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911 Turbo and 9 11 Turbo S
Coupé and Cabriolet
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Page 3 of 59
The 911 Turbo concept 6
Efficiency 8
Te c h n ol o g y 12
Design 16
Model range 18
Performance 26
Engine 30
Tra n s m i ssi o n 42
Chassis 52
Responsibility 62
Safet y 64
E n v i r o n m e n t 74
Personality 78
Comfort 80
Personalisation 90
Service 106
Summary 108
Technical data 110
I n d e x 11 4
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The 911 Turbo concept
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To understand the evolution of
the 911 Turbo, you have to go
back to 1974. To France, and the
Paris Motor Show. To the first
turbocharged 911. The wrong car
at the wrong time. At least that ’s
what some journalists, doubters
and waverers thought.
Were those moments when you exercised moderation
always the crucial ones?
The efficiency of the 911 Turbo model concept.
Their reservations were entirely
understandable. Af ter all, times
were hard and oil was in short
supply. Then Porsche launched
a car that anticipated the concept
of the super sportscar, with its
power output of 260 hp, maximum
torque of 343 Nm and 5.5-second
sprint from 0 to 100 km/ h
(62 mph).
What on earth was going on
at
Zuf fenhausen? Was it a lack
of understanding of the needs
of the market? A blinkered
desire for power? Perhaps even
over- confidence and a lack of
awareness?
Certainly the desire for power
could not be denied. But it had a
goal. And the way to that goal
followed a unique path. A glance
at the data sheet was enough.
Alongside the fabled engine out -
put, torque, acceleration and top speed figures were other, no less
impressive figures.
A 3-litre displacement and six
cylinders in a boxer configuration
were all that the first 911 Turbo
needed to turn the sportscar
world (where the mot to was ‘size
equals power’) upside down.
In other words, the car on show
on the stand in Paris wasn’t just
a car bursting with power. Here
was an idea, an opportunit y. To get more from less. To opti
-
mise the ratio of work input to
work output. In short, efficiency
demands performance. That was
the principle. And it still stands to
this day.
According to the definition,
efficiency is the ratio of work
input to work output. If some -
thing is highly efficient, it
keeps work input low, whilst
maximising work output.
A principle that unreservedly
applies to any 911 Turbo. But
not necessarily to the work
that went into developing it.
The 911 Turbo concept | Ef ficiency
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The car was made technically
possible by an invention from 1905.
The Swiss engineer, Dr. Büchi,
utilised the energy of the flow of
exhaust gases to increase the
ef ficiency of combustion engines.
You don’t need to be an engineer
to understand the practical benefits
of this. Turbocharging means
a tremendous gain in power for
comparatively small engine
displacements. The advantage of
small-
displacement engines is
particularly
felt in the lower and
middle load ranges – in other
words, during everyday driving on
the road. In these conditions, fuel
consumption and CO
2 emissions
figures are significantly lower than
those for larger engines.
Another advantage is the compact
engine size which reduces weight.
The engine takes up less space
and keeps the overall vehicle
weight down. In short, agilit y
and dynamic performance are
increased and fuel consumption
is decreased.
Of course, in 1974, the technology
was still in its infancy. The idea
needed to mature, but the fact
remained that it worked. What
started out as a scheduled produc -
tion run of 400 vehicles has b e -
come a lifetime’s work.
Over the years, alongside con tinual
increases in power output, the
911 Turbo has seen the introduc -
tion of a wide variet y of technolo -
gies to improve handling and
dynamic performance as well as
fuel consumption and efficiency.
Examples from 1977 include
above all the intercooler,
which improved turbocharger
efficiency, and the cross-drilled
brake discs, which increased
braking per formance and reduced
unsprung masses. In 1990, the
911 Turbo based on the Type 964
was the first to be equipped with
a regulated cataly tic converter as
st a n d a rd .
The t win -turbo engine introduced
in 1995 performed excellently,
delivering a significantly more
harmonious build-up of power
and making the 911 Turbo a
much more composed and there-
by more fuel-efficient vehicle.
All-wheel drive was introduced
for the first time, increasing both
traction and safet y.
A major step towards greater
ef ficiency was achieved in 2000
with the launch of the 911 Turbo
based on the Type 996. This saw
the use of technologies that
are also to be found on the latest
911 Turbo generation. VarioCam
Plus reduced fuel consumption
drastically, whilst the extending
rear wing, through its abilit y to
change position, complemented
the already exemplary aero -
dynamic performance.
In 2006, the launch of the
911 Turbo based on the Type 997
revealed a revolution in turbo -
charging, with the advent of
Variable Turbine Geometry (V TG).
More power. More torque. Less
fuel. Less CO
2. Porsche was
the first car manufacturer that
was able to use this technology
in standard-production petrol
engines. And so far is the only
one to do so.
And today? The principle behind
the 911 Turbo is still one of power
and ef ficiency and consequently
is just as valid as ever.
Direct fuel injection (DFI) improves
power output, torque and engine
response whilst also reducing fuel
consumption and CO2 em issio ns.
The Porsche Doppelkupplung
(PDK), or double-clutch gearbox,
shortens gearshift times, elimi -
nates any interruption in the flow
of power and increases ef ficiency
thanks to the long-ratioed 7th
gear. Also doing their bit are the
expansion intake manifold and
on - demand oil pump.
Let ’s get down to the details.
The 911 Turbo concept | Ef ficiency
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9 11 T u r b o
Let ’s start right at the beginning.
Or should we say, at the rear.
With the engine – the all-important
heart of any 911 Turbo model. The
performance credentials of the
compact, light weight power unit
need no questioning. All models
have an engine displacement of
3.8 litres. In the 911 Turbo models,
the engine generates 368 kW
(500 hp) and 650 Nm of torque.
In the new 911 Turbo S models,
these figures are an even more
impressive 390 kW (530 hp)
and 700 Nm, made possible by
a modified valve control system
and an adaptation of the engine
management.
Responsible for such high effi -
ciency are the t wo exhaust
gas turbochargers with Variable
Turbine Geometry (V TG) and
VarioCam Plus as well as technol -
ogies such as direct fuel injection
(DFI, page 32) and the expansion
intake manifold (page 40), which
has turned all previous principles
about air supply for turbocharged
engines completely on their heads. With DFI, mixture formation takes
place entirely in the combustion
chamber. The metered fuel is
injected directly with millisecond
precision. The result is optimum
mixture formation and combustion
and consequently more power,
more torque and increased effi -
ciency. Depending on the model,
fuel savings of up to 16 % and
reductions in CO
2 emissions of up
to 18 % can be achieved (by
comparison with the previous
911 Turbo generation).
Porsche Doppelkupplung (PDK,
page 42), fit ted as standard to
911 Turbo S models and available
as an option for 911 Turbo models,
is based on a Porsche develop -
ment that caused a sensation on
the world’s racetracks back in
the 1980s when it was fit ted into
Porsche race cars.
PDK, with both manual shif t and
automatic mode, has t wo half-
gearboxes incorporated into one
housing and a total of seven
forward gears and t wo clutches. Gear- changing is completed in a
mat ter of milliseconds, with no
i
nterruption in the flow of power.
Compared with a conventional
manual gearbox, PDK significantly
improves acceleration whilst
reducing fuel consumption. In
comparison with the automatic
gearbox in the previous model,
PDK delivers even more driving
pleasure through increased
responsiveness and thus greater agilit y, but with no loss of comfort
and a significant reduction in
fuel consumption. In conjunction
with PDK, the three-spoke sports
steering wheel with gearshift
paddles comes as standard on
911 Turbo S models and is
available on request for 911 Turbo
models.
The further- enhanced active
all-wheel drive system, Porsche
Traction Management (PTM,
page 48), ensures outstanding
traction and vehicle dynamics.
Giving dynamic performance
a further boost is Porsche Torque
Vectoring (PT V, page 50).
Standard on 911 Turbo S models
and optional for 911 Turbo models,
it distributes variable amounts
of drive torque to each rear wheel.
The development of a
911 Turbo demands
meticulous work. Often,
that work goes unseen.
But you always feel it.
Dreamers. Idealists. Environmental activists.
We are naturally proud of our engineers.
The technology behind the 911 Turbo and the new 911 Turbo S models.
The 911 Turbo concept | Technology
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911 Turbo Cabriolet
Porsche Stabilit y Management
(PSM, page 56) and Porsche
Active Suspension Management
(PASM, page 53) are standard
across the 911 Turbo model
range. The Porsche Ceramic
Composite Brake (PCCB, page
68) is fit ted as standard exclu -
sively on 911 Turbo S models.
Standard on 911 Turbo S and
optional on 911 Turbo models is
the Sport Chrono Package Turbo
with dynamic engine mount
system (page 58). It has a whole
host of performance-enhancing
functions. The ‘overboost ’ on
911 Turbo models, for example,
briefly raises boost pressure
when accelerating in the lower
and mid-engine speed ranges to
provide an additional 50 Nm of
torque. On 911 Turbo S models,
the permanently increased
maximum boost pressure guaran-
tees that a maximum torque
of 700 Nm is available for an
unlimited period.
When combined with PDK, the
SPORT PLUS but ton can activate
‘Launch Control’, for optimum acceleration from a standing
start, or the motorsport- derived
gearshift strategy for racing-st yle
gear changes. The dynamic
engine mount system improves
ride comfort and vehicle
dynamics whilst also providing
more stable handling. The
system reduces the oscillations
and movements of inert masses
in the drive assembly by auto -
matically changing the stiffness
and damping characteristics of
the engine mounts.
As is so t ypical of the 911 Turbo,
comfort and sound are not
neglected either. Porsche
Communication Management
(PCM, page 86), including a
navigation module and 6.5-inch
touchscreen, and the BOSE
®
Surround Sound System both
come as standard. The standard
specification of the 911 Turbo S
models gives you even more,
such as the integrated six-disc
CD/ DVD autochanger, adaptive
sports seats and cruise control.
It sounds, therefore, as though
the 911 Turbo model range has got it all. Apart from weight, that
is. The doors and bonnet are
made of aluminium and the
engine is particularly light weight
thanks to the use of light alloys
and integral dry-sump lubrication.
Forged 19-inch 911 Turbo II wheels
on the 911 Turbo models and
forged
19-inch RS Spyder wheels
with
a central locking device on
the
911 Turbo S models keep the
unsprung masses low. The result
is a power-to -weight ratio of
3.1 kg / hp for the Coupé and
3.3 kg / hp for the Cabriolet
(911 Turbo S models: 3.0 kg / hp
and 3.1 kg / hp respectively).
The technology of the 911 Turbo
and 911 Turbo S models has
enabled a balance to be achieved. It increases power at the same
time as maintaining comparatively
low fuel consumption figures and
CO
2 emissions, showing that,
at Porsche, efficiency and power
are inseparable.
The 911 Turbo concept | Technology
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