Editing How to choose a camshaft
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The lobe separation angle, sometimes called lobe ''displacement'' angle, is a measurement in ''camshaft'' degrees that states how far apart the maximum lift points of the exhaust and intake lobes are. This number is ground into the cam and can't be altered without physically changing the camshaft lobe profiles. | The lobe separation angle, sometimes called lobe ''displacement'' angle, is a measurement in ''camshaft'' degrees that states how far apart the maximum lift points of the exhaust and intake lobes are. This number is ground into the cam and can't be altered without physically changing the camshaft lobe profiles. | ||
− | [[File:Las drawing.jpg|thumb | + | [[File:Las drawing.jpg|thumb]400px]] <br style="clear:both"/> |
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====Narrower LSA:==== | ====Narrower LSA:==== | ||
− | A narrower LSA will ''increase'' overlap. This has a tendency to | + | A narrower LSA will ''increase'' overlap. This has a tendency to reduce engine output at lower RPM and increase engine output at higher RPM. A narrower LSA tend to make more peak power but a little less average power. |
*Moves torque to lower RPM | *Moves torque to lower RPM | ||
*Increases maximum torque | *Increases maximum torque | ||
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===Overlap=== | ===Overlap=== | ||
[[File:Overlap estimator1.jpg|thumb|right|300px|Area '''1''' is for street towing, '''2''' is regular street, '''3''' is street performance, '''4''' is street/strip, '''5''' is race, and '''6''' is Pro race.]] | [[File:Overlap estimator1.jpg|thumb|right|300px|Area '''1''' is for street towing, '''2''' is regular street, '''3''' is street performance, '''4''' is street/strip, '''5''' is race, and '''6''' is Pro race.]] | ||
− | "Overlap" represents the amount of duration in camshaft degrees when both the exhaust and intake valves are open at the same time. | + | "Overlap" represents the amount of duration in camshaft degrees when both the exhaust and intake valves are open at the same time. This factor is ground into the cam and can't be changed without physically altering the camshaft lobe profiles. Increasing duration at the same LSA will increase overlap. Decreasing LSA at the same duration will also increase overlap. |
− | Overlap is usually not found printed out on the cam card, but it's easy to calculate. | + | Overlap is usually not found printed out on the cam card, but it's easy to calculate. *Add the intake opening point BTDC to the exhaust closing point ATDC. |
− | *Add the intake opening point BTDC to the exhaust closing point ATDC. | + | |
If the intake opening and exhaust closing points aren't known, you can estimate the overlap by using the '''advertised duration''' (or duration @ 0.050" lift, etc.) and the '''lobe separation angle'''. | If the intake opening and exhaust closing points aren't known, you can estimate the overlap by using the '''advertised duration''' (or duration @ 0.050" lift, etc.) and the '''lobe separation angle'''. | ||
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===Lobe intensity=== | ===Lobe intensity=== | ||
− | One more point about the cam profile is lobe intensity. For a given duration, more lift means the lobe ramps (the opening and closing faces on the sides of the lobe) are steeper (more intensity). That is to say, the cam lobe has to accelerate the lifter faster to get to the peak lift within the available amount of duration duration. Faster ramp speed can give more "area under the curve", which usually equates to a broader, less peaky powerband. The downside for flat tappet cams is that the steeper ramps mean they contact the lifter at a greater angle, so the potential for wiping out a cam lobe or lifter is greater. Manufacturers are well aware of this, so they try to design the lobe profiles to optimize power, yet maintain good durability. Cam profiles like the Comp Cams XE-series and Lunati's Voodoo line are both at the edge of how fast the valve can be safely opened and closed. That's why they caution against using a higher ratio rocker arm when using these grinds. More on lobe intensity can be seen [http://www.harveycrane.com/duration.htm '''at this page'''] by Harvey Crane of Crane Cams. | + | One more point about the cam profile is lobe intensity. For a given duration, more lift means the lobe ramps (the opening and closing faces on the sides of the lobe) are steeper (more intensity). That is to say, the cam lobe has has to accelerate the lifter faster to get to the peak lift within the available amount of duration duration. Faster ramp speed can give more "area under the curve", which usually equates to a broader, less peaky powerband. The downside for flat tappet cams is that the steeper ramps mean they contact the lifter at a greater angle, so the potential for wiping out a cam lobe or lifter is greater. Manufacturers are well aware of this, so they try to design the lobe profiles to optimize power, yet maintain good durability. Cam profiles like the Comp Cams XE-series and Lunati's Voodoo line are both at the edge of how fast the valve can be safely opened and closed. That's why they caution against using a higher ratio rocker arm when using these grinds. More on lobe intensity can be seen [http://www.harveycrane.com/duration.htm '''at this page'''] by Harvey Crane of Crane Cams. |
===Intake centerline (ICL)=== | ===Intake centerline (ICL)=== | ||
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===Phasing the camshaft=== | ===Phasing the camshaft=== | ||
− | While is is true that you cannot change the lobes of a camshaft after it is ground (unless you weld and re-grind the lobes), you | + | While is is true that you cannot change the lobes of a camshaft after it is ground (unless you weld and re-grind the lobes), you can alter the characteristics of the camshaft in your motor by installing it in either a retarded or advanced position relative to the crankshaft rotation. For instance, if you have determined that you are making too much horsepower down low and can't hook the tires up, you ''might'' want to trade off a little of the lower end power for some higher end power. In this case, you would install the camshaft slightly retarded (although harnessing the power would be the preferred thing to do- a 0.10 second better 60 foot time equates to about a 0.15 second reduction in 1/4 mile ET). |
Although all four events (intake valve opening, intake valve closing, exhaust valve opening, exhaust valve closing) will be affected by changing the camshaft phasing, the most important one will be the intake closing point. If you retard the camshaft, you will be closing the intake later, thus bleeding off some of the cylinder pressure and resulting in less low end power. Vice versa if you advance the camshaft. More bottom end, less top end. A rough estimate is a 4 degree change in cam phasing will change the cranking pressure by 5 psi (advancing increases pressure, retarding decreases pressure). To put that into perspective, a rough estimate says a one point change in static compression ratio (as in going from 9:1 to 10:1, or vice versa) changes the cranking pressure by 20-25 psi. | Although all four events (intake valve opening, intake valve closing, exhaust valve opening, exhaust valve closing) will be affected by changing the camshaft phasing, the most important one will be the intake closing point. If you retard the camshaft, you will be closing the intake later, thus bleeding off some of the cylinder pressure and resulting in less low end power. Vice versa if you advance the camshaft. More bottom end, less top end. A rough estimate is a 4 degree change in cam phasing will change the cranking pressure by 5 psi (advancing increases pressure, retarding decreases pressure). To put that into perspective, a rough estimate says a one point change in static compression ratio (as in going from 9:1 to 10:1, or vice versa) changes the cranking pressure by 20-25 psi. | ||
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Intake centerline can be altered either by the crankshaft grind or the use of a camshaft sprocket that can alter if the cam is installed advanced or retarded. A later ICL (retarded cam timing) will tend to move the power curve upwards, due to closing the intake valve later. With the faster engine speeds, the intake valve can stay open later without the risk of pushing intake gasses back into the intake runners. An earlier ICL (advanced cam timing) will tend to increase low end torque because at low speeds, closing the intake valve sooner will trap more intake air at lower RPM. | Intake centerline can be altered either by the crankshaft grind or the use of a camshaft sprocket that can alter if the cam is installed advanced or retarded. A later ICL (retarded cam timing) will tend to move the power curve upwards, due to closing the intake valve later. With the faster engine speeds, the intake valve can stay open later without the risk of pushing intake gasses back into the intake runners. An earlier ICL (advanced cam timing) will tend to increase low end torque because at low speeds, closing the intake valve sooner will trap more intake air at lower RPM. | ||
− | Altering the cam timing by advancing or retarding the ICL can fine tune where the power comes on in the RPM band. Altering ICL should be left to those in the know, and most off-the-shelf cams have been designed by cam companies who know what they're doing. Generally speaking a change of more than 4 degrees either way is a good indication that a | + | Altering the cam timing by advancing or retarding the ICL can fine tune where the power comes on in the RPM band. Altering ICL should be left to those in the know, and most off-the-shelf cams have been designed by cam companies who know what they're doing. Generally speaking a change of more than 4 degrees either way is a good indication that a beter cam grind could be chosen. |
There is little point in changing the cam phasing arbitrarily. Unless the camshaft is first degreed, so the exact specs are known, changing the cam position relative to the crankshaft is a total shot in the dark, and could just as easily do nothing or even cause the engine to perform worse than if nothing was done. So, before changing the cam phasing, always degree the cam. Degreeing the cam will also show if there were any errors made during the manufacturing of the cam or other valve train components. | There is little point in changing the cam phasing arbitrarily. Unless the camshaft is first degreed, so the exact specs are known, changing the cam position relative to the crankshaft is a total shot in the dark, and could just as easily do nothing or even cause the engine to perform worse than if nothing was done. So, before changing the cam phasing, always degree the cam. Degreeing the cam will also show if there were any errors made during the manufacturing of the cam or other valve train components. | ||
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==How the cam specs affect engine output== | ==How the cam specs affect engine output== | ||
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==Solid vs. hydraulic camshaft== | ==Solid vs. hydraulic camshaft== | ||
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==Flat tappet vs. roller== | ==Flat tappet vs. roller== | ||
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Comp Cams Endure-X roller lifter is designed specifically for street and marine use. The groove directs pressurized oil to the lobes and roller bearings to keep it alive at low rpm, because it is at low RPM that the roller lifter suffers from a lack of lubrication. | Comp Cams Endure-X roller lifter is designed specifically for street and marine use. The groove directs pressurized oil to the lobes and roller bearings to keep it alive at low rpm, because it is at low RPM that the roller lifter suffers from a lack of lubrication. | ||
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==Things that can "frag" a camshaft and lifters== | ==Things that can "frag" a camshaft and lifters== | ||
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==Custom cams== | ==Custom cams== | ||
Choosing a cam is often something that seems shrouded in mystery. The manufacturers have a hundred years of technology to draw from and millions of dollars and man-hours expended on the research, development and testing of camshafts. They have used that experience to come up with thousands of lobe profiles and grinds that attempt to cover the whole broad spectrum of engines and applications. It's possible that an off-the-shelf grind might be perfectly fine, but it can't hurt for you to look into a custom designed/ground camshaft if a particular combination falls between what's readily available. Most all the cam companies will set you up with a custom ground cam for a fee. And most companies have tech lines and web sites to help you pick the right grind. Take the manufacturer's expertise and recommendations into account when deciding on a cam. | Choosing a cam is often something that seems shrouded in mystery. The manufacturers have a hundred years of technology to draw from and millions of dollars and man-hours expended on the research, development and testing of camshafts. They have used that experience to come up with thousands of lobe profiles and grinds that attempt to cover the whole broad spectrum of engines and applications. It's possible that an off-the-shelf grind might be perfectly fine, but it can't hurt for you to look into a custom designed/ground camshaft if a particular combination falls between what's readily available. Most all the cam companies will set you up with a custom ground cam for a fee. And most companies have tech lines and web sites to help you pick the right grind. Take the manufacturer's expertise and recommendations into account when deciding on a cam. | ||
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==Simulation software== | ==Simulation software== | ||
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==Resources== | ==Resources== | ||
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===Compression ratio calculators=== | ===Compression ratio calculators=== | ||
*[http://www.wheelspin.net/calc/calc2.html Static compression ratio] | *[http://www.wheelspin.net/calc/calc2.html Static compression ratio] | ||
− | + | *[http://www.empirenet.com/pkelley2/DynamicCR.html Dynamic compression calculator] by Kelly | |
− | *[http://www.empirenet.com/pkelley2/DynamicCR.html | + | *[http://www.kb-silvolite.com/calc.php?action=comp2 Dynamic compression calculator] by KB |
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===Dyno simulator=== | ===Dyno simulator=== |