What Honda Has Vtec? - GearShifters

Honda Pilot trims for 2018
2018 Honda Civic Coupe trim levels LX and LX-P
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Honda HR-V trims for 2018.
LX and EX versions of the 2018 Honda Civic Sedan
Honda CR-V LX trim for 2018.
Honda Odyssey trims for 2019.
Honda Fit trims for 2019

Take a new Honda out for a test drive at Muller Honda of Gurnee to see the difference a VTEC or i-VTEC engine can make. The most well-liked new Honda models are among the many that we sell!

In This Article...

Which models of Honda have VTEC?

Let’s first explore what VTEC is and why someone would desire it in their car before moving on to which Honda models have VTEC systems.

VTEC for Your Honda

VTEC, or variable valve timing and lift electronic control, is a four-stroke combustion engine that has been modified to improve volumetric efficiency. In order to improve fuel efficiency, the engine actively shifts between two timing profiles. In contrast to conventional Variable Valve Timing (VVT), this does not alter the camshaft profile or valve lift in any way. Gas mileage improves as engine efficiency increases. Who would not desire that?

Honda Models with VTEC

Now that issue is resolved, let’s discuss which Honda cars are equipped with VTEC systems.

Civics with the VTEC engine include the EX, EX-L, HX (6th generation), Si, Si-R, VTi, VTiR, and Civic Type R (CTR).

It’s straightforward with Integras: the Integra GS-R and Integra Type R (ITR for short) are VTEC, while the Integra LS/GS/RS/SE = NOT VTEC until changed after production (thus someone performing an LS/VTEC conversion).

The stock photo is being used solely for illustration reasons and is not a true representation of the listed company, dish, or activity. Any individual shown in the stock photo is a model.

Do all Hondas have VTEC?

If you have any interest in high-performance vehicles, particularly those made in Japan, you’ve probably heard of Honda’s powerful VTEC engine. The primary source of Honda’s renown is this. Although VTEC has continued on turbocharged Honda engines like the current Type R Civic, it is their four (and six) cylinder normally aspirated engines’ ace in the hole. VTEC has the ability to improve performance, boost economy, and cut emissions. Honda has successfully employed it for all three of these objectives over the years. Are all Hondas VTEC, though? You’ll get the solution to that question in this article.

VTEC has also influenced the development of the “VTEC Just Kicked In Yo” meme genre on the Internet:

But what precisely is VTEC? How is better performance achieved? Does every Honda have VTEC, too? These questions and more will be addressed in this installment of Car Facts.

VTEC is almost universally found in modern Honda models, but it wasn’t always this way. Not a single Honda vehicle had it a little over 30 years ago. Honda gradually integrated it across its whole lineup after first keeping it for performance vehicles. To discover more about what VTEC does, which Hondas have it, and why, let’s take a closer look at how it functions.

Honda stopped utilizing VTEC when?

The 2017 Honda Civic Si will include a turbocharged engine, which is a first for the trim, and will go on sale next month for around $20,000. The 1.5-liter engine has the same 205 horsepower as the old 2.4-liter four with naturally aspirated gas. However, compared to the normally aspirated engine, torque is up 18 lb-ft to 192. The Civic Si should be enjoyable to drive because it has more power accessible lower in the rpm range and a standard six-speed manual transmission.

A sport-tuned suspension with firmer springs and antiroll bars helps to improve car control. Honda claims the new Si is substantially lighter than the previous version (without providing details). A two-mode adaptive damper system (sport and normal), a limited-slip differential, and larger 12.3-inch front brake rotors are all included as standard equipment.

The coupe and sedan both feature subdued design (at least compared to the Type R). The Si gets wider side vents at the back, black trim on the front fascia, 18-inch, 10-spoke wheels, and center-exit exhaust. No flashy body kits or extraneous wings are present.

It will be interesting to see how the 2017 Civic Si stacks up against rivals like the Ford Focus ST, Subaru Impreza WRX, and Volkswagen Golf GTI. With starting costs in the mid-$20,000 range and greater power than the Si, the competition may damage Honda’s new Si. Alternately, the Si could triumph despite lacking VTEC. As soon as we can get behind the wheel, we’ll let you know.

The best VTEC is…

From the early 2000s until the mid-2010s, a large number of Honda cars were powered by the K-series engine, which is still found in a few more modern models such the Honda Civic Type R (FK8), which employs the K20C engine.

The K20A, notably the high-performance variety used in Type R vehicles like the DC5 Integra Type R and FD2 Civic Type R, is our choice for the best K-series engine. It produces 225 PS at 8,000 rpm and 215 Nm of maximum torque at 6,100 rpm in its most powerful configuration.

Many expletives, including frenetic, energetic, and exciting, have been used to characterize the experience of driving the K20A in the FD2 Civic Type R by some of us at the WapCar office. Before emission rules put an end to the naturally aspirated high-performance VTEC era, it is the final authentic driving experience available.

Does VTEC increase a car’s speed?

Honda created the Variable Valve Timing & Lift Electronic Control (VTEC) technology to improve the overall performance, efficiency, and fun factor of their vehicles. The technology has become a well-known meme as a result of its frequent use in Fast and Furious movies. Few people are aware of the mechanics behind the expression “VTEC just kicked in, yo!” What you need to know about the system is provided here.

VTEC vs i-VTEC: Which is superior?

Honda added i-VTEC, which effectively stands for Intelligent VTEC, for you if variable valve timing wasn’t hard enough before. Since its introduction in Honda vehicles in 2001, almost all of their performance engines have utilised it.

The above-mentioned architecture is used in conventional VTEC engines. Only the lift and duration offered by the two distinct camshaft lobes or profiles can be controlled by this technique. In order to have better control over valve timing, Honda created and combined what is known as i-VTEC, or VTC with VTEC.

Variable timing control (VTC) allows the camshaft to be advanced or retracted in order to manage valve overlap. The exhaust valve never opened and closed simultaneously in conventional VTEC engines because the intake valve always opened first. With VTC, the camshaft lobe angles can be adjusted to allow the valves to overlap or open simultaneously. It can be altered at various RPM levels due to its changeable nature.

So, What’s the Difference Between VTEC and i-VTEC?

By allowing for camshaft angle modifications, i-VTEC adds more valve timing control. The valves must open and close differently for each RPM range in order to operate at their peak performance at both low and high RPMs. The main distinction between VTEC and i-VTEC is that the former does this.

In contrast to the conventional VTEC, i-VTEC offers a smoother power band and improved performance at both high and low RPMs.

VTEC—is it a turbo?

Under any circumstance, from city driving with frequent stopping and starting to highway travel, the VTEC TURBO engine is fuel-efficient. A 2.4L normally aspirated engine has a lot of torque for city driving due of its size. Due to its turbo, the VTEC TURBO engine has higher torque than the 2.4L normally aspirated engine. A 1.5L engine may perform on par with a 2.4L engine thanks to the VTEC TURBO technology.

Summary

Utilizing a turbocharger, direct injection system, and variable valve timing mechanism, Honda’s VTEC TURBO technology efficiently utilises every last drop of fuel.

Honda aims to mix driving pleasure with environmental performance with VTEC TURBO and hybrid technologies.

Which vehicles still use VTEC?

The 1.8-liter engine in the HR-V, however, uses VTEC to regulate the timing of both intake valves at higher speeds and one intake valve at lower speeds, but not lift.

Although the intake and exhaust valves in Honda’s turbocharged four-cylinder engines have variable valve timing, the lift valves do not. According to Honda, this variation of VTEC controls the intake and exhaust camshafts separately, enabling valve timing to be adjusted for a range of driving circumstances. The Accord, Civic, Civic Si and Type R, and CR-V all employ this technology.

The Odyssey, Passport, Pilot, and Ridgeline’s V-6 engines have variable intake valve lift and timing, and VTEC combines with cylinder deactivation to function in a three-cylinder mode.

How many HP can VTEC produce?

The i-VTEC system is implemented in two different ways in the K-Series engines. The first category is for high-performance engines, such as the K20A2 or K20Z3 found in the 2002–2006 RSX Type S or the 2006–2011 Civic Si, and the second category is for economy engines, such as the K20A3 or K24A4 found in the 2002–2005 Civic Si or the 2003–2007 Accord. The DOHC VTEC system of the B16A’s and the performance i-VTEC system are essentially equivalent. Per cylinder, each intake and exhaust cam has three cam lobes. However, the valvetrain also benefits from continuously changing intake cam timing and roller rockers. Performance i-VTEC combines VTC with traditional DOHC VTEC (which operates for intake valves only). Both the performance and economy i-VTEC engines offer the VTC.

The K20A3/K24A4 engines’ economical i-VTEC is more like the SOHC VTEC-E because it only has two intake cam lobes—one very small and one larger—and no VTEC on the exhaust cam. Only one intake valve fully opens at low RPM, encouraging combustion chamber swirl and better fuel atomization. This makes it possible to use a leaner air/fuel mixture, increasing fuel efficiency. Both intake valves are driven by the larger intake cam lobe at higher RPMs, increasing overall air flow and top-end power.

The factory rated power output of the two types of engines makes it simple to tell them apart: performance engines typically produce 200 hp (150 kW) or more in stock form, while economy engines rarely produce more than 160 hp (120 kW).