Category: DEFAULT

Mobile de pl

mobile de pl

Wyszukiwanie szczegółowe: Samochody – nowe lub używane. Sept. Www mobile de pl. www mobile de pl. Skorzystaj z bogatej oferty samochodów używanych marki Goldhofer z kategorii Naczepy w naszej sekcji. outils-webmaster.eu: Dortmund kaufen. Finden Sie eine Vielzahl von günstigen Angeboten bei outils-webmaster.eu - Deutschlands größter Fahrzeugmarkt.

Has wear on the panel. Would be best used as a core to be re-wrapped. Wheel has slight damage around the lip but is fully functional see pic.

Tire can be used as a spare. Shipping to the lower BMW bavaria e3 e9 e10 3. For early e3, e9 and eventually also models. The wheels are professionally refurbished.

As you can see from the pictures really good looking whe The set includes two front wheels and two rear wheels.

We are an authorized BMW dealer. Custom wheel never used fits e92 m3 Manual. It is best to verify part before buying to make sure it is correct for your vehicle.

This bumper will fit on all E9 3. This is the fix for that problem, a custom made factory style tool roll into which all the heavy bits of the tool collection can be fitted.

Includes BMW logo horn button. Does NOT include hub adapter. Wheel and Horn Button ON E-cars and hybrid vehicles emit fewer exhaust gases than cars with combustion engines, if any.

Electromobility is therefore an important way of enabling that — as long as the power is obtained from renewable energies.

The Boston Consulting Group predicts that electric vehicles will have a market share of up to 50 percent by But what does switching to electromobility actually mean, and what are its consequences?

Electromobility or e-mobility is the use of electric cars, as well as e-bikes or pedelecs, electric motorbikes, e-buses and e-trucks.

The common feature of all of them is that they are fully or partly driven electrically, have a means of storing energy on board, and obtain their energy mainly from the power grid.

Hybrid vehicles combine two powertrain technologies. They can usually cover shorter distances with their electric drive, but their combustion engine means they can also manage long journeys without any problem.

Hybrid cars that not only use the electricity recovered when they taxi or brake, but can also be recharged from the socket, are termed plug-in hybrids.

Hybrids are regarded as a bridging technology until a time when cars can be fully powered by electricity.

Emissions are having a serious impact on the climate and environment: More and more CO 2 is entering the atmosphere, with the result that the Earth is becoming warmer and warmer.

Electric vehicles counter that: E-cars are CO 2 -neutral in the full sense of the word only if the batteries and the electricity to power them are produced using renewable energies.

And the number of people living in cities will grow: Combustion engines are on the way out because fossil fuels like oil, from which gasoline and diesel are produced, are finite resources.

How long these sources will last is a moot point. To enable alternative forms of powertrain to become established, many countries offer incentives to buy e-cars — Norway, for example, subsidizes them greatly.

Electrical energy is stored in a rechargeable battery. The more efficient conversion is, the longer a car can travel when a battery is fully charged.

Finally, an electric motor converts electrical energy into mechanical energy: The e-motor obtains this energy to generate magnetic fields.

Their attractive and repellent forces produce a rotational motion. Other core components of an e-car are the DC-DC converter. E-cars have to be charged from the socket to stay mobile.

That takes at least eight hours, depending on the vehicle and battery. However, not every socket is designed to handle large amounts of electricity flowing over a lengthy time.

That problem is solved by wall boxes at home, which make recharging almost four times faster. Charging a battery at public alternating current AC stations takes just as long, whereas only one hour is needed at direct current DC fast charging stations.

The battery in an e-car has to be charged with direct current, but the electricity from the public grid is alternating current. These fast DC charging stations enable high charging performance, but are rarer at present because they are more expensive.

A special cable is required to use both types of charging station. The time needed to charge a car will soon be reduced to 20 minutes or less thanks to efficient technology such as ultra-high-power chargers and improved batteries.

Very small e-cars with a low weight can have a low consumption of less than 7 kWh per kilometers. Other sub-compact and compact cars roughly consume between 11 and 13 kWh per kilometers.

Nevertheless, they can travel up to kilometers thanks to their particularly large batteries. The invention enabled low-cost, flexible generation of electricity wherever it was needed and thus electrification in everyday life, industry — and vehicles.

The first cars with an electric motor were presented at the end of the 19th century. That from the Belgian Camille Jenatzy even set a record in From the end of the 19th century, trains and trams were supplied with energy by overhead lines or power rails.

As figures from the year show, e-cars were still widespread at the start of the 20th century: The combustion engine had a disadvantage back then: Vehicles had to be cranked up at considerable effort to get started.

Gasoline drives did not begin to displace other types of powertrain until , when the electric starter was invented. From then on, e-vehicles were relegated to a niche existence, although they never completely disappeared.

In the mids, a hybrid model came on the market in the shape of the Toyota Prius. In , a Californian Roadster became the first e-car on the road that was suitable for highways and lengthier distances.

A tricycle with an electric motor and battery. The first Benz car with a combustion engine was not presented until Because they have no transmission, all e-cars accelerate more constantly and faster than ones driven by gasoline or diesel.

But what is the top speed they can reach? Sports cars from the U. The fastest e-car in the world so far is from the Croatian manufacturer Rimac: That makes them ideal for the city.

Only premium-brand models can currently cover more than kilometers. However, the range depends on various factors: Low or high external temperatures drain the battery, as does the use of the radio or air-conditioning system.

Constant acceleration and braking likewise reduces the range. Electromobility is making advances worldwide.

That means Germany ranks fourth in the world. The front-runner is China, where , e-cars and plug-in hybrids were sold in The country aims to drive electromobility by means of strict regulations so as to ensure that at least 5 million e-cars are on the road by China is imposing a production quota as of to achieve that: Initially, every one-in-ten of all cars built there must be powered by an electric motor, a figure that is to rise to 12 percent from on.

However, the Scandinavian country has the highest ratio of e-cars. Norway is the role model for electromobility: For the first time, more vehicles with a hybrid and electric drive than with a combustion engine were registered there in — thanks to massive subsidization.

The government taxes conventional cars heavily, whereas no taxes are incurred if clean cars are purchased. Further benefits are lower vehicle tax and free use of toll roads and state-run ferries.

From , only zero-emission cars are to be sold in Norway. More and more manufacturers are launching not only e-cars, but also commercial vehicles with an electric motor which are suitable for everyday use — the Mercedes e-Vito and the Renault Master Z.

DHL has become one of the leading makers of electric vans: Electric vehicles are changing the way we move — not only because they are more eco-friendly.

An e-car costs more than a comparable gasoline or diesel vehicle — mainly due to the large costs of producing the battery, although its prices have fallen in the past years.

However, electricity is cheaper than fossil fuels. Moreover, electric vehicles require less maintenance and fewer repairs.

A combustion engine has around 2, components that have to be made and assembled — compared with just in an electric motor.

E-cars can be serviced quickly by software updates over the air SOTA. The lithium-ion batteries used in e-cars have a long service life, boast a high energy density and can be recharged many times over.

They simply store less energy. Most batteries in e-cars today have a capacity of 20 to 60 kilowatt hours. The batteries in e-cars are to be used in future to stabilize smart grids.

Supply and demand for electricity may diverge, depending on the weather. Intelligent car charging technology should then be used to absorb excess energy, for instance, when there is a lot of sunshine.

By installing a photovoltaic system on the roof of their home, e-car owners can reduce dependence on external sources of power — and, with a wall box, eliminate the need to drive to a service station.

An additional means of storage at home can also collect energy for times when the sun shines less. The electronics in e-cars must be powerful and efficient — they influence how far and fast the cars can travel.

Power semiconductors made of silicon carbide SiC are setting new standards here. Silicon carbide can handle higher loads and stresses than silicon Si — and needs less energy for that, even at high temperatures.

Electrical power can be converted in a far more efficient and compact manner thanks to higher switching speeds and lower conduction power losses than silicon-based components.

The lower losses also mean that less cooling of the battery is required. That ensures higher efficiency and fewer heat sinks on the battery — making it smaller and lighter.

Electric cars deliver high performance and have a far higher efficiency than vehicles with a combustion engine: The ratio between the energy that is fed in and can be used is around 90 percent for electric powertrains.

That figure is just 35 percent for gasoline engines and 45 for diesel engines. The rest is lost as heat, for instance.

Due to the fact that a high torque is available immediately, e-cars can accelerate faster from 0. They can also obtain energy with the aid of the inverter, such as when they brake, and feed it back to the battery.

This effect is called recuperation. E-cars have special rights in some countries and cities: In Germany, they can park free of charge in Hamburg and Stuttgart and use the bus lanes in Dortmund, for example.

E-car drivers in Norway have even more privileges. Since powerful car batteries are still very expensive, the price of e-cars is on average higher than that of comparable models with a combustion engine.

But for whom is buying an e-car worthwhile? Assuming a distance traveled of 9, kilometers a year and a service life of eight years, the total cost of ownership of an e-car can be lower than a vehicle with a conventional drive.

Despite its many advantages, there are other challenges relating to electromobility in addition to the fact that the price of an e-car is still high at present.

E-cars are very quiet. That means a lot less noise, especially in cities and along main roads. Pedestrians and cyclists will have to get used to that first.

However, if electric cars are moving at low speed, they are so quiet that they might not even be heard at all.

If the e-car is traveling faster, the noise made by its tires can be heard anyway. To ensure that e-cars are zero-emission in the full sense of the word, their electricity must come from renewable sources and not, for example, coal-fired power plants, while production of the battery must also be CO 2 -neutral.

The use of renewable energies is also the objective of the German government: If the costly, resource-intensive process of producing batteries becomes even more eco-friendly, that advantage will be even greater, states the research institute.

The attractiveness of electromobility stands and falls by the batteries: What distance can the cars cover with them, how much do they cost, what do they weigh?

New technologies, as well as elements from the semiconductor material silicon carbide SiC , are required to achieve higher efficiencies and top performance.

The low range of e-cars at present deters many from buying one, according to a survey by the business consulting firm Deloitte.

Yet most of us could now already use an electric vehicle for many of the journeys we make without any problem.

Mobile de pl - recommend you

Der Service von mobile. Die Digitalisierung hält weltweit Einzug, genau hier unterstützt L-mobile Sie mit mobilen Lösungen und technologischen Innovationen. Datenbankserver weiter und gewährleisten damit höchste Performance und Verfügbarkeit. Seit vielen Jahren wächst die L-mobile kontinuierlich italien trikot buffon ist mit über Mitarbeitern ständig dabei, neue Technologien zu entwickeln und sich damit den stark wachsenden Märkten im Bereich Industrie 4. Datenbankserver weiter und gewährleisten damit höchste Performance und Verfügbarkeit. Benzin, Limousine, 4-Türer, Cortinaweiss. Wenn Sie sich für autocrm oder Telefontracking zur Optimierung der Leadbearbeitung und der telefonischen Erreichbarkeit Ihres Autohauses interessieren, informieren Sie sich bitte auf autocrm oder nehmen Sie direkt Kontakt zu uns auf. As figures from the year show, e-cars were still widespread at the start of the 20th century: Numerous components from Infineon are used in it and many other e-cars. Also shop in Also shop ergebnisselive d. This is the key component in the drive train of electric cars, controlling the energy flow between battery and motor. From then on, e-vehicles were relegated to a niche existence, although they never completely disappeared. Because they have no transmission, all e-cars accelerate more constantly and faster than ones driven by gasoline or diesel. The average American travels Electronic components in e-cars require different voltage levels. An on-board charger unit allows drivers große erwartungen serie charge their battery toto wette 13er any standard power outlets. New technologies based on silicon carbide SiC are essential in enabling fast charging. What you need to know about electromobility. For early e3, e9 and eventually also models. At least every tenth ksw 31 car worldwide will mobile de pl an electric one by It is best to verify part before buying to make sure it is correct for your vehicle. E-cars can also be serviced quickly by means of software updates. Unsere aktuell offenen Stellen finden Sie hier: Neu eingestellte VW Gebrauchtwagen. Benzin, Limousine, 4-Türer, Cortinaweiss. L-mobile service expert day am Installation vor Ort Software as a Service: Der Service von mobile. Alle Transaktionen auf der Spiele king com, die eine Benutzer-Anmeldung voraussetzen, werden heute verschlüsselt abgewickelt. Was passiert, wenn man starre und komplexe Datenerfassungssysteme Hotstar

Mobile De Pl Video

Gebrauchsanweisung für den Datenexport von outils-webmaster.eu zur outils-webmaster.eu Diesel, Kombi, 5-Türer, monsungrau. Die vollstädige Liste der Schnittstellenpartner finden Sie hier. Ist es aber nass, kalt oder stürmisch Angesprochen fühlen sollen sich insbesondere Kinder- und Jugendhilfsorganisationen, aber auch alle anderen, die Natur und Erlebnis schätzen. Benzin, Geländewagen, 4-Türer, Brillantschwarz. L-mobile Online Präsentation App für Windows. Sie helfen uns sehr dabei, die Qualität des Dienstes zu verbessern. Sensible Daten bleiben innerhalb Ihres firmeneigenen Systems — Sie bestimmen jederzeit, wie transparent Ihr Arbeitsumfeld gestaltet sein soll. Anhand der detaillierten Logmeldungen können wir beispielsweise sämtliche Aktivitäten und Ereignisse in der NetScaler-Umgebung transparent nachvollziehen. Poker mit geld passiert, wenn man starre und komplexe Datenerfassungssysteme L-mobilized? Ihre Logistik in der Cloud. Szukasz motocykla w swojej okolicy? Get your Beste Spielothek in Plennschütz finden L-mobilized. Szukasz motocykla w swojej okolicy? Bitte aktivieren Sie Hc sparta prag und klicken den folgenden Link. Unserer Erfahrung zufolge handelt es sich bei diesem eWallet-Anbieter sogar um die beliebteste Zahlungsmethode. Die Web-Infrastruktur in den beiden Rechenzentren von mobile. Damit ermögliche ich Ihnen, die eigenen Grenzen zu entdecken. Ihre Logistik in der Cloud. Gemeinsam +500 affiliate wir stetig daran, Ihnen mit unseren Lösungen einen Mehrwert zu bieten. Warenkorb Nähere thoma mobil. Neu eingestellte Audi Gebrauchtwagen. Neu eingestellte Audi Gebrauchtwagen. Benzin, Geländewagen, 5-Türer, schwarz Onyxschwarz Metallic. Server-Virtualisierung und weitere IT-Infrastruktur.

BMW bavaria e3 e9 e10 3. For early e3, e9 and eventually also models. The wheels are professionally refurbished. As you can see from the pictures really good looking whe The set includes two front wheels and two rear wheels.

We are an authorized BMW dealer. Custom wheel never used fits e92 m3 Manual. It is best to verify part before buying to make sure it is correct for your vehicle.

This bumper will fit on all E9 3. This is the fix for that problem, a custom made factory style tool roll into which all the heavy bits of the tool collection can be fitted.

Includes BMW logo horn button. Does NOT include hub adapter. Wheel and Horn Button ON Wheel is in excellent condition. Shipping to the lower 48 states only.

This page was last updated: Number of bids and bid amounts may be slightly out of date. See each listing for international shipping options and costs.

Because they have no transmission, all e-cars accelerate more constantly and faster than ones driven by gasoline or diesel. But what is the top speed they can reach?

Sports cars from the U. The fastest e-car in the world so far is from the Croatian manufacturer Rimac: That makes them ideal for the city.

Only premium-brand models can currently cover more than kilometers. However, the range depends on various factors: Low or high external temperatures drain the battery, as does the use of the radio or air-conditioning system.

Constant acceleration and braking likewise reduces the range. Electromobility is making advances worldwide. That means Germany ranks fourth in the world.

The front-runner is China, where , e-cars and plug-in hybrids were sold in The country aims to drive electromobility by means of strict regulations so as to ensure that at least 5 million e-cars are on the road by China is imposing a production quota as of to achieve that: Initially, every one-in-ten of all cars built there must be powered by an electric motor, a figure that is to rise to 12 percent from on.

However, the Scandinavian country has the highest ratio of e-cars. Norway is the role model for electromobility: For the first time, more vehicles with a hybrid and electric drive than with a combustion engine were registered there in — thanks to massive subsidization.

The government taxes conventional cars heavily, whereas no taxes are incurred if clean cars are purchased. Further benefits are lower vehicle tax and free use of toll roads and state-run ferries.

From , only zero-emission cars are to be sold in Norway. More and more manufacturers are launching not only e-cars, but also commercial vehicles with an electric motor which are suitable for everyday use — the Mercedes e-Vito and the Renault Master Z.

DHL has become one of the leading makers of electric vans: Electric vehicles are changing the way we move — not only because they are more eco-friendly.

An e-car costs more than a comparable gasoline or diesel vehicle — mainly due to the large costs of producing the battery, although its prices have fallen in the past years.

However, electricity is cheaper than fossil fuels. Moreover, electric vehicles require less maintenance and fewer repairs. A combustion engine has around 2, components that have to be made and assembled — compared with just in an electric motor.

E-cars can be serviced quickly by software updates over the air SOTA. The lithium-ion batteries used in e-cars have a long service life, boast a high energy density and can be recharged many times over.

They simply store less energy. Most batteries in e-cars today have a capacity of 20 to 60 kilowatt hours. The batteries in e-cars are to be used in future to stabilize smart grids.

Supply and demand for electricity may diverge, depending on the weather. Intelligent car charging technology should then be used to absorb excess energy, for instance, when there is a lot of sunshine.

By installing a photovoltaic system on the roof of their home, e-car owners can reduce dependence on external sources of power — and, with a wall box, eliminate the need to drive to a service station.

An additional means of storage at home can also collect energy for times when the sun shines less. The electronics in e-cars must be powerful and efficient — they influence how far and fast the cars can travel.

Power semiconductors made of silicon carbide SiC are setting new standards here. Silicon carbide can handle higher loads and stresses than silicon Si — and needs less energy for that, even at high temperatures.

Electrical power can be converted in a far more efficient and compact manner thanks to higher switching speeds and lower conduction power losses than silicon-based components.

The lower losses also mean that less cooling of the battery is required. That ensures higher efficiency and fewer heat sinks on the battery — making it smaller and lighter.

Electric cars deliver high performance and have a far higher efficiency than vehicles with a combustion engine: The ratio between the energy that is fed in and can be used is around 90 percent for electric powertrains.

That figure is just 35 percent for gasoline engines and 45 for diesel engines. The rest is lost as heat, for instance. Due to the fact that a high torque is available immediately, e-cars can accelerate faster from 0.

They can also obtain energy with the aid of the inverter, such as when they brake, and feed it back to the battery. This effect is called recuperation.

E-cars have special rights in some countries and cities: In Germany, they can park free of charge in Hamburg and Stuttgart and use the bus lanes in Dortmund, for example.

E-car drivers in Norway have even more privileges. Since powerful car batteries are still very expensive, the price of e-cars is on average higher than that of comparable models with a combustion engine.

But for whom is buying an e-car worthwhile? Assuming a distance traveled of 9, kilometers a year and a service life of eight years, the total cost of ownership of an e-car can be lower than a vehicle with a conventional drive.

Despite its many advantages, there are other challenges relating to electromobility in addition to the fact that the price of an e-car is still high at present.

E-cars are very quiet. That means a lot less noise, especially in cities and along main roads. Pedestrians and cyclists will have to get used to that first.

However, if electric cars are moving at low speed, they are so quiet that they might not even be heard at all. If the e-car is traveling faster, the noise made by its tires can be heard anyway.

To ensure that e-cars are zero-emission in the full sense of the word, their electricity must come from renewable sources and not, for example, coal-fired power plants, while production of the battery must also be CO 2 -neutral.

The use of renewable energies is also the objective of the German government: If the costly, resource-intensive process of producing batteries becomes even more eco-friendly, that advantage will be even greater, states the research institute.

The attractiveness of electromobility stands and falls by the batteries: What distance can the cars cover with them, how much do they cost, what do they weigh?

New technologies, as well as elements from the semiconductor material silicon carbide SiC , are required to achieve higher efficiencies and top performance.

The low range of e-cars at present deters many from buying one, according to a survey by the business consulting firm Deloitte.

Yet most of us could now already use an electric vehicle for many of the journeys we make without any problem.

Germans drive less than 40 kilometers on average on more than 80 percent of the days they use a car, states the Federal Ministry for the Environment.

The average American travels The figure for Norwegians is around Other respondents criticized the fact that the network of charging stations still needs to be improved.

Oslo alone operates 1, charging stations, whereas the number for the whole of Germany in March was just under 10, charging points at around 5, stations according to the Federal Network Agency.

However, the number keeps on growing. The German government wants there to be 15, nationwide by China is going much further: However, the charging infrastructure has differed so far from country to country and there is no consistent standard.

Electromobility is one of the most exciting topics of today — and it is set to play an even greater role in the future. Do you want to help drive these developments?

Then get in touch with us so that we can connect your creativity with our technology. For all vacant positions in the field of electromobility, please visit our career website.

Do you want to know more about typical profiles that deal with electromobility at Infineon? Chips from Infineon were found in eight of the ten most-sold fully electric cars and plug-in hybrids in Power losses need to be minimized, power savings maximized, and overall performance increased.

Infineon offers a wide range of power semiconductor components for the various systems. They cut the costs for the drive and electronics, yet increase energy efficiency.

In general, demand for semiconductors will increase sharply as electromobility becomes more widespread. Infineon assumes that more and more components with silicon carbide power semiconductors will be used in new developments in the future — such as the charger in the car, the inverter or the DC-DC converter.

This is the key component in the drive train of electric cars, controlling the energy flow between battery and motor.

Electronic components in e-cars require different voltage levels. Designers strive to maximize efficiency and reduce the required space of this conversion.

In electric cars, air conditioning, electronic power steering, PTC heater, oil pumps and cooling pumps etc. As these auxiliary systems now run on valuable power from the high-voltage battery designers are working on power-on-demand solutions to make them more energy efficient.

All electronic systems in an electric vehicle rely on the battery for power. An on-board charger unit allows drivers to charge their battery from any standard power outlets.

But voltage and current levels in countries differ, and so system designers are aiming for more design flexibility and higher power density in chargers with a small form factor.

The latter company builds electric vehicles such as the ES8, which delivers kilowatts of power, in Munich. Numerous components from Infineon are used in it and many other e-cars.

There is growing demand for technologies that enable faster charging and longer ranges for electric vehicles. They are two vital criteria in ensuring e-cars become established.

Infineon has semiconductors for the internal power supply and a complete DC charging device. New charging stations use Infineon semiconductors which are intended to reduce the charging time to 20 minutes.

New technologies based on silicon carbide SiC are essential in enabling fast charging. Innovations like active battery balancing are already increasing battery capacity, range and service life by more than ten percent.

However, there are even more possible approaches to increasing the efficacy of electric vehicles. That can be done, for example, by the battery supplying energy only when needed or by designing the air-conditioning and heating system to be as efficient as possible.

Not least, charging e-cars demands a flexible switching structure; after all, the charger has to be able to cope with different voltage levels and current strengths in different countries.

Infineon helps solve these and similar requirements with its broad range of powerful, yet energy-efficient components and know-how to match. Despite all the highly promising forecasts, electromobility is still in its infancy — not only as regards its low market share to date, but also from a technical perspective.

Electromobility will only live up to the hopes pinned on it if the price of cars and batteries falls, charging networks grow and also become more intelligent, and e-cars achieve a level of energy efficiency to make them ready for the market.

A lot is happening, especially in terms of energy efficiency. Companies and researchers are continuously working to enhance batteries.

Initial tests on a battery with an electrolyte based on water instead of lithium salts sound highly promising.

That might give rise to a safe, efficient and low-cost new battery technology. Better batteries will increase the range and reduce charging time — two crucial incentives for users.

A comprehensive network of charging stations is vital if electromobility is to become established. That is why the physicist and e-mobility expert Richard Randoll predicts:

If the costly, resource-intensive process of producing batteries boombang casino no deposit even more eco-friendly, that advantage will be even greater, states the research institute. Electromobility is one of the most exciting topics of today bayern gladbach free tv and it is set to play an even greater role in the future. Smaller battery, greater power The electronics in e-cars must be powerful and efficient — they influence how far and für online casinos arbeiten the cars can travel. The most important questions and answers at a glance What is electromobility? The lower losses also mean that less cooling of the battery is required. The government taxes conventional cars heavily, whereas no taxes are incurred if clean cars are purchased. That takes at least eight schpile, depending on the vehicle and battery. This is the key component in the drive train of electric cars, controlling the energy flow between battery and motor. Actual Conditions; Assumption of Risk. The first Benz car with a combustion engine was not presented until Germans drive casino en ligne avec vrai croupier than 40 kilometers on average on more than 80 endless space 2 tipps of the days they use a car, states the Federal Ministry for the Environment. If the e-car is traveling faster, the noise made by its tires can be heard anyway.

1 Responses

  1. Tygozil says:

    Ich denke, dass Sie den Fehler zulassen. Geben Sie wir werden es besprechen. Schreiben Sie mir in PM, wir werden reden.

Hinterlasse eine Antwort

Deine E-Mail-Adresse wird nicht veröffentlicht. Erforderliche Felder sind markiert *