The Opel Calibra is a coupé, engineered and produced by the German automaker Opel between 1989 and 1997. In the United Kingdom, where it remained on sale until 1999, it was marketed under the Vauxhall brand as the Vauxhall Calibra.[2] It was also marketed as the Chevrolet Calibra in South America by Chevrolet, and the Holden Calibra in Australia and New Zealand by Holden.
Crisp side lines along with the seemingly ‘floating roof’, which visually separates the lower from the upper section of the vehicle, optically stretch the Crossland X and reinforce its spacious interior. The ‘floating roof’ also displays its relationship to the Opel ADAM’s arched chrome window line that drops towards the rear. Just like for the individualization champion, customers can order a different color for the roof. The prominent rear makes a clear SUV statement with its visible underride protection.
Acceleration and braking benefit from every kg saved. Lightweight design is therefore strategically important at Opel. The current Opel Astra, which premiered in 2015, set new standards in this respect. The 2016 “European Car Of The Year” is up to 200kg lighter than its predecessor. As a result, the agility and ride comfort of the Astra are significantly improved; throttle reaction is more responsive, the steering reacts more dynamically, the driving experience is more engaging. The weight reduction will have a similar effect on the new Corsa.
Last week when I was looking at 90s coupes, I came across one that Americans never had the chance to get – the Opel Calibra. A successor to the Opel Manta that Americans once got through Buick dealerships, I began to realize it was a shame we never got to have this. Weirder, considering it shares a lot of underneath pieces with the second-generation Saab 900.
Changes in the Opel cars under GM's management did not appear until January 1950, when a face-lifted Olympia was introduced. Front and rear fenders were elongated and a heavy horizontal chrome grille was added. A retrograde step was the replacement of the four-speed gearbox with a three-speed unit, with a column shift lever. Engine tuning emphasised high torque at low engine speeds so the extra ratio was not too sorely missed. The cabrio-coach model was returned to the Olympia range and a kombi was also offered, built by Karosserie Miesen. In February 1951, in preparation for the first postwar automobile show in Germany, the Olympia was dressed up further with a trunk compartment that enclosed the spare tire and 15-inch (38 cm) wheels instead of 16-inch (41 cm) wheels and tires. With minor further changes, this model lasted to March 1953.
A convertible version was also available, for the first time in 1987, built by Bertone of Torino/Italy, bringing it to line with competitors, such as the Ford Escort and Volkswagen Golf. For the 1988 model, capacities were raised from 1.3 to 1.4 litres. In the fall of 1986 a new 1,998 cc engine replaced the 1.8 hitherto used on the GSi and Vauxhall Astra GTE in many markets, although the 1.8 continued to be sold in some places.[25] In 1988, a 16-valve twin-cam version was developed for a high-performance GSi/GTE model, yielding 156 PS (115 kW) in non-catalyzed form, six less horsepower with a catalytic converter fitted. While criticized for a lack of refinement, the GSi 16V was also lauded as the most powerful car available in its class at the time.[26] Aside from the "16V" badging, it could be told from an eight-valve GSi by its twin rectangular exhaust pipes.[26]

SRi models get sport style seats and distinctive 16in alloy wheels, while those opting for the SRi VX-Line models get 17in alloys, sports suspension and an aggressive bodykit thrown into the package. The special edition models consists of the Limited, Red and Black Edition Corsas. Limited Edition models get Vauxhall's OnStar concierge and emergency portal, sports seats, air conditioning, chrome exhaust, sports suspension, 17in alloy wheels and front foglights included in the package, while the Red and Black Edition gets a red or black paint job, 17in diamond-cut alloy wheels and are the only Corsas fitted with the 148bhp turbocharged 1.4-litre petrol engine.


Dostupna u standardnoj verziji ili kao panorama u 180°, kamera za hod unazad pomaže vam optimalnom ukupnom preglednošću, prikazom iz ptičje perspektive i funkcijom zumiranja. Ono što je nekad predstavljalo prikrivenu opasnost poput predmeta koji vam prilaze sa strane ili nadolazećeg saobraćaja pri hodu unazad, sad je lako uočljivo i kretanje je mnogo lakše i bezbednije. Funkcija zumiranja se automatski uključuje ako su predmeti na udaljenosti manjoj od 70 centimetara. Traženje parking mesta postaje daleko opuštenije jer parking asistent obavlja sav posao. Omogućuje vam i izlazak s parking mesta uz kolovoz bez angažovanja ruku, kao i manevrisanje u svim pravcima.
Speaking of which, our speculative render of the next Corsa builds upon the styling langue implemented by the Rüsselsheim-based marque for the pair of crossovers, but adapted to better suit a supermini. It’s unclear at this point whether the styling direction will change now that Opel is underneath PSA’s umbrella, but it could happen considering the underpinnings are significantly being modified.
¹Opțional. Funcționează automat între 5 km/h și 85 km/h. Între 5 și 30 km/h, decelerarea pentru reducerea vitezei de impact este de 0,9 g. Într 30 și 85 km/h, sistemul reduce viteza cu maxim 22 km/h. După acest prag, șoferul trebuie să frâneze singur pentru a reduce și mai mult viteza. Gama de viteze de funcționare a AEBPD depinde de obstacolul detectat (mobil: între 5 și 85 km/h; fix: între 5 și 80 km/h; pietoni: între 5 și 60 km/h). Sistemele Opel de asistență pentru șofer au rolul de a asista șoferul în cadrul limitărilor imanente ale sistemului. Șoferul rămâne responsabil pentru sarcinile conducerii. Se preconizează că va fi disponibil din toamna anului 2017.
The extra-light, all-aluminium engines, together with optimization of the front and rear axles, also contribute to the low total weight. The particularly compact three-cylinder petrol engines weigh around 15kg less than the previous generation of similarly powerful four-cylinder units. Highly unusual in the small-car-sector is the new Corsa’s aluminium engine bonnet, which although longer, saves 2.4kg in comparison to the previous model’s bonnet made of steel. The Insignia flagship was previously the only model in the Opel range with an aluminium bonnet. The seats also have been put on a diet. The new optimized seat structure saves a total of 10kg – 5.5kg at the front, 4.5kg at the rear. New lighter insulating material was used for fine tuning. Altogether the measures result in a weight reduction that, in combination with optimum aerodynamics and the efficient powertrains, will lead to a considerable reduction in fuel consumption and CO2 emissions.
The brakes were now controlled using a hydraulic mechanism. The suspension featured synchromous springing, a suspension configuration already seen on the manufacturer's larger models and based on the Dubonnet system for which General Motors in France had purchased the license. The General Motors version, which had been further developed by Opel’s North American parent, was intended to provide a soft ride, but there was some criticism that handling and road-holding were compromised, especially when the system was applied to small light-weight cars such as the Kadett.[3] By the end of 1937 33,402 of these first generation Kadetts had been produced.[4]
The Calibra, styled by the American head of GM design Europe, Wayne Cherry (retired), is considered by some the most stylish Vauxhall/Opel ever, but being based on the Vectra chassis its ride and handling were not significantly better than that of the family car from which it grew. It was, however, the most aerodynamically efficient Opel everwith a drag coefficient (Cd) of 0.26. It remained the most aerodynamic mass production car for the next 10 years, until the Honda Insight was launched in 1999 with a Cd of 0.25.
The plucky Kadett B. I am still daily driving a 1100 sedan here in southern CA. Simple basic trouble free comfortable transportation. It does its job without fuss or pretentiousness. I am amazed at how well the engineers made a cheap car so useable without feeling as if you were in a penalty box. They just have a certain feel that I find appealing. *
Customers and experts are already enthusiastic about the IntelliLux LED® matrix lighting technology in the Opel Insignia flagship and Astra compact cars: in Europe, 20 per cent of Astra drivers and 60 per cent of Insignia customers order this innovative system. Around 90,000 new Opel cars equipped with matrix technology thus enter the European market per year. The glare-free matrix headlights automatically and continuously adapt to the prevailing traffic situation and surroundings. Approaching traffic and preceding vehicles are simply “cut out” of the illuminated area. Glare is minimised and drivers enjoy optimum visibility - as will soon be the case with the new-generation Opel Corsa.

The manufacturer now offered two versions of the Kadett, designated the "Kadett KJ38 and the "Kadett K38" the latter also being sold as the "Kadett Spezial". Mechanically and in terms of published performance there was little to differentiate the two, but the "Spezial" had a chrome stripe below the window line, and extra external body trim in other areas such as on the front grill. The interior of the "Spezial" was also better equipped. To the extent that the 300 Mark saving for buyers of the car reflected reduced production costs, the major difference was that the more basic "KJ38" lost the synchromous springing with which the car had been launched, and which continued to be fitted on the "Spezial". The base car instead reverted to traditional rigid axle based suspension similar to that fitted on the old Opel P4.
Automatic Emergency Braking with Pedestrian Detection works automatically at speeds between 5 and 140km/h. For speeds between 5 and 30km/h a 0.9g deceleration is applied to reduce the impact speed of the collision. For speeds of 30 to 140km/h the system reduces the speed by up to 50km/h. To reduce speed by over 50km/h the driver needs to provide additional braking. The operational speed range depends on the type of obstacle detected:
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