global customers and partners with the industry’s leading process technologies and portfolio of design enablement solutions to unleash innovation for the global semiconductor industry. With global operations spanning Asia, Europe, and North America, TSMC serves as a committed corporate citizen around the world. TSMC deployed 288 distinct process technologies, and manufactured 12,698 products for 532 customers in 2022 by providing broadest range of advanced, specialty and advanced packaging technology services. The Company is headquartered in Hsinchu, Taiwan. For more information please visit https://www.tsmc.com .

Bosch drives forward the development of 6G

27.02.2023

Press release

Connected mobility

Bosch drives forward the development of 6G

Stuttgart, Germany – Worldwide, research and development work on the future 6G mobile communications standard is picking up pace. Companies and states are investing massively in this technology. Bosch is leading the way and is actively involved in projects, alliances, and initiatives at both the national and international level to lay important foundations for 6G technology. “6G will be much more than just an infrastructure for connectivity; it will greatly increase the efficiency of autonomous driving cars, smart cities, and connected industries. That’s why 6G is a strategically important field of technology,” says Dr. Andreas Müller, who bundles and manages 6G activities at Bosch. The company currently has some 40 associates working on 6G technology. Over the next two years, that number is likely to double,” Müller says. Bosch is currently investing several millions of euros in research and development for 6G. 6G will be much more than just an infrastructure for connectivity; it will greatly increase the efficiency of autonomous driving cars, smart cities, and connected industries. That’s why 6G is a strategically important field of technology...says Dr. Andreas Müller, who bundles and manages 6G activities at Bosch. Bosch and Nokia expand their research alliance to include 6G At the Mobile World Congress 2023 in Barcelona, Bosch and Nokia have now announced that they will expand the alliance they entered into in 2017 to develop industrial IoT solutions in the area of 5G so that it also addresses the new 6G technology. The two companies are conducting joint research on the next generation of networks and investigating how to use future 6G networks for both communications and sensors. Comprehensive Bosch commitment at national and international level Bosch is currently contributing its expertise and experience to five publicly funded projects. In this context, the 6G-ICAS4Mobility , KOMSENS-6G , and 6G-BRAINS projects focus primarily on integrating communication and sensor-based environment recognition. Bosch leads the consortium for the first project . In addition to addressing relevant scenarios for road traffic, insights gained from the project will serve, in particular, as technical foundations for applications in the connected drones domain as well as in Industry 4.0 (e.g. for driverless transport systems). Meanwhile, the 6G-ANNA and 6G-SHINE projects focus on new connectivity structures. These are intended to enhance the efficiency of future E/E architectures in vehicles or robot cells. Bosch is also taking an active and leading role in early discussions and activities relating to future mobile communications standards within various industry alliances. In the 5G Automotive Association (5GAA) , for instance, leading companies from the automotive and telecommunications industries are working together to develop solutions for the mobility of the future. The 5G Alliance for Connected Industries and Automation (5GACIA) brings together industrial companies to focus on connectivity for machinery and equipment. Networks with a sixth sense through integration of sensor technology Among other things, the next generation of mobile communications will integrate new functionalities similar to radar sensors. With 6G, it will be possible to detect the position of objects in the network’s coverage area – without these objects having to be equipped with a radio module. 6G will enable extremely high data rates of up to one terabit per second, with very low latency in the order of some 100 microseconds – which is four times faster than a lightning strike. With the help of digital twins, this will for instance make it possible to monitor and simulate real-world manufacturing processes in a virtual world with no temporal and spatial restrictions. Experts predict that the first 6G standard will be completed by 2028. In recent months, Germany and Europe have launched a large number of 6G projects with the goal of strengthening their technological sovereignty. The German government, through the Federal Ministry of Education and Research (BMBF), is providing some 700 million euros over the next three years to fund 6G activities. In addition, the EU budget has earmarked a further almost 900 million euros until 2027. Japan and the United States have also launched corresponding investment programs totaling around 4.5 billion dollars.

GAIA-X 4 moveID project develops basis for secure mobile data exchange

08.09.2022

Press release

Business/economy

GAIA-X 4 moveID project develops basis for secure mobile data exchange

Stuttgart, Germany – Which parking garages currently have vacant charge spots available? Where are free parking spaces in the city center? And how can this information be digitally transmitted, and services billed, across providers? The answer to these and similar questions calls for secure data exchange between the vehicles and their environment. It is precisely this foundation that a research project consisting of universities, automotive suppliers, and system providers is now in the process of building, with Bosch leading the consortium. Over the next three years, the GAIA-X 4 moveID project is set to develop the necessary standards and technological concepts to enable the secure exchange of information between providers of mobility applications and their customers. The goal is to create decentralized digital vehicle identities. This is an important prerequisite for the mass use of electric vehicles, automated driving, and the establishment of connected cities. GAIA-X 4 moveID is supported to the tune of 14 million euros by the German Federal Ministry for Economic Affairs and Climate Action – covering half of the project costs.Connectivity for digital services across the board “An integrated and transparent system architecture for the exchange of data on the road that incorporates different products and players simply isn’t available today. While it’s true that some companies out there already offer services, those services are tailored for specific applications, vehicles, or customer groups,” explains Peter Busch, project manager at the consortium leader Bosch. They often map the infrastructure, for example, but they rarely provide information about availability due to a lack of connectivity between the many independently operating service providers. “Open standards are needed so that users, for example, can find all available charging stations or pay for charging processes,” Busch says. It’s important to always ensure that the data is processed securely and that individual providers don’t exploit it solely for their own purposes. For Busch, this is the only way that the necessary user confidence can grow and a broad range of all available services, such as so-called deep parking (use of otherwise unavailable parking spaces), can be created. That is why the consortium is building on the European GAIA-X system, which defines the technological, economic, and legal framework for a secure and trustworthy data infrastructure. GAIA-X relies on decentralization and the interplay of different cloud providers under common guidelines. In this spirit, the GAIA-X 4 moveID project is using open source software for its developments and making them available to all providers for various business models. Vehicles are becoming marketplaces The standards that GAIA-X 4 moveID is pursuing will allow vehicles to securely and independently exchange information with other vehicles and their environment without an “intermediary.” The vehicles’ “infrastructure partners” include charge spots, barriers, traffic lights, and parking lots. The research project will use internationally recognized hardware and software to develop management and administrative services to facilitate the interaction and trade between different players. This will enable providers to connect a great many services, such as news, entertainment, and navigation, with the car’s system, especially in automated driving. The market for services related to connected parking alone is estimated to be worth ten billion euros annually worldwide. What’s more, the ability to navigate directly to a vacant parking space significantly reduces congestion and emissions. After all, today, about a third of downtown urban traffic is people looking for parking spaces. The availability of information is also a crucial factor for the success of electromobility. It is estimated that about half of newly registered cars in Europe will be electric by 2030. “Their drivers need to know that they’ll be able to find a charge spot quickly whenever they need one. And that requires connected systems,” Busch says. Extensive data exchange as a basis for automated driving The mass use of automated vehicles is conceivable only if cars are able to quickly and reliably communicate with their environment. The data exchange this requires will enable climate-friendly traffic control based on the volume of traffic at any given moment. This will allow cities to regulate incoming traffic to particular areas in real time, thus preventing congestion. However, this method, known as zoning, requires that vehicles be able to immediately recognize changing conditions and to reroute accordingly. Zoning is being demonstrated with test vehicles – for the first time across borders – in the Germany-France-Luxembourg (Merzig/Saarbrücken) test area as part of the GAIA-X 4 moveID project. The cars receive dynamic information regarding their approach to defined zones.The project partners: Robert Bosch GmbH Materna Information & Communications SE Denso Automotive Deutschland GmbH Continental Automotive Technlogies GmbH WOBCOM GmbH ecsec GmbH HTW Saar (University of Applied Sciences) Atos Information Technology GmbH Chainstep GmbH Peaq Technology GmbH Zeppelin Universität gGmbH (Zeppelin University) Datarella GmbH 51nodes GmbH Bigchain DB GmbH Fetch.ai Research & Development GmbH ITK Engineering GmbH Deutsche Zentrum für Luft- und Raumfahrt e.V. (German Aerospace Center) Airbus Defence and Space GmbH Delta Dao AG

Bosch to invest more than 400 million euros in its semiconductor fabs in 2022

29.10.2021

Press release

Connected mobility

Bosch to invest more than 400 million euros in its semiconductor fabs in 2022

Stuttgart, Germany – In the face of the global chip shortage, Bosch is increasing its capital expenditure. Just a few weeks after opening its new wafer fab in Dresden, the supplier of technology and services has now announced another nine-figure investment in its chip manufacturing facilities. In 2022 alone, Bosch plans to invest more than 400 million euros in expanding its wafer fabs in Dresden and Reutlingen, Germany, and its semiconductor operations in Penang, Malaysia. “Demand for chips is continuing to grow at breakneck speed. In light of current developments, we are systematically expanding our semiconductor production so we can provide our customers with the best possible support,” says Dr. Volkmar Denner, chairman of the board of management of Robert Bosch GmbH. Most of the capital expenditure is earmarked for Bosch’s new 300-millimeter wafer fab in Dresden, where manufacturing capacity is to be expanded even faster in 2022. Around 50 million euros of the planned sum will be spent on the wafer fab in Reutlingen near Stuttgart in the coming year. Bosch will invest a total of 150 million euros in additional clean-room space here from 2021 to 2023. In Penang, Malaysia, Bosch is also building a test center for semiconductors from scratch. Starting in 2023, the center will test finished semiconductor chips and sensors. “These planned investments demonstrate once again the strategic importance of having our own manufacturing capacity for the core technology of semiconductors,” Denner says. Demand for chips is continuing to grow at breakneck speed. In light of current developments, we are systematically expanding our semiconductor production so we can provide our customers with the best possible support,...says Dr. Volkmar Denner, chairman of the board of management of Robert Bosch GmbH. Faster ramp-up in Dresden, new clean rooms in Reutlingen “Our aim is to ramp up production of chips in Dresden earlier than planned and at the same time expand clean-room capacity in Reutlingen. Every additional chip we produce will help in the current situation,” says Harald Kroeger, member of the board of management of Robert Bosch GmbH. In two stages, a total of more than 4,000 square meters will be added to the current 35,000 square meters of clean-room space in Reutlingen. The first stage, adding 1,000 square meters of production area for 200-millimeter wafers to bring the total to 11,500 square meters, has already been completed. This involved converting office space into a clean room over recent months and connecting it to the existing wafer fab via a bridge. The new facility has been producing wafers since September. “We’ve already expanded our manufacturing capacity for 200-millimeter wafers by some 10 percent,” Kroeger says. The capital outlay for this came to 50 million euros (in 2021). In making this move, the company is responding in particular to increased demand for MEMS sensors and silicon carbide power semiconductors. The second stage of the expansion will create a further 3,000 square meters of clean-room space by the end of 2023. To this end, the company will invest some 50 million euros in both 2022 and 2023. Bosch is also creating 150 new jobs in semiconductor development at its Reutlingen location. New test center in Penang Another portion of the capital expenditure planned for 2022 will go into a new semiconductor test center in Penang. This highly automated and connected factory is set to perform testing of semiconductor chips and sensors starting in 2023. In total, Bosch has more than 100,000 square meters of land available on Penang’s mainland strip, which will be developed in stages. Initially, the test center will cover an area of around 14,000 square meters – including clean rooms, office space, research and development, and training facilities for up to 400 associates. Earthworks for the new location started at the end of 2020, and work on the buildings began in May 2021. The test center is scheduled to start operations in 2023. The additional testing capacity in Penang is intended to open up the possibility of locating new technologies in Bosch’s wafer fabs in the future, such as silicon carbide semiconductors in Reutlingen. In addition, the new location in Asia will shorten delivery times and distances for the chips. Bosch can draw on its specific semiconductor and automotive expertise to develop superior electronic systems. This benefits our customers and the countless people who want to continue to enjoy safe and efficient mobility in the future,...says Harald Kroeger, member of the board of management of Robert Bosch GmbH. Semiconductors as a unique selling proposition Microelectronics is a key factor in the success of all Bosch’s business areas. Having recognized the potential of this technology early on, the company has been producing semiconductor components for more than 60 years. This makes Bosch one of the few companies that has a deep understanding of microelectronics as well as expertise in electronics and software. Bosch can combine this decisive competitive advantage with its strength in semiconductor manufacturing. The technology and services company has been producing semiconductor components in Reutlingen since 1970. They are used in both consumer electronics and automotive applications. Modern electronics in cars is the basis for reducing traffic emissions, preventing road accidents, and increasing powertrain efficiency. “Bosch can draw on its specific semiconductor and automotive expertise to develop superior electronic systems. This benefits our customers and the countless people who want to continue to enjoy safe and efficient mobility in the future,” Kroeger says. Production in the 300-millimeter wafer fab in Dresden started in July of this year – six months earlier than planned. The chips made in the new plant are initially being installed in Bosch power tools. For automotive customers, chip production started in September, three months earlier than planned. Since 200-millimeter technology was introduced in 2010, Bosch has invested more than 2.5 billion euros in its wafer fabs in Reutlingen and Dresden alone. On top of this, billions of euros have been invested in developing microelectronics.

Bosch at the IAA Mobility: Safe, emissions-free, and exciting mobility – now and ...

10.08.2021

Press release

Connected mobility

Bosch at the IAA Mobility: Safe, emissions-free, and exciting mobility – now and ...

Munich, Germany – Cars, e-bikes, motorcycles, scooters, electric race cars: Bosch is rolling out mobility solutions for all types of vehicles, and is even making smartphones and people’s homes an integral part of mobility. At IAA Mobility 2021 in Munich, the supplier of technology and services will be showcasing its solutions for personalized, automated, connected, and electrified mobility. Bosch will be in exhibition hall B3 at booth C30 and in the bike area, in the Messe West parking garage, and downtown at Königsplatz and Odeonsplatz.At the trade fair and downtown – get in, get on, try it out Bosch show car: In the future, more and more vehicles will be electrically powered. They will increasingly be connected with other road users and their surroundings, assume more and more of the driving task themselves, and provide personalized services for their occupants. Bosch technology for automated, electrified, personalized, and connected mobility is paving the way for this future vision of mobility. The company has the systems know-how and comprehensive software and hardware expertise that this requires. For example, Bosch is developing central computers for the electronics architecture of the future. These vehicle computers are used for assisted and automated driving, controlling vehicle motion, as well as for cockpit functions and body electronics. (Trade fair: Hall B3, booth C30) Driverless parking: Bosch and nine project partners will present the future of parking in a live demonstration. In the automated valet parking system developed jointly by Bosch and Mercedes-Benz, a smartphone command directs cars automatically to their assigned parking bays without the need for driver supervision. Interplay between the intelligent parking garage infrastructure and the vehicle technology makes this possible. Sensors in the parking garage monitor the driving aisle and its surroundings while guiding the vehicle. The in-car technology converts the commands from the infrastructure into safe driving maneuvers. A joint project with the association of the German automotive industry (VDA) shows how vehicles from different manufacturers will be able to communicate with infrastructure technology from various suppliers in the future. Against this backdrop, the project partners are also working on an international standard (ISO 23374). (Live demonstrations several times a day in the Messe West parking garage) An enhanced cycling experience: E-bikes are the best-selling electric vehicle in Europe. Riding an electrically assisted bike is good for people’s health and the environment – as well as a lot of fun. Connected products and services enhance the cycling experience and connect e-bikers with the digital world. Bosch will be showcasing new connected-biking solutions and allowing visitors to see for themselves just how much fun power-assisted cycling can be. (Trade fair: Hall B3, booth C30; bike area B5, Blue Lane Micromobility: Brienner Straße; open space: Königsplatz and Odeonsplatz) Bosch is electrifying mobility and helping mitigate global warming Bosch wants to be a key player in climate-neutral mobility. The company has set itself the goal of making all vehicle classes ready for upcoming emissions requirements. As an innovation leader, Bosch has a broader electric driving portfolio than any other company – from e-bikes to passenger cars to heavy trucks. Battery-electric power for two- and four-wheeled vehicles: From powertrains to steering systems to brakes, Bosch’s portfolio includes all the building blocks for the electrification of passenger cars. One component is the e-axle , which combines the power electronics, electric motor, and transmission in a single unit. And with its pre-integrated system solutions for vehicle platforms, Bosch helps automakers bring electric vehicles to market faster than before. The key is the optimized interaction of the powertrain, steering, braking, and vehicle control in the advanced driving module , which is combined with partner solutions to form a complete axle module for the front and rear axles. Alongside efficient powertrains, Bosch also uses thermal management to increase the range of electric and hybrid vehicles. Precise control of currents of hot and cold air improves the efficiency of the battery and ensures that all components are working within their optimum temperature range. Bosch also offers drives and control units for electric two-wheelers . Integrated in a compact system, the two components ensure precise control of the motor, reliable riding performance, and optimum torque development. Fuel-cell system: Mobile fuel cells offer long ranges and short refueling times. Where they really come into their own is on long-haul routes and in commercial vehicles. With green hydrogen, fuel cells enable vehicles to be operated CO 2 -free. Bosch develops all the key system components to production readiness – including complete systems. For the stack, which converts hydrogen and ambient oxygen into electrical energy, the company is working with the Swedish specialist Powercell. Large-scale manufacturing of the stack is set to begin in 2022, and the launch of the complete fuel-cell system – the Bosch fuel-cell power module – is scheduled for 2023. Services for electromobility: Bosch’s Battery in the Cloud prolongs the life of electric car batteries. Smart software functions in the cloud continually analyze battery status and take appropriate action to prevent or slow cell aging. The tamper-proof “usage certificate” documents the condition of the battery throughout its entire service life, thus giving a better picture of the battery’s residual value if the car is sold. With charging services such as Convenience Charging , Bosch makes it easy and straightforward for drivers of electric cars to find – and pay at – publicly accessible charging stations. In addition, the integrated recharging and navigation solution allows for a precise range forecast and route planning that includes recharging stops – and comes with the option to set personal preferences, such as charging stations next to restaurants. New charging cable: At the IAA Mobility, Bosch is presenting a flexible charging cable with integrated control and safety technology for the first time. It also does without the usual in-cable control box when charging at a 230-volt power socket. This means, the flexible smart charging cable weighs less than three kilograms. On average, this is a good 40 percent less than conventional charging cables with a control box. Because it comes with adapters for Type 2 and household plugs, drivers who want to be free to choose whether to recharge from a power socket at home or from a charging station on the road no longer need a second cable. High-speed electromobility: For everyday life and for the racetrack – Bosch is committed to becoming the leading supplier of electrified powertrain solutions, both in electromobility for production vehicles and in electrified motorsports. The company has entered into a long-term technology and development partnership with the DRAGON/PENSKE AUTOSPORT Formula E Team. And those who want to experience driving the racing series courses virtually and compete with others for the best time can do just that in two simulators. (Open space: Königsplatz) Using electricity intelligently: Bosch’s intelligent energy manager makes it possible for homeowners to reduce CO 2 emissions and save energy costs. Serving as an interface between a Bosch heat pump and a photovoltaic system, it optimizes the use of home-generated solar energy and distributes it intelligently throughout the building. Alongside heating and hot water, it will also be possible to integrate electric cars into the Bosch energy management system in the future. Compatible wallboxes can then be deployed to recharge vehicles using as much home-generated electricity as possible. Bosch is automating driving and making roads safer Less stress, smoother traffic flows, greater safety – vehicles that assume more driving tasks themselves are a key building block for tomorrow’s mobility. An automated vehicle must be able to do everything a human driver can: perceive its surroundings, make decisions, and accelerate, brake, and steer. Step by step, Bosch is laying the technical foundations for automated driving. With its driver assistance systems, it is already paving the way for all levels of automation. Surround sensing for all traffic situations: Sensor technology forms the basis for assisted and increasingly automated driving. To drive safely, the vehicle must be able to reliably recognize objects, people, and other road users. Bosch’s multi-purpose camera combines traditional image-processing algorithms with artificial intelligence (AI) methods. Using AI, the camera understands and interprets what it sees, ensuring reliable object recognition and good surround sensing. In addition to camera, radar, and ultrasonic sensors, Bosch is also developing a long-range lidar, for which it employs various sensor principles. The more complex the driving task, the more important their interaction. Localization technology for exact positioning: Automated vehicles need to know exactly where they are at all times. Bosch offers a comprehensive package of hardware, software, and services that allows automated vehicles to precisely determine their own location. The VMPS (vehicle motion and position sensor) uses satellite navigation signals to identify the exact position, augmented by data from a correction service and information from the steering-angle and wheel-speed sensors. The Bosch road signature cloud-based map service uses data from radar and video sensors as well as vehicle motion data to create additional layers for high-resolution maps. Volkswagen Golf 8 vehicles are currently collecting this information on Europe’s roads. Redundant braking and steering systems for safe and energy-saving driving maneuvers: Better safe than sorry – this holds especially true for safety-relevant functions in automated driving. Thanks to multiple redundancy, Bosch’s electric steering system offers additional safety. In the rare event of a malfunction, the system is still capable of retaining 50 percent of its electric steering functionality. Bosch has also integrated a redundant architecture into the design of its braking systems : should either the iBooster (the electromechanical brake booster) or the ESP electronic stability program fail, the other component can brake the vehicle. A second braking unit serves as a backup for the integrated power brake system, which combines brake boosting technology and ESP functionality. This is an especially important requirement in automated vehicles. In addition, Bosch’s regenerative braking systems help save CO 2 : in a very smooth process, which is unnoticeable for the driver, they make it possible to switch between generator and friction braking, thus enabling braking energy to be converted back into electrical energy and fed back into the battery every time the vehicle is braked. Services for automated driving: Bosch’s predictive road-condition services raise the alert in the event of potential hazards long before critical situations develop. They provide real-time information about road conditions and risks such as aquaplaning, ice, and snow. This enables automated vehicles to correctly anticipate road conditions, adapt their driving behavior to the conditions, choose a different route, or even ask the driver to take control. Bosch connects vehicles with each other and with their surroundings: Vehicles that warn each other of danger, keep a protective eye on their occupants, and communicate with the smart home – Bosch connects systems, components, and services inside and outside the vehicle, making mobility more efficient, safer, and more relaxed. Users, vehicles, and surroundings are seamlessly connected, making driving more enjoyable and providing a personalized mobility experience. Smart car meets smart home: Bosch is turning cars into the command centers for smart homes: using Mercedes-Benz’s MBUX infotainment system, Bosch Smart Home applications can be controlled by voice command from the vehicle. In addition to shutters and heating thermostats, the system can also be used to control light switches and smart adapters, and to check the status of motion detectors and door/window contacts. Using voice commands allows the driver to stay focused on the road. Guardian angel for all areas of life: In the shape of Help Connect , Bosch has developed a digitally connected emergency call system for motorcycles and other vehicles. A smart crash algorithm added to the acceleration sensors in the Bosch MSC motorcycle stability control system allows accidents to be detected. A smartphone app transmits information about the accident scene and the rider to a service center, and from there to the emergency services. If the motorcycle has no permanently installed accident detection system, the sensor data from the smartphone can be used to initiate the emergency response. Bosch Help Connect can also provide assistance at home, in the gym, or when out cycling. Indoor monitoring for better occupant protection: Bosch has developed a system comprising cameras and AI that can increase the safety of vehicle occupants. The interior monitoring system detects driver drowsiness and distraction, or if occupants are in an unsafe seating position. It warns inattentive drivers, recommends a break if they are getting tired, and can reduce vehicle speed – depending on the automaker’s wishes and legal requirements. The system also enhances convenience by automatically adjusting the seat, mirrors, and steering wheel height in line with individual preferences – as well as enabling gesture control of the infotainment system. Wrong-way driver alert: Bosch’s cloud-based wrong-way driver warning system warns both the wrong-way driver and all road users at risk of the impending danger within seconds – much faster than traffic news on the radio. In early 2021, ŠKODA became the first automaker worldwide to opt for Bosch’s digital guardian angel. The lifesaving warning is flashed up directly on the display in the vehicle cockpit. As an app solution for smartphones, this service already has 2.5 million active users in 20 European countries. Smartphones as car keys: With Perfectly Keyless , sensors in the car recognize the owner’s smartphone as securely as a fingerprint and open the vehicle only at their request. The cell phone thus displaces the conventional car key. Thanks to ultra-wideband technology, the system also offers other practical everyday advantages: it is even easier to maneuver the car into tight parking spaces by remote control or to open the trunk remotely so that package handlers can deposit deliveries in it. For large parking lots where it is difficult to locate vehicles, Perfectly Keyless helps find the way to the car and illuminates the path by switching on the headlights, providing extra safety in the dark.