2023 Ferrari 296 GTS Assetto Fiorano
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2023 Ferrari 296 GTS Assetto Fiorano
The 296 GTS, the latest evolution of Maranello’s mid-rear-engined two-seater berlinetta spider, premiered today online on https://www.ferrari.com/en-EN/auto/296-gts. The 296 GTS flanks the 296 GTB in redefining the whole concept of fun behind the wheel, guaranteeing pure emotions not just when pushing the car to its limits, but also in day-to-day driving situations. You can find more visual details of the 2023 Ferrari 296 GTS Assetto Fiorano gallery by scrolling up.
The 296 GTS uses the new 663 cv 120° V6, coupled with an electric motor capable of delivering a further 122 kW (167 cv), which debuted on the 296 GTB. This is the first 6-cylinder engine installed on a road-going spider sporting the Prancing Horse badge; it unleashes its class-leading 830 cv total power output to deliver previously unthinkable performance levels and an innovative, exhilarating and unique soundtrack, further enhanced by the fact that it can be relished with the top down.
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The car’s name combines its total displacement (2992 l) and number of cylinders with the GTS (Gran Turismo Spider) acronym in finest Ferrari tradition, to underscore this new engine’s epoch-changing importance to Maranello. It is not simply the living, beating heart of the 296 GTS, but it also ushers in a new V6 era that has its roots deep in Ferrari’s unrivalled 75-year history.
The very first Ferrari V6 featured a 65° architecture and debuted on the 1957 1500 cc Dino 156 F2 single-seater. This was followed in 1958 by larger displacement versions on the front-engined sports prototypes – the 196 S and 296 S – and the 246 F1 car which powered Mike Hawthorn to the F1 Drivers’ Championship title the same year.
The 296 GTS’s plug-in hybrid (PHEV) system guarantees it is an incredibly usable car as well as cutting pedal response times to zero and delivering a 25km range in all-electric eDrive mode. The car’s compact dimensions and the introduction of innovative dynamic control systems as well as meticulously honed aero ensure that the driver will instantly be impressed by its astonishing agility and responsiveness to commands. Its sporty, sinuous design and extremely compact dimensions also visually underscore its unique and modern forms, while skilfully referencing the likes of the 1963 250 LM, the perfect marriage of simplicity and functionality.
The RHT (retractable hard top) guarantees exceptional occupant comfort. With the roof stowed it features a sleek, sporty design and with the roof up, the silhouette remains very similar to that of the 296 GTB. The lightweight RHT takes a mere 14 seconds to retract or deploy at speeds of up to 45km/h. The separation line between the car’s body and the roof is above the B post. As a result, the folding roof splits into two sections that fold flush over the front of the engine, thus maintaining the engine bay’s thermal dissipation characteristics and the balance of the overall design. This also allowed the designers to introduce a window in the rear section of the engine cover through which the new V6 is clearly visible. When the top is retracted, the cabin and the rear deck are separated by a height-adjustable glass rear screen which guarantees optimal passenger comfort even at high speeds.
As was the case with the SF90 Stradale, for clients who want to exploit the car’s extreme power and performance to the utmost, particularly on the track, the 296 GTS is also available with the Assetto Fiorano package, which includes lightweight features and aero modifications.
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POWERTRAIN
The 296 GTS is the first Ferrari road-going spider to sport a V6 turbo with a vee with an angle of 120° between the cylinder banks, coupled with a plug-in electric motor. Presented for the first time in 2021 on the 296 GTB, the V6 has its turbos installed inside the vee. Aside from bringing significant advantages in terms of packaging, lowering the centre of gravity and reducing engine mass, this particular architecture helps deliver extremely high levels of power. The result is that the Ferrari V6 set a new specific power output record for a production car of 221 cv/l.
As the V6 turbo is integrated with an electric motor at the rear, the 296 GTS’s combined maximum power output is 830 cv, putting it at the top of the rear-wheel-drive spider segment. The hybrid element not only makes the car extremely versatile in terms of day-to-day driving with a full-electric mode range of 25 km, but also benefits the driving experience by providing instant and consistent response at all engine speeds.
The powertrain assembly comprises the turbo-charged V6 that feeds power to the rear wheels via the 8-speed DCT and E-Diff, and the MGU-K located between the engine and the gearbox. A clutch is set between the ICE and the electric motor to decouple them in electric-only eDrive mode. Lastly, there is a high-voltage battery and an inverter which powers the electric motor.
INTERNAL COMBUSTION ENGINE
Thanks to its 663 cv and 221 cv/l, the 296 GTS’s ICE sets the new specific power output record for a serie-production road-going spider. Central to achieving this result was the introduction of the 120° vee configuration with equally-spaced firings as well as the positioning of the turbos inside the vee, which produces a much more compact engine and optimally distributed masses.
The architecture provides the ideal combustion, but was also perfected in terms of component integration: in fact both the intake plenums and the engine supports are integrated on the intake sides of the cylinder heads. The engine is thus lighter and more compact because of the elimination of the plenums and additional supports, while the internal fluid-dynamics benefit from the reduction in volume, boosting intake efficiency. The 120° vee architecture, which offers more space between the cylinder banks than a 90° vee, meant the turbos could be installed centrally, thus significantly reducing the unit’s overall size and the distance the air has to cover to arrive in the combustion chamber, maximising the fluid dynamics and efficiency of the intake and exhaust line ducts.
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2023 Ferrari 296 GTS Assetto Fiorano Front View 3/4
To obtain this specific power output, the pressure in the combustion chamber had to be pushed to new heights. Boosting the pressure in the chamber demanded exceptional development from both a thermal-fluid-dynamic and structural point of view without compromising on engine weight and reliability. To that end, Ferrari poured all of its significant expertise in alloys, dimensioning and components into engineering the aluminium engine block and cylinder heads. Both components were designed specifically for the V6 architecture.
A timing chain takes drive from the crankshaft to the pump assembly (water and oil) and the valvetrain is commanded by an offset sprocket and a dedicated timing chain per cylinder bank. The main chain has a dedicated hydraulic tensioner, two bush chains with relative hydraulic tensioner and different calibrations for right and left bank, as well as a dedicated chain for the oil pump assembly. The valvetrain, which has roller fingers with hydraulic tappets, has specific intake and exhaust valve profiles.
The engine benefited from the latest Ferrari combustion chamber developments: central injector and spark plugs with 350-bar pressure injection system improve the fuel-air mix in the chamber, performance and reduce emissions. The intake and exhaust ducts were redesigned and tuned to maximise volumetric efficiency and thus guarantee high levels of turbulence in the chamber.
With the introduction of the V6 the IHI turbochargers have been completely redesigned using higher performance alloys. This meant the maximum revs of the turbos could be increased to 180,000 rpm, with a consequent improvement in performance and boost efficiency, which increases by 24%. The symmetrical, counter-rotating turbos are of the mono-scroll type: the technical solutions adopted have reduced the compressor wheel diameter by 5% and the turbo rotor by 11% compared to the V8 applications, despite the very high specific power. The reduction in the rotating masses (the inertia of the two rotating elements has been reduced by 11% compared to the 3.9l V8 solution) has reduced the spool-up time ensuring instantaneous power delivery.
The crankshaft is made from nitrided steel. To ensure it has a 120° crank angle, after the initial forging of the rough ingot, the crankshaft is twisted and then subject to deep nitriding heat treatments (to guarantee resistance to high loads), machining and balancing. The firing order of the new V6 (1-6-3-4-2-5) is the result of the crankshaft journal geometry. 100% of the rotating masses and 25% of the alternating masses are balanced, and therefore its level of balance allows loads on the bushings to be reduced without increasing the weight of the engine.
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The variable displacement oil pump was developed to guarantee that the oil pressure is continuously controlled right across the engine’s entire operating range. A solenoid valve, controlled by the engine ECU in a closed loop, is used to control the pump’s displacement in terms of flow and pressure, delivering only the amount of oil required to guarantee the functioning and reliability of the engine, whilst simultaneously providing a reduction in the power absorbed by the pump itself. On the oil scavenge side, to minimise splashing losses, the suction system was made more powerful using six scavenge rotors: three specific, dedicated rotors for the crankcase below the crank throws, one for the distribution compartment and two for the cylinder heads.
In Ferrari engines, the intake plenum is normally located in the centre of the vee. However, the V6 hails a paradigm shift in that regard: its plenums are on the side of the cylinder heads and are integrated with the support for the throttle valve. The light thermoplastic material used to make them keeps engine weight down. This solution boosts performance because of the shorter ducts and consequent fluid-dynamic detuning, in addition to reducing time-to-boost as a result of the high pressure line’s smaller volume.
This architecture also led to the development of a more linear exhaust line located in the upper part of the engine compartment. The shape of the exhaust reduces back pressure and contributes to boosting performance. The exhaust manifold and catalyser housings are made entirely from Inconel®, a steel-nickel alloy that reduces the weight of the exhaust and makes it more resistant to high temperatures.
Sound-wise, the V6 engine rewrites the rulebook by harmoniously combining two characteristics that are normally diametrically opposed: the force of the turbos and the harmony of the high-frequency notes of a naturally-aspirated V12. Even at low revs, inside the cabin, the soundtrack features the pure V12 orders of harmonics which then, at higher revs, guarantee that typical high-frequency treble. This Ferrari’s soundtrack matches its performance, creating a sense of unprecedented involvement even with the top down, and marking the turning of a new page in Maranello’s berlinetta history.
Even to those outside the car, the shrill sound of the engine is instantly recognisable. The first in the F163 engine family, this V6 earned itself the nickname “piccolo V12” (little V12) during the development phase. The 120° V architecture guarantees a symmetrical firing order while the equal-length, tuned exhaust manifolds combined with the single exhaust line outside the hot-V amplify the pressure waves. These characteristics are what lend such purity to the orders of harmonics, which are further helped by a rev limiter that hits an impressive 8500 rpm. The patented “hot tube” adopted on the 296 GTB has been completely redesigned for the 296 GTS to further enhance the engine sound both when the top is deployed and retracted. It is positioned prior to the exhaust gas treatment systems so that it channels the pure sound into the cabin, further enhancing driver involvement and excitement.
Redesigning the 296 GTS’s engine bay to seamlessly integrate the retractable hard top means that the engine has the same wonderfully rich tone and intensity as the 296 GTB when the roof is up. The exhaust resonator system (Hot-Tube) has been optimised for the new cockpit geometry. When the top is retracted the whole driving experience goes into another dimension: the dropping of the top creates a direct, completely unobstructed connection between the cockpit and the sound produced by the single tailpipe exhaust line.
ELECTRIC MOTOR
This is the first ever Ferrari spider with a rear-wheel drive-only PHEV (Plug-in Hybrid Electric Vehicle) architecture in which the ICE is integrated with a rear-mounted electric motor producing up to 122 kW (167 cv) derived from the Formula 1 application from which it also inherits the MGU-K (Motor Generator Unit, Kinetic) moniker. The electric motor and ICE communicate via the Transition Manager Actuator (TMA) which allows them to be used both together to produce a combined power output of 830 cv, or decouples them to allow the electric motor to run solo.
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Aside from the V6 turbo and the 8-speed DCT already adopted on the SF90 Stradale, Ferrari Roma, Portofino M, the SF90 Spider and the 296 GTB, the powertrain architecture also includes the MGU-K electric motor positioned between the engine and gearbox, the TMA to decouple the electric motor from the ICE, the 7.45 Kwh high voltage battery, and the inverter which controls the electric motors.
The MGU-K is a dual-rotor single-stator axial flux motor. Its compact size and its structure allowed the length of the powertrain to be reduced which, in the final analysis, helped shorten the 296 GTS’s wheelbase. The electric motor charges the high voltage battery, turns on the ICE, supplies it with additional torque and power (up to 167 cv) and allows the car to be driven in all-electric eDrive mode. The MGU-K’s improved design allows it to reach maximum torque of 315 Nm, around 20% more than previous applications.
The TMA (Transition Manager Actuator) allows very rapid static and dynamic transitions from electric to hybrid/ICE mode and vice-versa, thereby guaranteeing smooth, progressive torque. Its control software, which was developed entirely in-house by Ferrari, communicates with the DCT, motor and inverter software to more efficiently manage ICE ignition and its connection and disconnection to the transmission. Thanks to new generation components, the TMA allowed the design of an incredibly compact transmission: the system has an overall impact on the length of the powertrain of just 54.3 mm. Its architecture comprises a triple-plate dry clutch, a clutch command module in line with the driveline with a clutch control linkage, and ECUs.
Thanks to an innovative design manufactured using laser welding, the 296 GTS’s high voltage battery has a 7.45 kWh capacity and a competitive weight/power ratio. The battery pack is located on the floor behind the seats and to minimise volume and weight, the cooling system, structure and fixing points are integrated into a single component. The modules contain 80 cells connected in series. Each Cell Supervisor Controller is installed directly in the modules to reduce volume and weight.
The 296 GTS’s inverter is based on two silicon modules connected in parallel, the power deliver mode of which has been optimised to achieve the MGU-K’s torque increase to 315 Nm. This component converts the electric energy with an extremely high level of efficiency (over 94%) and can supply the power required to start the V6 even when there is maximum demand for electric power.
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2023 Ferrari 296 GTS Assetto Fiorano Interior
AERODYNAMICS
The 296 GTS bursts into the mid-engined berlinetta sports car range with several radical and innovative solutions. With the turbo installed above the vee of the crankcase in a hot-V configuration, that all of components most critical to heat generation are now clustered in the upper centre area of the engine bay, which in turns allows more efficient heat management both of the engine bay itself and of the electrical components. This sharp break from the past is further highlighted by aero choices, which have turned the active aero paradigm, introduced from the 458 Speciale onwards, on its head. On the 296 GTS, an active device is being used not to manage drag but to generate extra downforce. The LaFerrari-inspired active spoiler integrated into the rear bumper allows the 296 GTS to generate a high level of rear downforce when required: the equivalent of a maximum of 360 kg at 250 km/h in the high-downforce configuration with the Assetto Fiorano package.
This impressive performance was achieved by seamlessly optimising the car’s volumes. The result is a car with an extremely clean, elegant design in which all the performance-oriented elements meld effortlessly with the styling, underscoring the inextricable marriage of technology and aesthetics that is the signature of all Ferraris. The aero development work done on the 296 GTS means that even in low-drag configuration the car can deliver more downforce than previous applications. In high-downforce configuration, there is an additional 100 kg in downforce thanks to the active spoiler.
The ICE and the gearbox are cooled by two radiators installed at the front of the car, ahead of the front wheels, where there are also two condensers for the high-voltage battery cooling. The hot air is evacuated along the underbody, to avoid it interfering with the cooling air to the intercoolers along the upper part of the flanks. This choice made it possible to maximise efficiency and thus minimise the size of the air intake, further streamlining the car’s already clean styling. The radiators for the hybrid system have been given two vents just below the side sections of the spoiler. This solution frees up the central part of the front of the car, which has thus been used to generate downforce, and optimises the routing of the various circuits, to the direct benefit of packaging and weight.
The engine bay incorporates both the usual ICE components, which function at peak temperatures of over 900° Celsius, and electric and electronic components that must function at lower temperatures. This led to a complete redesign of the turbo layout and the entire exhaust line.
The brake cooling system was developed around the Aero callipers that debuted on the SF90 Stradale with ventilation ducts integrated into their castings. This brake cooling concept requires a dedicated duct to correctly channel cool air coming in through the air intakes on the front bumper through the wheelarch. In the case of the 296 GTS, the intake has been integrated into the headlight design. Just below the DRL, on the inner section, an aperture connects the wing to the wheelarch via a duct running parallel to the chassis strut.
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This made it possible to push the design of the car’s underbody to new extremes, increasing the cooling capacity of the underbody without having to adopt any active front aero mechanisms. The signature aerodynamic element at the front of the 296 GTS is the ‘tea-tray’. The arrangement of the radiating masses at the sides of the car frees up a central volume into which the tea tray is set, framed by the bridge that perfectly integrates it into the architecture and styling of the front bumper. This aero device uses a concept widely applied to single-seaters: the rear surface of the bumper works in synergy with the upper surface of the tea tray to create a high overpressure field, which counteracts the depression field that characterises the underbody. The two different pressure regions remain separate as far as the edges of the tea-tray. But at those points, the two fields of opposing pressure come together once again and the air flow rolls back on itself creating an extremely coherent and energised vortex that is directed below the underbody. The vortex movement of the air translates into a localised acceleration of the flow that produces a high level of suction and greater downforce over the front axle.
Looking at the car from the front, the side volume creases sharply inwards, almost folding up over the side splitter. The empty volume thus created allows the flow to be more efficiently channelled and maximises the flow in the lower part of the bumper. To exploit the potential of the flow striking the side splitter to the fullest, the bumper ahead of the wheel is completed by a vertical nolder which generates a local recompression area that increases downforce and increases the extraction capacity of the hot air from the radiators. Also on the side of the bumper, the side air curtain channels the air from the front part of the bumper towards the wheel well, so that it vents through a specially created opening in the wheelarch. The exit section of this duct is calibrated to contain the transverse expansion of the wake.
In the central section of the underbody, there is a localised lowering of the surfaces to the minimum height permitted under homologation requirements. This brought the car’s lower surface closer to the road, exaggerating the suction created as a result of ground effect, as well as front downforce. Immediately downstream of the lowered central area, the underbody has been slightly raised above the minimum height to maximise the quality of air flowing between the underbody and the ground, and also to expose more of the vertical surfaces of the vortex generator strakes. Their specific geometry and effect on the rear underbody guarantee that the car remains correctly balanced in all dynamic driving conditions.
The adoption of the ‘Aero’ brake callipers allowed the dedicated cooling system to be created without an intake duct under the suspension arm. The extra space freed up was used to widen the flat underbody in that area, which increased the downforce generating surface, and also to add an extra vortex generator with an innovative L section.
The aerodynamic development of the rear of the 296 GTS centred around managing the rear deck wake solution which has been optimised to work despite the constraints imposed by the installation of the RHT. The wing profile and flying buttresses guarantee the same aerodynamic and thermal efficiency as the 296 GTB. The spider version maintains the active aero device to generate downforce, a new concept for mid-rear-engined Ferrari berlinettas, which delivers an exceptionally high level of downforce.
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This active rear spoiler generates extra downforce and maximises the car’s handling and braking performance at high speeds. The active aero concept is actually the exact opposite of the one introduced on the Ferrari’s berlinettas from the 458 Speciale onwards. In previous applications, flaps on the diffuser allowed a transition from a high-downforce (HD) configuration to a low-drag (LD) one that allowed maximum speed to be reached on the straight. However, on the 296 GTS, when the active aero device is deployed it increases downforce.
The spoiler is seamlessly integrated into the bumper design, taking up almost all of the space between the taillights. When maximum downforce is not required, the spoiler is stowed in a compartment in the upper section of the tail. But as soon as acceleration figures, which are constantly monitored by the car’s dynamic control systems, exceed a specific threshold, then the spoiler deploys and extends from the fixed section of the bodywork. This combined effect results in a 100 kg increase in downforce over the rear axle which enhances the driver’s control in high-performance driving situations and also minimises stopping distances under braking.
The specific conformation of the 296 GTS’s tonneau cover creates a virtual fairing that mimics the aerodynamic behaviour of the coupé. This means that the air above the profile is correctly deflected so that the car’s aerodynamics and cooling are as efficient as possible. Thanks to this optimisation work, the 296 GTS’s active spoiler delivers the same downforce as the 296 GTB.
The significant development of the front required the effect on the rear to be counterbalanced in low drag configuration i.e. when downforce over the rear does not benefit from the extra 100 kg. In this regard, the designers fully exploited the opportunities opened up by the layout of the exhaust line which clustered the main heat sources in the upper part of the engine compartment. This allowed the ventilation apertures for the components under the engine cover to be optimised, thereby clawing back large surfaces for downforce generation, particularly in the central area under the engine, which avoided damaging impacts on the efficiency of the underbody flow.
Because the flow upstream from it is so efficient, the rear diffuser has a very clean, linear design that is in perfect symbiosis with the upper section of the rear bumper. The central channel of the diffuser is characterised by a double kink line. Thanks to this device, it is possible to modify the direction in which the flow sucked along the underbody is released into the car’s wake, thereby containing the vertical expansion of the car’s wake and thus drag.
To guarantee the same level of on-board comfort as Ferrari’s berlinettas, solutions were developed to offset the turbulence inside the cockpit and manage air recirculation around the occupants. The geometry of the trim behind the headrests was optimised to channel as much of the air as possible towards the tonneau cover to reduce the amount of flow recirculating inside the cabin.
The remainder of the flow that still hugs the rear trim then strikes a nolder seamlessly integrated into the trim itself. This interrupts the recirculation, dissipating the turbulence before it reaches the lower part of the central tunnel.
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VEHICLE DYNAMICS
The 296 GTS’s dynamic development focused around boosting the car’s pure performance, delivering class-leading levels of driver engagement making full use of the new architectural solutions (V6, hybrid powertrain, shorter wheelbase) as well as improving the usability and accessibility, not just of the car’s performance, but also the functionalities afforded by the hybrid layout.
The targets were achieved by honing the architecture and keeping all the main vehicle components as compact as possible, as well as managing energy flows and their integration with the car’s vehicle dynamic controls. Specific components were also developed, not least the Transition Manager Actuator (TMA) and the 6-way Chassis Dynamic Sensor (6w-CDS) – a world first for the automotive sector. There are also new functions, such as the ABS EVO controller, which uses the data gathered by the 6w-CDS, and the grip estimation integrated with the EPS.
In Ferrari, the way the car handles and provides feedback to the driver (what internally is referred to as the fun to drive factor) is measured by five different indicators:
- Lateral: response to steering wheel inputs, the prompt reaction of the rear axle to steering inputs, effortless handling
- Longitudinal: rapidity and smoothness of the accelerator pedal’s response
- Gear shifting: shifting times, sensation of coherent progression through the gears with every gear change
- Braking: brake pedal feel in terms of travel and response (efficiency and modular travel)
- Sound: level and quality in cabin and progression of engine sound as revs rise.
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2023 Ferrari 296 GTS Assetto Fiorano Side View
How easily accessible and usable the performance is is also of significant importance when driving the 296 GTS: for instance, in electric-only eDrive mode, the car can reach speeds of up to 135 km/h without resorting to the ICE. In Hybrid mode, on the other hand, the ICE backs up the electric motor when higher performance is required. The transition between electric and hybrid driving modes is managed very fluidly to guarantee smooth, constant acceleration and to make the power of the powertrain available as rapidly as possible. Stopping distances in the dry have been significantly shortened by the ABS EVO and its integration with the 6w-CDS sensor, which also ensures more consistent braking force under repeated heavy braking.
From a chassis perspective, at 2,600mm, the wheelbase is 50 mm shorter than previous Ferrari mid-rear-engined berlinettas to the benefit of the car’s dynamic agility. Other solutions that enhance the car’s handling and performance include the brake-by-wire system, the ‘Aero’ brake callipers, electric power steering, the rear active aero device and SCM-Frs magnetorheological dampers.
The 296 GTB’s chassis was redesigned and optimised for the 296 GTS to improve torsional rigidity and bending stiffness compared to previous spider applications. This was achieved to the tune of 50% in the case of the former and 8% in the case of the latter. The main areas involved were the A-pillar, B-pillar and sills.
Meticulous attention was paid to reducing weight to ensure the car’s balance and delicacy of handling: adding the weight of the hybrid system was offset by a number of different solutions, including the new V6, which weighs 30 kg less than the V8 unit used on previous berlinettas, and the extensive use of lightweight materials. The result is a dry weight of just 1540 kg which is class-leading in regards to the overall weight-to-power ratio: 1.86 kg/cv.
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The 296 GTS has a single electric motor which drives the rear wheels only. The power delivery from the electric motor is available in hybrid and full-electric driving modes and is supplied according to the driver’s pressure on the accelerator pedal, managed by the hybrid power flow control and monitored by traction control.
With regard to the main charging functions, there is regenerative braking at the rear in normal braking conditions as well as when ABS intervenes, overbraking on the rear axle on lift-off and battery charging via combined management of the ICE and electric motor.
Aside from electric traction control and energy recovery thanks to the new brake-by-wire unit, which guarantees hydraulic and electric blending in all operating modes (including ABS), another traction control and distribution solution present on the 296 GTS is the ‘ABS Evo’ which premiered on the 296 GTB. Thanks to brake-by-wire, pedal travel is reduced to an absolute minimum, which boosts the feeling of sportiness without neglecting efficiency when braking lightly or the pedal travel feel when on the track. The ABS control module, which is integrated with the 6w-CDS sensor, allows the grip limits of the rear tyres to be pushed still further, making for greater repeatability of stopping distances and thus improving performance when turning into corners as it permits the driver to trail brake towards the apex.
Once again on the 296 GTS, a power management selector (eManettino) has been adopted alongside the traditional Manettino. The eManettino has four positions which can be selected from the steering wheel:
- eDrive: the internal combustion engine is off and there is pure electric drive to the rear wheels; with a fully-charged battery the car can cover 25 km at a maximum speed of 135 km/h
- Hybrid (H): this is the default mode on ignition. The power flows are managed for maximum efficiency and the control logic defines the intervention of the internal combustion engine. With the engine on, the car develops its maximum power and performance
- Performance: the ICE is always on and helps maintain the battery efficiency to ensure full power at all times. This is the ideal setting for press-on driving
- Qualify: provides maximum performance but at the cost of lower battery recharging.
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The grip estimator in the electronic Side Slip Control (eSSC) system is flanked by a second device based on the electric power steering. By using the information from the EPS and cross-referencing it with the side slip angle estimated by the eSSC, it can estimate the grip of the tyres during every steering manoeuvre, including when the car is not being driven on the limit, in order to guarantee that the controllers intervene correctly based on grip conditions. When driving on the track, grip estimation is 35% faster than previous applications.
As was the case on the 296 GTB, the 296 GTS has an ABS control module developed exclusively for Ferrari and available from the ‘Race’ position upwards. It uses the information from the 6w-CDS to obtain a more precise estimation of speed and optimise braking distribution compared to the Yaw Rate Sensor used up until now. The 6w-CDS measures both the acceleration and the speed of rotation on three axes (X, Y, Z) enabling the other vehicle dynamic controls to more accurately read the car’s dynamic behaviour, thus optimising their intervention. This accuracy allows the longitudinal force of the tyres to be better exploited when braking in a straight line and on switchbacks, when the rear axle is subject to the natural compromise between braking performance and lateral stability. The result is a decisive improvement in braking distances: compared to the F8 Spider, the 296 GTS reduces the 200-0 km/h braking distance by 8.8% and also improves the repeat braking efficiency from that speed by 24%.
STYLING
EXTERIOR
The 296 GTS further emphasises the clean, sophisticated lines of the 296 GTB . When the top is down, it is the peerlessly elegant epitome of the open-air hybrid concept. Its unprecedented architecture for a spider, in fact, opens a whole new chapter in the marque’s story. The designers’ goal of retaining the 296 GTB’s main characteristics required a period of meticulous analysis of the dimensions of its technical components. There was, of course, a clear focus on minimising the impact of any modifications on the exterior bodywork and also on introducing a clear, instantly recognisable theme that would encapsulate the complexity of the design whilst translating it into accomplished linear forms.
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The need to stow the RHT (Retractable Hard Top) inside the engine compartment inspired the Ferrari Styling Centre’s team under Flavio Manzoni to create a new tonneau cover design, the geometries of which have produced styling elements very different to Ferrari spiders of the recent past. While on the 296 GTB the engine bay is completely horizontal and dominated by two flying buttresses in a nod to the 250 Le Mans archetype, the 296 GTS’s tail is absolutely unique.
As is the case with the 296 GTB, dominant feature of the new car’s architecture is the signature ‘aero bridge’. The overall effect is of an extremely compact cabin effortlessly integrated with the wings and flanks. The buttress theme is further enhanced by contrasting sculpted extensions that frame the engine cover screen and integrate the novel fuel filler and battery charge covers, avoiding architectural disharmony.
COCKPIT
The 296 GTS’s cockpit was developed around the new concept of an entirely digital interface. This interior layout draws on the latter’s stylistic coherence for its forms. While with the SF90 Stradale the designers wanted to highlight the presence of the advanced technology and underscore a clear break with the past, in the case of the 296 GTS, the idea was to clothe that technology to sophisticated effect. The result is a pure, minimalistic connotation characterised by a powerful elegance that, on an aesthetic level, perfectly mirrors the design of the exterior.
The 296 GTS’s cabin raises the concept of the formal purity of the functional elements to new heights. From a formal perspective, when the engine is off, the onboard instruments go black, underscoring the minimalist look of the cabin. Exclusive Italian leather trim to the seats and trim is further enhanced by the noble technical materials used on the functional components. Aerodynamic flaps have been integrated into the rear trim structure to reduce buffetting and increase comfort in open-top driving.
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2023 Ferrari 296 GTS Assetto Fiorano Rear View 3/4
The sculptural door panel is a seamless continuation of the dashboard in terms of both materials and colour. On the central medallion, the styling cue is a deep lozenge-shaped scoop, a three-dimensional element. This type of architecture makes the entire door panel look extremely light and integrates the theme that connects it to the rear trim. The tunnel incorporates the modern take on the classic gear-shift gate and a compartment for stowing the ignition key with its characteristic Prancing Horse badge. The tunnel has also been redesigned, so that rather than being open as on the 296 GTB, it has a closing oddments compartment, which further emphasises the continuity between mats and tunnel. For the 296 GTS, the designers created specific diapason-style seats using contrasting grooves which coordinate aesthetically with the edge strip of the instrument cluster.
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