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The light and rain sensor automatically controls the windscreen wipers and the headlights.

It independently activates the appropriate lights in poor weather, deteriorating light, tunnels or darkness. The rain sensor adjusts the wipe interval to match the strength of the rain.

LEDs inside the sensor emit invisible infrared light which is reflected at the outer surface of the windscreen only where it's free of raindrops. The reflected light is continuously measured by photodiodes.

As the quantity of water hitting the windscreen increases, less infrared light is reflected back, thus allowing an exact regulation of the wipe interval – from wiping with long pauses to continuous wiping at high speed.

In addition, the automatic headlight activation controls the headlights depending on the ambient light conditions. The light sensor measures the light conditions and controls the coming home/leaving home function.

When the driver leaves the vehicle or unlocks it via remote control, the lights illuminate the way to or from the vehicle. A handy feature, as the driver does not need to switch on the lights when getting into the car or switch them off when leaving it.

Article source: www.audi.co.uk

A very special anniversary. A very special chronograph. 100 Years of Audi is being celebrated with the Tachoscope®, a high-quality, exclusive timepiece with a limited production of just 100 watches in platinum or white gold. Audi chose to collaborate with the Munich-based watchmaker Chronoswiss, as both companies share a passion for technical perfection. The fruit of their labour: a watchmaking masterpiece that combines precise mechanical engineering and innovative functions with sporty Audi design.

The timepiece combines a regulator dial, a chronograph featuring a stopwatch operated by a single button, and a tachometer dial, while the crown resembles a gear. The chronometric accuracy relies on the quality of the Glucydur balance of the manufactory movement of the Tachoscope®, which carries out 21,600 oscillations per hour with its auto-compensating flat hairspring. The result is 1/6 of a second stopwatch accuracy, impressive functionality and a special homage to Audi's motorsport success.

Article source: www.audi.co.uk

Capable of rocketing to 62mph from rest in just 3.4 seconds before topping out at 198mph, the Audi R8 LMX is the most powerful R8 we've ever produced.

The Audi R8 LMX is based on the acclaimed V10 plus model with its high-revving, mid mounted ten-cylinder engine, double wishbone suspension and ASF (Audi Space Frame) aluminium body.

A compact, seven speed S tronic transmission transfers the power to the quattro permanent all wheel drive system, which distributes it judiciously to racing-inspired 19 inch, 20-spoke wheels.

Article source: www.audi.co.uk

The hill-start assist function helps you drive off on a hill. 

If you hold down the foot brake for a time when the vehicle is stationary, the brake pressure is retained for brief a moment after you release the brake pedal – relaxed starting on any hill or incline with no roll-back. As you change from the brake to the accelerator, the car remains stationary for long enough and – thanks to the system’s automatic braking intervention – you can easily pull away without rolling back. Hill-start assist is a particularly valuable feature in combination with a towing bracket.

Article source: www.audi.co.uk

  • Expertise in fuel cell technology – A7 Sportback h-tron quattro technology demonstrator ready for real-life traffic
  • Long range – more than 300 miles
  • Plug-in hybrid concept with electric quattro

Ingolstadt/Los Angeles, November 19, 2014 - It covers 310 miles on one tank of fuel – and its exhaust emits nothing more than a few drops of water: The A7 Sportback h tron quattro uses a powerful electric drive with a fuel cell as its energy source, in combination with a hybrid battery and an additional electric motor in the rear. Its drive configuration makes the emission-free Audi A7 Sportback h-tron quattro a quattro through and through, with 170 kilowatts of power at its disposal – a new departure in fuel cell cars. There is no mechanical connection between the front and rear axles. As an e quattro, the A7 Sportback h-tron quattro features fully electronic management of torque distribution.

“The A7 Sportback h‑tron quattro is a genuine Audi – at once sporty and efficient. Conceived as an e‑quattro, its two electric motors drive all four wheels,” explained Prof. Dr. Ulrich Hackenberg, Member of the Board of Management for Technical Development at Audi. “The h‑tron concept car shows that we have mastered fuel cell technology. We are in a position to launch the production process as soon as the market and infrastructure are ready.”

The “h” in the name h‑tron denotes the chemical element hydrogen. In visual terms the technology demonstrators that Audi has brought along to the Los Angeles Auto Show basically resemble the production models. As the label with the h‑tron signet reveals, this concept car now takes its place alongside the other Audi models with alternative drive principles, the e‑tron and g‑tron. Externally, there is no other evidence of the fuel cell that converts hydrogen into electrical power on board the vehicle.

The fuel cell

The crucial differences are beneath the bonnet of the A7 Sportback: The fuel cell in the Audi technology demonstrator is installed at the front, mirroring the conventional A7 Sportback with combustion engine. Because the exhaust system only has to handle water vapour, it is made of weight‑saving plastic.

The fuel cell itself comprises over 300 individual cells that together form a stack. The core of each of these individual cells is a polymer membrane. There is a platinum-based catalyst on both sides of the membrane.

This is how the fuel cell works: Hydrogen is supplied to the anode, where it is broken down into protons and electrons. The protons migrate through the membrane to the cathode, where they react with the oxygen present in air to form water vapour. Meanwhile, outside the stack the electrons supply the electrical power – depending on load point, the individual cell voltage is 0.6 to 0.8 volts.

The entire fuel cell operates in the voltage range of 230 to 360 volts.

The main auxiliary assemblies include

  • a turbocharger that forces the air into the cells
  • the so-called recirculation fan – it returns unused hydrogen to the anode, thus increasing efficiency, and
  • a coolant pump.

These components have a high-voltage electric drive and are powered by the fuel cell.

There is a separate cooling circuit for the essential cooling of the fuel cell. A heat exchanger and a thermoelectric, self-regulating auxiliary heating element maintain pleasant temperatures in the cabin.

The fuel cell, which operates across a temperature range of 80 degrees Celsius, places higher demands on the vehicle cooling than an equivalent combustion engine but achieves superior efficiency of as high as 60 percent – almost double that of a conventional combustion engine. Its cold-starting performance is guaranteed down to -28 degrees Celsius.

Plug-in hybrid

A special feature of the A7 Sportback h‑tron quattro is its plug‑in hybrid concept – this represents a logical evolution from the Audi A2 H2 and Q5 HFC test cars. It has a lithium‑ion battery on board that can be recharged from the power socket by lead; with an 8.8 kWh energy capacity, it has been adopted from the A3 Sportback e‑tron*. It is located beneath the boot and has a separate cooling circuit for thermal management.

This high‑performance battery makes the ideal partner to the fuel cell. It can store energy recovered from brake applications and supply considerable power for full‑load boosting. This paves the way for impressive acceleration, making the A7 Sportback h‑tron quattro truly live up to quattro standards. Both the front and rear axles have no mechanical connections for the transmission of power. In the event of slip, the torque for both driven axles can be controlled electronically and adjusted continuously.

On battery power, the Audi A7 Sportback h‑tron quattro covers as much as 31 miles. The battery in the rear of the plug‑in hybrid can be recharged by lead. Depending on the voltage and current rating, a full recharge takes between two hours (industrial power socket/360 volts) and four hours (domestic power socket at 230 volts).

The battery operates at a different voltage level to the fuel cell. For that reason, there is a DC converter (DC/AC) between the two components. This tri‑port converter is located behind the stack. In many operating statuses it equalises the voltage, enabling the electric motors to operate at their maximum efficiency of 95 percent.

The power electronics in the front and rear of the vehicle convert the direct current from the fuel cell and battery into alternating current for the electric motors to drive the front and rear axles separately.

The two electric motors, which are cooled by a low-temperature circuit together with the voltage converters, are permanently excited synchronous machines. Each of them has an output of 85 kW, or even 114 kW if the voltage is temporarily raised. The peak torque is 270 Newtonmeters (199.1 lb‑ft) per electric motor.

The electric motors’ housings incorporate planetary gear trains with a single transmission ratio of 7.6:1. A mechanical parking lock and a differential function round off the system.

The appeal of e-quattro

Driving in the Audi A7 Sportback h‑tron quattro offers the full appeal of electric drive in conjunction with the new e‑quattro. The silent propulsion is fully available from the off, and the fuel cell reaches its maximum output within one second at full load – a more dynamic response than a combustion engine because the entire drive system involves only a few mechanical components.

With 540 Nm (398.3 lb‑ft) of propulsive power at its disposal the Audi A7 Sportback h‑tron quattro, which tips the scales at only around 1,950 kilograms, races from a standstill to 62 mph in 7.9 seconds. Its top speed is  111 mph – a top figure for its field of competitors. The e‑quattro concept requires precise coordination of the electric motors – the technology demonstrator offers a dynamic, stable and high-traction drive that is comparable to a production car with mechanical quattro drive.

A power meter – in the place of the revolution counter in the instrument cluster – informs the driver of the momentary power flow. The outer sections show the fuel level in the hydrogen tank and the level of battery charge. Graphics on the MMI monitor visualise the energy flow. When the driver presses the EV button, the technology demonstrator drives solely on battery power.

Switching from automatic transmission mode D to S increases the level of energy recovery when braking, so that the battery is charged up effectively during sporty driving. Brake applications, too, are almost always accomplished fully electrically: The electric motors then act as alternators and convert the car’s kinetic energy into electrical energy that is stored in the battery. The four disc brakes only become involved if more forceful or emergency braking is required.

The tank flap is in the right side section of the five-door coupé, concealing a filler connector for the hydrogen. Fully refueling with H2takes around three minutes, roughly as the same as a conventional automobile. The tanks communicate with the refuelling system by infrared interface and equalise the pressure and temperature levels.

Zero emissions

The four hydrogen tanks of the Audi A7 Sportback h‑tron quattro are located beneath the base of the boot, in front of the rear axle, in the centre tunnel. An outer skin made from carbon fibre reinforced polymer (CFRP) encases the inner aluminium shell. The tanks can store around five kilograms of hydrogen at a pressure of 700 bar – enough to drive for around 310 miles. According to the NEDC cycle, fuel consumption is roughly one kilogram of hydrogen per 100 kilometers – an amount with an energy content equivalent to 76.4mpg combined.

It is already the case that the A7 Sportback h‑tron quattro always travels with zero local emissions. By using the renewable fuel hydrogen, it can also be used globally as a zero emissions vehicle: Since 2013 Audi has been operating a pilot plant in which renewable wind power is used to produce hydrogen by electrolysis. At present, this hydrogen is still used in an additional production process to obtain synthetic methane (Audi e‑gas). A future move to feed this hydrogen into a hydrogen supply and filling station network would make it available for refueling fuel-cell vehicles. This is a sound option for sustainable mobility with no emissions.

Article source: www.audi.co.uk