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Discovering the inside of the 9G-TRONIC: Innovative solutions for maximum comfort and outstanding energy efficiency
OverviewDeveloped for in-house drive systems: The best out of 85 billion possibilitiesDiscovering the inside of the 9G-TRONIC: Innovative solutions for maximum comfort and outstanding energy efficiencyNew nine-speed automatic transmission in the Mercedes-Benz E 350 BlueTEC: Premiere of the new 9G-TRONICReview of automatic transmission development: 22 million automatic transmissions from Mercedes-BenzTransmission controlled by electronics: Artificial intelligence for a natural driving experience
- Patented gearing concept with four planetary gear sets and six shift elements
- Nine gears with a wide ratio spread of 9.15
- New torque converter: high efficiency level of 92 percent
- More comfort: twin-turbine torsion damper with centrifugal pendulum and torque converter lockup clutch with return spring
- Demand controlled oil supply: highly efficient vane cell pump and electric auxiliary pump
- Innovation: main transmission shaft with three deep-drilled holes
- Compact lightweight construction: less installation space and reduced weight
The drive element of a classic automatic transmission is the hydrodynamic torque converter. In the new 9G-TRONIC, the engineers have improved the hydraulic circuit in the torque converter and increased its efficiency to up to 92 percent. This extraordinarily good figure is important for fuel economy, as the losses imposed by physics when transferring the engine torque to the transmission's input shaft are kept to a minimum. In short: the 9G-TRONIC converts a very high proportion of the engine power into tractive power. In the first-generation 7G-TRONIC dating from 2003, the efficiency of this component was only 85 percent.
The heat generated during operation is reliably dissipated via the transmission oil cooler. Conversely, the 9G-TRONIC requires no additional radiator to warm the cold transmission oil when cold-starting under Arctic conditions. The second-generation, synthetic Fuel Economy low-friction oil also performs reliably at extremely low temperatures.
More comfort: twin turbine torsion damper and centrifugal pendulum
One of the most comfort-enhancing and at the same time fuel-saving features is the torsion damper, which compensates even more effectively for eccentricities and vibrations within the transmission. A basic physical law operates in this case: the lower the rpm and road speed, and the lower the number of cylinders, the more pronounced these can be. This results in a conflict of aims between comfort and fuel-efficient operation. It is resolved by the use of a twin turbine torsion damper additionally fitted with a centrifugal pendulum. Depending on the rpm, this shifts the centre of gravity and also allows comfortable vehicle operation in the most fuel-efficient operating range.
Moreover, the optimised damping enables slip in the torque converter lockup clutch to be reduced considerably, which likewise contributes to fuel economy.
For the first time, a return spring has been integrated into the torque converter lockup clutch of the 9G-TRONIC. The multi-disc lockup clutch was previously only hydraulically controlled. Use of the return pressure spring allows reliable and comfortable activation even at very low rpm.
New gearing concept with nine speeds patented worldwide
An intensive, computer-based system analysis and mock-up made it possible to realise a nine-speed transmission with just four simple planetary gear sets and six shift elements. Mercedes-Benz has secured a worldwide patent for this specific configuration, which the engineers consider to be the best possible.
A planetary gear set consists of the outer ring gear, the inner centre gear and between them the planetary carrier with the four planetary gears and their bearings. Four planetary gears are required in the 9G-TRONIC so that the expected torque of up to 1000 newton metres can be reliably transferred in future engine/transmission combinations.
The ring gear, planetary carrier and centre gear in a planetary gear set are connected by carriers and multi-disc clutches, or braked by the multi-disc brakes which are supported by the transmission housing. This enables the planetary gears to transfer drive torque to the inner teeth of the outer ring gear or to the outer teeth of the inner centre gear. The result is several gear ratios, and at the same time it is possible to reverse the direction of rotation for e.g. reverse gear.
The gear ratio is the ratio between the number of gear teeth on the driving and transferring gears. Depending which planetary gear sets are connected in series, blocked or separated, multiplying the part ratios produces the overall ratio for the relevant transmission gear.
In the 9G-TRONIC, the individual gears are engaged by three multi-disc clutches and three multi-disc brakes. The purpose of the multi-disc clutches is to transfer the drive torque between two components as a friction connection.
The ratio configuration of gears one to nine allows a wide ratio spread of 9.15. For the same performance compared to preceding transmissions, the rpm level is considerably lowered - as a decisive factor for the high energy efficiency and NVH comfort of models equipped with the 9G-TRONIC.
Reliable oil supply using the power of two pumps
To ensure the reliable and at the same time highly efficient supply of the durable and shear-resistant 2nd-generation synthetic fuel economy engine oil, the 9G-TRONIC is fitted with two pumps. The considerably size-reduced, mechanical main pump installed "off-axis" lies next to the main shaft and is driven via a chain. In an automatic transmission such as 7G-TRONIC, the main oil pump previously ringed the transmission shaft and was directly driven. This meant that the diameter of the transmission shaft prevented the pump from being reduced in size as desired. For this reason the highly efficient vane cell pump is now placed alongside the main shaft ("off-axis"), and is reduced in size to suit requirements.
The mechanical main pump, which ensures the oil supply to the electrohydraulically controlled automatic transmission when the internal combustion engine is running, is backed up by a separate electric auxiliary pump. On the one hand this design enables the flow of lubrication and coolant to be controlled actively on demand, and at the same time also means that the 9G-TRONIC can benefit from a start/stop system. In subsequent hybrid applications, this additional oil delivery also allows so-called "sailing", i.e. maintaining a constant speed without using the internal combustion engine.
When the engine is off - for example at a red traffic light in start/stop mode - the electric auxiliary pump is actuated, ensuring a defined basic pressure and guaranteeing that all necessary functions are maintained. When the driver wishes to move off on a green light, oil delivery by the electric pump after engine-starting guarantees immediate and agile acceleration. In certain operating states with the engine running, the auxiliary pump also assists the main pump, for example at very low engine speeds or in very high temperatures. In this case the flow of oil is added as needed to ensure smooth gear shifts or when there is a higher cooling requirement.
This innovative oil supply concept using a mechanical main pump and electric auxiliary pump, as well as demand-related control, accounts for around 54 percent of the total fuel-saving potential of the 9G-TRONIC. The relationship is clear: the less oil that has to be moved within the transmission by more efficient pumps, the higher the overall efficiency. The fully synthetic Fuel Economy low-friction oil also contributes to this.
Maximum precision: main transmission shaft with three deep-drilled holes
The main transmission shaft is another technical highlight of the 9G-TRONIC. Firstly, it is one of the longest shafts in the entire automotive industry at 550.9 millimetres. Secondly, it performs other functions in addition to its main purpose of power transmission: using a sophisticated internal ducting system, the shaft also performs various lubricating, cooling and control functions.
On the engine side, a large axial hollow-drilled hole measuring a few centimetres supplies the front planetary gear set with oil, which reaches the right places via smaller transverse holes. The drilled holes on the output side of the main shaft are far more interesting, however. Three parallel holes each measuring 6.1 millimetres are deep-drilled into the transmission shaft with a core diameter of 16 millimetres to a depth of up to 361.5 millimetres. These three deep-drilled holes have various functions in the 9G-TRONIC: via transverse holes, they ensure a defined oil flow rate to lubricate and cool the planetary gear sets and shift elements. They also perform an important control function, and transfer the set gearshift pressure to the muilti-disc clutches and brakes.
World premiere of a new drilling process
The machining of such a shaft is a production engineering masterpiece. The requirements are particularly exacting when drilling the three deep holes. To date no other automotive manufacturer or machine tool producer has dared to undertake such a task, with such a ratio between shaft diameter and hole depth.
To illustrate the requirements: Over their entire length of up to 361.5 millimetres, the deep-drilled holes must precisely meet the requirements to just a few thousandths of a millimetre. Machining must follow precisely defined geometrical specifications:
- distance and parallelity of the holes versus each other
- distance and parallelity of the holes versus the outer surface of the shaft
- avoidance of twisting during the drilling process
- radial positioning of the three drilled holes to ensure a free flow to the transverse holes
- correct depth of the individual holes
- residue-free drilling with no microfine swarf remaining in the holes
Reduction in cooling lubricants by 99.9 percent
As if the requirements were not already stringent enough, the developers set themselves other challenges. The operation was to be carried out with the minimum quantity of cooling lubricants. In addition, complex guidance of the 370-millimetre long drill bits was to be avoided and the processing time was to be considerably reduced.
Implementing these requirements produced impressive results. Conventional cooling lubricants are completely dispensed with when producing the 9G-TRONIC drive shaft. During the drilling process, a fine oil/air mist is sufficient for lubrication; this reaches the drilling face through a duct in the single-fluted drills. The generated heat and swarf are conducted away with no residue via a bead in the side of these single-fluted drills. The savings made possible by this so-called mist cooling technology are enormous. The requirement is reduced by 99.9 percent compared with conventional production processes. Specifically: whereas around 18,000 litres of cooling lubricant per hour were previously needed, the mist cooling technology requires only 0.3 litres. Even more specifically: rather than the capacity of an entire road tanker, the content of a household drinking glass is sufficient to ensure the high quality of the machining process.
Shorter processing times with improved quality
The processing time per shaft has been shortened just as dramatically, while improving production quality. To minimise cycle times in the production process, the production engineers eliminated the usual guide sleeves when spot-drilling. The machines drill the deep holes "free-hand", so to speak, while maintaining absolute dimensional accuracy. In addition, the single-fluted drills of cemented carbide allow high working speeds. Whereas the figure was around 125 millimetres per minute in the case of 7G-TRONIC PLUS, the new drills allow a speed of over 250 millimetres per minute. The net result is that it takes just under three minutes to process the main transmission shaft - around 63 percent less than the cycle time during the production of the 7G-TRONIC PLUS.
With the above improvements, Mercedes-Benz is further implementing the "Green Production" project in its production locations. This is because taken together, these improvements not only increase productivity and process quality, but of course also reduce the environmental burden by enabling savings in terms of cooling lubricants and a reduction in energy requirements thanks to shorter processing times.
Compact lightweight construction: reduced weight with the same installation space
With the change in generation from the 7G-TRONIC to the 9G-TRONIC, the development engineers placed further emphasis on the area of "compact lightweight design". Despite two additional gears and a maximum transferable torque of up to 1000 newton metres, the new automatic transmission requires just as little installation space as its predecessor, the 7G-TRONIC PLUS, and is also one kilogram lighter.
The two-piece housing design has been retained: the torque converter housing is made of lightweight aluminium alloy. The transmission housing with a weight-optimised plastic oil pan is made of an even lighter magnesium alloy.
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