Перевірені досвідом рекомендації Українцям Скільки кінських сил у Yamaha R6

Скільки кінських сил у Yamaha R6

All Yamaha R6 Model Years: A Detailed Guide

The YZF-R6 made its first appearance in 1999, not too long after the original YZF-R1 made its debut. Instead of being the YZF600R Thundercat’s replacement, it was meant to be a competitor for the R1. The main concept remained “Excitement,” but it was of a different nature. With its lighter, more compact frame and powerful 600cc engine, the development team aimed to create a bike that could outrun the R1 inside and outside turns.

The machine’s development was spurred by the success of the top 600-cc motorcycle racing series in Europe, which allowed it to advance to the Supersport World Championship in 1999.

With a Deltabox aluminium frame, 169 kg (372 lb) of weight, and an industry-leading 120 hp at 13,000 rpm, the R6 was the class leader. With such top-tier specifications, one could easily confuse them for those of a race car.

All the model years of the Yamaha R6

1999-2000 Yamaha YZF-R6 — The Original

The original Yamaha R6 was released in 1998 as a 1999 model year. The original Yamaha R6 had more power than any other supersport motorcycle in the 600cc class at the time. The best at the time, the CBR600F, could only produce 99 hp.

Yamaha claimed that the original R6 had 120 hp at the crank; therefore, they advertised the YZF-R6 as the first motorbike with 200 bhp per liter. With a dry weight of 168 kg (370 lb) and a wheelbase of 1382 mm (54.4 inches), the original Yamaha R6 was also the lightest and most compact motorcycle in its class.

The original Yamaha YZF-R6 created quite a sensation in the motorcycle press. It was light, compact, and surprisingly powerful for its size. Even by today’s standards, it’s formidable for its class. Some of the more sophisticated features of more recent motorcycles, such as an inverted fork and monoblock calipers, are absent from this one, but that only serves to highlight how unique this bike is.

If you’re a collector, it can be hard to find original YZF-R6s that are still in good shape. Even if you do find them, they are usually best kept parked in an area similar to a museum because they are pricey collector’s goods.

2001-2002 Yamaha YZF-R6: The Refined Original

The engine was the same, but there was a minor improvement with improved power and smoother torque delivery. Yamaha replaced cast pistons with forged pistons and used carburized connecting rods for increased reliability at high RPMs. Additionally, Yamaha lightened many parts of the Yamaha YZF-R6 for the 2001 model year, resulting in a weight reduction of roughly 3 kg or 6 lbs.

Although the 2001–2002 YZF–R6 has better lights at the back (LED units to help with being destroyed by vibration), it still retains the same overall appearance as the 1999–2000 model. In 2001 and 2002, the R6 was still the top 600cc-class supersport motorbike to buy. However, with the competition heating up, things would soon change.

2003-2004 Yamaha YZF-R6: Fuel Injection

Yamaha updated the engine for 2003 by adding fuel injection. They maintained the same rpm limit and torque delivery while increasing peak horsepower by three due to greater lift on the intake cam (and tune to fit).

Yamaha aimed to enhance sharpness and stability, cornering performance, and agility in addition to fuel injection with the updated R6. Yamaha partially attained this with the new Delta Box III frame, which is 50% lighter and 50% stiffer in terms of torsional stiffness.

Yamaha also reduced unsprung weight by using a more compact rear brake caliper, alloy suspension link, and lighter five-spoke wheels. Yamaha reduced the dry weight to 357 lbs (162 kg) in total, 11 lbs (5 kg) less than the previous generation.

Additionally, Yamaha updated the 2003 YZF-R6 with projector headlights known as “Gatling beams.” Finally, the front brakes on the 2003-2004 YZF R6 use 298 mm (11.7 inches) discs rather than the 295 mm (11.6 inches) discs used in the initial years.

Honda decided to stop trying to please everyone with the CBR600F4i and instead introduced the smaller, more powerful, and lighter CBR600RR the following year. This changed everything. That bike was now the one to beat, and Yamaha needed some time to get back on track. For the next five years, the CBR600RR won the world superbike title.

2005 Yamaha R6: Better suspension and brakes, more power

Yamaha made a few changes in 2005, making this one of the coolest early-model Yamaha R6s available! Although the 2005 Yamaha YZF-R6 has several internal upgrades, it still has the same exterior design as the previous version.

First, Yamaha fitted the new 2005 YZF-R6 with an inverted fork, a feature starting to appear on lower-class race bikes and gaining popularity on top-tier models. Nowadays, inverted forks are common on many motorcycles.

Additionally, Yamaha greatly improved the braking system of the 2005 YZF-R6, adding radially mounted calipers and even a radial brake master cylinder. The front brake discs also increased in size, going from 298 mm to 310 mm in diameter. The 2005 YZF-R6 has the same power and weight as the previous model.

2006-2007 Yamaha YZF-R6: A tachometer scandal

The 2006 Yamaha YZF-R6 featured a number of upgrades from Yamaha, the most notable of which being the addition of a new, shorter stroke, higher compression engine with YCC-T or a ride-by-wire throttle. Because of this, the 2006 YZF-R6 was the first motorbike in production to use ride-by-wire (RbW) technology, arriving before the R1 did.

The 2006 Yamaha R6 gained a little more power along with the new engine, although this power increase was only noticeable at higher revs, which is characteristic of shorter-stroke engines. In order to counter this, Yamaha modified the gearing, which included reducing the rear sprocket’s tooth count from 48 to 45 in order to enhance low-down response.

The inverted fork from the R6, which Yamaha introduced the year before, was upgraded for 2006 models, allowing for adjustable compression damping at both low and high speeds. The 2006 model’s riding position became slightly more extreme, along with the fork modification.

The 2006 Yamaha R6 got involved in a minor scandal involving the tachometer and redline. According to Yamaha’s promotional blurbs, the 2006 R6 had a redline of 17,500 rpm. A tremendous 17,500 rpm! Greater than any consumer motorbike available at the time, as well as greater than most in the past (the 250cc four-cylinder bikes had not been offered for a long period of time, and even longer in the US). If that had been real, it would have been incredible.

Sadly, that wasn’t accurate. Though the tachometer displayed a needle that reached 17,500 rpm, the actual RPM was closer to 16,000 (some recorded 15,800, while others reported 16,200). At first, Yamaha said there was a “tachometer error.” However, the controversy was so great that Yamaha even offered to buy back any R6 from unhappy consumers.

2008-2009 Yamaha R6: YCC-I Variable-length intake

The R6 model year 2008 has the highest power-weight ratio of any car until today. Though it’s not the best, it’s still a form of boasting, right? Yamaha updated the 2008 YZF-R6 extensively.

First, Yamaha introduced YCC-I variable length intakes, which improved upon the ride-by-wire throttle of the previous generation. They brought this technology from the YZF-R1 they had last year (2007). The idea behind variable-length intakes is to provide the best possible intake tuning for low- and high-rpm activities.

Yamaha currently employs two injectors per cylinder to improve fuel management. This, along with the YCC-T and the EXUP exhaust, are all efforts by Yamaha to maintain power in the face of ever-stricter pollution rules. The Yamaha YZF-R6 from 2008 to 2009 was claimed to have produced 108 horsepower at 14300 rpm at the wheel. YCC-I also helped to reduce peak torque.

But the stock YZF-R6 from this generation doesn’t have as much mid-range power as previous generations. This makes it less useful for everyday use unless you fix it. At last, Yamaha repositioned the clip-on bars 5 mm (0.19 inch) down, gradually lowering them over time.

Note on the 2009 Yamaha R6: Impact of EPA Tier Two

The 2009 Yamaha R6 was redesigned to comply with “tier two” EPA standards. The two main modifications were an ECU reprogram and a 100 mm (3.9 inches) longer muffler. Regretfully, the Yamaha R6 of 2009 didn’t do that well. The reprogramming seems to be done quickly.

The R6 from 2008 had steady growth across the RPM range, while the model from 2010 to 2016 exhibits sharp drops and irregular fueling, combined with a flat spot at 1500 rpm. According to different measurements, the 2008 Yamaha R6 has six hp more than the 2009 model.

The 2009 Yamaha R6 momentarily lost its podium position due to several complaints from riders and critics. Reprogramming the ECU is the only way to solve this issue (and while you’re at it, you should probably get a new exhaust system, too).

2010-2016 Yamaha YZF-R6: Reclaiming glory

After the 2009 model left fans unhappy, Yamaha made an effort to regain market share for the 2010–2016 series. The result was an updated mapping system, air filter, and exhaust system from Yamaha.

Although the peak torque for 2010 is higher, it seems less peaky overall since it is concentrated early in the rpm range. There is a slight increase in peak power, but this is primarily a mid-range tune. As a result, the bike has somewhat less power than its predecessor and accelerates slightly slower to 200 kph (55 mps) [9.8 seconds, compared to 9.7 seconds for the previous].

The 2010 Yamaha R6 was designed to regain the podium and enhance rideability while adhering to the tight 2009 EPA regulations. It achieved this to some extent, as the R6 continued to dominate the class in the six hundred, even while peak power was still below average.

2017-2020 Yamaha R6: Electronics. And the final run!

The 2017 R6 received a new style, resembling the current R1, which itself was inspired by the YZR-M1 MotoGP motorbike. It is estimated that the updated bodywork would cut drag by 8% compared to earlier models! It had a riding position that was a lot more relaxed than earlier. This seems to result from the modifications made to the seat and the tank’s shape.

Many people think, ”Traction control is not necessary for a small bike”. This is true to some extent. There is significantly less torque, which may cause wheel slide. However, depending on the weather and your lean position, there is still some slip when you actually get on it. Good traction control is designed to be undetectable.

An OBD port is another update to the electronics. With an OBD adapter and an Android phone that has the TuneBoy app, you can do troubleshooting (or remapping) on the engine. In addition, traction control, riding modes, and ABS were standard on the 2017 Yamaha YZF-R6. It is quite remarkable considering how barely the weight changed.

Yamaha used KYB front and rear suspension to replace the prior suspension configuration. The front is now fully flexible, but it can’t be changed for high- and low-speed compression damping like it could before. However, the 4-way adjustable rear is still present. Lastly, the 2017–2020 YZF-R6 did sacrifice a bit of power in order to satisfy the regulators.

2020 Yamaha YZF-R6: The Last Street Legal Edition

Yamaha made the decision to discontinue the YZF-R6 worldwide after 2020, ending its street use. The 600cc supersport bike market is shrinking, and stricter EURO5 emissions mean Yamaha doesn’t want to invest in maintaining the R6 street legal.

This means that if you own a street-legal R6, you now own a collectible. In 2021, Yamaha essentially replaced the Yamaha R6 with the YZF-R7, which has the same CP2 engine as the MT-07. But, it stands out from the R6 and MT-07 in significant ways.

2023 Yamaha R6 RACE: Revived but Not Street Legal

Yamaha is excited to give a few lucky fans the chance to buy the very limited, track-only Yamaha YZF-R6 RACE. The bike’s aerodynamic bodywork, compact Deltabox chassis, slim magnesium subframe, and sculpted aluminum fuel tank were all developed over years of World Supersport and MotoAmerica Supersport dominance.

The bike’s iconic M-shaped front air intake was inspired by the multi-time world champion Yamaha YZR-M1 MotoGP factory race bike. The matte-black, race-ready Yamaha R6 RACE is the ideal closed-course vehicle for track day riders and professional racers alike.

The R6 RACE is built for competition and has the best performance for the track. It has a lightweight, powerful 599cc inline four-cylinder engine that has been tested and proven to work well on circuits all over the world.

It also has a very sharp race-ready chassis, a close-ratio six-speed transmission with Quick Shift System (QSS), a slipper clutch, Traction Control System (TCS), Yamaha Chip Controlled Intake (YCC-I) and Yamaha Chip Controlled Throttle (YCC-T). R6 Race licenses are only valid for closed-course use; they are not valid for on-road use.

Conclusion

Taking the Yamaha YZF-R6 off the market does mark the end of a long and successful run that lasted over two decades. Just as we were getting used to going to the dealership and ordering the most recent model year of the R6, that choice vanished into thin air. But that’s just the way the business works. Models come and go in all automotive sectors after serving their full lifespan. Every now and then, another one appears to take its place.

Even while the R6 won’t be available for road riding, it will still be manufactured for European track racing, where it will continue to bring its powerful handling and nimble approach to a sport where skill is just as vital as speed. It will be exciting to see how the 2023 model develops further. With a nod to the past, here’s hoping Yamaha finds success with its new track-only version.

Розбираємося у різниці потужності мотора – кіловати і кінські сили

200 к.с. – це багато чи мало? А 110 квт, скільки це? Хоча потужність двигуна вказується в кіловатах вже останні 4 десятиліття, ця величина все ще чужа багатьом автолюбителям. Розберемося як перейти від кінських сил до кіловатів і навпаки.

Коли мова заходить про потужність двигуна виміряну в кіловатах, багато автомобілістів спантеличені, адже звикли до кінських сил. Застаріла одиниця виміру потужності (к.с.) у повсякденному використанні набагато більш поширена, ніж кіловати, хоча в них вимірюють потужність двигунів вже понад 40 років!

У 1978 році було введено так звану Міжнародну систему одиниць (СІ), вона вимагає, щоб потужність двигуна виражалася в кіловатах. Саме тому влада та рекламодавці повинні йти в ногу зі стандартом. Крім того, з 1 січня 2010 року набула чинності директива ЄС 80/181/EEC, у якій було ухвалено рішення про неприйнятність використання позасистемної одиниці (кінські сили) без зазначення потужності у кіловатах. Таким чином, усі виробники автомобілів, а також страхові компанії почали вимірювати потужність двигуна в кВт замість кінських сил.

Чому ж існує дві різні одиниці виміру потужності двигуна?

Справа в тому, що на зорі автомобілебудування, щоб хоч якось співвідносити потужності нових двигунів, була введена одиниця “кінська сила”. Вона була не точною і існувало кілька її визначень. Так що кінські сили є старою позасистемною одиницею вимірювання потужності. Вона була офіційно скасована через те, що вводить в оману. Хоча можна собі приблизно уявити, що автомобіль, потужністю в 100 “коней”, розганяється куди швидше, ніж той, у якого всього 50 “коней” під капотом. Щоб запобігти цій плутанині з визначеннями, у 1978 році було прийнято рішення встановити Ватт єдиною одиницею вимірювання потужності.

Як перетворити кВт на к.с.?

Один кіловат дорівнює 1,35962 к.с. Тому для перекладу просто потрібно помножити кількість кВт на 1,36 та отримати потужність двигуна в кіловатах.

Приклад: 100 кВт х 1,36 = близько 136 к.с

Як перетворити к.с. у кВт?

Для переведення кінських сил у кіловати необхідно потужність розділити на 1,36.

Приклад: 150 к.с.: 1,36 = близько 110 кВт

Табличні співвідношення к.с. та кВт

Перетворення кВт у к.с.
кВтк.с.
4054
6082
80109
100136
120163
140190
160218
180245
200272
220299
240326
260354
280381
300408

Перетворення кінських сил у вати

Потужність (к.с.) у вати (Вт) , перетворення потужності : калькулятор та способи перетворення.

Потужність у вати калькулятор перетворення

Введіть потужність в кінських силах і натисніть кнопку Конвертувати :

Як перевести кінську силу у вати

Механічна / гідравлічна потужність у ватах

Одна механічна або гідравлічна кінська сила дорівнює 745,699872 Вт:

1 к.с. (I) = 745,699872 Вт

Отже, перетворення потужності кінських сил у вати дається за формулою:

Приклад

Перетворення 10 к.с. у ватах:

P (W) = 745,699872 ⋅ 10hp = 7456,99872 W

Електрична потужність у ватах

Одна електрична потужність дорівнює 746 Вт:

Отже, перетворення потужності кінських сил у вати дається за формулою:

Приклад

Перетворення 10 к.с. у ватах:

P (W) = 746 ⋅ 10hp = 7460 Вт

Метричні кінські сили у ватах

Одна метрична кінська сила дорівнює 735,49875 Вт:

1 к.с. (М) = 735,49875 Вт

Отже, перетворення потужності кінських сил у вати дається за формулою:

Приклад

Перетворення 10 к.с. у ватах:

P (W) = 735,49875 ⋅ 10hp = 7354,9875 W

Таблиця перетворення Вт в кінські сили

Вт
(Вт)
Механічна потужність
(к.с. (I) )
Електрична потужність
(к.с. (E) )
Метрична кінська сила
(к.с. (М) )
1 Вт0,001341 к. С0,001340 к. С0,001360 к. С
2 Вт0,002682 к. С0,002681 к. С0,002719 к. С
3 Вт0,004023 к. С0,004021 к. С0,004079 к. С
4 Вт0,005364 к. С0,005362 к. С0,005438 к. С
5 Вт0,006705 к. С0,006702 к. С0,006798 к. С
6 Вт0,008046 к. С0,008043 к. С0,008158 к. С
7 Вт0,009387 к. С0,009383 к. С0,009517 к. С
8 Вт0,010728 к. С0,010724 к. С0,010877 к. С
9 Вт0,012069 к. С0,012064 к. С0,012237 к. С
10 Вт0,013410 к. С0,013405 к. С0,013596 к. С
20 Вт0,026820 к. С0,026810 к. С0,027192 к. С
30 Вт0,040231 к. С0,040214 к. С0,040789 к. С
40 Вт0,053641 к. С0,053619 к. С0,054385 к. С
50 Вт0,067051 к. С0,067024 к. С0,067981 к. С
60 Вт0,080461 к. С0,080429 к. С0,081577 к. С
70 Вт0,093871 к. С0,093834 к. С0,095174 к. С
80 Вт0,107282 к. С0,107239 к. С0,108770 к. С
90 Вт0,120692 к. С0,120643 к. С0,122366 к. С
100 Вт0,134022 к. С0,134048 к. С0,135962 к. С
200 Вт0,268204 к. С0,268097 к. С0,271924 к. С
300 Вт0,402307 к. С0,402145 к. С0,407886 к. С
400 Вт0,536409 к. С0,536193 к. С0,543849 к. С
500 Вт0,670511 к. С0,670241 к. С0,679811 к. С
600 Вт0,804613 к. С0,804290 к. С0,815773 к. С
700 Вт0,938715 к. С0,938338 к. С0,951735 к. С
800 Вт1,072817 к. С1,073838 к. С1,087697 к. С
900 Вт1,206920 к. С1,206434 к. С1,223659 к. С
1000 Вт1,341022 к. С1,340483 к. С1,359622 к. С
2000 Вт2,682044 к. С2,680965 к. С2,719243 к. С
3000 Вт4,023066 к. С4,021448 к. С4,078865 к. С
4000 Вт5,364088 к. С5,361930 к. С5.438486 к. С
5000 Вт6,705110 к. С6,702413 к. С6.798108 к. С

Дивіться також

  • Перетворення ват в кінську силу
  • Кіловат в кінські сили перетворення
  • Кінська сила в кіловат перетворення
  • Вт (Вт)
  • дБм
  • Електроенергія
  • Перетворення потужності

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