Bosch puts diesel scandal behind, pivots to electric—and fuel cells?

Volkswagen TDI 'clean diesel' television ad screencapRegulators, carmakers, and everyone still reeling from the ramifications of the Volkswagen diesel scandal have to face the future—and that means, for some of the companies involved, putting the scandal behind them and moving on with a variety platter of new technologies. Last week, the German supplier Robert Bosch confirmed a settlement with...

Bosch creates off-the-shelf 48-volt battery for mild-hybrid systems

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Bosch to pay VW diesel owners $330 million in emission scandal too

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Volkswagen fights demands for Dieselgate documents, Bosch joins too

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Volkswagen fights demands for Dieselgate documents, Bosch joins too

2015 Volkswagen Golf TDIMore than a year after its use of illegal "defeat device" software in diesel cars was first revealed to the public, Volkswagen is still dealing with the effects of the "Dieselgate" scandal. The automaker continues to work toward a way to modify affected cars to meet emissions standards, as it continues to negotiate with U.S. regulators over two...

Bosch working on 50 kWh battery packs weighing only 190 kg

Bosch is researching batteries that will make it possible to drive longer distances without recharging, and will also cost less than current batteries. “Our battery experts are playing a key part in paving the way for electromobility,” says Dr. Michael Bolle, president of the corporate sector for research and advance engineering at Robert Bosch GmbH. As early as 2020, Bosch batteries should be capable of storing twice as much energy while costing significantly less. The market forecasts are correspondingly bullish: ten years from now, Bosch expects some 15 percent of all new vehicles worldwide to have an electrical powertrain. As a result, Bosch is investing 400 million euros a year in electromobility.

Current challenge: heavy weight, low energy density

Dr. Thorsten Ochs, head of battery technology R&D at the new Bosch research campus in Renningen, explains what will be necessary for progress in battery technology: “To achieve widespread acceptance of electromobility, mid-sized vehicles need to have 50 kilowatt hours of usable energy.” With conventional lead batteries, this would mean increasing the weight of the battery to 1.9 metric tons, even without wiring and the holder. That is the same weight as a modern-day mid-sized sedan, including occupants and luggage. At a weight of 19 kilograms, a conventional lead battery – as found today in nearly every car for powering their starters – stores a comparatively low 0.5 kilowatt hours.

The goal: a weight of just 190 kilograms, recharged in 15 minutes

Today’s lithium-ion batteries are superior in this respect. They store more than three times the amount of energy per kilogram. At a weight of 230 kilograms, the battery of a modern-day electric car provides approximately 18 to 30 kilowatt hours. But to achieve the desired 50 kilowatt hours, a battery weighing 380 to 600 kilograms would be necessary. With his colleagues around the world, Ochs is therefore working on energy storage media with even better performance. Their goal: to pack 50 kilowatt hours into 190 kilograms. In addition, the researchers are looking to significantly shorten the time a car needs to recharge. “Our new batteries should be capable of being loaded to 75 percent in less than 15 minutes,” Ochs says.

Ochs and his colleagues firmly believe that improved lithium technology will make it possible to achieve these goals. “There is still a long way to go when it comes to lithium,” Ochs says. To make progress in this area, his team in Renningen is working closely with Bosch experts in Shanghai and Palo Alto. And as a further measure to advance lithium-ion battery research, Bosch has established the Lithium Energy and Power GmbH & Co. KG joint venture with GS Yuasa and the Mitsubishi Corporation.

More space for electrical power – thanks to start-up technology from Silicon Valley

In theory, the solution sounds simple: “The more lithium ions you have in a battery, the more electrons – and thus the more energy – you can store in the same space,” Ochs says. But because researchers need to improve cells at the atomic and molecular level, putting this into practice is a challenge. One of the main keys to achieving this goal is to reduce the proportion of graphite in the anode (the positively charged part of the battery), or do without graphite altogether. Using lithium instead of graphite would make it possible to store up to three times as much energy in the same space. Ochs and his colleagues have already developed many approaches for removing the graphite and replacing it with other materials. The Bosch CEO Volkmar Denner recently presented a prototype solution at the IAA. Thanks to its purchase of Seeo Inc., a start-up based in Silicon Valley, Bosch has now acquired crucial practical expertise when it comes to making innovative solid-state batteries. Such batteries have one other decisive advantage: they can do without any liquid electrolyte. Such an electrolyte is to be found in conventional lithium-ion batteries, where, in certain circumstances, it can pose a safety risk.

Advantages in a number of areas

Improved lithium-ion batteries would benefit not only drivers, but also all other applications that employ this technology, such as smartphones, laptops, tablets, cordless household appliances and tools, and many more products.

Bosch buys solid state battery start-up Seeo

German industrial conglomerate Bosch is acquiring Silicon Valley battery firm Seeo, including all of its intellectual property and research staff. With the move, Bosch is looking to enhance its offer to the electric car industry, which is witnessing a significant growth.

Founded in 2007, Seeo is known for its advancements in creating high-energy rechargeable lithium-ion batteries based on a nano-structured polymer electrolyte. Seeo uses solid state technology that avoids the use of flammable liquid electrolyte.

Using solid electrolyte, Seeo manufactures DryLyte batteries that deliver high energy density alongside impressive reliability and safety. Seeo has an exclusive license to core patents from Lawrence Berkeley National Laboratory and has more than 30 issued, exclusively licensed and pending patent applications.

News website Quartz reported that Bosch confirmed the acquisition. A Bosch spokeswoman told the website that the financial terms of the deal will not be released.

In December, Seeo made news as its CEO Hal Zarem announced plans to manufacture a battery with an energy density that is about double that of existing commercial lithium-ion batteries. The new battery would have a density of 300 watt hours per kg.

Bosch, which is already supplying a lot of components to the automobile industry, has long been looking to enter the advanced battery market. The acquisition may prove successful, as Seeo and its innovations are said to be of great potential.

Meanwhile, Seeo faces intense competition from start-ups such as Sakti3, QuantumScape, XG Sciences, Envia Systems and SolidEnergy Systems that are working on new types of electric car batteries. Panasonic is currently the leading player in the electric car battery market with a 39% market share, followed by LG Chem and Samsung SDI, according to research firm Lux Research.

Bosch test robotic Tesla Model S around German test track [VIDEO]

Bosch's engineers took a pair of Model S and fitted them with autonomous technology to allow them to drive themselves.

That technology consisted of 50 new components, including (brace yourselves) a front stereo video camera to watch the road markings and identify obstacles, six (non-Bosch) LiDAR laser scanners for 360º coverage around the car, two long-range (200m) and four mid-range (120m) radar sensors facing forwards and backwards, inertial sensors, a GNSS GPS navigation antenna, backup braking (both Bosch’s iBooster and ESP boxes) and ECU systems and a massive great PC in the back to hold hi-res maps and crunch the incoming data via bespoke algorithms.

In total, 1400 human-hours, 1300 metres of cable and an estimated €200,000 went into the car.

The result looks almost like a normal Model S - no pirhouetting Velodyne ‘Christmas tree’ on the roof here, just a few dark panels, a flying saucer GNSS antenna on the back and some industrial-looking buttons - and it’s so effective that it’s almost prosaic.

At the winding Boxberg test track, a Ford Fiesta drove around in front of us to show how smart the Tesla now is. Stopping quickly, driving at snail’s pace, accelerating into the distance: the Tesla reacted to the lot in a considered, sedate, measured manner. (Bosch tells us it can also swap lanes, overtake and merge with traffic on its own, but we didn’t get to check that out.)

[Stuff]