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11 Specifications
11
430
S60
D4
B
(D4204T14)
114 4.4 91 3.5 99 3.8
D4
A
(D4204T14)
139 5.3 98 3.7 113 4.3
D4
B
(D4204T14)
134 5.0 95 3.6 109 4.1
D4 AWD (D5244T21) 176 6.7 124 4.7 143 5.4
D5 (D4204T11) 142 5.4 106 4.0 119 4.5
A
Does not apply to the low-emissions variant.
B
This only applies to the low-emissions variant.
Fuel consumption and emission values in the
table above are based on specific EU cycles
3
,
that apply to cars with kerb weight in the
basic version and without extra equipment.
The car's weight may increase depending on
equipment. This, as well as how heavily the
car is loaded, increases fuel consumption and
carbon dioxide emissions.
There are several reasons for increased fuel
consumption compared with the table's val-
ues. Examples of this are:
•
The driver's driving style.
•
If the customer has specified wheels
larger than those fitted as standard on the
model's basic version, then rolling resis-
tance increases.
•
High speed results in increased wind
resistance.
•
Fuel quality, road and traffic conditions,
weather and the condition of the car.
A combination of the above-mentioned
examples can result in significantly improved
consumption. For further information, please
refer to the regulations referred to
3
.
3
Official fuel consumption figures are based on two standardised driving cycles in a laboratory environment ("EU driving cycles") all in accordance with EU Regulation no 692/2008 and 715/2007
(Euro 5 / Euro 6) and UN ECE Regulation no 101. The regulations cover the driving cycles for urban driving and extra-urban driving. - Urban driving - the measurement starts with cold starting the
engine. The driving is simulated. - Extra-urban driving - the car is accelerated and braked at speeds between 0-120 km/h (0-75 mph). The driving is simulated. - Cars with manual gearbox are
started in 2nd gear (applies to cars with up to 18-inch wheels). The value for combined driving, which is reported in the table, is a combination of urban driving and extra-urban driving, in accord-
ance with legal requirements. CO
2
emissions - the exhaust gases are collected in order to calculate the carbon dioxide emissions during the two driving cycles. These are then analysed and give
the value for CO
2
emissions.