The new AMG 4.0-litre V8 biturbo engine: Powerful, innovative and efficient

AMG M178 V8 engine

AFFALTERBACH : July 25, 2014 - Mercedes-AMG presents a new technological masterpiece: the AMG 4.0-litre V8 biturbo engine is a new development at the sporting heart of the new Mercedes-AMG GT car. This innovative eight-cylinder unit stands out for its sublime power delivery, the purposeful lightweight construction, as well as its high efficiency and environmental compatibility. With peak power of up to 375 kW (510 hp) and maximum torque of up to 650 Nm the new AMG V8 delivers motorsport-inspired performance. The new sports car engine follows in an impressive V8 tradition that started in 1967 with the M100 in the legendary 300 SEL 6.8 AMG racing car and continues with trendsetting features of the future.

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CADILLAC TWIN-TURBO DEBUTS IN ALL-NEW 2014 CTS SEDAN

2014 3.6L V-6 VVT DI Twin Turbo (LF3) for Cadillac CTS

• 420 horsepower (313 kW) / 430 lb-ft of torque (583 Nm) – SAE certified
• Most power-dense six-cylinder in segment at 118 hp/liter
• Cadillac’s first twin-turbo engine and eight-speed automatic transmission

DETROIT – Cadillac has announced details of a new Twin-Turbo V-6 engine and eight-speed transmission – firsts for the brand and signature features of the all-new 2014 Cadillac CTS midsize luxury sedan debuting next week at the New York Auto Show.

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AUDI ADDS 354 DYNAMIC HP GASOLINE ENGINE FOR SQ5

2014 Audi SQ5 3.0 TFSI

• SQ5 with 3.0 TFSI engine at the Detroit Auto Show
• From zero to 100 km/h (0-62 mph) in 5.3 seconds
• 250 km/h (155 mph) top speed

The new Audi SQ5 shown at the Detroit Auto Show is the first ever to be powered by a gasoline engine – in this case one producing 260 kW (354 hp) and 470 Nm (346.65 lb-ft) of torque The new top-of-the-line model, which was designed specifically for markets such as the United States, Canada and China, uses a 3.0 TFSI engine with forced induction. It sprints from zero to 100 km/h (0-62 mph) in 5.3 seconds on its way to a top speed of 250 km/h (155 mph). 

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BMW TwinPower Turbo Technology for X3 and X5

2012 BMW X3 xDrive28i

MUNICH : February 13, 2012 - Dynamic handling characteristics are still the trademark of BMW’s Sports Activity Vehicles. In each of their segments both the BMW X3 and the BMW X5 are seen as the benchmark for agility and driving pleasure. In the spring of 2012, the sporting character of the two BMW X models will be further underscored by innovations added to the range of engines and equipment features. A new and particularly powerful engine for the BMW X3 xDrive28i, Driving Experience Control for individual vehicle settings for all variants of the BMW X3 and the M Sport Edition of the BMW X5 ensure targeted optimisation of sporting qualities.

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Volkswagen introduces the Modular Transverse Matrix (MQB)

Volkswagen Jetta Hybrid : MQB – Modular Transverse Matrix and new engines

•     MQB exploits synergies in key technologies across vehicle classes and brands 
•     MQB makes luxury class technologies accessible to high-volume models

WOLFSBURG : February 1, 2012 - This year, Volkswagen Group will be introducing the Modular Transverse Matrix – the German acronym is MQB – for the Volkswagen, Audi, ŠKODA and SEAT brands. The MQB strategy represents a turning point in the design and production of future automobiles with transverse-mounted engines.

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Ford's 1.0-litre EcoBoost turbo petrol engine debuts in all-new focus

1.0-litre Ford EcoBoost turbo petrol engine

• Unique new 1.0-litre EcoBoost petrol engine offered across Ford Focus range
• Up to 125PS – same as 1.6 naturally-aspirated engine
• Fuel economy of up to 58.9mpg
• CO₂ emissions as low as 109g/km, resulting in zero road tax (VED) in first year
• Maximum engine torque of 170Nm between 1,400 and 4,500rpm exceeds 1.6-litre for excellent drivability
• Developed by UK-based engineers at Dunton and Dagenham

BRENTWOOD, UK : January 30, 2012 – Ford’s high tech, ultra-efficient, turbocharged, direct injection 1.0-litre EcoBoost engine goes on sale across the Ford Focus range in the UK next month.  This unique, industry-first EcoBoost engine delivers performance to rival a traditional 1.6-litre engine with significantly improved fuel efficiency and class-leading ultra-low CO₂ emissions.

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Audi updates A5 with the new 1.8 TFSI engine

2012 AUDI A5

• Ample power and minimal consumption: 125 kW (170 hp) and 320 Nm (236.02 lb-ft) torque, but just 5.7 liters per 100 km (41.27 US mpg)
• New solutions in fuel injection and other fields of technology
• Fully electronic coolant regulation system

INGOLSTADT : August 4, 2011 - The engines in the updated A5 family set new standards for sportiness and efficiency. Even the base engine, the completely redesigned 1.8 TFSI, showcases the full extent of Audi’s technological competence. The engineers have developed innovative solutions in numerous fields of technology to achieve surprisingly strong performance with minimal fuel consumption.

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Mazda develops highly efficient "SKYACTIV-G 1.3" direct-injection gasoline engine

Mazda SKYACTIV-G 1.3 engine

HIROSHIMA : May 18, 2011 - Japan—Mazda Motor Corporation has announced that the "SKYACTIV-G 1.3" direct-injection 1.3-liter gasoline engine will be the first of its next-generation SKYACTIV technologies to be introduced to the market. Mazda will unveil the engine at the Automotive Engineering Exposition that will be held from May 18 through 20, 2011, at the Pacifico Yokohama convention center near Tokyo, Japan.

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Ward’s names 10 best engines winners

2011 Volvo S60 T6 3.0 Turbocharged Engine

The auto industry is embracing the age of electrification, and so too is the Ward’s 10 Best Engines list. Both the Nissan Leaf electric vehicle and Chevrolet Volt extended-range EV earn their way onto the 2011 list, as selected by Ward’s editors after evaluating 38 vehicles with new or significantly improved engines for the ’11 model year.

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AMG powerful and efficient : an eight-cylinder developing up to 420 kW (571 hp)

2010 MercedesBenz S63 AMG

AFFALTERBACH : March 9, 2010 – AMG is writing another chapter in its "AMG Performance 2015" drive system strategy: a completely newly developed AMG 5.5-litre V8 biturbo engine with a peak output of up to 420 kW (544 to 571 hp) and maximum torque of up to 900 newton metres will enter the lineup in summer 2010. The new eight-cylinder unit known internally as the M 157 impresses with a wealth of technological highlights such as direct petrol injection with spray-guided combustion and twin turbochargers.


This innovative, autonomously developed eight-cylinder power unit from Affalterbach sets new standards in terms of fuel consumption and exemplary efficiency: the new S 63 AMG, in which the V8 biturbo will have its market debut, consumes only 10.5 litres per 100 kilometres (NEDC combined consumption, provisional figure). This represents a saving of 25 percent compared to the current S63 AMG. An intelligently designed power transfer plays a major part in this: the unique AMG SPEEDSHIFT MCT 7-speed sports transmission combines dynamism with economy, and includes a new start/stop function in the "Controlled Efficiency" driving mode. The new engine/transmission combination is the epitome of exclusivity, sophistication, high performance and economy.

The S 63 AMG showcar is a homage to the impressive history of powerful AMG V8 engines: visually this high-performance saloon resembles the spectacular 300 SEL 6.8 AMG, the racing car that won a class victory and second place in the overall ranking for AMG at the 24-hour race in Spa-Francorchamps (Belgium) in 1971 – and made the company world-famous overnight.

"AMG Performance 2015" as the continuation of a success story

Mercedes-AMG is continuing this impressive story with its "AMG Performance 2015" strategy, and meeting its promise to continuously reduce both the fuel consumption and emissions of new models with the new engine/transmission combination – while reaching new heights with the central brand value of "performance".
The new AMG 5.5-litre V8 biturbo engine will play a major part in the Mercedes-AMG model strategy over the next few years. The unique AMG SPEEDSHIFT MCT 7-speed sports transmission will also guarantee a thrilling yet economical power transfer in future AMG high-performance cars. The new engine/transmission combination is another milestone in the success story of Mercedes-AMG, which began in 1967. Another highlight in the company's more than 40-year history it undoubtedly the SLS AMG: this gull-wing model due to be launched on 27 March 2010 is the first automobile to be completely independently developed by Mercedes-AMG. It means that as the performance brand within Mercedes-Benz Cars, AMG is not only fielding a masterpiece but also demonstrating development expertise at the highest level.

Petrol direct injection with spray-guided combustion

Direct petrol injection with spray-guided combustion and twin turbocharging

Whilst the AMG 6.3 litre V8 naturally aspirated engine has a displacement of 6208 cc the new AMG 5.5-litre V8 biturbo unit makes do with 5461 cc. The use of direct injection technology results in a reduction of exactly 747 cubic centimetres and increases efficiency. For the first time, AMG is also utilising the advantages of direct petrol injection with spray-guided combustion and piezo-electric injectors: thanks to its higher thermodynamic efficiency, this technology makes more efficient use of fuel and leads to lower exhaust emissions. AMG combines this spray-guided combustion with twin turbochargers. Other highlights include a crankcase wholly of aluminium, four-valve technology with adjustable camshafts, an air/water intercooler, generator management and a start/stop function as standard.

This high-tech package leads to a high output and torque yield, together with fuel consumption figures that are unrivalled in the competitive lineup. The AMG 5.5-litre V8 biturbo engine develops a peak output of 400 kW (544 hp) and maximum torque of 800 newton metres. In conjunction with the AMG Performance package these figures are increased to 420 kW (571 hp) and 900 newton metres. A look at the performance diagrams shows that no other engine in this output class achieves the figures delivered by the new AMG biturbo. The major difference between the two performance classes is an increase in the maximum charge pressure from 1.0 to 1.3 bar.

Quantum leap: fuel consumption reduced by 25 percent

With a provisional NEDC fuel consumption of 10.5 litres per 100 kilometres, the new S 63 AMG is 3.9 litres more economical than the preceding model powered by the naturally aspirated AMG 6.3-litre V8 – despite an increase in output by 14 kW (19 hp) resp. 34 kW (46 hp) and in torque by 170 and 270 newton metres. Engine specialists consider this achieved fuel saving of more than 25 percent to be nothing less than a quantum leap. CO2 emissions have likewise been significantly reduced: at 246 grams per kilometre, the figure is 28.5 percent lower than for the previous model.

With figures like these, the new S 63 AMG is not only considerably better than all its competitors, but also more fuel-efficient than much less powerful cars in this segment. Taking into account its enormous performance and torque figures the new AMG 5.5 litre V8 biturbo engine is in parts twice as efficient as many mid-segment or compact-class diesel engines.

At the same time the S 63 AMG delivers superior performance at sports car level: the high-performance saloon accelerates from zero to 100 km/h in 4.5 seconds, and has an electronically limited top speed of 250 km/h. The 100 km/h mark is reached in just 4.4 seconds with the AMG Performance package, with the top speed increased to an electronically limited 300 km/h.

The new AMG 5.5 litre V8 biturbo engine

Engine production – tradition of hand-built excellence

Like all other AMG engines, the new eight-cylinder biturbo is assembled by hand in the AMG engine shop taken into commission in 2002. A single, highly-qualified technician assembles the M 157 according to the "one man, one engine" philosophy, maintaining the very strictest quality standards. This painstaking care is attested to by his signature on the characteristic AMG engine plate.

AMG CEO Volker Mornhinweg: "Efficiency plus performance"

"With the new AMG V8 biturbo engine and the AMG SPEEDSHFT MCT 7-speed sports transmission, we are confronting the challenges of the future and focussing on fuel consumption and exhaust emissions even more intensively than before. Our new high-performance engine shows that AMG occupies a leading position in terms of both efficiency and our brand commitment to "performance," says Volker Mornhinweg, Chairman of Mercedes-AMG GmbH.

"The new AMG V8 biturbo engine is yet another milestone in our impressive V8 history. For the first time we have combined spray-guided direct petrol injection with turbocharging. With this high-tech package we are "best in class" with respect to fuel consumption, output and torque," says Friedrich Eichler, Head of Engine and Powertrain Development at Mercedes-AMG.

Key figures at a glance:*

	AMG 5.5-litre V8 biturbo engine
Displacement	5461 cc
Bore x stroke	98.0 x 90.5 mm
Compression ratio	10.0:1
Output	400 kW (544 hp) at 5500 rpm 420 kW (571 hp) at 5500 rpm**
Max. torque	800 Nm at 2000-4500 rpm 900 Nm at 2500-3750 rpm** at 2500-3750 rpm*
Engine weight (dry)	204 kg
Power/weight ratio	0.41 kg/hp 0.39 kg/hp**

* provisional figures; ** with AMG Performance package

Exciting power delivery, characteristic sound

These on-paper figures raise high expectations which the 400 kW (544 hp) AMG 5.5-litre V8 biturbo certainly meets. The flat torque curve ensures enormous pulling power in all speed ranges: 670 newton metres are already available at 1500 rpm, and the maximum torque of 800 newton metres is delivered just 500 rpm later, remaining constant to 4500 rpm. Even more effortless performance is ensured by the engine variant with the AMG Performance package, which has a peak output of 420 kW (571 hp). In this case the eight-cylinder delivers 875 newton metres of torque at just 2000 rpm, with a constant 900 newton metres available between 2500 and 3750 rpm.

It is not only the unrivalled torque delivery of this turbocharged eight-cylinder that makes the heart beat faster, as the agile responsiveness with no irritating charger delay leads to an effortlessness and dynamism previously unknown in this output class. All perfectly matched by the characteristic, sonorous engine note. Moreover, this AMG high-performance engine naturally meets all the requirements with respect to smooth, quiet running and the comfort on long journeys that is to be expected of a Mercedes.
MCT 7-speed sports transmission with Controlled Efficiency mode and start/stop function

Power is transferred by the AMG SPEEDSHIFT MCT 7-speed sports transmission used exclusively by AMG, which is already familiar from the SL 63 AMG and E 63 AMG and combines high emotional appeal with outstanding driving dyna-mics and a high level of efficiency. The wet start-up clutch replaces a conventional torque converter, and helps to save fuel. The exemplary fuel economy is also in large measure due to the standard start/stop function. This system is active in the transmission's Controlled Efficiency ("C") mode, and switches the eight-cylinder engine off when the car comes to a stop. In "C" mode the sports saloon always starts off in second gear, and the transmission shifts to the next, higher gears at a decidedly early stage. With its high torque at low engine speeds, the V8 engine encourages a smooth, effortless driving style.

The eight-cylinder biturbo engine also features the generator management system familiar from the E 63 AMG: whenever the engine is on the overrun or when braking, kinetic energy is used to charge the battery rather than being wasted as heat in the usual way. In all other operating modes a combination of onboard network and generator management enables the generator to be kept at a low voltage. This reduces the load on the engine and makes for fuel savings of around 0.15 litres per 100 kilometres according to the NEDC standard, and up to 0.2 l/100 km in city traffic with its frequent overrun and braking phases.

Long tradition of powerful AMG V8 engines

Powerful eight-cylinder engines are an integral part of AMG's history. 2005 saw the debut of the AMG 6.3-litre V8 engine known as the M 156. Depending on the model, this naturally aspirated, high-revving unit develops up to 386 kW (525 hp) and 630 newton metres. Reserved exclusively for the new SLS AMG, the M 159 with the same displacement of 6.3 litres has a peak torque of 420 kW (571 hp) and maximum torque of 650 newton metres. Another milestone in the history of AMG engines was the supercharged AMG 5.5-litre V8 engine introduced in 2001: the M 113 K developed up to 428 kW (582 hp) and 800 newton metres of torque. Even more power was forthcoming from the supercharged AMG 5.5-litre V8 engine of the SLR McLaren dating from 2003 – the M 155 generated up to 478 kW (650 hp) and 820 newton metres.

The supercharged AMG 5.5-litre V8, the AMG 6.3-litre V8 and the AMG 6.0-litre V12 biturbo were all able to win the Best Performance Engine category in the International Engine of the Year Awards.

The first AMG four-valve V8 accelerates "The Hammer" to 303 km/h

Another important engine in the AMG story was the M 117, its first eight-cylinder unit with four-valve technology. With a displacement of 5.6 litres, 265 kW (360 hp) and 510 newton metres of torque, this V8 accelerated the 300 CE 5.6 AMG to a top speed of 303 km/h in 1987. This made the coupé the fastest German car in series production, and American fans reverently christened it "The Hammer".

The S 63 AMG showcar harks back to the historic success in 1971

A historic success was achieved by the 300 SEL 6.8 AMG in 1971: powered by an AMG V8 engine with a displacement of 6.8 litres and developing 315 kW (428 hp), this signal red racing saloon crossed the finishing line in second place during its very first outing at the 24-hour race in Spa-Francorchamps (Belgium), securing victory in its class.
The spectacular S 63 showcar is homage to this triumph, which made AMG world-famous overnight although the company had only been founded in 1967: decorated with sponsoring stickers identical to those on its historic predecessor, this powerful S-Class made by Mercedes-AMG is a sensation. The imposing tyres in size 275/35 R 20 and 325/30 R 20 at the front and rear are just as eye-catching as the 4.5-centimetre wider front wings on each side. The discerning car-lover will even discover exotic wood trim in the style of the original car in the interior. The showcar is powered by the new AMG 5.5-litre V8 biturbo engine and the AMG SPEEDSHIFT MCT 7-speed sports transmission.

Images : Mercedes-Benz S63 AMG

[Source : DAIMLER-AMG]

Volvo launches an energy-efficient 2-litre GTDi engine with unique turbo system

Volvo 2.0-litre GTDI Engine

GOTHENBURG : January 28, 2010 - Volvo Car Corporation is introducing an all-new four-cylinder 2-litre GTDi (Gasoline Turbocharged Direct Injection) engine in the Volvo S80, V70 and XC60, offering great performance and efficiency all in one.


New Volvo-developed turbocharging technology, direct injection and twin variable camshafts give a unique combination of low fuel consumption, low emissions and high performance across a wide rev range - all in a particularly compact format.

The new petrol engine, the 2.0 GTDi, produces no less than 203 hp despite its compact size and cylinder capacity. It pumps out 300 Nm of torque already from 1750 rpm thus securing a refined driving experience.

"We've succeeded in making a four-cylinder engine that is as powerful as a 2.5-litre five-cylinder unit, and it's also much more energy-efficient. This is a very welcome both for those customers who want high performance as well as supreme driveability and for the environment that benefits from the improved fuel efficiency. One of the most important reasons behind the results is our new, patented turbo system that has been tailor-made for smaller energy-efficient engines," says Magnus Jonsson, head of Product Development at Volvo Cars.

Less is more - Meet the next generation turbo technology

The turbocharger system has been developed in cooperation between Volvo Cars, Borg-Warner Turbo System and steel component manufacturer Benteler Automotive. The turbocharger (K03) is the market's smallest in relation to the engine's maximum output. The turbo not only gives excellent performance properties, it also improves exhaust aftertreatment by enabling quick heating of the catalyst.

The turbine housing is integrated into the manifold, an efficient solution with which Volvo already had previous good experience. The difference is that the new manifold and turbine housing are made of sheet steel instead of a casting. The sheet is lighter and more compact and, above all, this system generates less heat owing to its extra insulating layer. This allows high gas flow temperature and thus more efficient combustion.

A manifold made of sheet steel is admittedly nothing new but so far it has only been used in combination with cast turbine housing. The new, fully integrated turbo package made entirely of sheet steel is a world innovation and has been patented by Volvo.

This innovative technology has made it possible to shape the exhaust ducts optimally to allow an optimal gas flow and generate the maximum pulse effect for the highest possible turbine efficiency. The pulse dynamics can thus be utilised to the limits in order to generate a high power output level across a wider range of engine revs. This translates into close to immediate response and good acceleration at both low and high speeds.
"High performance is important to many customers. However, being an innovative and highly efficient powertrain, there is also a significant gain in both fuel consumption and emissions with this technology" says Magnus Jonsson. "A Volvo S80 with this engine and automatic transmission consumes just 8.3 litres of fuel per 100 kilometres."

Efficient direct injection starts the turbo quickly

The new engine features direct injection. The injectors have seven holes for precisely controlled injection into each cylinder. The injectors are side-mounted.

Direct injection gives a high fill rate in the combustion chamber, efficient combustion and low emissions. Thanks to this high fill rate, the turbo also starts spinning earlier, delivering alert response from low revs. This in turn results in swift acceleration and good driveability even from low speeds.

Direct injection also contributes to quick and stable combustion at high loads, and thus smooth engine operation even when the accelerator is floored.
The injection system is supplied by Bosch.

Twin VVT (Variable Valve Timing)

Volvo's new GTDi engine utilises variable timing for both camshafts. Both the inlet and the exhaust valves' opening times can be varied to optimise the overlap and ensure the correct fill rate in the combustion chamber irrespective of engine revs. This gives the combustion process maximum efficiency throughout the rev range and helps generate rapid acceleration at all speeds.

Both VVTs are of the conventional vane-type. The rotation of the inner and outer rotor is regulated by hydraulic pressure from the engine oil. By opening and closing the oil control valves, the oil pressure and flow through the VVTs are changed until the desired angular deviation between the inner and outer rotor is achieved. The oil control valves are controlled by software in the Engine Management System using feedback from the cam position sensors.

"By combining direct injection and VVT with our new patented turbo system, we can offer an engine with low fuel consumption and low emissions, without having to compromise on performance or driving properties," says Magnus Jonsson. "We have created an engine that is as efficient in the city as it is on the highway. And since the design is based on an already-existing engine concept, we can offer more car buyers a highly fuel-efficient alternative at a reasonable price."

In combination with Powershift or manual gearbox

The engine will be offered in combination with Volvo's automatic six-speed Powershift transmission or a six-speed manual gearbox.

This new six-speed double-clutch automatic transmission combines the efficiency and driving dynamics of a manual transmission with the ease of a quality automatic transmission. The clutch activations are co-ordinated so that no torque interruption occurs during gear changing. This provides both the ease and permanent motion of a conventional automatic transmission and the performance of a manual transmission.

A key global powertrain for Volvo

Volvo's new 2.0 GTDi engine is being initially launched on markets that offer tax incentives for engines below two litres in displacement: South-East Asia, the Netherlands, China and Japan.

Engine specifications
Engine designation	2.0 GTDi
Engine type	4-cylinder petrol turbo engine
Cylinder displacement	1999 cm3
Cylinder bore	87.5 mm
Stroke	83.1 mm
Compression ratio	10:1
Valves per cylinder	4
Camshafts	DOHC
Max power output	149 kW (203 hp) / 6000 rpm
Max torque	300 Nm / 1750-4000 rpm, overboost 320 Nm
Turbo boost	90 kPa
Emission level	Euro 5, J-ULEV

Performance and fuel consumption (man/auto)	Volvo S80	Volvo V70	Volvo XC60
Acceleration 0-100 km/h, sec	7.9/8.5	8.3/8.9	9.6 (automatic)
Fuel consumption, l/100 km	7.9/8.3	8.1/8.4	8.6 (automatic)
Emissions, grams, CO2	184/193	189/195	199 (automatic)

Images : Volvo 2.0-litre GTDI Engine

[Source : VOLVO]

Chrysler Group introduced Fiat’s 1.4-liter, In-line 4-cylinder, Fully integrated robotized engine with Multiair technology to powertrain lineup

1.4-liter, Four-cylinder Turbo FIRE with Multiair

AUBURN HILLS, Mich. : December 17, 2009 - Chrysler Group LLC will debut Fiat’s 1.4-liter, in-line four-cylinder Fully Integrated Robitized Engine (FIRE) featuring Multiair in the Fiat 500 starting in 2010. The engine, well-suited for a small car application, delivers 100 horsepower (75 kW) at 6,750 rpm and 95 lb.-ft. (129 N•m) of torque at 4,250 rpm. A turbo version also will be available in future applications. The 1.4-liter FIRE features Fiat’s Multiair technology, which significantly reduces emissions while improving fuel economy and power delivery.

1.4-liter, Four-cylinder Turbo FIRE with Multiair

The 1.4-liter FIRE features four valves per cylinder and incorporates state-of-the-art technology for Fully Variable Valve Actuation (FVVA), also known as MultiAir. Multiair is a sophisticated technology that delivers an increase in power up to 10 percent and a reduction in fuel consumption and emissions up to 10 percent when compared to similar engines. A turbo version of the engine is also planned and will produce a fuel economy improvement up to 25 percent when compared to a V-6 engine with equivalent power.

The MultiAir system consists of electro-hydraulic variable valve actuators filled with conventional oil, which is interposed between the camshaft and each valve. A solenoid valve is energized every 360-degree camshaft rotation, regulating the quantity of oil addressed to the actuator or to a reservoir. The lift of the valve is a function of the quantity of oil addressed to the actuator, ranging from full lift to complete valve closure. Each solenoid valve may also delay application of the actuator in advance, leading to late valve opening or early valve closing.

Fiat's Multiair system on the 1.4-liter FIRE

MultiAir is exclusive for Chrysler Group in North America and is based on a series of Fiat Powertrain patents related to hardware, combustion strategies and controls that allow for full control of the lift and timing of engine valves.

In the early 1970s, robotics in assembly plants was not common. The term “FIRE” came into existence when Fiat integrated the use of robotics in the production process of manufacturing plants. Although mechanized assembly is commonplace today, the brand name FIRE has remained with Fiat’s powertrain lineup.

Fiat's Multiair system on the 1.4-liter FIRE

The 1.4-liter FIRE with Multiair is the world's first mass production engine to incorporate such technology to control the intake valves. Dedicated components have been developed to accommodate four "bricks" (one for each cylinder), which package relevant components. MultiAir technology can be adapted to different types of engines, including Diesels for enhanced NOx control, and is planned for Chrysler Powertrain's four-cylinder World Gas Engine and all-new Pentastar V-6.

[Source : CHRYSLER]