2009 Yamaha R1: Engine with uneven firing order

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2009 Yamaha R1: Engine with uneven firing order

#1 Unread post by totalmotorcycle »

2009 Yamaha R1: Engine with uneven firing order
Wednesday, February 26th, 2009 - Yamaha Design Cafe Press Release - Total Motorcycle - http://www.totalmotorcycle.com


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“The ultimate cornering Master” was the key phrase in the development of the 2009 YZF-R1. Yamaha engineers took this challenge so serious that they developed a revolutionary new engine layout, with a cross-plane crankshaft and irregular firing order. Read about the technical background in this story!


At first we’ll explain the basics for a 4-cylinder engine and then we’ll explain what makes the 2009 R1 engine so special.

4-cylinder engine basics
Yamaha’s YZF-R1 engine is a four-stroke, four-cylinder engine. Each cylinder displaces 250cc, and the combination of 4 cylinders gives a total of 1000cc (4 x 250cc = 1000cc).

As this engine is a four-stroke engine a complete cycle with 1 cylinder’s ignition of this engine takes 720 degrees of crankshaft rotation (or two full turns of the crankshaft). This cycle happens in four stages as listed below:

1) SUCK
If we begin with a piston at the top of a cylinder and push this piston down to the bottom of the cylinder. This will rotate the crankshaft through 180 degrees and create a ‘vacuum’ in the cylinder. While this ‘vacuum’ is being created two valves at the top of the engine will open and the negative pressure will suck in the mixture of air and fuel into the cylinder (with the help of the injector and possibly forced air intake depending on the speed of travel, etc). The valves at the top of the cylinder will close when the piston reaches the bottom of this stroke.
(Total of 180 degrees of crankshaft rotation so far)

2) SQUEEZE
The crankshaft must then rotate through another 180 degrees, pushing the piston back to the top of the cylinder compressing the fuel/air mixture (by a ratio of 12.7:1 on the 2009 YZF-R1 engine).
(Total of 360 degrees of crankshaft rotation so far)

3) BANG
The spark plug must then ignite the fuel/air mixture, pushing the piston back to the bottom of the cylinder with considerable force. This turns the crankshaft through another 180 degrees of rotation and is often referred to as the ‘Power Stroke’.
(Total of 540 degrees of crankshaft rotation so far)

4) BLOW
Now we have a cylinder with exhaust gas, so the 2 exhaust valves at the top of the cylinder open, the crankshaft rotates through its final 180 degrees, pushing the piston back to the top of the cylinder (with the piston pushing the exhaust gas out of the open valves). When the piston reaches near to the top of this phase the exhaust valves will close and this whole 4 step (or 4-stroke) cycle can begin again.
(Total of 720 degrees of crankshaft rotation so far)

Firing order
Yamaha’s YZF-R engines upto and including the 2008 YZF-R1 model have used a 180 degree firing order. This means that for every 180 degrees that the crank-shaft rotates one of the spark-plugs fires producing a ‘power stroke’ or ‘pulse of power’ for that cylinder. As there are four cylinders this means the power of the engine can be spread evenly throughout the full 720 degrees of the 4-stroke engine cycle as outlined above. Pistons 1 and 4 rise and fall together and pistons 2 and 3 rise and fall together. The order in which the spark-plugs fire and the cylinders create power is 1 – 3 – 4 – 2; this arrangement helps disperse the pressures and stresses the engine has to tolerate to produce such high power and fast revs


Power and Torque basics
When considering the power that an engine creates there are two main figures that are important, the Torque and the Maximum Power.

The torque is the tendency of a force to rotate an object around its axis. It is measured in force times distance (to the axis, as a lever). In this respect, it is directly related to the actual pulling force of the engine and is most noticeable when cornering (whilst using midrange power).

The maximum power output an engine produces is the ‘work’ it actually does in a certain period of time. This is related to the force also, times the distance over which the force is exerted, in a certain period of time.
By definition, at higher rpm the distance over which the force is exerted is higher and therefore the maximum power figure can be found near the maximum rev speed of an engine.

When Yamaha’s engineers consider the torque that is created by an engine they consider two different types of torque.

• The first and most obvious torque that is created is with the combustion of fuel in a cylinder; forcing the piston down and creating a power pulse producing torque. This is called combustion torque and is directly controlled by the riders input on the throttle.

• The second torque that is created is slightly more complex. Due to the weight and mass of the pistons, conrods and crankshaft when they spin they create inertia. This Inertia continues after the initial forces from the combustion have disappeared. The weight and mass of the rotating parts in the engine continue to spin.

Another example of these forces can be found when spinning a coin on a table. Once you spin the coin and release it from your fingers the coin will continue to spin even though you are not ‘powering’ it. The initial input from your fingers is similar to composite torque – providing a positive input of torque, the reason the coin will continue to spin is because of the inertia – the forces produced by the rotating weight or mass in the coin.



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New crankshaft: pistons rise and fall alone to spread the mass

When we consider a conventional 4 cylinder crankshaft we have two pistons and con-rod’s rising and falling together. (the outer two pistons rise and fall together, also the inner two pistons rise and fall together). The weight and mass of this type of crankshaft creates large fluctuations in the inertial torque which is not directly influenced by the riders input on the throttle (because the inertial torque is related to the mass of the rotating parts – which can not be changed by the rider).

The new R1 engine’s revolutionary layout
The 2009 YZF-R1 engine changes the crankshaft layout so that one piston rises and falls alone at any time (pistons do not rise and fall in pairs as with a conventional engine), spreading the weight and mass evenly through-out the crankshaft rotation and smoothing out the fluctuations in inertial torque. Yamaha call this type of crankshaft arrangement a “Cross-plane Crankshaft” because the pistons are placed at even 90 degree intervals of rotation across the crankshaft, giving two planes that cross at 90 degrees angle – hence the name “Cross-plane Crankshaft”. This creates a smoother torque delivery through-out the entire rev range and gives the rider a more accurate feeling of the power that the engine is producing.

With the more direct feeling that the cross-plane crankshaft gives to the rider it is easier to feel the grip from the rear wheel and allows the rider to accelerate earlier compared to the feeling when riding pre-2009 YZF-R1 engines.

This technology was developed and fine-tuned on the YZR-M1 and has been an instrumental part of the success Yamaha have achieved in MotoGP. Up to the 2009 YZF-R1 the cross-plane crank-shaft has never been fitted to a production motorcycle due to the complicated shapes in the crank-pins and crankshaft parts, and vibrations associated by this type of engine layout. For this reason the 2009 YZF-R1 has been fitted with a primary coupling balancer to minimize the vibrations.

This new type of engine configuration is one of the key components to create the ultimate cornering 1000cc motorcycle. Yamaha has developed a fantastic engine that will show its advantages on the racetrack; and also on the road.

Uneven firing
The new engine’s uneven 270° - 180° - 90° - 180° firing interval creates a whole new feel to the inline 4-cylinder engine, giving the rider a more precise and immediate feeling of control over the torque output levels.

The asymmetric firing sequence achieves a strong pulse at low to mid rpm range. together with excellent linearity across the whole rpm range.

This new engine feature, coupled with the cross-plane crankshaft gives the 2009 YZF-R1 a unique feeling and performance character unlike any other production motorcycle on the road today!

Sound
The sound of the engine will be one of the first things to notice when starting the engine; a deeper growl beckons the rider to go for a ride.

As the road begins to weave and corners appear and disappear behind you its easily noticeable how much traction the rear tyre now offers. Accelerating from a corner now becomes easier and more stable, in fact you can begin to accelerate so much earlier in the corner that you feel amazed and excited by the new level of fun you have just stumbled upon.

The flexibility of the engine and new found grip opens up a whole new experience of riding – whether using the middle of the rev range or the peak power at maximum revs the YZF-R1 keeps you both excited and reassured.

This new uneven firing order YZF-R1 engine is another example of Yamaha pushing the limits of the production motorcycle and delivering racetrack technology directly to the faithful R-series riders.

Road riding has reached a new level –Be the one!
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#2 Unread post by fireguzzi »

Wow, interesting. Seems like it would create a lot of side to side vibrations. Wonder if the balancer really stops that. :?
[img]http://i46.photobucket.com/albums/f101/fireguzzi/papabarsig.jpg[/img]

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R1

#3 Unread post by RC DAVE »

GOT TO CHECK OUT NEW R1 AT LOCAL SHOP HERE. THE BIKE IS DIFFERENT IN ALL ASPECTS THE BODY WORK EXPOSES THE ENGINE ALOT AND IT'S STACKED MORE THAN ANY THING OUT THERE DAYTONA THIS WEEK WILL BE GOOD. SUZUKI IS STILL BUILDING 08 BIKES 09 WASNT IN CONTRY SOON ENOUGH FOR THE MASSES. ANYWAY YAMAHA DID THERE HOME WORK THIS YEAR BIG TIME CANT WAIT TO SEE RESULTS IN AMA(DMG) ? THE R1 LABLE IS BACK BUT MAYBE A LITTLE ON THE BULBUS SIDE OF THINGS. THE R6 IS AWESOME LOOKING.
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R1

#4 Unread post by RC DAVE »

FORGOT ABOUT THE EXHAUST YAMAHA NEEDS TO RETHINK IT. VERY FEW BIKES OUT THERE HAVE THE UNDER TAIL GIMICK STILL GOING IT LOOKS LIKE THE RIGHT SIDE WILL STILL BE HOT AND HEAT UP THE SHOCK FOR SURE. I WANT ONE !
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#5 Unread post by jmillheiser »

Go check youtube for a video of this bike, the engine sounds EXACTLY like a motoGP bike, it doesn't sound like a normal 4 cylinder.

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#6 Unread post by High_Side »

They need to put that engine in a revised FZ1 with more modern bodywork. I can't think of a better replacement for the VFR Honda that I have in the garage right now (it even sounds like the VFR)

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2009 R1 firing interval 270°- 180°- 90°- 180°

#7 Unread post by ajcamm »

I have been doing a lot of research on the new cross-plane crankshaft design by Yamaha, and it's advantages over a conventional flat-plane crankshaft.
I understand the interial torque advantage, but am caught on the uneven firing advantage. Particularly the firing interval of 270°- 180°- 90°- 180°. I am not a mechanic and this terminology is new to me, but my interpretation is this - piston 1 fires at 270° of crank rotation, piston 2 180° later, piston 3 90° later, and poston 4 180° after that. I made a table to describe this, and to make sure that my interpretation makes sense with a 90° crank pin position. The two agree, but I have not found a confirmation of this anywhere!!
I pasted this table from excel, so it may not format in this post, so copy and paste to excel to see it better(including the '^t'). The first column is the crank position in degrees, and the top row is the piston number.


^t 1 2 3 4
0 Exhaust Power
90 Compression Intake
180 Intake Exhaust
270 Power Compression
360 Compression Intake
450 Exhaust Power
540 Power Compression
630 Intake Exhaust


Cheers,
~Andy

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