Mercedes Benz A-Class Petrol Engines


Mercedes Benz A-Class Petrol Engines

The petrol engines – Powerful, responsive and super-clean Mercedes-Benz has systematically transferred the direct injection technology of the V6 and V8 engines in the Mercedes-Benz luxury class. The direct injection four-cylinder petrol engines for the new A-Class combine great responsiveness and exemplary power delivery with outstanding efficiency and the best emission figures in this class. […]

The petrol engines – Powerful, responsive and super-clean

Mercedes-Benz A-Class Petrol Engine

Mercedes-Benz has systematically transferred the direct injection technology of the V6 and V8 engines in the Mercedes-Benz luxury class. The direct injection four-cylinder petrol engines for the new A-Class combine great responsiveness and exemplary power delivery with outstanding efficiency and the best emission figures in this class. The world-first CAMTRONIC, an innovative valve lift adjustment feature, makes a major contribution to this. There is a choice of 1.6 or 2-litre variants of the new four-cylinder engine family for the

Mercedes-Benz A-Class

, covering a power range from 90 kW and 200 Nm to 155 kW and 350 Nm.

Thanks to direct injection technology and highly precise piezo-injection, the new engines are already expected to meet the Euro 6 emission standard for petrol engines coming into force from 2015. Even the much more stringent diesel particulate limit in the Euro 6 standard is already bettered with no additional exhaust aftertreatment. This was a major motivation for introducing direct injection technology into this segment as well. This means that the completely newly developed generation of four-cylinder petrol engines is ideally prepared for the future.

Mercedes Benz A-Class Extremely versatile

The basis for all three petrol engine variants in the new A-Class is the all-aluminium M 270 engine with two chain-driven overhead camshafts and four-valve technology. This power unit is extremely versatile, and will also be gradually introduced into larger model series. In this way it also contributes to a sustained reduction in production costs. The four-cylinder can be installed transversely (M 270) or longitudinally (M 274), and combined with front, rear or 4MATIC all-wheel drive, and also with a manual, automatic torque converter or dual clutch transmission.

Mercedes Benz A-Class: Direct injection technology – three new petrol engines

The M 270 engine is available in three power classes in the new A-Class. As the A 180 BlueEFFICIENCY with a displacement of 1595 cc it develops 90 kW and a maximum torque of 200 Nm over a wide engine speed range from 1250 to 4000 r/min. With the basic engine and the 6-speed manual or seven-speed dual clutch transmission (figures in brackets) the A-Class accelerates from zero to 100 km/h in 9.2 seconds (9.1 seconds), and has a top speed of up to 202 km/h (202 km/h). The fuel consumption and CO2 emission figures of 5.8 l/100 km (5.5 l/100 km, both NEDC combined) resp. 136 g/km are so low that they possibly set a new record.

The A 200 BlueEFFICIENCY with the same displacement of 1595 cc develops 115 kW and a maximum torque of 250 Nm, which is likewise available from 1250 to 4000 r/min. It sprints from zero to 100 km/h in 8.4 seconds (8.3 seconds) and has a top speed of 224 km/h (224 km/h), but is happy with an average 5.8 l/100 km of fuel (5.5 l/100 km), corresponding to CO2 emissions of 136g/km.

Mercedes Benz A-Class Diesel Engines

Overview of technical data for the Mercedes Benz A-Class with petrol engine

Model A 180* A 200* A 250 Sport**
4/in-line 4/in-line 4/in-line
Displacement [cc] 1595 1595 1991
Rated output [kW at [r/min] 90/5000 115/5000 155/5500
Rated torque [Nm] at [r/min] 200
Fuel consumption,
[l/100 km] 5.8 (5.5) 5.8 (5.5) 6.4
CO2 emissions,
[g/km] 135 136 148

* figures for  dual clutch transmission in brackets (7G-DCT), ** only available with dual clutch transmission

Engine technology from the S-Class for the Mercedes Benz A-Class

The technology package in the new four-cylinder petrol engines includes a number of new developments which were introduced in 2010 with the ultra-modern direct injection V6 and V8 engines for the Mercedes-Benz S-Class, and are now available in the compact class for the first time.

The combustion process is based on third-generation Mercedes-Benz direct injection with highly precise, multiple piezo injection technology. In 2006 Mercedes-Benz was the first car manufacturer to introduce direct injection with spray-guided combustion into series production.

Piezo injectors for very low particulate emissions below the Euro 6 limits

Newly developed piezo injectors allow up to five injections per power stroke. In the warm-up phase this enables particulate emissions to be reduced by more than 90 percent. The overall result is that all emission figures including particulates are now already below the limits set by the Euro 6 emission standard, which only comes into force from 2015.

Compared with conventional multi-hole solenoid valves, piezo injectors have numerous advantages in petrol engines. The fuel vaporises up to four times as fast, the jet of fuel penetrates less deeply into the combustion chamber and the injectors are able to deliver minute quantities of fuel extremely precisely. All this prevents fuel from being deposited on the combustion chamber walls, resulting in significantly reduced particulate emissions. Moreover, multiple injections allow operating strategies for maximum fuel efficiency while improving cold-start characteristics.

The crystalline structure of the piezo-ceramic changes in microseconds under an electric voltage, and with a precision of just a few thousandths of a millimetre. The central component of a piezo-electric injector is the piezo-stack, which directly controls the metering needle. With a response time of just 0.1 milliseconds, the fuel injection can be very sensitively and precisely adjusted to the current load and engine speed, with a beneficial effect on emissions, fuel consumption and combustion noise.

Mercedes Benz A-Class Multi-spark ignition for optimal efficiency

The third-generation direct injection system also features “rapid multi-spark ignition” (MSI). Following the first spark discharge and a brief combustion period, the coil is recharged rapidly and a further spark is discharged. The MSI system enables up to four sparks to be discharged in rapid succession within one millisecond, creating a plasma with a larger spatial expansion than
conventional ignition.

The rapid multi-spark ignition can be actuated to vary both the timing of the sparks and the combustion period to suit the relevant operating point. This provides scope for the best possible centre of combustion and improved residual gas compatibility. This in turn reduces fuel consumption.

Fuel savings of up to 4 percent are possible alone by the use of piezo-electric injection technology in combination with multi-spark ignition, depending on the driving cycle.

Mercedes Benz A-Class CAMTRONIC: up to ten percent lower fuel consumption

A trailblazing innovation known as CAMTRONIC is celebrating its debut in the 1.6-litre engine. For the first time in a turbocharged direct-injection engine, a load management system with an earlier intake cut-off and intake valve lift adjustment has been realised. This reduces throttling losses under partial load, lowering fuel consumption. In the New European Driving Cycle (NEDC), fuel consumption is reduced by three to four percent compared to the M 270 without CAMTRONIC. In day-to-day driving, which typically has a high proportion of partial load operation, the potential saving is even greater, with fuel savings of up to ten percent in certain operating ranges. This world first was developed completely in-house by the Mercedes-Benz Technology Center in Stuttgart and the Daimler engine plant in Berlin.

Mercedes-Benz A-Class South Africa

Mercedes Benz A-Class No turbo-lag thanks to scavenging

Above all, Mercedes-Benz engineers were able to obtain a high output from a small displacement by the use of a turbocharger. This forces the intake air into the combustion chambers at a pressure of up to 1.9 bar, with the turbine vanes rotating at up to 230,000 rpm. The charger has been designed to deliver high torque even at low engine speeds. It is integrated into a newly developed manifold turbocharger module, positioned in front of the engine for the best possible cooling. Separate exhaust ducting from the cylinders to the turbocharger and the high exhaust temperature of up to 1050 degrees Celsius make optimal use of the exhaust gas energy, producing a high output and outstanding responsiveness.

By using a combination of direct injection and variable adjustment of the intake and exhaust camshafts, the developers were also able to exploit the advantages of so-called scavenging: partly overlapping the opening times of the intake and exhaust valves causes some of the cold intake air to flush the hot exhaust gas from the cylinder into the exhaust manifold, which considerably improves charging compared to conventional operation.

Especially at low engine speeds, and thanks to the increased mass flow in the exhaust tract, the turbocharger also responds much more rapidly – this completely avoids any “turbo-lag” or delay when moving off. The direct injection system ensures that the fresh gas is not yet mixed with fuel when it enters the cylinder, as would be the case in engines with manifold injection. There are therefore no undesirable scavenging losses, i.e. unburned fuel flushed into the exhaust manifold.

Mercedes Benz A-Class Torque levels like a diesel

As a result the new 1.6-litre four-cylinder in the A-Class already delivers its maximum torque at 1250 rpm, maintaining it to 4000 rpm. The 2.0-litre even does a little better: its maximum torque of 350 Nm is already available from 1200 rpm, which means that for low-end torque it leads the field for four-cylinder engines.

In combination with the new 7G-DCT transmission, whose control unit communicates with the engine management system, the new four-cylinder responds to the accelerator very readily. At cruising speed a higher ratio can be chosen, which further improves fuel consumption and noise level. The turbocharged engines also maintain their exemplary fuel consumption under high loads, as the outstanding cooling system only makes a richer mixture necessary at speeds above 200 km/h. A two-piece water jacket with optimised cross-flow cooling and fine, only three-millimetre wide cooling ducts between the spark plugs and injectors bring the coolant to the right places.

Mercedes Benz A-Class Thermal management shortens the warm-up phase

A new thermal management system has also been developed: in cold state, a switchable water pump with flow-optimised ball valve ensures that no coolant flows through the engine, providing for swift heating-up of the combustion chambers after starting up the engine. The thermostat is electronically controlled and the coolant temperatures are adjusted according to driving style and ambient conditions. The thermostat itself is also a flow-optimised ball valve. In the interest of high efficiency, the volumetric flow of the oil pump is also controlled as in the V engines.

Mercedes Benz A-Class Controlled oil pump with two pressure stages

The variable vane-type oil pump operates with two pressure stages, depending on the characteristic map. At low engine speeds and loads the pump runs at a low pressure of two bar. At this time the oil-spray nozzles for piston cooling are switched off. The high-pressure stage is activated at the upper load and engine speed levels. Thanks to this control concept, depending on engine load and engine speed the lubrication and cooling points of the engine can be supplied with significantly lower drive energy than would be possible with an uncontrolled pump.

New coolant ducting and 3-phase thermal management

The coolant ducting in the cylinder head is also completely new. The water mantle is of two-piece construction to improve flow. This leads to specific increases in flow speeds and heat dissipation at certain points, accompanied by a rigorous reduction in pressure losses throughout the coolant circuit. This has made it possible to reduce the power output of the water pump despite an
increased engine output.

As it warms up, the flow of coolant is regulated by a 3-phase thermal management system so that it rapidly reaches normal operating temperature. Initially the coolant remains at rest in the engine. It then circulates in the engine circuit, but without the radiator. When a temperature of 105 degrees Celsius has been reached in normal operation (87 degrees Celsius under high load), the vehicle’s radiator is included in the circuit.

Mercedes Benz A-Class ECO start/stop function with direct-start

The start/stop system included as standard in all models operates with starter-supported direct-start. This means that when the engine is switched off, the attitude of the crankshaft is registered by a new crankshaft sensor so that the engine control unit knows the positions of the individual cylinders. On restarting, it can then select the cylinder that is in the most suitable position for first ignition. After the starter has briefly turned over the engine, reliable injection, ignition and combustion is immediately possible in the ideally positioned cylinder.

First use of Lanchester balancer shifts with antifriction bearings in a petrol engine

The secondary inertia forces inherently occurring in a four-cylinder in-line engine are compensated by two Lanchester balancer shafts in the bottom of the engine block. Mercedes-Benz is the first automobile manufacturer to use antifriction bearings to balance masses: imbalances are compensated by cylinder roller bearings, with axial forces from the gearing taken up by a ball bearing. This arrangement not only improves driving comfort, but also helps to lower fuel consumption thanks to considerably less friction. In view of the more favourable connecting rod configuration, the 1.6-litre version requires no Lanchester dynamic balancing.

Mercedes Benz A-Class Minimized friction

Particular attention was also paid to reduced friction. This was primarily achieved by a reduction in flow through the oil and water pumps, low-friction pistons, piston rings and cylinder walls, plus the new thermal management system and chain drive. The engine and transmission are mounted at four points by an engine mounting, a transmission mounting and two pendulum supports. These are specially configured for the needs of the high-torque engine variants with a view to maximum noise comfort. The hydraulic damping integrated into the transmission mounting also contributes decisively to the excellent driving comfort.

Learn More About the Mercedes Benz A-Class

Gerald Ferreira

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Published : Tuesday April 16, 2013

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