Cayenne highlights.
On and off-road performance.
In addition to comfort and sportiness on the road, the enhanced chassis systems also increase performance on demanding terrain.
Matrix LED headlights.
Equipped with matrix LED headlights as standard, the HD-Matrix LED headlights with over 64,000 pixels now increase functionality even further.
Porsche Driver Experience.
Available for the first time on the
Infotainment.
The infotainment system with
Assistance systems.
All
E-Hybrid .
With the current battery generation of the
Discover the Cayenne models in detail.
You now have an overview of the highlights of the
Exterior
Interior
Drive and chassis
Cayenne GTS
Cayenne Turbo E-Hybrid
Cayenne Models
© 2024 Dr. Ing. h.c. F.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures (excluding any
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
A lithium-ion battery is subject to physical and chemical ageing, as well as wear and tear. This reduces the battery capacity, depending on the usage pattern and environmental conditions, resulting in a reduction in range and an increase in charging times as the battery ages. Due to the effect of temperature on battery and charging performance, as well as battery life, please consider the following when parking, driving and charging your car:
· If possible, avoid permanent ambient temperatures of over 30°C, such as prolonged parking in direct sunlight. If you cannot avoid ambient temperatures of over 30°C when stationary, connect the vehicle to the mains supply after use and charge the high-voltage battery with AC (alternating current) to a maximum charge status of 85%.
· If the car is left stationary for more than two weeks, the ambient temperature should, if possible, be between 0°C and 20°C and the battery charge status maintained between 20% and 50% during this time.
· For the shortest possible charging time, a battery temperature of approx. 30°C to 35°C is ideal. If charging the car on a daily basis, the maximum charge status of the high-voltage battery should be set to approx. 80%.
PS (PferdeStärke, German for horsepower) is the standard unit used in the European Union to measure the power output of a motor in ‘metric horsepower’. Published figures should only be used for the purpose of comparison between vehicles. Information provided and images displayed on this website or links from our website may relate to models, performance characteristics, optional extras and features only available in overseas models of the vehicle and must not be relied upon as they may be unavailable in Australia. Please note, product changes may have been made since the production of any content. Please contact an Official
Cayenne Models
© 2024 Dr. Ing. h.c. F.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures (excluding any
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
A lithium-ion battery is subject to physical and chemical ageing, as well as wear and tear. This reduces the battery capacity, depending on the usage pattern and environmental conditions, resulting in a reduction in range and an increase in charging times as the battery ages. Due to the effect of temperature on battery and charging performance, as well as battery life, please consider the following when parking, driving and charging your car:
· If possible, avoid permanent ambient temperatures of over 30°C, such as prolonged parking in direct sunlight. If you cannot avoid ambient temperatures of over 30°C when stationary, connect the vehicle to the mains supply after use and charge the high-voltage battery with AC (alternating current) to a maximum charge status of 85%.
· If the car is left stationary for more than two weeks, the ambient temperature should, if possible, be between 0°C and 20°C and the battery charge status maintained between 20% and 50% during this time.
· For the shortest possible charging time, a battery temperature of approx. 30°C to 35°C is ideal. If charging the car on a daily basis, the maximum charge status of the high-voltage battery should be set to approx. 80%.
PS (PferdeStärke, German for horsepower) is the standard unit used in the European Union to measure the power output of a motor in ‘metric horsepower’. Published figures should only be used for the purpose of comparison between vehicles. Information provided and images displayed on this website or links from our website may relate to models, performance characteristics, optional extras and features only available in overseas models of the vehicle and must not be relied upon as they may be unavailable in Australia. Please note, product changes may have been made since the production of any content. Please contact an Official
Cayenne Models
Chassis systems.
Porsche Active Suspension Management (PASM).
PASM is an electronic damping control system that is standard on all
Adaptive air suspension.
The enhanced adaptive air suspension with full load-bearing air-spring struts in 2-chamber technology allows for an even greater combination of comfort and sportiness while at the same time maintaining the same ride comfort. The level system helps to maintain a constant ride height. By adjusting the height of the chassis, the ground clearance can be varied as required, for example during off-road use. The rear end can also be lowered for easier loading of the luggage compartment.
Chassis.
Whether you're in the driver's seat or a passenger: driving a
Brakes.
That's why all
© 2024 Dr. Ing. h.c. F.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures (excluding any
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
A lithium-ion battery is subject to physical and chemical ageing, as well as wear and tear. This reduces the battery capacity, depending on the usage pattern and environmental conditions, resulting in a reduction in range and an increase in charging times as the battery ages. Due to the effect of temperature on battery and charging performance, as well as battery life, please consider the following when parking, driving and charging your car:
· If possible, avoid permanent ambient temperatures of over 30°C, such as prolonged parking in direct sunlight. If you cannot avoid ambient temperatures of over 30°C when stationary, connect the vehicle to the mains supply after use and charge the high-voltage battery with AC (alternating current) to a maximum charge status of 85%.
· If the car is left stationary for more than two weeks, the ambient temperature should, if possible, be between 0°C and 20°C and the battery charge status maintained between 20% and 50% during this time.
· For the shortest possible charging time, a battery temperature of approx. 30°C to 35°C is ideal. If charging the car on a daily basis, the maximum charge status of the high-voltage battery should be set to approx. 80%.
PS (PferdeStärke, German for horsepower) is the standard unit used in the European Union to measure the power output of a motor in ‘metric horsepower’. Published figures should only be used for the purpose of comparison between vehicles. Information provided and images displayed on this website or links from our website may relate to models, performance characteristics, optional extras and features only available in overseas models of the vehicle and must not be relied upon as they may be unavailable in Australia. Please note, product changes may have been made since the production of any content. Please contact an Official
Cayenne Models
Exterior.
SportDesign Package.
Aerodynamically optimised features ensure an even sportier look: the skid plate of the independent Sport
HD-Matrix LED main headlights, tinted.
With 64,000 camera-controlled pixels, the pixel LED technology reacts to every driving situation. For example, the glare-free high beam, illumination of the exact driving lane, depiction of the vehicle width in construction zones and narrow areas, as well as the fog-optimised dipped beam and rain light ensure greater safety and a high level of comfort. The refined four-point daytime driving lights and the finishers with Diamar surface structure – both in Black (high gloss) – give a special charisma.
Sport exhaust system.
Well-trained right down to the frequency range: together with the 4.0-litre V8 biturbo engine, the sport exhaust system with sports tailpipes in Dark Bronze guarantees a highly emotional sound experience. The exhaust system was designed to produce a sporty, voluminous sound with an independent character.
21-inch RS Spyder Design wheels.
The one-piece 21-inch RS Spyder
Interior.
GT sports steering wheel.
Very close to motorsports: the non-slip GT sports steering wheel with a steering wheel rim in Race-Tex and a diameter of 360 mm optimised for fast steering movements. The different driving modes can be selected using the mode switch and the Sport Response button prepares the engine and gearbox for the fastest possible power delivery – without having to take your hands off the wheel.
GTS Sports seats.
The raised side bolsters of the GTS sports seats offer optimal support even when driving dynamically. The seat centres and shoulder supports in Race-Tex as well as the adjustment options (8 ways, electrical) to adapt to the individual body shape ensure outstanding comfort. Special details: the Diamar embossing on the seat centres and the embroidered 'GTS' lettering on the headrests.
Race-Tex interior.
The Race-Tex equipment combines extensive leather items in Black with track-tested Race-Tex. Race-Tex offers a soft grip and good grip and is therefore used, among other things, on the steering wheel rim, on the armrests of the door trim and on the centre console as well as on the roof lining.
GTS interior package.
The optional GTS interior package in Carmine Red is the ideal complement to the standard Race-Tex equipment. It includes, among other things, the decorative stitching on the seats, on the armrest of the door panel and centre console as well as on the upper part of the dashboard. The contrast colour also appears on the 'GTS' lettering on the GTS Sports seats and on the seat belts.
Driving dynamics.
4.0-litre V8 biturbo engine.
Powerful, efficient and particularly emotional thanks to direct power delivery: the 4.0-litre V8 biturbo engine with a maximum of 368 kW (500 PS) and a maximum torque of 660 Nm. V8 engines stand for exceptional power output, high torque, smooth operation and a characteristic sound that rounds off the sport exhaust system even further.
Chassis.
The GTS-specific tuned chassis enables outstanding driving dynamics. The adaptive air suspension impresses with fully load-bearing air-spring struts in 2-chamber technology and a lowering of the vehicle by 10 mm. The electronically controlled
PTV Plus.
Sport Chrono Package.
For extra performance: the optionally available Sport Chrono Package provides an even sportier setup of the chassis, engine and gearbox. Predefined driving modes can be further individually configured with various vehicle settings. Pressing the Sport Response button prepares the engine and gearbox for the fastest possible unleashing of power – resulting in maximum responsiveness for a period of approximately 20 seconds.
Brakes.
The brake system is adapted to the exceptional power output of the GTS models. The brakes feature 6-piston Aluminium monobloc fixed callipers at the front and 4-piston Aluminium monobloc fixed callipers at the rear. The brake disc diameter: 410 mm at front and 365 mm at rear. The
© 2024 Dr. Ing. h.c. F.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures (excluding any
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
A lithium-ion battery is subject to physical and chemical ageing, as well as wear and tear. This reduces the battery capacity, depending on the usage pattern and environmental conditions, resulting in a reduction in range and an increase in charging times as the battery ages. Due to the effect of temperature on battery and charging performance, as well as battery life, please consider the following when parking, driving and charging your car:
· If possible, avoid permanent ambient temperatures of over 30°C, such as prolonged parking in direct sunlight. If you cannot avoid ambient temperatures of over 30°C when stationary, connect the vehicle to the mains supply after use and charge the high-voltage battery with AC (alternating current) to a maximum charge status of 85%.
· If the car is left stationary for more than two weeks, the ambient temperature should, if possible, be between 0°C and 20°C and the battery charge status maintained between 20% and 50% during this time.
· For the shortest possible charging time, a battery temperature of approx. 30°C to 35°C is ideal. If charging the car on a daily basis, the maximum charge status of the high-voltage battery should be set to approx. 80%.
PS (PferdeStärke, German for horsepower) is the standard unit used in the European Union to measure the power output of a motor in ‘metric horsepower’. Published figures should only be used for the purpose of comparison between vehicles. Information provided and images displayed on this website or links from our website may relate to models, performance characteristics, optional extras and features only available in overseas models of the vehicle and must not be relied upon as they may be unavailable in Australia. Please note, product changes may have been made since the production of any content. Please contact an Official
Cayenne Models
Exterior.
Exclusive colour.
Emphasises the special status of the
Turbo front.
The characteristic front end, with significantly enlarged cooling air intakes and two-row front light modules with side lights and direction indicator lights, lends the
HD-Matrix LED headlights.
With more than 64,000 camera-controlled pixels, the HD-Matrix LED main headlights react to every driving situation. For example, the glare-free high beam illumination of the exact driving lane, mapping of the vehicle width through roadworks and bottlenecks, as well as the fog-optimised dipped beam and rain light ensure greater safety and a high level of comfort.
21-inch Cayenne Turbo wheels.
The one-piece 21-inch
Turbo exhaust system.
The unique twin tailpipes of the
Interior.
Features in
The exclusive
GT sports steering wheel.
The multifunction sports steering wheel in GT design with a steering wheel rim in smooth Black leather not only looks like motor racing – it also enables you to switch between the different driving modes quickly with its integrated mode switch – without having to take your hands off the steering wheel.
18-way sports seats.
The front adaptive sports seats with embossed 'turbo' lettering on the integrated headrests feature a distinctive design. Raised side bolsters on the seat cushion and backrest offer plenty of lateral support during dynamic cornering. With the help of the electric 18-way adjustment, the seats provide the perfect fit for the driver and passenger.
Materials.
The exclusivity of the
Driving dynamics.
4.0-litre V8 twin-turbo engine.
8 cylinders promise thrilling performance: the newly developed 4.0-litre V8 twin-turbo engine with 441 kW (599 PS) and maximum 800 Nm torque unleashes pure power. Together with the electric motor, the 8-speed Tiptronic S automatic transmission and the specially tuned chassis systems, the engine enables the
130 kW electric motor.
Performance at the push of a button – and goosebumps, made possible by the interaction of the 4.0-litre V8 twin-turbo engine and the new electric motor with 130 kW (176 PS). Together they achieve a system performance of 544 kW (739 PS) and a maximum torque of 950 Nm. Driving modes allow selection of the optimium balance of propulsion and can be instantly called up via the mode switch, for the perfect configuration in every situation.
Chassis.
Dynamic handling and comfortable travel co-exist perfectly in the
Brakes.
The brake system of the
Sport Chrono Package.
Time for extra performance? The Sport Chrono Package provides an even sharper setup of the chassis, engine and gearbox. Predefined driving modes can be further individually configured with various vehicle settings. Pressing the Sport Response button is instantly rewarding. At the push of a button, it provides optimum response and performance for approximately 20 seconds.
E-Performance , electromobility and the sports car of the future.
© 2024 Dr. Ing. h.c. F.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures (excluding any
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
A lithium-ion battery is subject to physical and chemical ageing, as well as wear and tear. This reduces the battery capacity, depending on the usage pattern and environmental conditions, resulting in a reduction in range and an increase in charging times as the battery ages. Due to the effect of temperature on battery and charging performance, as well as battery life, please consider the following when parking, driving and charging your car:
· If possible, avoid permanent ambient temperatures of over 30°C, such as prolonged parking in direct sunlight. If you cannot avoid ambient temperatures of over 30°C when stationary, connect the vehicle to the mains supply after use and charge the high-voltage battery with AC (alternating current) to a maximum charge status of 85%.
· If the car is left stationary for more than two weeks, the ambient temperature should, if possible, be between 0°C and 20°C and the battery charge status maintained between 20% and 50% during this time.
· For the shortest possible charging time, a battery temperature of approx. 30°C to 35°C is ideal. If charging the car on a daily basis, the maximum charge status of the high-voltage battery should be set to approx. 80%.
PS (PferdeStärke, German for horsepower) is the standard unit used in the European Union to measure the power output of a motor in ‘metric horsepower’. Published figures should only be used for the purpose of comparison between vehicles. Information provided and images displayed on this website or links from our website may relate to models, performance characteristics, optional extras and features only available in overseas models of the vehicle and must not be relied upon as they may be unavailable in Australia. Please note, product changes may have been made since the production of any content. Please contact an Official
Cayenne Models
E-Performance , electromobility and the sports car of the future.
© 2024 Dr. Ing. h.c. F.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures (excluding any
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
A lithium-ion battery is subject to physical and chemical ageing, as well as wear and tear. This reduces the battery capacity, depending on the usage pattern and environmental conditions, resulting in a reduction in range and an increase in charging times as the battery ages. Due to the effect of temperature on battery and charging performance, as well as battery life, please consider the following when parking, driving and charging your car:
· If possible, avoid permanent ambient temperatures of over 30°C, such as prolonged parking in direct sunlight. If you cannot avoid ambient temperatures of over 30°C when stationary, connect the vehicle to the mains supply after use and charge the high-voltage battery with AC (alternating current) to a maximum charge status of 85%.
· If the car is left stationary for more than two weeks, the ambient temperature should, if possible, be between 0°C and 20°C and the battery charge status maintained between 20% and 50% during this time.
· For the shortest possible charging time, a battery temperature of approx. 30°C to 35°C is ideal. If charging the car on a daily basis, the maximum charge status of the high-voltage battery should be set to approx. 80%.
PS (PferdeStärke, German for horsepower) is the standard unit used in the European Union to measure the power output of a motor in ‘metric horsepower’. Published figures should only be used for the purpose of comparison between vehicles. Information provided and images displayed on this website or links from our website may relate to models, performance characteristics, optional extras and features only available in overseas models of the vehicle and must not be relied upon as they may be unavailable in Australia. Please note, product changes may have been made since the production of any content. Please contact an Official
Gallery.
Cayenne Coupé models.
The
Select and configure Cayenne models.
Personalisation & finishing.
At
Contact.
Contact an authorised