TeknologiG-Vectoring control yaitu sebuah sistem yang berkoordinasi demi membuat mobil bisa terkendali dengan baik serta aman saat menikung NEW MAZDA CX-3; ALL MAZDA CX-30 2.0; ALL NEW MAZDA CX-5 2.5; NEW MAZDA 6 2.5; NEW MAZDA CX-8 2.5; NEW MAZDA CX-9 2.5; NEW MAZDA MX-5 RF; KREDIT/PROMO; PRICE LIST; ARTIKEL; HUBUNGI Good news Mazda, a company that always seems to be doing a little more for those of us who appreciate driving dynamics, will deploy its newest piece of technology, called G-Vectoring Control GVC, as a standard feature in all trim levels for 2017 model year Mazda6 and Mazda3 products. Eventually, GVC, an advanced form of chassis management, will be standard on every Mazda I explain how GVC works, though, it helps to remember that Mazda really does see itself as a company of enthusiasts building cars for enthusiasts. It has made hero cars, the fantastic little MX-5 and performance RX models, but its entire lineup drives and handles a little better than similar models from Toyota, Honda, or Nissan. General Motors and Ford, as well, for that matter. Full disclosure I know the company sees itself as a bunch of enthusiasts because I worked at Mazda headquarters in Hiroshima from 2002 to 2005. I saw it up close. The Mazda people are always carrying on about Jinba Ittai—the idea of horse and rider as one—but it's not just idle talk. They go after it. Mazda is the only Japanese automaker to hinge its throttle pedals to the floor, not hung from above as is common practice, in all their vehicles. Why? Better control, a more linear response. To Mazda, that matters. To people that care about driving, that matters. The new G-Vectoring Control technology is a bit like a throttle pedal hinged on the floor, another small step forward in Mazda's march to even better driving dynamics. So what does it do? MazdaThe physics behind GVC are pretty simple To achieve the car's natural cornering posture, you increase the vertical load on the front tires by triggering a slight deceleration. Done right, this forward pitch longitudinal g-force, is very natural and something you may already do on a race track or canyon road—breathe the throttle to prepare for a fast corner, help the front tires get the car into the corner more smoothly. Breathing the throttle or brushing the brakes will create noticeable longitudinal g-force. You and your passengers can feel the car pitch forward. But what if that longitudinal g-force was more subtle and happening nearly every time you turned the wheel? That's what Mazda asked. And kept asking for the past eight years while hunting an answer. Engineers initially went down the path of lightly—very lightly—applying brakes every time the driver turned the wheel, but that was an impossible solution too slow to react and not natural, mainly. There were other issues. It was a dead end. This content is imported from youTube. You may be able to find the same content in another format, or you may be able to find more information, at their web it chased development work on an electric Mazda2 known as a Demio in Japan, creating a way to slightly reduce torque output of the electric motor with each steering input, neatly marrying longitudinal g-force created by torque reduction with lateral g-force created by steering input. And that was the breakthrough using the powertrain to improve chassis dynamics. In the 2017 Mazda6 and Mazda3, the GVC system is essentially monitoring three parameters vehicle speed, throttle position, and rate of steering wheel rotation. Turn the steering wheel even the smallest amount and the system goes to work, reacting in less than 50 milliseconds, minutely reducing engine torque by retarding spark timing. The result is an increased vertical load on the front SegalAt maximum, the system will deliver .05 g of deceleration, enough to generate a measure of longitudinal g-force but generally below the threshold of human perception. F1 driver Lewis Hamilton, a super human, may feel it. This moment of longitudinal g-force, married to the lateral g-force created by steering input, is where Mazda says the magic happens. The result a more natural vehicle cornering posture for improved turn-in performance. Does it work? Well, yes. But you have to go to the data to see it. Mazda let us drive a Mazda6 rigged with a GVC "on-off" switch. In production, the system will be invisible, part of the software package and with no "off" switch. We drove a number of different scenarios including a simple parking-lot oval—two tight, constant-radius turns connected by short straights—at speeds between 20 and 35 mph with cruise control switched on to deliver a constant speed. With the GVC system on, the data showed less steering wheel the GVC system on, the data showed less steering wheel movement, indicating the initial turn-in moment for each maneuver was more precise and needed less mid-maneuver correction. And that's the goal improved steering performance at nearly all speeds and in nearly every condition. On slippery surfaces, the difference is more noticeable. Mazda is quick to point out GVC is not a torque vectoring system. Technically, torque vectoring from Acura, Audi, Ford, and the like are "active yaw control" systems. They help a car rotate by altering torque delivered to a single wheel. In a left-hand turn, for example, the hybrid Acura NSX will instruct the electric motor powering its front-right wheel to add more torque, pushing the vehicle to the left and into the corner. Morgan Segal Done correctly, torque vectoring can be wonderful. But Mazda does not embrace the solution, as it finds it unnatural and disruptive to the purity of their driving dynamics. Further, torque vectoring systems are often set up to help only at higher speeds. This is not to discount torque vectoring—not at all. It's just not a solution Mazda loves. It went its own path. G-Vectoring Control, Mazda believes, is a pure solution and can improve dynamic feel with every steering input at nearly ever speed. The only time G-Vectoring Control is not activated by steering movement is when the driver is completely off throttle. GVC is a unique solution and, more to the point, it personifies Mazda. In the same way Honda will constantly hunt for another 5 millimeters of cargo space in back of an HR-V, Mazda will pursue every incremental improvement in driving pleasure. To Mazda, that's the righteous pursuit. And what makes Mazda very Mazda. NewMazda 2 Sedan dibekali mesin Skyactiv- G 1.5 dengan performa yang dapat mencapai tenaga maksimal 82kW (111PS)/6,000rpm dan torsi maksimal 144Nm/4,000rpm. SUV Premium New Mazda CX-8 dibanderol Rp795.500,000 sedangkan New Mazda 2 Sedan dijual dengan harga Rp 338.000,000 (OTR). Harga yang ditawarkan sudah termasuk MyMazda If you’re not technically inclined, or at least a keenly mystified observer of engineered wizardry, turn away now. This could get a little boring for you. But, even if not knowingly, you'll soon be glad this new system exists. G-Vectoring Control, or GVC as Mazda calls it, is an all-new electronic system that works with Mazda’s SkyActiv engine range to promise better driving feel behind the wheel, more linear steering response, added safety and reduced fatigue. And while we didn’t easily feel the system working away under the Mazda6’s skin at launch this week, we reckon any system that adds to safety is a good a quick breakdown on how GVC you’ll read in our other news piece, one Mazda engineer spent an incredible eight years developing GVC to ensure it is ready for launch on road cars that you could be driving as soon as the refreshed release of the new Mazda 3 in the months has spent plenty of time watching human behaviour, not only behind the wheel but also in doing something as simple as walking, running or even sitting in a vehicle as a passenger. The end result is a clever software system that reads steering inputs and ever-so-subtly reduces engine torque to the driven wheels. The result of that torque reduction, like a race car driver lifting off’ on the track, is a shift of the vehicle’s weight forward. This adds more bite’ to the driven tyres and therefore more grip and confidence at any result, according to Mazda, is more assured handling and balance. That, and more certainty to the way the vehicle reacts to the road conditions, which dictate what the driver is doing with the steering technology is a direct result of Mazda so intensely observing human behaviour and how the body reacts to motion. Every action within the human structure is linked, so that as a vehicle tips into a corner for example, the body will do all kinds of balancing acts to try to keep the occupant's head and therefore eyeline humans walk or run, turn a corner, lean forward or back, the natural and subconscious reaction is make those movements as smoothly as possible, essentially because it feels more comfortable to do so. Mazda calls it minimum jerk theory’ and the effort to translate that human movement into driving control led the company to develop more balanced you can make a vehicle, the more enjoyable - even if only subconsciously - the experience will be for the occupants. This in turn reduces fatigue, given there’s less effort and muscle action required, whether you're driving or a passenger in the is key, and the GVC system can work at speeds - less than 50 milliseconds - that beat even the most skilled driver. Imagine, for example, you pick the wrong line into a corner. You’d have to adjust the amount of lock to suit the line you should have taken. This takes time, and the slower you correction, the messier your corner progression. GVC aims to remove that occurrence we saw on test, GVC works even when cruise control is activated - any time there is throttle input, as a matter of fact. The system isn’t affected by ESC or traction control, either, and works independently of told us at the test event that the plan is to filter this tech down through the whole Mazda range, whether the vehicle is front-, rear- or all-wheel the system would make sense across the entire Mazda range, we’ll see it filter through as each model is refreshed or updated. First cab of the rank will be the Mazda 3 - due to hit Australia later this year. Trent Nikolic has been road testing and writing about cars for almost 20 years. He’s been at CarAdvice/Drive since 2014 and has been a motoring editor at the NRMA, Overlander 4WD Magazine, Hot4s and Auto Salon more about Trent Nikolic MazdaMazda3 рестайлинг 2016, хэтчбек 5 дв., 3 поколение, BM (08.2016 - 05.2019) - технические характеристики и комплектации
Since G-Vectoring Control GVC was introduced in the 2017 Mazda 6, it has since been included as standard for all its vehicles. While it is mostly known as “the” Mazda technology that aids in the driving experience of the brand’s cars, there is little understanding on what it does, and why it is a highlight for Mazda. In this article, we will break down the points of GVC – from its benefits to misconceptions. How did G-Vectoring Control come about? The word Jinba-Ittai’ is a saying that is at the heart of every Mazda. First seen in the brochure for the first-generation Mazda MX-5, Jinba-Ittai’ basically translates to “the feeling of connectedness between a rider and his horse”. When put in context of the brand – it basically translates to harmony between a car and its driver. Marrying the Jinba-Ittai’ concept plus the focus on being innovative and striving to be better, GVC was introduced to improve chassis performance by controlling the engine output; but developed based on Mazda’s human-centred development philosophy. What is G-Vectoring Control? To put it simply, G-Vectoring Control is an electronic system that ties the power steering and engine control computer together. When the steering wheel is turned, GVC reduces engine power slightly. The resulting effect pitches the front of the vehicle forward, putting more load on the tyres and allowing the car respond directly. All this translates to a more stable vehicle for both driver and passengers. What are the benefits of GVC? There are several, but the most important is that GVC is highly versatile and can be deployed in any Skyactiv Mazda’s latest technologies that encompass the brand’s engine, chassis, transmission and car body model, irrespective of drive system or vehicle type. Additionally, since GVC is a software control system, there isn’t any increase in weight. However, the main points are Increase in driver confidence due to reduction in steering corrections with GVC. Passengers feel more comfortable because GVC smoothens the G force transitions that suppresses the swaying of head and body. The enhanced handling and stability on various road surfaces including rain and snow gives a greater sense of security to the driver. Less slip equals more traction and driving confidence. Why is vehicle control important? “If you want to get a driver’s license, you can go to a driving school and get basic driving lessons. But those lessons do not educate you on the importance of vehicle control and ways to improve control. For instance, driving instructors do not teach you on controlling a vehicle for better or more efficient driving. GVC ensures the vehicle controls its dynamics on an extremely minute level, not capable by drivers themselves, so that driving efficiency is significantly improved,” said Daisuke Umetsu, vehicle development division, Mazda. Does this mean that GVC is a standalone technology to improve vehicle dynamics? No, it isn’t. Because GVC ties both steering input and engine to optimise load control, the technology could not have been achieved without the brand’s Skyactiv engine. Both of Mazda’s Skyactiv-D diesel and Skyactiv-G petrol engines are capable of extremely fast and precise control, which realises optimum torque control requested by the driver’s steering input. In simple terms, this means that the engineering that has gone into the suspension, body, seats and steering all come together with the system, which is needed to carry the load and reach the road surface. The all-new Mazda 3 now comes with G-Vectoring Control Plus. What does the update do? “On top of shifting the weight to improve grip and make the car behave more naturally, G-Vectoring Control Plus also works when you’re coming out of a corner. We apply a tiny amount of brake to the outside front tyre to help straighten the car as you exit a corner,” explains Dave Coleman, vehicle development engineer at Mazda R&D. Watch this video to have a better understanding about G-Vectoring Control Want to know more about the Mazda 6? Click here for our impressions of the latest Mazda 6 sedan. Sell your car to Carsome and upgrade your ride to a Mazda!
GVectoring control plus: Hill launch assist: Manual child lock in rear doors: Passenger airbag cut-off switch: Tyre pressure monitoring system launched in 2015, Mazda went it alone, this MK3 model '2 riding on its own SKYACTIV chassis technology, updated at the end of the decade with the mild hybrid e-SKYACTIV-G technology that features in Christian Wardlaw May 06, 2020 Mazda G-Vectoring Control and Mazda G-Vectoring Control Plus are vehicle dynamics and motion control systems that respond to steering inputs with subtle engine torque and braking changes. In response, the ride and handling feel smoother and more natural, making it more pleasurable to drive a Mazda and more comfortable and enjoyable to ride in a introduced North American consumers to G-Vectoring Control in the 2017 Mazda6, and debuted G-Vectoring Control Plus in the 2019 Mazda3 and Mazda CX-5. Today, most Mazdas have the technology. Subscribe to the Power Newsletter Thank You You are now subscribed to the Power Cars Newsletter. Explore new car previews 2023 Honda Accord Preview The 2023 Accord is the 11th-generation version of the car that first went on sale in America in 1976, and it is a far different vehicle from the one that made the nameplate a household name. Read the full review 2023 Honda Pilot Preview The fourth-generation 2023 Honda Pilot is about to go on sale, and Honda substantially upgrades it over the popular third-generation model it replaces. Honda will offer the redesigned 2023 Pilot in Sport, EX-L, TrailSport, Touring, and Elite trim levels in December 2022. Read the full review 2024 BMW X5 Preview Currently in its third generation, the BMW X5 has been a luxury SUV mainstay for over 20 years. The X5 gets a significant update for 2024, bringing new electrified powertrain technology with better power and updated interior tech with a curved display. Read the full review
Explorethe grades and specifications of the New Mazda CX-8. Be amazed by everything you can do with this amazing premium SUV. Service Program; Type SKYACTIV-G 2.5 In-line 4 cylinder DOHC 16 valve Displacement 2,488cc Bore x stroke 89.0 x 100.0mm G-Vectoring Control (GVC) 360° View Monitor. SECURITY. Power door lock
Features Wheels delves into the tricky tech behind Mazda's software-based torque-vectoring system 13 Aug 2017, 0900 am Mazda's unique G-Vectoring Control system was first had in the facelifted Mazda 3, and will soon find its way to all SkyActiv the idea was on the backburner for eight years until engine technology caught up, Wheels has delved into the tricky tech to bring to you, this plain and simple IS IT?Mazda’s interpretation of torque vectoring is a pure software-based function, albeit with very real physical effects, so given a box full of tools and a Mazda 3, you won’t find the G-Vectoring widget, no matter how many parts you is an advanced program fed into the vehicle’s various electronic systems including engine management and ESC approach does not rely on individual wheel braking to vector’ torque, as do many other manufacturers’ systems, instead aiming for a more subtle and efficient DOES IT MATTER?According to its maker, GVC is as much about comfort as it is about dynamics. Not only do occupants feel less of the effects of changes in direction for a more relaxing ride, but more precise steering allows easier positioning of the vehicle, which benefits driving enjoyment and performance characteristics. The system is rapidly proliferating the Mazda range and will soon be rolled out to all SkyActiv DOES IT WORK?Each time the driver turns the steering wheel even a small amount the GVC momentarily reduces the torque output of the engine by rapidly altering the amount of injected fuel. The slight power reduction causes an imperceptible deceleration of the vehicle usually at or below which loads the outside wheel with an extra 5kg of may all sound like insignificant figures, but Mazda says the effect is sufficient to improve the turn-in of the loaded wheel, while not enough to be consciously noticed by occupants including the result is more effective steering with fewer corrections to maintain a continuous course, particularly on slippery BURNMazda incubated the G-Vectoring principle for eight years until the latest SkyActiv engine technology allowed a fast enough fuel-injection response for the idea to take off. The first vehicle to be upgraded with GVC was the Mazda 3 when it was treated to a mild facelift earlier this year. COMMENTS
Mazda2 adalah kendaraan yang melewati batas dari kelasnya, menawarkan kualitas yang belum pernah ada sebelumnya, nilai dan kebangaan bagi pengendaranya. G-VECTORING CONTROL PLUS (GVC PLUS) GVC Plus sebagai cara Mazda human-centric engineering membuat pergerakan kendaraan lebih responsif, lebih mengundang percaya diri dan
By Rianna Thurling 15 November 2021 Along with the release of the Mazda3 and Mazda6, Mazda has unveiled their latest advancement in driving technology – G-Vectoring Control. Inspired by the philosophy of Jinb a-Ittai horse and rider as one’, Mazda has endeavoured to give drivers even greater control and feedback when braking, accelerating and turning. How does G-Vectoring Control Work? This first addition to the SKYACTIV-VEHICLE DYNAMICS series offers drivers greater control over the car by adjusting the lateral and longitudinal acceleration forces together. In doing so, the engine torque is adjusted in response to steering inputs and controls the vertical loading on each tyre. When the car begins turning, the vertical load is shifted to the front tyres by generating a deceleration G-force. As a result, the front-wheel grip is increased, improving the vehicle’s responsiveness. If a consistent steering angle is maintained, the G-Vectoring Control recovers the engine torque, transferring the load to the rear wheels to enhance stability. These small adjustments offer the driver greater confidence in the car’s ability to follow their intentions, reducing the need for corrections. However, the subtlety of G-Vectoring Control means there is zero driver or passenger discomfort. The Benefits 1 Increased Driver Confidence The innovative G-Vectoring Control Systems allows drivers to feel confident that the car will follow their intended line precisely. This applies not only to turning, but also to the minute changes in direction caused by road surface irregularities. The slight force redistribution made by the G-Vectoring Control greatly reduces the need for driver corrections. 2 Reduced Fatigue The need to constantly make minor – often unconscious – corrections while driving is one of the key factors that contributes to driver fatigue. On long journeys, the reduced need for corrections created by the G-Vectoring Control means drivers will feel more alert. 3 Increased Comfort On top of reduced fatigue, the G-Vectoring Control System creates a smoother transition between G-forces. This reduces body and head sway, providing a more comfortable ride. 4 Greater Peace of Mind The ability of the G-Vectoring Control to enhance both handling and stability simultaneously also provides improved control in adverse conditions. When driving in rain, or on ice, snow or poor road conditions, G-Vectoring Control helps to stabilise the vehicle and improve the tyre grip. This increased stability will give drivers peace of mind in any conditions. 5 No Additional Weight As G-Vectoring Control is a software-based technology, it requires no additional space or weight. Instead, it utilises Mazda’s SKYACTIV-engines, SKYACTIV-transmissions and SKYACTIV-chassis to create this improved G-force distribution. G-Vectoring Control is available now in both the Mazda3, Mazda6 and all-new Mazda CX-5. To find out more, get in touch with a member of our sales team today at our Mazda showrooms in Weybridge and Bookham, Surrey and Orpington, Kent. Similar ArticlesHybrid vs Electric Cars Pros and ConsAlthough Hybrid and Electric cars remain a niche market in the UK, their popularity is growing. A brief look at the SMMT registration data for 2022 can give you an idea of where the market currently stands Battery Electric Vehicles BEVs 267,203 cars sold in 2022. A increase from 2021. Plug-in Hybrid Electric Vehicles […]Suzuki announces partnership with Toyota to build Hybrid CarsToyota Motor Corporation and Suzuki Motor Corporation today announced their next step in their collaboration. This will focus on Hybrid Car production, including plans to bring production of a new Suzuki hybrid car to Toyota’s UK factories. On Wednesday, Toyota and Suzuki announced an agreement to begin collaboration on electric vehicles and other in-car […]Goodbye spark plugs, hello SKYACTIV-X!Mazda announces their long-term “Sustainable Zoom-Zoom 2030” plan, including the introduction of a spark plug free petrol engine in 2019 Back in February we wrote about Mazda’s rumoured research into a compression based petrol engine to replace their current spark ignition technology. At the time, their had been no word from Mazda on the topic. […]
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