To Power the Future, Carmakers Flip On 48-Volt Systems

In limited ways, 48-volt systems have already found their way into vehicles, including the Porsche Cayenne and Bentley Bentayga S.U.V.s., where they operate the antiroll bars that keep the body level when cornering hard.

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Volvo made headlines with its plans to electrify its entire vehicle lineup, but those plans include hybrid systems that complement the internal combustion engine.

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Fred R. Conrad for The New York Times

But the more integrated applications of the technology, amounting to what’s known as a mild hybrid system, offer the greatest value — up to 70 percent of the benefit of a full hybrid at 30 percent of the cost, according to industry analysts. Continental projects that 48-volt mild hybrid systems will account for 14 percent of global new vehicle sales in 2025, as sales of vehicles powered exclusively by gasoline or diesel engines drop to 65 percent.

Volvo grabbed headlines in July when it announced that it would electrify its entire model range, offering — at minimum — an electric motor to assist its piston engine in every new Volvo released from 2019. Volvo will use the 48-volt standard for its mild hybrid vehicles: those that allow the internal combustion engine to shut off while coasting or still, then kick back on when accelerating.

Audi, which is bringing 48-volt systems to the 2019 A7 and A8, replaces its conventional alternator with a larger, water-cooled alternator-starter. Rather than merely charging the battery and powering accessories, it restarts the warmed-up V6 engine after it shuts down at a stoplight and recaptures energy when slowing down to charge a lithium-ion battery in the trunk.

This design has another trick up its sleeve: It will also start the engine after the car goes into an engine-off coasting mode at speeds between 34 and 99 miles an hour, for up to 40 seconds, all in the cause of saving fuel.

Power gains are possible, too. In the SQ7, a diesel S.U.V. that Audi does not currently sell in the United States, an electric motor drives a vane-type supercharger. Similar in operation to a turbocharger, this device delivers its power boost at low engine speeds without the lag of an exhaust-driven turbo. And Mercedes-Benz is equipping the new in-line six-cylinder engine of the 2019 CLS 450 with its EQ integrated starter-generator system. In this design, the electricity is produced in the space between the engine and transmission. In motor mode, it adds 21 horse power and 184 pound-feet of torque for quick getaways, and it can take over for the gas engine at a steady-state cruise.

And 48-volt mild hybrid systems can work in heavy-duty applications: Fiat Chrysler will follow the belt-alternator approach with its eTorque system in Ram pickups and the Jeep Wrangler.

Why 48 volts? Settling on this level holds the electrical system under the 60-volt safety threshold of what is considered high voltage, where power cables must be orange and special connectors, costing 10 times as much, are required, said Mary Gustanski, chief technical officer of Delphi Technologies.

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“In 2025, more than 95 percent of vehicles sold globally will still have internal combustion engines,” said Mary Gustanski, chief technical officer of Delphi Technologies. “So even in 2030, 48 volts will be part of the mix.”

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Karl Nielsen for Delphi Technologies

For now, the more powerful systems run alongside the traditional 12-volt electronics rather than replacing them altogether. This dual-voltage strategy avoids the need to redesign simple, reliable components like the motors that open windows and adjust seats.

“A full switch-over makes no sense,” Oliver Maiwald, a senior vice president for powertrain technology at Continental, a major industry supplier, said. “I don’t foresee a need to redesign these low-tech, low-cost parts.”

The advantages of the new 48-volt systems are considerable. They offer fuel economy improvements of up to 15 percent, Ms. Gustanski said, and would cost an automaker between $650 and $1,000 to add to the vehicle — well under the approximately $3,000 it costs to install a full hybrid system. Powering a supercharger electrically can bring a 30 percent gain in torque at low engine speeds, at an added cost of about $250.

And there are still more potential applications for 48-volt systems: Electrically heated catalytic converters, for example, could be an important advance in reducing cold-start emissions.

There’s little question that the automobile will be increasingly dependent on electric power to meet fuel economy mandates and carbon dioxide limits. Battery electrics, shrinking in cost and growing in range, will be part of the solution. So will plug-in hybrids, which pack enough battery reserve for the needs of most daily commuters.

But skeptics may wonder why engineers are devoting so much effort to developing the mild hybrid systems that could be seen as stopgap measures on the path to a fully electric vehicle fleet.

It is the reality of how long it takes for the automotive fleet to turn over that really clarifies the picture. A forecast by IHS Markit, an industry analyst firm, said 10 percent of vehicles built around the world seven years from now would have 48-volt systems.

“In 2025, more than 95 percent of vehicles sold globally will still have internal combustion engines,” Ms. Gustanski said. “So even in 2030, 48 volts will be part of the mix.”

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