VTEC Explained - JDMCars.com

1 vtec ExplainedVTEC is one of Honda's greatest invention. Though anundisputed expert in turbo-charging as evidenced by years of Formula-1domination while Honda was active in the sport, Honda'sengineers feels that turbo charging has disadvantages,primarily bad fuel economy, that made it not totallysuitable for street use. At the same time, the advantagesof working with smaller engines meant that smaller capacityengines with as high power output as possible (ie very highspecific-output engines) are desirable for street Honda invented vtec which allows it to extract turbolevel specific output from its engines without having tosuffer from the disadvantages of turbocharging (though vtec introduces disadvantages of its own).

2 The Basic vtec MechanismThe basic mechanism used by the vtec technology is a simplehydraulically actuated pin. This pin is hydraulicallypushed horizontally to link up adjacent rocker arms. Aspring mechanism is used to return the pin back to itsoriginal vtec mechanism is covered in great detail elsewhere soit is redundant to go through the entire mechanism we will look at the basic operating principleswhich can be used in later sections to explain the variousimplementations vtec by start on the basic principle, examine the simple diagrambelow. It comprises a camshaft with two cam-lobes side-by-side. These lobes drives two side-by-side valve two cam/rocker pairs operates independently of eachother.

3 One of the two cam-lobes are intentionally drawn tobe different. The one on the left has a "wilder" profile,it will open its valve earlier, open it more, and close itlater, compared to the one on the right. Under normaloperation, each pair of cam-lobe/rocker-arm assembly willwork independently of each uses the pin actuation mechanism to link the mild-camrocker arm to the wild-cam rocker arm. This effectivelymakes the two rocker arms operate as one. This "composite"rocker arm(s) now clearly follows the wild-cam profile ofthe left rocker arm. This in essence is the basic workingprinciple of all of Honda's vtec , Honda have implemented vtec in four differentconfigurations. For the rest of this feature, we willexamine these four different implementations of VTECThe pinacle of vtec implementation is the DOHC vtec first engine to benefit from vtec is the legendaryB16A, a 1595cc inline-4 16 Valve DOHC engine with vtec producing 160ps and first appearing in 1989 in the JDMH onda Integra XSi and the diagram of a typical Honda DOHC PGM-Fi non- vtec engine on the left, in this case the 1590cc ZC DOHC that each pair of cam-lobe and their correspondingrocker arms though adjacent, are spaced apart from the DOHC vtec implementation, Honda put an extracam/rocker in between each pair of intake and exhaustlobes/rockers.

4 The three cam/rocker assemblies are now nextto each other. The new middle lobe is the "wild" race-tunedcam-lobe. Using vtec to link up all three rocker armstogether, Honda is able to use either the mild or the wildcam-lobes at : Though the ZC and B16A are well-suited to illustratethe difference between plain-DOHC and DOHC- vtec , the B16 Aengine is not derived from ZC. In fact, ZC and B16A havedifferent bore and stroke. The same applies for the B18 Aand B18C engines used in the JDM Integra vtec implementations can produce extremely highspecific outputs. The B16A for standard street use firstproduced 160ps and now 170ps. In the super-tuned B16 Bimplementation used for the new JDM EK-series Honda CivicType-R, 185ps was produced from the same vtec can also easily offer competitive power outputsto turbo-charged engines for normal street use.

5 For eg, theE-DC2 Integra Si- vtec produces 180ps from the 1797cc DOHCVTEC B18C engine. This compares favorably to the of the RPS-13 Nissan 180SX which uses a DOHCT urbo-Intercooled engine which produced VTECAn alternative implementation of vtec for high (versus veryhigh) specific output is used in Honda's SOHC engines. SOHCVTEC engines have often been mistakenly taken as a 'poor'second-rate derivative of DOHC vtec but this is not thetrue case. An SOHC engine head has advantages of a DOHC head mostly in terms of size (it is narrower) and more sedate requirements, an SOHC engine is preferableto the DOHC engine. SOHC vtec is a power implementation ofVTEC for SOHC engines with the express intention ofextracting high specific the diagram of a standard SOHC cam assembly on thebelow.

6 Note that the pair of intake rocker arms areseparated but adjacent to each the SOHC vtec implementation (diagram on the below),Honda put a wild-cam lobe for the intake valves in thespace between the two rocker that the two exhaust rocker arms are separated by thetwo intake rocker arms and the "tunnel" for the sparkplugcable connector. This is the reason why Honda implementedVTEC on the intake valves vtec engines are high specific output forms of thestandard SOHC engines. The D15B engine used in theCivic/Civic Ferio VTi models (EG-series 1991 to 1995) gives130ps from a 1493cc capacity. Bear in mind this kind ofpower levels are normally associated with DOHC or evenmilder-tuned DOHC fuel-injected engines !

7 vtec -EA novel implementation of vtec in SOHC engines is the vtec -E implementation (E for Economy). vtec -E uses the principleof swirling to promote more efficient air-and-fuel mixingin the engine chambers. vtec -E works by deactivating oneintake valve. Examine the diagram the SOHC vtec -E implementation, only one intake cam-lobeis implemented on the camshaft. Actually it is really aflat "ring". In operation this means the relevant rockerarm will not be activated causing the engine to effectivelywork in 12-valve mode. This promotes a swirl action duringthe intake cycle. vtec is used to activate the inactivevalve, making the engine work in 16-valve mode in moredemanding and higher rpm conditions.

8 Honda was able toimplement air-fuel mixture ratios of more than 20:1 inVTEC-E during the 12-valve operating mode. The SOHC vtec -Eengine EG-series Civic ETi is able to return fuelconsumptions of as good as 20km/litre or better!!SOHC vtec implemented for power is often mistaken as SOHCVTEC-E which is implemented for economy. It is worthwhileto note that the SOHC vtec -E used in the JDM HondaCivic ETi produces 92ps. This is in fact less than thatproduced by the standard SOHC engine's 100ps whichuses dual Keihin side-draft carburetors. SOHC vtec in theD15B produces 130ps. This is 30% more than the standardSOHC implementation !3-stage VTECE xamine the SOHC vtec and SOHC vtec -E implementations.

9 Theclever Honda engineers saw that it is a logical step tomerge the two implementations into one. This is in essencethe 3-stage vtec implementation. 3-stage vtec isimplemented on the D15B SOHC engine in which the vtec -E mechanism is combined with the power vtec of us probably has laughed at the poor ignorant laymanwho said "I want power AND economy from my Honda". We knowof course that power and economy are mutually exclusiveimplementations. Honda decided not to abide by this , with 3-stage vtec , we get BOTH power and economy !.The diagram below illustrates the 3-stage vtec implementation. The intake rocker arms have two vtec pinactuation mechanisms. The vtec -E actuation assembly islocated above the camshaft while the vtec (power) actuationassembly is the standard wild-cam lobe and rocker 2500rpm and with gentle accelerator pressure, neitherpin gets actuated.

10 The engine operates in 12V mode withvery good fuel combustion efficiency. When the right footgets more urgent and/or above 2500rpm, the upper pin getsactuated. This is the vtec -E mechanism at work and theengine effectively enters into the '2nd stage'. Now D15B 3-stage works in 16V mode (both intake valves works from thesame mild cam-lobe).Stage 2 operates from around 2500rpm to 6000rpm. When therpm exceeds 6000rpm, the vtec mechanism activates the wildcam-lobe pushing the engine into the '3rd stage', the powerstage. Now the engine gives us the full benefit of its130ps potential !The 3-stage vtec D15B engine is used on the current EK-series JDM Civic/Civic Ferio VTi/Vi together with Honda'snew Multimatic CVT transmission.