engines

Desmosedici Stradale

The heart of Ducati's supersport bikes

Desmosedici Stradale is based on the experience gained in MotoGP where the performance of the four-cylinder Desmosedici is at the top of its class, was designed to equip future Ducati supersport models. Desmosedici Stradale is the sound of a new era.

Racing derivation

The Desmosedici Stradale was developed to combine racing performance with all the necessities for road use. The engine has a larger displacement than the MotoGP, 1,103 cm3 to be precise, to maximize the mid-range torque qualities that are so important for the bike's enjoyability on roads open to traffic, and to obtain torque and power at lower revs. 

V4 90° V4 90° layout

For Ducati, the V4 layout at 90° is the utmost expression of sportiness for a motorcycle engine. It is no coincidence that it is the same solution used in the MotoGP Desmosedici engines. The 90° V layout of the cylinders creates a natural balancing of first-order forces without the need to resort to a balance shaft to eliminate the vibrations that notoriously entail increases in weight and power absorption.
DESMODROMIC SYSTEM Desmo: blending tradition and the future

The new engine is designed around the Desmodromic system, a characteristic that helps make Ducati the fastest prototypes of the top racing class in motorcycle racing. With this high-rotation engine the "Desmo" achieves its maximum technical value, reaching levels of sophistication, compactness and lightness never seen before on a Ducati.
CRANKSHAFT Counter-rotating crankshaft

On street bikes the crankshaft rotates in the same direction as the wheels. In contrast, in MotoGP the counter-rotating crankshaft that rotates in the opposite direction is commonly used. The Desmosedici Stradale has borrowed this technical solution to compensate for part of the gyroscopic effect produced by the wheels, making the bike more agile and precise when changing directions. The counter-rotating crankshaft also generates a torque due to inertia that tends to lower the front end during acceleration, and the rear end when braking, thus reducing the wheelie phenomenon.
FIRING ORDER "Twin Pulse" firing order

The crank pins, offset by 70° like on the Desmosedici GP, require a "Twin Pulse" firing order to generate power that is easy to handle and optimise traction when coming out of curves ("Big Bang" effect). Thanks to this firing order the Desmosedici Stradale makes a unique and distinctive sound.
The Desmosedici Stradale on the new Panigale V4

On the new Panigale, the Desmosedici Stradale engine takes an evolutionary step that enables it to comply with the stringent Euro 5+ regulations and the inseverance of noise tests. It can even boast a slight increase in maximum power of 0.5 hp. Added to this is the use of lightened components that allow the engine's weight to be reduced by 1 kg also with benefits in terms of inertia reduction.

Camshafts Intervention on camshafts to make them lighter.
Silencer Muffler remains under the seat despite Euro 5 regulations. The exhaust system has been redesigned. at the level of the turn of the manifolds, and the silencer.
Engine Covers To limit weight, all engine covers are made of magnesium using die-casting technology.

Listen to the Sound of the Track 🔊

Put the headphones on and close your eyes. Can you picture yourself in the circuit on a Panigale V4?

Listen to the Sound of the Track 🔊

Panigale R: a heart that beats even faster.
A dream engine for the Superleggera V4.

Beneath the carbon skin lies the more powerful and lighter Desmosedici Stradale R. The Superleggera V4's 998-cfm 90° V4 weighs 2.8 kg less than the 1,103-cfm V4. The engine's racing connotation is emphasized by the use of a dry clutch and the manual adjustment of the desmodromic timing system made for each example.  

Racing performance. Unmistakable sound.

The Desmosedici Stradale has a V-shaped 4-cylinder layout and relies on desmodromic distribution. As a Euro 5+ version, it delivers more than 216 hp at 13,500 rpm on the Panigale V4, an increase in power of 0.5 hp over the previous version, rising to 2.5 hp over peak power at 14,500 rpm. The engine also delivers 120.9 Nm of torque at 11,500 rpm, and as early as 6,000 rpm it makes 80 percent of the maximum available torque available.  

Displacement
1,103 cc
Power
158.9 kW (216 hp) @ 13,500 rpm
Torque
120.9 Nm (89.2 lb-ft) @ 11,250 rpm
Wet weight no fuel
191 kg (421 lb)
Seat Height
850 mm (33.5 in)
Maintenance service intervals
12,000 km (7,500 mi) / 12 months
Tech Spec
Displacement
998 cc
Power
160.4 kW (218 hp) @ 15,500 rpm
174 kW (237 hp) @ 15,500 rpm with full racing exhaust*
Torque
111.3 Nm (82 lb-ft) @ 12,000 rpm
118 Nm (87 lb-ft) @ 12,250 rpm with full racing exhaust*
Wet weight no fuel
184 kg (406 lb)
179 kg (395 lb) with full racing exhaust*
Seat Height
850 mm (33.5 in)
Maintenance service intervals
12,000 km (7,500 mi) / 12 months
Tech Spec
Displacement
1,103 cc
Power
158.5 kW (215.5 hp) @ 13,000 rpm
Torque
123.6 Nm (91.2 lb-ft) @ 9,500 rpm
Seat Height
850 mm (33.5 in)
Maintenance service intervals
12,000 km (7,500 mi) / 12 months
Tech Spec
Displacement
1,103 cc
Power
153 kW (208 hp) @ 13,000 rpm
Torque
123 Nm (90.4 lb-ft) @ 9,500 rpm
Wet weight no fuel
190 kg (419 lb)
Seat Height
845 mm (33.3 in)
Maintenance service intervals
12,000 km (7,500 mi) / 12 months
Tech Spec
Displacement
1,103 cc (67 cu in)
Power
132 kW (180 hp) @ 12,250 rpm
Torque
118 Nm (12.0 kgm) @ 9,500 rpm
Wet weight no fuel
225 kg (496 lb)
Seat Height
Adjustable, 840 mm - 860 mm (33.1 in - 33.9 in)
810 mm - 830 mm (31.9 in - 32.7 in) with low seat accessory
Maintenance service intervals
15,000 km (9,000 miles) / 12 months
Tech Spec

Specs

Desmodromic system

Like all Ducati engines, on the Desmosedici Stradale the design of the Desmodromic system is a key factor for obtaining top performance. The Desmodromic system in the Desmosedici Stradale uses components that have been completely redesigned and miniaturised to obtain very compact heads, achieving a level of sophistication, compactness and lightness never seen before on a Ducati bike.

Counter-rotating crankshaft

On normal motorcycles the crankshaft rotates in the same direction as the wheels. In contrast, in MotoGP the counter-rotating crankshaft rotates in the opposite direction. The Ducati engine specialists have borrowed this technical solution from the racing models for the same reasons it was applied in the competitive world. In fact, this solution has advantages related to two aspects of physics: the gyroscopic effect and inertia.

On normal motorcycles the crankshaft rotates in the same direction as the wheels. In contrast, in MotoGP the counter-rotating crankshaft rotates in the opposite direction. The Ducati engine specialists have borrowed this technical solution from the racing models for the same reasons it was applied in the competitive world. In fact, this solution has advantages related to two aspects of physics: the gyroscopic effect and inertia. The counter-rotating crankshaft makes it possible to compensate part of the gyroscopic effect produced by the wheels while riding, and this results in improved handling and a motorcycle that is more agile when changing direction.

The second advantage is related to inertia (that is, the tendency of an object to oppose a change in state) both of the vehicle and the rotating engine parts. During acceleration, the driving torque transmitted to the ground pushes the vehicle, which reacts by generating a tendency to do a wheelie. Due to inertia, the counter-rotating crankshaft generates a torque in the opposite direction, which thus tends to lower the front end thereby reducing the wheelie phenomenon, with also benefits acceleration.
Likewise, during braking or fast decelerations, the motorcycle experiences a reaction that tends towards rear lift-up, but the crankshaft also undergoes a deceleration (reduced rpms) and this results in an inertial torque in the opposite direction that counters the force seeking to lift the rear end. Consequently, both in acceleration and braking, the adoption of the counter-rotating shaft provides positive effects.
Clearly, this layout requires an additional toothed wheel, the so-called idle wheel, which is necessary to transfer the crankshaft motion to the gearbox and then to the wheels so as to provide the correct rotation for the direction of travel.

"Twin Pulse" firing order

The 70° offset of the crank pins combined with the 90° V-engine layout generates a firing order that Ducati has called "Twin Pulse" because it is as if the engine were reproducing the firing sequence of a twin cylinder. The peculiarity lies in the rapid firing of the two cylinders on the left side and then on the right side of the motorcycle. In the timing diagram, the firings are situated at 0°, 90°, 290° and 380°. This particular firing order gives the V4 a sound that is quite similar to that of the Desmosedici MotoGP.

The 70° offset of the crank pins combined with the 90° V-engine layout generates a firing order that Ducati has called "Twin Pulse" because it is as if the engine were reproducing the firing sequence of a twin cylinder. The peculiarity lies in the rapid firing of the two cylinders on the left side and then on the right side of the motorcycle. In the timing diagram, the firings are situated at 0°, 90°, 290° and 380°. This particular firing order gives the V4 a sound that is quite similar to that of the Desmosedici MotoGP.

In practice, imagining a cycle that starts with 0°, the first cylinder of the front bank "fires", generator side, followed, after only 90° of rotation, by the rear bank cylinder on the same side. Then there is an interval during which the engine does not generate drive torque until the firings 90° from each other in the two cylinders on the clutch side.

The "Twin Pulse" firing order, besides producing a unique exhaust sound unlike any other motorcycle, music to the ears of a true enthusiast, generates a type of power that was judged to be the best by the Ducati MotoGP riders as it generates important advantages at the power level and therefore the rideability of the motorcycle, especially when cornering and coming out of curves.

Oval throttle bodies

Each throttle body has two injectors: a sub-butterfly one for low-load use and another above it that comes into play when maximum engine performance is required. The throttle bodies of each cylinder bank are moved by a dedicated electric motor. Thanks to the full Ride by Wire system, this allows complex electronic control strategies and modulation of engine 'feel' according to the selected riding mode.

Weight

The collaboration with Ducati Corse has made it possible to achieve a compact, lightweight and high performance engine. Weighing 64.5 kg, the Desmosedici Stradale is only 2 kg heavier than the 1,285 cm³ twin-cylinder Superquadro.

Pistons

Pistons having a diameter of 81 mm churn in the barrels of the cylinders, with two piston rings, low friction, plus oil scraper ring. They are moulded in aluminium and utilise the "box in box" technology that makes it possible to contain the skirt height and the thickness under the piston crown thus reducing friction and inertia loads while maintaining the required durability and stiffness.

Compression ratio

The compression ratio is 14:1, a high value that once again reflects a design of competitive origin. The pistons are coupled to steel forged rods with a centre distance of 101.8 mm.

DQS Up & Down: changing gears like in a race

The perfect functionality of the six-speed gearbox is enhanced by the Ducati Quick Shift EVO (DQS EVO), which offers a fundamental evolution: changing gears with the throttle open. Furthermore, DQS EVO follows different logics to shift up and down. Integration with the slipper clutch and engine brake (Engine Brake Control) ensures the system's absolute effectiveness even on the track.

Slipper clutch

The wet clutch with progressive control optimally combines high torque drive and rider comfort. In competitive riding conditions, with sudden downshifts and strong engine braking, the slipper clutch counteracts the loss of stability of the rear end, offering excellent control while braking deep in corners.

Semi-dry casing lubrication

Like the MotoGP engines, the Desmosedici Stradale uses a semi-dry casing lubrication with delivery and recovery stages to ensure proper lubrication of all moving parts at all times.

Like the MotoGP engines, the Desmosedici Stradale uses a semi-dry casing lubrication with delivery and recovery stages to ensure proper lubrication of all moving parts at all times.
The oil pump, driven by a chain, consists of four stages, one for lobe delivery and three for recovery, one with gears to draw oil from the heads through two ducts, while the other two pumps have lobes and ensure effective recovery of lubricating oil in any condition of engine use, while maintaining the engine crankcase underneath the pistons under controlled constant vacuum conditions, reducing losses due to ventilation, that is, the power absorption caused by the aerodynamic resistance offered by the air and the beating of the oil present in the connecting rod compartment.

The oil tank, which also serves as a filter housing, is situated in a magnesium oil sump mounted under the crankcase and connected to the gearbox compartment, but separate from the crankcase. For cooling the oil a dedicated radiator is used, secured below the water cooler.

Cooling system

The water pump, located in the V of the cylinders, is powered by a shaft driven by a cascade of gear wheels. Its location is designed to reduce the size of the circuit as much as possible, improving its efficiency and optimising engine weight.

Lighter engine

The use of lightened components reduced engine weight by - 1kg.

Engine weight reduction measures included, in addition to the lightened camshafts, the use of lighter components derived from the Panigale V4 R and Superleggera V4 such as the oil pump, alternator rotor and gear drum. Added to these are the clutch, primary and idler gear with a more compact gear band.

Magnesium

The Desmosedici Stradale takes advantage of magnesium alloy for numerous components including the head covers, oil pan, alternator and clutch. A technical choice that also positively impacts aesthetics.

Models adopting Desmosedici Stradale

The Desmosedici Stradale is the heart of Ducati's supersport bikes. It thus equips all versions of the Panigale V4 and the Streetfighter V4.  

Panigale V4
Panigale V4 SP2 30° Anniversario 916
Streetfighter V4
Streetfighter V4 SP2
Panigale V4 R
Multistrada V4 RS
216 hp Power
89.2 lb-ft Torque
191 kg (421 lb) Wet weight no fuel

Panigale V4

Wonder. Engineered.