Yamaha YZF-R1

Yamaha YZF-R1
Manufacturer	Yamaha
Also called	R1
Production	1998 - present
Predecessor	Yamaha YZF1000R
Class	sport bike
Related	Yamaha YZF-R6
Similar	BMW S1000RR Ducati 1098 Honda CBR1000RR Kawasaki Ninja ZX-10R Suzuki GSX-R1000

The Yamaha YZF-R1, introduced in 1998, is Yamaha Motor Company's third generation super sport motorcycle.

The 2008 model has an MSRP of USD $11,699.

Contents 1 History 1.1 1998 1.2 1999 1.3 2000 - 2001 1.4 2002 - 2003 1.5 2004 - 2005 1.6 2006 1.7 2007-2008

History

Starting with the FZR1000 in 1987, Yamaha introduced several motorcycle engineering firsts including the boxed aluminum "DeltaBox" frame, advanced intake and exhausts technologies including a 5 valve-per-cylinder head and an exhaust EXUP power-valve. The engines usable power output was dramatically improved throughout the entire RPM range and featured one of the flattest power curves ever seen on a motorcycle. The aluminum Deltabox frame was very light and rigid when compared to steel and both handling and braking were vastly improved over the old-style steel cradle frames. These numerous advances made the FZR1000 a veritable "tour de force" and it was voted "bike of the decade" by many who found it to be quite capable both on and off the track.

For the next four years Yamaha enjoyed significant sales and racing success, however in 1992 Honda introduced the CBR900RR Fireblade which was essentially a marriage of the chassis used for their 600cc motorcycles with an over-bored 750cc engine. Even though the Fireblades weren't as powerful as the FZR1000, it was lighter and shorter which resulted in much quicker handling. It took Yamaha four years to realize the significant weight and power changes that were introduced in the short-lived YZF1000R "ThunderAce". Still, the YZF1000R was based on the original Genesis engine which was canted forward sharply causing the wheelbase to be longer than the Fireblades

1998

Yamaha launched the YZF-R1 after redesigning the Genesis engine to offset the crankshaft, gearbox input and output shafts and this "compacting" of the engine yielded a huge dividend in that the total engine length was now very short. This allowed the wheelbase to be shortened significantly which resulted in much quicker handling and an optimized center of gravity.

The launch model Yamaha YZF-R1 was available in white/red or blue. In Europe the blue proved to be the most popular and was in very short supply, added to by early models being subject to a worldwide recall for a clutch problem. This bike has a compression ratio of 12.4:1. with a 6-speed w/multi-plate clutch transmission. Yamaha today describe the launch R1 as the true value of "Kando".^[1]

1999

R1 instrumentation

The '99 version of the R1 saw only minor changes, apart from paint and graphics. Notably improvements were a redesigned gear change linkage and the gear change shaft length which was increased for better gear shifting. Fuel tank reserve capacity was reduced from 5.5 liters to 4.0 liters, while the total fuel tank capacity was unchanged at 18 liters. A second worldwide recall to change a coolant hose clamp under the fuel tank which could under hard use come adrift affected the early 1999 models, with all 1998 models were all recalled.

2001 YZF-R1

2000 - 2001

In 2000, Yamaha introduced a series of changes to improve the bike, plus minor changes to the body work to allow for better long duration ride handling. The R1 was an excellent bike to live with on short runs, but due to its quick handling was not a favorite longer run bike. Yamaha's main design goal was to sharpen the pre-existing bike and not redesign it. Even so they instituted over 150 changes in hopes of making an already light, sleek and mean motorcycle even lighter, sleeker and meaner. For example, even with the addition of the new Air Induction System, which weighs four pounds, the overall weight of the bike is down five pounds to a claimed 385 pounds dry. At a claimed 150 horsepower at the crank, top-end output remains the same but changes to the engine management system are supposed to result in a smoother, broader distribution of power.The bodywork is still unmistakably R1 although a few changes were made resulting in a 3% reduction in the drag coefficient. The headlight housing has a sharper profile, the side panels are more aerodynamic and slippery and the windscreen has been reshaped for better rider protection. In fact the bodywork changed so much that bodywork from previous R1s will not fit the Y2K edition.

Also updated is the seating area. The fuel tank is reshaped with a more relaxed rear angle and deeper leg recesses to provide for better rider feel. The seat extends further towards the front of the tank and the new, steeper seating position puts additional weight on the front end. All of this is aimed at improving weight bias and offering sharper cornering and more stability. Again, the resounding theme here is to sharpen what was already a very sharp package. The carburetors have been rejetted in an effort to improve throttle response -- especially in the low end -- all the way up to the bike's 11,750 rpm redline. The redesigned camshafts are lighter and use internal oil ways to lubricate journals that, when combined with reduced tapped clearance, provide less friction and create less engine noise. Also changed within the crankcase is the gearbox featuring a taller first gear, a hollow chrome-moly shift-shaft with an additional bearing and a completely redesigned shift linkage and foot pedal. These changes are aimed at nixing last year's transmission complaints as well as helping to transfer as seamlessly as possible the R1's prodigious power to the pavement.

2001 was the first year the R1 was truly beaten in performance numbers. The Suzuki GSX-R1000, weighed about the same but produced a bit more power and torque. This also marked the last year that Yamaha used a carburetors engine in the R1. Subsequent R1s would employ a fuel injection system.

2002 - 2003

A new fuel injection system was introduced for the 2002 year, which worked like a carburetor by employing a CV carburetor slide controlled by vacuum created by the engine. With a similar power output to the 2001 bike, the engine was developed (larger bore, shorter stroke) to rev higher, faster and for longer. For 2003, the only change was the choice of colors. The previous years all had a "Red" option, but this was replaced by a black with red flames "Special Edition" which cost an extra $100. Also in 2002, Yamaha released the newly developed "Deltabox III" frame, which, with its hydroformed construction, dramatically reduced the total number of frame welds, thereby greatly improving the frame's strength and torsional rigidity. The rear end of the motorcycle was updated and streamlined with an LED taillight. This allowed for very clean rear body lines when choosing one of several common aftermarket modifications, such as removal of the turn signal stalks and stock licence plate bracket; and replacing them with assorted available replacements that "hug" the body or frame. Also, front end lighting was improved in 2002, between the higher definition headlights and also side "parking" lights within the twin-headlight panel, giving more aftermarket possiblities to remove the front blinkers and utilize these front lights as directional or hazzard markers while stopped.

2004 - 2005

2004 YZF-R1

With the competition advancing, Yamaha took to a major development. This included style updates like an underseat exhaust, and performance upgrades including radial brakes and for the first time on an R1 Ram-air intake. Furthermore, the wheelie-tendency known from earlier productions is drastically reduced by changing frame geometry and weight properties. The all new engine (no longer used as a stressed member of the chassis) featured a separate top crankcase and cylinder block. The 2004 R1 produces a stated 172 hp at the crankshaft (excluding RamAir) and also weighs 172 kilograms. Also newly added for this year was a factory installed steering damper. Combined with the changes to the frame, it helped to eliminate the tendency of the handlebars to shake violently during rapid acceleration or more so during deceleration on downgrade and less-than-perfect surfaces (aka "tank slapping").

2006 YZF-R1

2006

In 06, Yamaha is now mated with 180 hp at the flywheel. In addition, due to acceleration instability, the swingarm was extended 20 mm longer. Also, in 2006 the 50th anniversary of Yamaha racing in America, Yamaha released a Limited Edition yellow/white/black bike in original Yamaha racing colors. They also made a limited edition model (LE/SP) featuring a Kenny Roberts replica paint pattern with yellow and black paint, front and rear custom Öhlins suspension units developed by the people who work on the YZR-M1 MotoGP bike. Custom forged aluminum Marchesini wheels specifically designed for the LE remove nearly a pound of unsprung weight. A back torque-limiting slipper clutch, , Brembo brakes, and an integrated lap timer switch on the right handle bar round out the package making the LE more of a production racer. It has an MSRP of $18,000 and only 500 units were made for the United States.

2007-2008

2007 Yamaha YZF-R1 used by Noriyuki Haga in the Superbike World Championship.

An all-new YZF-R1 for the 2007 model year was announced on 9 October, 2006. Key features include an all-new inline four-cylinder engine; going back to a more conventional 4-valve per cylinder rather than Yamaha's trade mark 5-valve genesis layout. Other new features are the Yamaha Chip Control Intake (YCC-I) electronic variable-length intake funnel system, Yamaha Chip Control Throttle (YCC-T) fly-by-wire throttle system, slipper-type clutch, all-new aluminum Deltabox frame and swingarm, six-piston radial-mount front brake calipers with 310 mm discs, a wider radiator, and M1 styling on the new large ram-air ports in the front fairing. 2008 brought BNG and the ability to buy limited edition Fiat plastics.

Yamaha YZF R6

Yamaha YZF R6, Suzuki GSX R600, Kawasaki Ninja ZX - 6R, Honda CBR 600RR, Suzuki GSX - R600 and Triumph Daytona 675 are popular sportsbikes competing for supersport world championship. These are dream machines bikes for every sportsmen. The road legal versions of these sports bikes have wafer thin differences from their race siblings and continues to be a dream bike for every bike enthusiast. Here’s the specification of Yamaha YZF R6 race bike, we can only understand the petal disc design(featured in TVS apache RTR 160) . Still titanium valves, deltabox chassis etc a long list to know and feel.

Yamaha’s popular sportsbike YZF R6

Engine

Engine type Liquid cooled, 4-stroke, forward inclined, parallel 4-cylinder, 16-valves, D0HC
Displacement 599 cc
Bore x stroke 67.0 x 42.5 mm
Compression ratio 12.8:1
Maximum power With direct air induction: 97.8 kW (133 PS) @ 14,500 rpm / Without direct air induction: 93.4 kW (127 PS) @ 14,500 rpm
Maximum torque With direct air induction: 68.0 Nm (6.93 kg-m) @ 12,000 rpm / Without direct air induction: 66.0 Nm (6.73 kg-m) @ 12,000 rpm
Lubrication system Wet sump
Carbutator Fuel injection
Clutch type Wet multiple-disc coil spring
Ignition system TCI
Starter system Electric
Transmission system Constant mesh, 6-speed
Final transmission: Chain
Fuel tank capacity 17.5 litres
Oil tank capacity 3.4 litres

Chassis

Chassis Aluminium die-cast Deltabox
Front suspension system Telescopic fork
Front travel 120 mm
Rear suspension system Swingarm (link suspension)
Rear travel 120 mm
Front brake Dual discs, Ø 310 mm
Rear brake Single disc, Ø 220 mm
Front tyre 120/70 ZR17M/C (58W)
Rear tyre 180/55 ZR17M/C (73W)

Dimensions

Length (mm) 2,040 mm
Width (mm) 700 mm
Height (mm) 1,100 mm
Seat height (mm) 850 mm
Wheel base (mm) 1,380 mm
Minimum ground clearance (mm) 130 mm
Dry weight (kg) 162 kg (with single seat 161 kg)

Before the introduction of the Pulsar, the Indian motorcycle market trend was towards fuel efficient, small capacity motorcycles (that formed the 80-125 cc class). Bigger motorcycles with higher capacity virtually did not exist (except for Enfield Bullet). The launch and success of Hero Honda CBZ in 1999 showed that there was demand for performance bikes. Bajaj took the cue from there on and launched the Pulsar twins in India on November 24, 2001. ^[2] Since the introduction and success of Hero Honda CBZ, the Indian youth began expecting high power and other features from affordable motorcycles.

2003

The second generation Pulsars featured Bajaj Auto's newly developed DTSi technology^[4], which increased the power rating of both versions by 1 bhp each and also increased fuel economy^[5]. This model also sported a new headlamp assembly, 1,320 mm wheelbase^[6], and standard twin-tone horn and trip meter.

[ 2005

In 20 Bajaj launched another upgrade of the Pulsar. The bike was offered with 17 inch alloy wheels as standard option, and the stance was also lowered by about 12 mm to hopefully make it look meaner but unfortunately it could not. It was the first time any bike maker in India had offered 17 inch profile wheels at the rear. The fuel tank now had a capacity of only 15 litres^[7]. The power output was now further increased to 13.5 bhp @ 8500 rpm^[8]. The rear shock absorbers were now gas-filled Nitrox absorbers.

2006

Bajaj introduced another version of Pulsar. New features included: pilot lamps separated from the main headlamp, turn indicators with clear lenses and amber bulb, self-cancelling turn indicator switch, flush LCD screen with digital read-out of key vehicle data, non-contact speed sensor, non-contact backlit switches, twin-stripe LED tail-light assembly and side panels altered for a sharp, tapering-towards-the-rear look. The engine had increased torque availability, reduced vibration and improved gear shift feel^[9].

[ 2007

Main article: Bajaj Pulsar 220 DTS-Fi

In July 2007, Bajaj began selling the Pulsar 220 DTS-Fi, featuring fuel injection, a digital dash, and modern styling. This bike has some features which are totally new to the indian market, like the Fuel Injection itself then there's a rear disc brake and clip on handle bars.

Pulsar 220 DTS-Fi

[Technology

[DTSi

DTSi stands for Digital Twin Spark Ignition, a Bajaj Auto trademark. The DTSi idea is a simple one to understand - it involved usage of two spark plugs (instead of the usual choice of one) per engine cylinder.

Bajaj Auto holds an Indian patent for the DTSi technology. The Alfa Romeo Twin-Spark engines, the BMW F650 Funduro which was sold in India from 1995 to 1997 also had a twin-spark plug technology, and the Rotax motorcycle engines,more recently Honda's iDSI Vehicle engines use a similar arrangement of two spark-plugs. However very few small capacity engines did eventually implement such a scheme in their production prototypes. This may be the case because the idea was perhaps not observed to yield any significant or noticeable performance benefit that could be justified against the additional investment of an extra spark plug. This may well be the reason behind very few Indian motorcycles offering products based on the multiple-spark-plugs technology. In India, it has often been a subject of debate and curiosity if the multiple-spark-plug idea is of any noticeable utility or not.

While Bajaj claims that the Pulsar is a complete in house product, it should also be known that they had learnt a considerable know-how of building motorcycles from their erstwhile technology partner Kawasaki. Take for instance the original Kawasaki-Bajaj Eliminator, (now sold as the Bajaj Avenger) that had a different engine design than that of the current 180/200 cc Avenger series.

ExhausTEC

ExhausTEC stands for Exhaust Torque Expansion Chamber, a Bajaj Auto trademark. The technology involves use of a small chamber connected to the exhaust pipe of the engine to modify the back-pressure and the swirl characteristics, with an aim to improve the low-end performance of the bikes. This was attempted in response to the issue of a reported lack of low-end response in Bajaj's single-cylinder four-stroke engines. The ExhausTEC technology is claimed to be highly effective in improving the overall engine response, especially the low-end torque characteristics. This enhanced performance is claimed to come at no loss of top-end performance or engine smoothness.

Fuel injection

Fuel injection technology worldwide

As opposed to the carburetor, the fuel injection mechanism usually improves the engine startability, offers a brisker torque response to throttle changes and diagnostics features. It is possible to establish accurate closed-loop control of air-fuel ratio by using the fuel injection mechanism (as an actuator) and utilizing feedback information from an exhaust oxygen sensor (as a sensor). These two components require sophisticated manufacturing practices and therefore a closed-loop fuel injection system forms a costly proposition. It was discovered in late 1970s that accurate closed-loop control of air-fuel mixture encourages efficient destruction of exhaust pollutants in a three-way catalytic converters thereby enabling a gasoline engine to produce substantially low exhaust emission quantities as demanded by the emission standards worldwide. It is for this reason that microprocessor based fuel injection technology has been implemented widely in gasoline powered four-wheelers since early 1980s. In early 1990s, several global two-wheeler OEMs also began downsizing and adapting the fuel injection technology for use in two-wheelers; the most notable efforts^[10] have perhaps been those from Honda.

Fuel injection technology in India

In India, all four wheelers since late 1990s feature microprocessor based closed-loop fuel injection technology in place of traditional carburetor to meet the Bharat emission standards imposed by the Government of India.^[11] Indian two-wheeler companies have been little sluggish in comparison, however since early 2000s, they too have initiated developing the fuel injection technology to meet the emission standards of the future (early 2010s) and for customer appeal of a high-end technology.

The relatively late entry of fuel injection technology in Indian two-wheelers is mainly attributed to the higher cost sensitiveness of the Indian two-wheeler market in comparison with the Indian four-wheeler market.

It is for these reasons, introductions of fuel-injected motorcycles such as Glamour FI, Pulsar 220 into Indian market are often considered as bold, aggressive moves. The often prohibitively higher cost that fuel-injection warrants limits the application to the 'premium' segment of the motorcycle market, as is exemplified by the rather slow sales of the Glamour FI.

However, the early fuel injected two-wheelers in India are not expected to implement the aforesaid closed-loop control of air-fuel ratio in view of the consequent cost implications. Rather they are likely to implement the less costly option of "open-loop" or feed-forward regulation of air-fuel ratio thereby avoiding usage of (costly) exhaust oxygen sensor. Automotive experts argue that such a scheme, in comparison with the aforesaid closed-loop scheme, is often significantly less effective in reducing exhaust pollutants (see Catalytic converter#Rich Burn Spark Ignition Engines). As a result, the early fuel injected Indian two-wheelers are not likely to be significantly more environment-friendly than their carburetted counterparts. However, these fuel-injected two-wheelers are expected to outdo their carburetted counterparts in the areas of pickup, mileage, durability, dashboard diagnostics and the customer appeal of a high-end technology

NAKED BIKE: NEW DUCATI MONSTER 696 FROM APRIL 2008
The Stage is set for the arrival of the new Ducati Monster 696, which will be on sale from April in Ducati store’s across the world. The new Ducati Monster 696 represents the next generation and what Ducati calls “the final word in urban excitement.
It was launched first in the early 90’s and became a cult motorcycle immediately. With its fully exposed engine ,the bike delivers style and great performance.It has become the bike of choice for top designers, Hollywood stars and Formula One racing drivers.

COLOURSThe new Monster 696 will be available in three different colours.
In addition to the ‘Ducati red’, the Monster 696 will also be available in the new ‘pearl white’ and ‘matte-black’ or ‘dark’.
DESIGNRefined style and design are the clear motivations behind the new Monster. Maintaining its traditional Monster silhouette, the 696 now looks more muscular than ever. Its wide tank tapers to the thin waistline of a comfortable narrow seat ensuring sure-footed confidence when at the traffic lights. The large diameter Hybrid Trellis frame blends stylishly into an aluminium sub-frame and swingarm while minimalist instrumentation and simple controls at the front of the Monster contrast with twin, bold, Ducati-style mufflers at the rear to enhance its urban-ready image.
CHASSIS DETAILSThe chassis of the new Monster is made up of a new Hybrid Trellis frame with larger diameter tubes directly inspired by the 2007 World MotoGP title-winning Desmosedici GP7 machine. Attached to this is a rear aluminium sub-frame. ENGINE DETAILSThe engine of the new 696 is an evolution of the previous 695 version. Measuring 696cc, it boasts a series of updates and refinements. Power output gets a 9% boost to 80hp (59kW) and an 11% increase in torque to 50.6lb-ft.
DUCATI DATA ANALYSER (DDA)The DDA package consists of a real analysis system for data gathered during rides or track sessions. The kit, normally used only on race bikes, enables riders to thoroughly analyse the performance of their Ducati and the effectiveness of their driving style.
Source: Ducati