News - Ford Falcon
Ford protects FPV GT F legacy with Sprint
Eight of the best: Ford's 5.0-litre supercharged V8’s 345kW occurs at 5750rpm, while its 575Nm kicks in between at a wide 2200-6250rpm band.
Ford purposely placed the lower-priced XR Sprint range beneath FPV GT F swansong
17 March 2016
PROTECTING the final FPV (Ford Performance Vehicles) GT F flagship’s status as
the most powerful Falcon ever built dictated the powertrain changes undertaken
for the new XR6 Turbo and XR8 Sprint.
The last of the line, with production commencing in May, the FG X Falcon’s
final act still produces healthy numbers, however, with Ford stating that these
are the fastest XR series models ever produced.
Nevertheless, with only very limited funds – Ford will not divulge what the
exercise cost – it was decided from the beginning that the Sprint would not
eclipse the GT F in terms of ultimate straight-line power and performance.
Released in the middle of 2014 to see off the FPV sub-brand, the GT F delivers
a startling standard power output of 351kW, rising to a reported 420kW in
transient overboost mode in the right conditions.
This compares to 325kW for the new XR6 Sprint (rising to 370kW in overboost)
and 345kW for the XR8 Sprint (400kW in overboost).
“With the V8, the key point was to create something unique and easily
identifiable to the customer,” Ford Australia Sprint program manager Justin
“The GT F was the pinnacle in regards to power, and we wanted to stay true to
that commitment… so we created a new calibration to 345kW for the V8, with an
overboost to 400kW and 650Nm.”
As a result, the imported but locally modified 5.0-litre Eaton supercharged
32-valve V8’s 345kW occurs at 5750rpm, while its 575Nm kicks in between at a
wide 2200-6250rpm band.
The 420kW/650Nm overboost figures only last a few seconds, and only occurs if
the intake air temperature conditions are correct.
To help achieve such results, changes to the V8 include a new twin pedal map
with a predictive system, while the old GT F’s ZF six-speed automatic
transmission calibration was also utilised. Fuel consumption rises by 0.1 litre
per 100km to 13.6 litres per 100km (manual) and 13.7L/100km (auto), averaging
about 325 grams/km of carbon dioxide emissions.
The XR6 Sprint’s in-line six, meanwhile, underwent a more thorough modification
process – being made in Geelong, after all – with the regular XR6 Turbo’s
270kW/533Nm 4.0-litre twin-cam unit with variable valve timing gaining a number
With a higher compression ratio (to 8.7:1 from 8.5:1), a redesigned lower
airbox, larger carbon-fibre air intake, freer flowing exhaust, unique
transmission calibration, bespoke engine calibration (including an engine-first
launch control system, and GT F (V8) transmission mount (for improved handling
characteristics), power is rated at 325kW (overboost: 370kW) at 6000rpm and the
torque top is 576Nm (overboost: 650Nm) at 2750rpm.
“The XR6 Sprint does not use the old F6 Turbo I6,” Mr Capicchiano said.
“Except for the F6 turbocharger, injectors, and intercooler systems.”
From there, new lower airbox, new larger carbon-fibre intake, free flowing
exhaust, unique transmission calibration, bespoke engine calibration including
launch control (for the first time in the automatic version of this car), GT F
transmission mount (with handling benefits).
Speaking of gearbox mounts, the ZF six-speed auto was sent to ZF in Germany for
retuning now that it has to deal with significantly more torque, with new shift
pressure scheduling, and easier and faster downshift ratio access; the action
is now crisper on the 1ญญญ–2 and 2ญ–3 up changes too, as the transmission had
to be calibrated with the engine mods.
XR6 Sprint consumption rises by 0.2 litre per 100km to 12.8L/100km, Ford says,
averaging about 300 grams/km of carbon dioxide emissions.
Of interest to Ford fans, the XR6 Sprint’s engine features unique badging,
necessitating a new rocker cover; to save money, the cast used to create the
1998-2002 AU Falcon XR6 VCT rocker cover was found and altered.
With both engine choices, the Sprint brief call for a sizeable increase in
midrange performance, as well as earlier low-range torque boost sensation,
although the extra oomph is apparent across the entire rev range.
“I think you’ll find that the top-end is extremely rapid; the roll-on
performance is really strong,” Mr Capicchiano added.
The overboost function steps in after the minimum operating temperatures have
been achieved, and will provide maximum possible power for up to 10 seconds
before the engine protection strategy is engaged. It is worth remembering that
while power outputs do fall, they never drop below the advertised standard
output. The timer resets on gear change.
Uniquely in the Ford world globally, the XR6 Sprint’s air intake system is made
using four layers of carbon-fibre instead of the usual blow-moulded plastic, by
the Geelong-based Quickstep Automotive, with engine engineering experts Premcar
designing the item. The aim was to better response times by improving air flow
and component strength, while cutting weight (by 46 per cent to 235 grams).
“We were able to embrace new light-weighting technology as well as provide the
best-possible efficiency of the system on our turbocharged XR6 Sprint,”
according to Ford Australia vehicle line director David Wilkinson.