" The future is not something we enter. The future is something we create "
Wikipedia
Sunday, January 27, 2008
Spectacular sky show on February 2008
The most spectacular celestial sights over the next couple of weeks are reserved for the early morning sky. Two bright planets will converge, and then be joined by the moon.
Such an eloquent description certainly fits our current morning sky, for these final days of January and the first days of February will be an exceptional time for predawn sky watchers with a beautiful pairing of the two brightest planets, Venus and Jupiter. They will appear closest together in the dawn sky of Friday, Feb. 1, and a few mornings later, the waning crescent moon will later drop by to join them.
Dazzling "double planet"
For the past several months, dazzling Venus has been prominent in our morning sky. And about a week ago, brilliant Jupiter also began to emerge from out of the glare of the Sun.
The two planets are currently rising out of the east-southeast horizon about two hours before sunrise.
From now through the end of January, the gap between the two will noticeably close, until on Feb. 1 they'll be separated by just over one-half degree, which is roughly the apparent width of the moon (The width of your fist, held at arm's length roughly corresponds to 10 degrees). Jupiter will shine brilliantly at magnitude -1.9, yet it will appear only 1/7 as bright as Venus, which will gleam at magnitude -4.0.
Together they will make for a spectacular "double planet" low in the dawn twilight. In the mornings thereafter they will appear to slowly separate, but before they have a chance to get too far apart the moon will join the picture.
Celestial summit meeting
At last quarter (half) phase on Jan. 30, the moon will stand alone, high toward the south at sunrise. But with each passing morning, as it wanes to a slender crescent, it will shift toward the east, ultimately into the same region of the sky as our two planets.
Early on Sunday morning, Feb. 3, the moon will sit well off to the west (right) of the planets. On the following morning, Monday, Feb. 4, the show will reach its peak when, about 45 minutes before sunrise, Venus, Jupiter and the moon — the three brightest objects of the night sky — will form a striking isosceles triangle, with the two planets 3 degrees apart and the moon marking the vertex of the triangle just over 5 degrees below the "dynamic duo."
Imagine the astrological significance that the ancients might have ascribed to a celestial summit meeting such as this!
You might want to check your southeast horizon in advance to make sure that there are no tall trees or buildings that might obstruct your view of the moon which will be sitting very low to the horizon.
Like a painting, this celestial tableau might, at first glance may appear rather flat and one-dimensional. But by gazing at this scene long enough, our minds can perhaps picture these objects strung out across the solar system, along our line of sight as they really are.
Beyond our moon — figuratively a stone's throw away at 247,000 miles (397,000 kilometers) — we first reach Venus, about 510 times farther out, or 126 million miles (203 million kilometers) from Earth. The lesser gem flanking Venus — Jupiter, largest of all the planets — is nearly 4 and a half times more distant than Venus at a distance of 560 million miles (901 million kilometers).
Generally speaking, at least for the immediate future, conjunctions between Venus and Jupiter will come in pairs. The first conjunction takes place in the morning sky, followed about 10 months later by another in the evening sky. Then, after about two and a half years, Venus and Jupiter are again in conjunction, again in the morning sky.
When Venus and Jupiter next get together, it will be in the evening sky late next fall, on Dec. 1. After that, we'll have to wait until May 2011 (morning sky) and Mar. 2012 (evening sky) for the next set of Venus-Jupiter conjunctions.
Thursday, January 17, 2008
Inkless printer....amazing technnology.
The Polaroid Digital Instant Mobile Photo Printer is the easiest way to print photos from a camera phone. Wirelessly transfer images from a Bluetooth-enabled camera phone to the Mobile Printer and print instantly. Using the built-in OBEX (object exchange profile) Bluetooth in the phone and the printer, connecting and printing becomes instant.
Digital Camera:
What You Get:
The heart of this new "ZINK" category of printing is the ZINK Paper™. The patented ZINK Paper is an advanced composite material with embedded yellow, magenta and cyan dye crystals, activated with 200 million heat pulses, in 30 seconds, in a single pass. With 100 billion crystals in a 2x3" print, the paper is 100% inkless. A ZINK-enabled printer uses heat to activate and colorize these crystals. Because there is no ink, every ZINK-enabled device has the unique benefits of being small, simple, elegant, and eco-friendly.
Polaroid is leveraging the ZINK Technology to bring a new family of digital instant products to the marketplace. The Polaroid Digital Instant Mobile Photo Printer is the first ZINK-enabled device available.
Mobile Printer:
Size: 120mm (4.7”) H X 72mm (2.8”) W X 23.5mm (0.9”) D
Weight: 8 oz (without paper) includes battery
Battery: 7.2V rechargeable lithium-ion15 Prints per charge at 25 C Battery is replaceable
User Interface: 2 Tri-Color LED indicators
AC Adapter: 9V output Universal Input 100V to 240 VACPrinter will print when plug into the AC adapter
Print Speed: 60 seconds per print, from send to share
ZINK™ Paper:
Size: 50mm (2”) X 76.2mm (3”)
Features: Full-bleed, borderless imageZINK™ inkless printing embeds color into the paperPrints dry-to-touch, waterproof, tear-proof, smudge-proofPeel-off, sticky-backed Automatic image quality optimization.
Honda CR-Z next generation car.
The CR-Z is a next-generation lightweight sports car equipped with Honda's original gas-electric hybrid system which achieves both clean performance and a high level of torque. The PUYO is a fuel cell vehicle which was designed based on out-of-box thinking to provide fun for both the vehicle owner and people around them as well. Also on display will be a model of the i-DTEC next-generation diesel engine, first announced in September at the Frankfurt Motor Show, which delivers both outstanding environmental performance and engine performance characteristics.
'CR-Z' stands for 'Compact Renaissance Zero'-an expression intended to capture the idea of a renaissance in the design of compact cars that begins anew from fundamentals.
This design research model of a lightweight hybrid sports car features advanced technologies that deliver enjoyable driving for all while reducing the vehicle's environmental footprint.
Exterior design:
Designed to be 'Futuristic and Dynamic', the CR-Z combines powerful performance in a compact form with a futuristic image. For its frontal view, an over-sized grill with a high-performance look is offset by openings on each side that lighten the overall feel. In the rear, tube-shaped rear combination lamps ensure better rearward visibility. Design details emphasizing the CR-Z's advanced image include door mirrors that provide high visibility in a stylish form, LED headlights patterned after luminous bodies to convey a sharp impression, and jauntyfin-shaped sub-lights. Large, 19-inch wheels are ready for dynamic driving performace.
Interior design:
The key words for the CR-Z's interior design are 'Hi-tech and Sporty'. The goal was to create an all-new sporty interior that fuses the liberating feel of airy spaciousness with an advanced interface that brings out the fun of the drive. Mesh material on a simple framework construction is used throughout the interior to convey a light, sophisticated image without being oppressive. In the cockpit, the meter unit conveys the image of advanced technology ensconced in a piece of glass artwork, offering the functionality of immediate recognition while enhancing the driving experience with a futuristic and exhilarating feeling.Honda FCX at Newdelhi Auto expo-2008
It’s the name Honda has given its production fuel cell car, and it’s a name you’ll want to remember. After years of having fuel cell prototypes in the hands of fleets and even paying customers, Honda makes good on its commitment to a hydrogen future. The 2008 NewDelhi Auto Show was the venue for the introduction of the FCX , an Accord-sized sedan with styling based on the FCX Concept from a few years ago that promises to “enable levels of performance room, comfort and dynamic styling previous unattainable in a fuel cell car.”
Why it Matters
Notice the price of gas lately? Sure, hydrogen isn’t cheaper – yet – but some day those oil wells will be sucking air, and so will 99.99999 percent of cars on the road today. Hydrogen is abundant, but difficult to get at. It’s no news that hydrogen holds great promise for the future as a fuel. But exactly what the future might look like was a mystery until this morning, when Honda’s FCX was unveiled. As it turns out, it looks good, and promises to be good for those who can get one.What’s Under the Hood
The V Flow fuel cell powering the FCX features several advances over the one in the smaller FCX prototype that you may have seen before, the one that looks a little like an old Civic. It will be the first production car to feature lithium ion batteries, which gives it a pack that’s 50 percent smaller and 40 percent lighter than the one in the prototype. The overall powertrain, including the fuel cell and electric motor, is 40 percent smaller, putting it roughly the size of a hybrid powertrain. The output is impressive: 100 kw (that’s 134 horsepower to you and me) and a 270 mile range on a tank of fuel. It’s the equivalent of 68 mpg.What it Looks Like
The FCX looks a lot like the Concept that Honda debuted two years ago at the Tokyo Motor Show. Obvious concessions have been made to production of course, but overall it’s a clean, sharp looking sedan that falls somewhere between the Civic and the Accord on the Honda styling tree. But while somewhat futuristic, it’s also conventional enough that it won’t scare off buyers who don’t want to feel like George Jetson. The fuel cell components are distributed evenly through the car for better weight distribution.What’s Inside
The interior is a departure for Honda. Rather than the usual conservative lines, the FCX features a “floating” dash and center stack, which seem at first to be disconnected from the car. It’s a cool effect. Dig deeper though and the control layout is quite conventional, and any Honda driver will likely feel right at home behind the wheel. Because customers will be paying $600 per month on a lease, it’s also more luxurious than a conventional Honda, with rich materials and upscale features. The interior materials deserve special mention: Like the rest of the FCX, they have been designed with the environment in mind, using Honda Bio-Fabric, a plant based material that offers carbon dioxide reductions in production.What Honda Says
As you can imagine, Honda has a lot to say. According to Tetsuo Iwamura, American Honda president and CEO, “The FCX is a shining symbol of the progress we’ve made with fuel cell vehicles and of our belief in the promise of this technology. Step by step, with continuous effort, commitment and focus, we are working to overcome obstacles to the mass-market potential of zero-emissions hydrogen fuel cell automobiles.” Honda also notes that the FCX will be available for $600 per month three-year leases in Southern California, where there are three hydrogen refueling stations available. It will also cover collision insurance and maintenance for the life of the lease.
What We Think
Honda one upped everyone else with the promise of a production fuel-cell car, and by making good on that promise, it may even out-green Toyota in the near future. There are obstacles of course: you can’t just run down to the corner gas station and get hydrogen, you can’t go as far as you can on a tank of fuel as you can in a regular car, and who knows what sort of maintenance problems there may be. Still, this is a promising car, and seeing it is as close as we’ll probably get to a crystal ball view of the future.
FCX's concept
At the 2006 Detroit Auto Show, Honda announced that it would make a production version of the concept FCX it had shown at the 2005 Tokyo Motor Show. On 25 September 2006 this new version was unveiled. The updated four-door sedan version looks much sleeker and more futuristic, and has a high focus on comfort and interior space. It has a much more spacious interior with a mixture of plastic, wood and leather.[6] Production is expected to begin in 2008 in Japan and the U.S.[7] The production version will closely resemble the concept, although it is unknown if some of the concept's more radical features, such as a tilting instrument panel, will be included.
According to Honda, the new fuel-cell stack is 20% smaller, 30% lighter and has a higher output of 100 kW (129 hp). The new powerplant is 180 kg lighter, 40% smaller in volume and has a high energy efficiency of 60%, compared with 20% for most internal combustion engines, 30% for most hybrid powerplants and 50% for the previous generation FCX.[8]
The new powerplant utilizes three electric motors: one front-drive motor with an output of up to 80 kW, this motor's shaft is coaxial with the gearbox for a more compact front-end, and two smaller motors with a maximum output of 25 kW driving one of the rear wheels each. This layout makes the FCX technically an all-wheel-drive vehicle. The updated FCX has a maximum speed of 160 km/h (100 mph).
The new FCX utilizes several interesting new features. The new V Flow fuel cell stack can operate at temperatures as low as −30 °C. This is achieved by allowing the gas to flow vertically in the fuel cell stack. The tanks can store up to 5 kg (171 litres) of hydrogen at a pressure of 350 atmospheres, thanks to the new hydrogen absorption materials used. This allows a longer range of up to 350 miles (570 km).
To support the hydrogen fuel-cell technology, Honda also introduced the Home Energy Station (HES). This home solution can convert natural gas to electricity, heat and hydrogen to refuel fuel-cell vehicles. This allows consumers to refuel vehicles with hydrogen at home, important until hydrogen stations become widespread. Alternatively, the hydrogen can be used in the HES's built-in hydrogen fuel cell, providing up to 5 kW of normal or backup electricity and/or hot water for the home. According to Honda, this solution is highly efficient and reduces running costs of electricity, gas and vehicle fuel by up to 50%.
Wednesday, January 16, 2008
Dilip chhabria's DC: S
Dilip Chhabria's Dc: Ambierod
Driven by his passion to build something unique that will redefine Luxury, India’s ace car designer Dilip Chhabria (popularly known as DC) will soon bring to the world Ambierod. The Ambierod will be unveiled at the 9th Auto Expo in New Delhi. Infact, Ambierod’s unveiling will be a big-ticket aspect that Auto Expo would have ever witnessed.
Ambierod is sure to create history. It’s a perfect confluence of Luxury, Technology and of course drop-dead gorgeous Looks. There has never been a car designed so evocatively and is totally futuristic and perhaps exceeds the best in the world.
Ambierod is an intelligent, retro futuristic car that has been designed from the iconic Ambassdor. Its bound to create a Disruption and a flutter in the market place and will change the way the cars are perceived to be designed… Ambierod’s unveiling will be a defining moment in the Indian Automobile Industry. It has the design and development input of 50,000 Man Hours. DC’s obsessive & overwhelming passion for designing cars makes him do it.
“In keeping with the brawn and brain design philosophy of the car, it was only fitting that someone like Sanjay Dutt unveils the car at the Auto Expo on 10th January at 4pm”, smiles Dilip Chhabria.
2. Large powered Gull Wing doors, 22-inch wheels, all lend an immensely masculine visage coupled to a V-12 engine.
3. Ambierod has interiors like that of a first class Jet Liner.
4. The IP (Instrument Panel) has an advanced ‘carputer’, which automates the driving functions using satellite navigation system.
5. Ambierod has 3 LCD TV screens, varying from 10 inches to 19 inches, and has the facility of internet mobility and videoconferencing. Music and movies can be had on demand. There are live engine sensors, which updates on the engine rpm, fuel capacity, efficiency etc.
Many of the above features are also first in the world!
Dilip Chhabria also plans to start the DC College of Designs in August 2009 on the outskirts of Pune.
The luxury segment is the fastest-growing category in India with a growth rate of 26% in 2007. Chhabria has been quoted in a report saying that the custom-design vehicle market is experiencing a boom with Indian customers ready to spend about Rs.4-Rs.6 million ($100,000-150,000) for a custom-designed car, while customers abroad are willing to pay more than Rs.10 to Rs.20 million ($254,000-500,000).
About Dilip Chhabria:
HCl's Rs 13,900 laptop
Both 'X' and 'Y' Series leaptops are fully RoHS-compliant, and have a low energy footprint.
Chowdhry said just like Nano, the notebooks in the MiLeap series would create a different segment all together, which will help grow the market further. “This will herald in a new category of computing devices, opening up a wide range of new usage scenarios and application areas,” he said. The notebooks will start shipping from January 26.
Led by drop in prices and the benefit of mobility and space management, notebook sales in India are growing faster than desktop sales and are projected to corner 40% share of the India PC market by 2010. Notebook shipments have grown 86% in FY07, and today, one out of five PCs sold in India is a notebook.
The fact that every 50th Indian today owns a PC, shows there is a huge chunk of market yet to be tapped. Increased penetration of notebooks and desktops is expected to give a push to Internet usage in India, especially in the rural areas, from where the next stage of growth is expected to come.
Apple MacBook Air
But the Air seems more like a ultra portable with a physical keyboard and multi-touch screen, according to our source (who we promised not to name but confirmed works at an Apple third-party vendor).
The laptop is powered by an Intel Core 2 Duo chip running at 1.6GHz, with 1.8GHz available as an option. Jobs noted that Intel was willing to engineer a new version of the Core 2 Duo specifically to Apple's specifications -- it's 60 percent smaller than others. The chip operates with 4MB of on-chip shared L2 cache running at full processor speed, and uses an 800MHz frontside bus. 2GB of 667MH DDR2 SDRAM is also included.
Like the MacBook and the MacBook Pro, the MacBook Air features a slimmed down MagSafe connector for power. It comes with a 45 watt power adapter. A flip-down door on one side reveals USB 2.0, Micro-DVI (to connect an external display) and a headphone jack. The MacBook Air also includes 802.11n-based wireless networking support and Bluetooth 2.1 + EDR.
Apple estimates that with wireless networking turned on, the MacBook Air can get about 5 hours of battery life.
Tuesday, January 15, 2008
yamaha Fz 150cc in India
The FZ-150 "Prototype" shown in the Auto Expo 2008 has a 150 cc engine, carburettor (instead of fuel injection), fat rear tyres (about as big as Pulsar 200/220 rear tyres), air cooled engine (not liquid cooled like the YZF-R15), 5 speed gearbox (insted of a 6 speed one on the YZF-R15) and also the FZ-150 doesn't have the "delta" frame of the YZF-R15.
yamaha YZF-R15 150cc bike in India
The new YZF-R15 makes full use of the MotoGP race experience and YZF-R series supersport bike development technology and know-how acquired by Yamaha Motor over the years to create a 150cc supersport bike that offers users to truly “Enjoy riding” in a full range of situations, from around-town riding to touring on winding roads and even aggressive riding on the circuit.
Main Features
(1) A newly developed 150cc liquid-cooled, 4-stroke, SOHC, single-cylinder fuel-injected engine
maruti Suzuki A-star concept
Mitsubishi I-Miev an electric car
The i MiEV is no acceleration sluggard, either. It's electric motor provides 180Nm of torque. Acceleration is 31% quicker and its noise level is some 5db quieter than the typical gasoline minicar. Seating four, it weighs 1,080kg (2380 lbs) and has a top speed of 130km/h (80 mph). Using the Japanese 10-15 mode driving cycle and the country's current grid power mix, which is heavily reliant on nuclear power, the MiEV demonstrates a whopping 72% reduction in CO2 emissions compared to the gasoline "i".
In terms of operating costs, Mitsubishi estimates that using off-peak power at night means it will cost 1/9th the cost of fuel for the gasoline model; and even using daytime power rates, it is still one-third the cost of its petroleum-dependent sibling.
Mitsubishi has joint research programs evaluating the everyday practicality and quick-charge compatibility of these carswith three electric utilities in Japan: Tokyo Electric Power, Chugoku Electric Power and Kiyushu Electric Power. The company hopes that it can expand the number of vehicles in operation in Japan to as many as 30 in 2008. Assuming these tests are successful, Mitsubishi hopes to begin mass manufacture of the MiEV initially for the Japanese market in 2009. The company is also looking at offering the vehicle in England.
Monday, January 14, 2008
Mitsubishi laser TV
Consumer electronics giant Mitsubishi now hopes to combine the inherently large size of a rear-projection unit into a sleeker, lighter-weight product and pack it with enough advanced technology to out-dazzle the rest of the HD pack, although consumers may have to wait a while to see this next-gen version of DLP for themselves.
Since last winter, Mitsubishi has been trickling out details of what it unofficially is calling "Laser TV," citing it as a breakthrough in existing DLP (digital light processing) that it believes will eventually move HDTV one step further to perfection cosmetically and technologically, through the use of colored lasers.
DLP, a registered trademark of Texas Instruments, traditionally uses white-light mercury bulbs. Mitsubishi's new system, instead, uses separate red, green and blue semiconductor lasers in combination with an HD chip, which those who have seen a real-world demo (mostly dealers and Mitsubishi employees) say provides richer and more complex colors and hues, and noticeably more distinct HD clarity and depth-of-field.
Mitsubishi contends that lasers also prompt a more realistic manifestation of "black" than current DLP, plasma, LCD or CRT screens. Lasers purportedly shut off totally when not needed, frame-to-frame, creating a more natural blackness. (In contrast, today's DLP mercury bulbs do not completely blink off, according to Mit-subishi.) Today's DLP units without colored lasers already produce at least 16 million color variations, including 124,000 shades of gray, according to TI.
SOPHISTICATED LIGHT
The key component of non-laser DLP technology is an optical semiconductor (a Digital Micromirror Device or "DLP chip"), invented by TI nearly 20 years ago. It has called the chip "probably the world's most sophisticated light switch," with up to two-million hinge-mounted microscopic mirrors less than one-fifth the width of a human hair.
When the DLP chip is synchronized with a digital video signal, light source and projection lens, its flexible mirrors reflect digital images to a screen. The microscopic mirrors can reflex (blink on and off) a few thousand times per second. Much of TI's proprietary technology will be used with Mitsubishi's Laser TV, but source lighting from mercury bulbs will be replaced by the lasers.
It appears there is only one working Laser TV screen in existence for demo purposes for now; Mitsubishi is hesitant to show it off at trade shows because it still lacks suitable cabinetry and other non-technical aesthetics. A non-working cosmetic sample (see photo) of a 62-inch unit--along with the sole working screen demo--were featured at Mitsubishi's annual line show for dealers at its Huntington Beach, Calif., headquarters in April.
"We did display a working sample that was not in a finished cabinet [to] prove that we could produce a good HD picture in a finished cabinet using our laser technology," said Marty Zanfino, director of product development at Mitsubishi. Zanfino said the 62-inch diagonal screen will boast a depth of only about 10 inches and not require very much framing around the screen because advanced plastics will replace glass components in the rear projector, making the large unit lighter. (Plastics have replaced heavier glass casings in some current DLP products, as well.)
Consequently, he said, today's typical heavy-duty screen frames will not be necessary, and may be no wider than an eighth of an inch. The lighter overall weight will allow for a lower center of gravity; nearly the entire frontage can be devoted to screen surface. Thus, the Laser TV units will occupy a more compact footprint and allow sleeker cosmetic designs that could set the product apart from the rest.
But HDTV is usually about the picture--not weight or even design--and Mitsubishi is confident this is where Laser TV will excel.
"The color gamut is significantly larger because the lasers are so intense," Zanfino said. He compares its optimum video quality as being equal or superior to 35mm film. Zanfino said although prices will not be announced until the product is released, when asked, he acknowledged that Laser TV probably will start off somewhat higher-priced than today's DLP and plasma units: "We'll see, but lasers cost more than mercury bulbs."
One major claim of laser advocates is the ability to produce undiluted, perfect colors allowing precise hue mixing. With the color enhancement capable with lasers, up to 90% of the visible spectrum can be displayed.Other improvements that laser advocates claim are bulbs that will never blow out, and increased efficiency by using two-thirds less power than traditional rear projection televisions. Historically, however, lasers have been too bulky and expensive for widespread adoption.
The laser technology advocates claim that the technology will allow displays with a richer, more vibrant color palette than the conventional plasma, LCD or CRT displays.
be half the weight and cost of Plasma or LCD displays
require around 25% of the power required by Plasma or LCD displays
be very thin like Plasma and LCD displays are today
have a very wide colour gamut
have a 50,000 hour life
maintain full power output for the lifespan of the laser, resulting in a picture that doesn't progressively degrade over time, such as with plasma and LCD technology
Drawbacks
Together with the advantages of laser sources, there are reports that also describe some of the current shortcomings of laser displays,[18] such as the following:
Safety. The high power emitted by the coherent laser sources is inherently dangerous to human vision. Proponents claim that integrating the devices with the needed diffusion filters removes this risk.
Emtrance's PS100 photoskin fit in your wallet
Sunday, January 13, 2008
Cadillac CTS at Auto expo 2008 in Newdelhi
Drivetrain layout: Front engine, RWD
Engine type: 60 V-6 alum block/heads
Valvetrain: DOHC, 4 valves/cyl
Displacement: 217.5 cu in/3564 cc
Compression ratio: 11.3:1
Power (SAE NET): 304 hp @ 6300 rpm
Torque (SAE NET): 273 lb-ft @ 5200 rpm
Redline: 7000 rpm
Weight to power: 13.0 lb/hp
Transmission: 6-speed automatic
Axle/final: 3.42:1/2.29:1
Steering ratio: 16.1:1
Turns lock-to-lock: 2.8 Brakes, f;r13.6-in vented disc; 13.4-in vented disc, ABS
Wheels: 8.5 x 18 in, cast aluminum
Tires: 235/50ZR18 97Y Michelin Pilot Sport PS2
Length x width x height: 191.6 x 72.5 x 58.0 in
Turning circle: 56.2 ft
Curb weight: 3960 lb
Weight dist, f/r: 53/47%
Seating capacity: 5
Headroom, f/r: 38.8/37.2 in
Legroom, f/r: 42.4/35.9 in
Shoulder room, f/r: 56.7/57.4 in
Cargo volume: 13.5 cu ft
Acceleration to mph
0-30: 2.2 sec
0-40: 3.3
0-50: 4.8
0-60: 6.3
0-70: 8.3
0-80: 10.7
0-90: 13.3
Passing, 45-65 mph: 3.1
Quarter mile: 14.8 sec @ 95.4 mph
Braking, 60-0 mph 109 ft
Lateral acceleration: 0.89 g avg
MT figure eight: 26.4 sec @ 0.66 g avg
Top-gear revs @ 60 mph 1900 rpm
Stability/traction control: Yes/yes
Airbags: Dual front, front side, f/r curtain
Fuel capacity:18.1 gal .
The CTS will initially be offered with three engines: a 210-horse, 2.8-liter V-6; a 258-horse, 3.6-liter V-6; and a 304-horse, 3.6-liter V-6 with direct injection. All three V-6s are versions of GM's all-aluminum, quad cam, 24-valve "high-feature" engine and come with state-of-the-art goodies such as a forged-steel crank and variable valve timing. The 2.8 is an export-only engine, destined for China, Europe, the Middle East, and any other markets where engines over 3.0 liters attract higher taxes. The 258-horse 3.6 is essentially a carryover from the current CTS. The big news is the new direct-injection-DI-version.
The new CTS deserves a creamy BMW six under the hood. Yes, it's that good. It has great road presence, thanks to designer John Manoogian's dramatically chiseled exterior, and the interior looks upscale without the cheesiness Detroit once specialized in. Fit and finish, inside and out, looked good on the early build cars we drove in Germany, though some hard plastics and visible parting lines (the thin strips of raised plastic you get where the pieces of the die join) were still evident. And though it rolls on the same wheelbase as the previous CTS, interior packaging is much improved: Thinner backrests on the front seats liberate about two inches of knee room for rear seat passengers.
More important, the CTS drives like a proper BMW rival. It's light and agile on its feet, with quick steering response yet impressive straight-line stability at speed, and a StabiliTrak system that's beautifully tuned to be almost unobtrusive in its interventions. The sporty FE3 suspension with the Michelin Pilot Sport 2 tires is probably a bit too firm for most people-the ride can get jittery over broken pavement-but if you value handling above all else, that's the one to go for. The midlevel FE2 setup, which comes with the 18-inch-wheel package and all-season Michelin MXV4 tires, is probably the best compromise for most people, offering a good balance between ride and handling.
FE1. Available with RWD or AWD, and PFI engine only. Bilstein shocks; 24mm front, 18mm rear stabilizer bars (33mm front and 19mm rear on AWD); open diff(s); 17.4:1 steering ratio. 8.0 x 17-inch alloy wheels with 235/55R17 Michelin MXV4 all-season tires standard.
FE2. Available with RWD or AWD, and PFI or DI engine. Same spring rate as FE1, but stiffer-rate Bilstein shocks. 29mm front, 20mm rear stabilizer bars; faster16.1:1 steering ratio; limited slip diff(s). Larger, wider 8.5 x 18-inch alloy wheels with 235/50R18 Michelin MXV4 all-season tires. RWD gets FE1 brake package (12.4-in front rotors with aluminum calipers); AWD gets larger diameter FE3 brakes. FE3. RWD and DI engine only. Same steering, springs and bars as FE2, but uprated shocks (Bilstein front and Sachs Nivomat load leveling at the rear). Wheels are same as FE2, but standard tire is 235/50R18 Michelin Pilot Sport 2, and standard brake package includes 13.6-in front rotors with cast iron calipers.
Interior:
Standard equipment:
Leather-wrapped steering wheel with manual tilt and reach adjustment; eight way power seats; Bose eight speaker AM/FM/single CD/MP3 system.
Pop-up hard disk sat/nav with real-time weather and traffic info; 300-watt, 10-speaker Bose 5.1 sound system that comes with a 40-gig hard drive that allows pause and rewind of up to one hour of live radio and can store tracks off your favorite CDs. Your iPod can be plugged in and operated via the car's controls.The enthusiasts' choice: DI manual FE3 rear-drive-fast and fun to drive. The all-arounder: DI automatic all-wheel-drive FE2-much of the extra 200-plus pounds burdens the front axle, numbing the steering a little, but you get great all-weather stability and grip.
2. Optional high-intensity discharge Xenon headlights are computer controlled to turn with steering-wheel input.
3. Hood is aluminum to reduce weight and features sealing techniques normally used on doors for greater noise and vibration control.
4.Two 3.6-liter engines for the U.S: new 300-horse direct-injection model and carryover 258-horse version. Some export markets will get 210-horse, 2.8-liter.
5.Direct injection delivers 15-percent increase in horsepower, eight-percent increase in torque, and 25-percent reduction in cold-start hydrocarbon emissions.
6. Front fender vent is die-cast metal, not plastic. Achieving the complex form of fender at the base of the A-pillar was a major challenge for GM body engineers.
7. Sat/nav screen telescopes up out of center stack. When not in use (shown here) top portion of screen displays non-nav information.
8. 300-watt, 10 speaker Bose 5.1 Cabin Surround audio available. 40-gigabyte hard-drive music storage system with USB port for MP3 player is standard.
9. Roof panel is laser-brazed to the cant rails to ensure a smooth, uninterrupted surface. Double sunroof gives front and rear-seat passengers a sky view.
10. Intersection of sharp rear fender crease and base of the C-pillar is another design cue from the Cadillac Sixteen concept.
11. Vertical LED "light pipes" front and rear are designed to give the CTS a unique visual signature at night.
12. Perforated material inside tailpipes increases resonance and counters high-frequency noise. Dual exhaust outlets are 3.0-inch diameter.
13. 113.4-inch wheelbase is same as current CTS. Track is 2.0 inches wider front and rear; overall length is up 0.1 inch, and height up 0.7 inch.
14. Six-speed transmissions only. New Hydra-Matic 6L50 automatic gets steering wheel shift control; Aisin manual gets new short-throw shifter.
15. All-wheel drive available for first time on CTS. 18-inch wheels come with performance suspension package and premium brakes.