Cam shafts

Cam Shaft

Introduction

Computer animation of a camshaft

The camshaft is an apparatus often used in piston engines to operate poppet valves. It consists of a cylindrical rod running the length of the cylinder bank with a number of oblong lobes or cams protruding from it, one for each valve. The cams force the valves open by pressing on the valve, or on some intermediate mechanism, as they rotate.

Timing

A camshaft

The relationship between the rotation of the camshaft and the rotation of the crankshaft is of critical importance. Since the valves control the flow of air/fuel mixture intake and exhaust gases, they must be opened and closed at the appropriate time during the stroke of the piston. For this reason, the camshaft is connected to the crankshaft either directly, via a gear mechanism, or indirectly via a belt or chain called a timing belt or timing chain. In some designs the camshaft also drives the distributor and the oil and fuel pumps. Also on early fuel injection systems, cams on the camshaft would operate the fuel injectors.

In a two-stroke engine that uses a camshaft, each valve is opened once for each rotation of the crankshaft; in these engines, the camshaft rotates at the same rate as the crankshaft. In a four-stroke engine, the valves are opened only half as often; thus, two full rotations of the crankshaft occur for each rotation of the camshaft.

Duration

Duration can often be confusing because manufacturers may select any lift point to advertise a camshaft's duration and sometimes will manipulate these numbers. The power and idle charateristics of a camshaft rated at .006" will be much different than one rated the same at .002". Whenever duration is quoted, be sure to note the lift at which it is given.

Many performance engine builders have learned to gauge a race profile's aggressiveness by looking at the duration at .020", .050" and .200". The .020" number determines how responsive the motor will be and how much low end torque the motor will make. The .050" number is used to estimate where peak power will occur, and the .200" number gives them an estimate of the power potential.

In general, duration determines how many crankshaft degrees a camshaft maintains more than a given tappet lift.

Camshaft position

Depending on the location of the camshaft, the cams operate the valves either directly or through a linkage of pushrods and rockers. Direct operation involves a simpler mechanism and leads to fewer failures, but requires the camshaft to be positioned at the top of the cylinders. In the past when engines were not as reliable as today this was seen as too much bother, but in modern gasoline engines the overhead cam system, where the camshaft is on top of the cylinder head, is quite common. Some engines use one camshaft each for the intake and exhaust valves; such an arrangement is known as a double or dual overhead cam (DOHC), thus, a V engine may have four camshafts.

Maintenance

The rockers or cam followers sometimes incorporate a mechanism to adjust and set the valve play through manual adjustment, but most modern auto engines have hydraulic lifters, eliminating the need to adjust the valve lash at regular intervals as the valvetrain wears.

Sliding friction between the surface of the cam and the cam follower which rides upon it is considerable. In order to reduce wear at this point, the cam and follower are both surface hardened, and modern lubricant motor oils contain additives specifically to reduce sliding friction. The lobes of the camshaft are usually slightly tapered, causing the cam followers or valve lifters to rotate slightly with each depression, and helping to distribute wear on the parts. The surfaces of the cam and follower are designed to "wear in" together, and therefore when either is replaced, the other should be as well to prevent excessive rapid wear. In some engines, the flat contact surfaces are replaced with rollers, which eliminate the sliding friction and wear but adds mass to the valvetrain.

Importance of Cam shafts in tuning

Major Brands

Blox

BLOX Racing offers enthusiasts its high performance line of Tuner and Competition Series camshafts in several different profiles, as well as, its line of semi-blank camshaft cores. All camshafts are designed and manufactured using the latest software and casting technologies, then CNC-ground to precise tolerances and performance specifications. Each camshaft profile designed offers increased horsepower and torque across the entire RPM range.

Tuner Series camshafts are designed using standard, OEM lobe designs while Competition Series camshafts are designed and cast with wider primary and secondary lobes. Although both types offer increased power and torque, Competition Series camshafts place less stress on the valvetrain and provide greater stability at extreme RPM's. Consequently, all camshafts are cast using the same materials and standards as OEM sources.

Semi-blank camshaft cores are also available for more serious enthusiasts and engine builders. Semi-blank camshaft cores provide a starting point for those that want to grind their own specifications and profiles. Each semi-blank camshaft core is made using the exact standards as Tuner and Competition Series camshafts. This is a great alternative when certain or specific specifications and profiles are not made available.

BLOX Racing recommends upgrading to its high compression valves, heavy duty valve springs, and Ti retainers on certain applications.

Products

B Series

• Tuner Series Type-A VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)

• • Intake (lift / duration) 0.462" / 247
  • Exhaust (lift / duration) 0.420" / 239

• Tuner Series Type-B VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 0.489" / 266
  • Exhaust (lift / duration) 0.472" / 266

• Tuner Series Turbo VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 0.372" / 212
  • Exhaust (lift / duration) 0.343" / 211

• Tuner Series HSL (High Speed Lift) VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift/duration) 0.496" / 255
  • Exhaust (lift/duration) 0.494" / 256

• Tuner Series Stage III VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 12.8mm / 272
  • Exhaust (lift / duration) 11.9mm / 280

• Tuner Series Stage II VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 12.4mm / 275
  • Exhaust (lift / duration) 11.9mm / 270
• Tuner Series Stage I VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 11.9mm / 264
  • Exhaust (lift / duration) 11.0mm / 259
• Competition Series Type-B VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 0.489" / 266
  • Exhaust (lift / duration) 0.472" / 266
• Competition Series Turbo VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 0.372" / 212
  • Exhaust (lift / duration) 0.343" / 211
• Competition Series HSL (High Speed Lift) VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift/duration) 0.496" / 255
  • Exhaust (lift/duration) 0.494" / 256
• Competition Series Type-C VTEC Camshafts Honda B16A-B18C1-5 (1.6L-1.8L DOHC VTEC)
  • Intake (lift / duration) 0.481" / 268
  • Exhaust (lift / duration) 0.458" / 264

D Series

• Tuner Series Stage II VTEC Camshaft 1996-2000 Honda Civic D16Y8 (1.6L SOHC VTEC)
  • Intake (lift / duration) 0.432" / 235
  • Exhaust (lift / duration) 0.436" / 223
• Tuner Series Stage III VTEC Camshaft 1996-2000 Honda Civic D16Y8 (1.6L SOHC VTEC)
  • Intake (lift / duration) 0.442" / 239
  • Exhaust (lift / duration) 0.468" / 226

H Series

• Tuner Series Type-B VTEC Camshafts Honda H22A (2.2L DOHC VTEC)
  • Intake (lift / duration) 12.8mm / 272
  • Exhaust (lift / duration) 11.9mm / 280

Mitsubishi

• 264 Intake Camshaft 2003-UP Mitsubishi Evolution VIII 2.0L 4G63T
  • Lift / Duration 10.8mm / 264

• 264 Exhaust Camshaft 2003-UP Mitsubishi Evolution VIII 2.0L 4G63T
  • Lift / Duration 10.2mm / 264

• 272 Intake Camshaft 2003-UP Mitsubishi Evolution VIII 2.0L 4G63T
  • Lift / Duration 10.8mm / 272

• 272 Exhaust Camshaft 2003-UP Mitsubishi Evolution VIII 2.0L 4G63T
  • Lift / Duration 10.2mm / 272

• 280 Intake Camshaft 2003-UP Mitsubishi Evolution VIII 2.0L 4G63T
  • Lift / Duration 10.2mm / 280

• 280 Exhaust Camshaft 2003-UP Mitsubishi Evolution VIII 2.0L 4G63T
  • Lift / Duration 10.2mm / 280

Semi Blanks

• BLOX Racing Semi-Blank Camshaft Cores Tuner Series, Chill-cast Honda B16A-B18C DOHC VTEC (1) Intake + (1) Exhaust
• BLOX Racing Semi-Blank Camshaft Cores Competition Series, Chill-cast Honda B16A-B18C DOHC VTEC (1) Intake + (1) Exhaust
• BLOX Racing Semi-Blank Camshaft Cores Competition Series, Chill-cast Honda D16Y8 SOHC VTEC
• BLOX Racing Semi-Blank Camshaft Cores Competition Series, Chill-cast Honda H22A DOHC VTEC (1) Intake + (1) Exhaust
• BLOX Racing Semi-Blank Camshaft Cores Competition Series, Chill-cast Mitsubishi Evolution VIII 4G63T (1) Intake + (1) Exhaust

Skunk 2

Pro series Camshaft

Skunk2 Pro-Series professional line of racing cams are designed to optimize mid-range and top-end HP and TQ; and significantly reduce lap times. VTEC crossover is seamless allowing for the broadest possible powerband. No other line of racing cams can even come close to the performance of the Pro-Series line.

Pro-Series patent pending camshaft profiles dramatically improve horsepower, torque, engine response, and valvetrain stability. The Pro 1 cam is the BEST ALL-AROUND STREET CAM and dramatically improves horsepower, torque, engine response, and valvetrain stability. Pro-Series camshafts feature a seamless crossover between low and high speed cam lobes with patent pending profiles defined by specific lobe shapes as well as specific characteristics of lift, velocity, and acceleration. Pro-Series cams are all designed utilizing Skunk2’s proprietary Fast Ramp Technology and Amax Technology. Use of these two technologies allows us to design aggressive camshaft profiles that maximize area under the valve lift curve without adversely affecting valvetrain stability or reliability. In fact, the use of Fast Ramp and Amax Technologies actually makes Pro-Series camshafts more stable and less prone to spring surge at high rpms. Pro-Series camshafts also feature our newly revised camshaft blanks that have increased torsional strength, improved durability characteristics, and reduced frictional effects; all of which are the reasons why Pro-Series camshafts are superior to all other cams. Pro-Series camshafts are available in Pro 1, Pro 2, and Pro 3 designs.

Skunk2 camshafts deliver unparalleled power as a result of continual, extensive development and testing. Skunk2 camshafts maximize power across the entire RPM band. This is achieved by utilizing advanced manufacturing techniques and the latest computerized simulation and modeling design techniques. Our proprietary Amax and Fast Ramp Technologies maximize area under the lift curve and reduce seat timing which maximizes torque and cylinder pressure. These technologies allow greater gains without compromising reliability and valvetrain stability. Skunk2 Racing designs, develops and tests all of our camshafts in-house to ensure the highest quality and performance gains. Each camshaft uses newly revised camshaft blanks that have increased torsional strength, improved durability characteristics, and reduced frictional effects. They are ground to exact Skunk2 specifications using state-of-the-art CNC cam grinding machines equipped with cubic boron grinding wheels and feature a hardened wear-resistant lobe and outer surface. Skunk2 camshafts are available in our Tuner Series line and our Pro-Series line of racing camshafts, each offering exceptional performance, reliability, and quality.

Skunk2 Pro-Series professional line of racing cams were designed to optimize mid-range and high-rpm HP and TQ; and provide a seamless transition from the low-speed cam lobe to the high-speed cam lobe. In order to achieve that, we made the low-speed lobes much larger, which results in more overlap and lower and less consistent vacuum at idle. When the ECU sees this lower vacuum, it tries to compensate by enriching the fuel mixture making the car idle rough. In order to make the engine idle smoothly, it is necessary to reduce the fuel by 20%-30% in the 0-1500 rpm range of the fuel map. To get the smoothest idle possible, we recommend tuning by throttle position. Please note that if the cams are not degreed in to their proper position, it may make getting the car to idle more difficult; therefore in order to optimize power output and minimize idling and clearance issues, we recommend that all Pro-Series cams be degreed in.

During the '99-'05 Race season Skunk2 set several ALL MOTOR Records using Skunk2 Tuner Cams. Skunk2's new Pro Series line of cams takes performance to a new level 1999 1st Honda in the 10's 2004 "Hat Trick" 4 records set in 3 sanctioning bodies. 2005 Quickest 9.63 @ 141.80 MPH

SKUNK2 AMAX TECHNOLOGY

Profile designed to maximize area under the lift curve without compromising reliability and valvetrain stability. The Skunk2 profile has more duration than competitors at lifts above 1mm resulting in greater efficiency and power.

SKUNK2 FAST RAMP TECHNOLOGY

1. The same camshaft design technology used in F1. 2. Designed to reduce seat timing and build more torque 3. Carefully designed to not damage valvetrain parts 4. Allows engine to build additional cylinder pressure

SKUNK2 CAM STAGES

Pro 1: High Lift Street/Race cam designed to optimize mid-range and top end HP and TQ. Peak power is designed to occur at factory redline. Pro 1 cams also perform great in high-output turbo racing engines. Valvetrain upgrade required. Pro-Series valvetrain recommended.

Pro 2: High Lift Street/Race cam designed to optimize mid-range and top end HP and TQ. Peak power is increased and power band is moved 700rpm higher than Pro 1. Pro-Series valvetrain required.

Pro 3: Extreme Street/Race cam designed to optimize mid-range and top end HP and TQ. Peak power is increased and power band is moved 700rpm higher than Pro 2. No other high rpm racing cam can come close to the Pro 3. Pro-Series valvetrain required

Skunk2 Specs

B Series Pro DOHC Vtec specs

B Tuner Series DOHC Vtec specs

K20A2 Tuner Series DOHC Vtec specs

K20A3 DOHC Vtec specs

S2000 DOHC Vtec specs

Mitsubishi 4G63BT specs

Subaru WRX EJ20 specs

Tuner Series Camshaft

Dynograph

• Skunk2 Pro 1 Cams vs Buddy Club 3+ Cams (Hi Cam)
• Skunk2 Pro 1 Cams vs Buddy Club 3+ Cams (Lo Cam)
• Skunk2 Pro 1 Cams vs Pro 2 Cams
• Skunk2 Pro 1 Cams vs Skunk2 Stage 2 Cams
• Skunk2 Pro 1 vs. Competitor Stg 2 Forced Induction Cam

Camshaft installation and other Resources

• Import Tuner, B-Series Camshaft Install (PDF)
• Import Tuner, Power Pages, B16 Pro2 (PDF)
• Honda Tuning, Skunk2 Cams How its Made
• Import Tuner, Power Pages, Pro Stg 1 and valvetrain (PDF)
• Honda Tuning, Skunk2 Cams How its Made
• Import Tuner, Power Pages, 92 B-series Civic
• Skunk2 Project Cars

Products

• Skunk2 Camshaft D16Z6 1.6L (1992-95 SI/EX) SOHC VTEC - STAGE 1-IN. 0.448,225; EX. 0.410,249 (2.0)
• Skunk2 Camshaft D16Y8 1.6L (1996-00 EX) SOHC VTEC - STAGE 1-IN. 0.448,225; EX. 0.410,249 (2.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - STAGE 1 -IN. 0.469,264; EX. 0.433,259 (2.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - STAGE 2-IN. 0.489,275; EX. 0.469,270 (2.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - STAGE 3-IN. 0.504,272; EX. 0.469,280 (2.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - TURBO STAGE 1+-IN. 0.409,223; EX. 0.394,227 (2.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - TURBO STAGE 2+-IN. 0.433,231; EX. 0.417,236 (2.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - STAGE 1 -IN. 0.473,254; EX. 0.437,258 (2.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - STAGE 2-IN. 0.505,272; EX. 0.469,280 (2.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - TURBO STAGE 1+-IN. 0.409,223; EX. 0.394,227 (2.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - TURBO STAGE 2+-IN. 0.433,231; EX. 0.417,236 (2.0)
• Skunk2 Camshaft K20A2 2.0L DOHC i-VTEC CAMSHAFTS - STAGE 1-IN. 0.531,266; EX. 0.492,262 (2.0)
• Skunk2 Camshaft K20A2 2.0L DOHC i-VTEC CAMSHAFTS - STAGE 2-IN. 0.535,272; EX. 0.496,278 (2.0)
• Skunk2 Camshaft K20A2 2.0L DOHC i-VTEC CAMSHAFTS - STAGE 3-IN. 0.551,278; EX. 0.511,282 (2.0)
• Skunk2 Camshaft K20A2 2.0L DOHC i-VTEC CAMSHAFTS - TURBO STAGE 1+ -TBD (2.0)
• Skunk2 Camshaft K20A2 2.0L DOHC i-VTEC CAMSHAFTS - TURBO STAGE 2+ -TBD (2.0)
• Skunk2 Camshaft K20A3 / K24 DOHC i-VTEC CAMSHAFTS - TURBO 1-IN. 0.409,220; EX. 0.409,220 (2.0)
• Skunk2 Camshaft K20A3 / K24 DOHC i-VTEC CAMSHAFTS - STAGE 1-IN. 0.448,233; EX. 0.440,233 (2.0)
• Skunk2 Camshaft K20A3 / K24 DOHC i-VTEC CAMSHAFTS - STAGE 2-IN. 0.484,241; EX. 0.464,246 (2.0)
• Skunk2 Camshaft K20A3 / K24 DOHC i-VTEC CAMSHAFTS - STAGE 3-IN. 0.503,256; EX. 0.464,260
• Skunk2 Camshaft S2000 F SERIES 2.0-2.2L DOHC VTEC - TURBO 1-TBD
• Skunk2 Camshaft S2000 F SERIES 2.0-2.2L DOHC VTEC - TURBO 2-TBD
• Skunk2 Camshaft S2000 F SERIES 2.0-2.2L DOHC VTEC - STAGE 1-IN. 0.535,272; EX. 0.496,278 (2.0)
• Skunk2 Camshaft S2000 F SERIES 2.0-2.2L DOHC VTEC - STAGE 2-IN. 0.551,278; EX. 0.511,282 (2.0)
• Skunk2 Camshaft S2000 F SERIES 2.0-2.2L DOHC VTEC - STAGE 3-TBD (2.0)
• Skunk2 Camshaft 2.0L 4G63BT DOHC 2003-05 EVO VIII CAMSHAFT SET-IN. 10.8,264; EX. 10.2,272 (2.0)
• Skunk2 Camshaft 2.0L 4G63BT DOHC 2003-05 EVO VIII - 264 INTAKE CAMSHAFT-IN. 10.8,264 (2.0)
• Skunk2 Camshaft 2.0L 4G63BT DOHC 2003-05 EVO VIII - 272 EXHAUST CAMSHAFT-EX. 10.2,272 (2.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - PRO 1+-IN. 0.496,264; EX. 0.469,264 (16.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - PRO 2+-IN. 0.504,270; EX. 0.473,276 (16.0)
• Skunk2 Camshaft B16A-B18C 1.6/1.8L DOHC VTEC - PRO 3+-IN. 0.512,277; EX. 0.488,284 (16.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - PRO 1+ -IN. 0.496,264; EX. 0.469,264 (16.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - PRO 2+ -IN. 0.504,270; EX. 0.473,276 (16.0)
• Skunk2 Camshaft H22A 2.2L DOHC VTEC CAMSHAFTS - PRO 3+ -IN. 0.512,277; EX. 0.488,284 (16.0)

Greddy

Greddy camshaft comes in two variation.

• Easy Camshaft
  Easy Camshafts improves the towque and power of engine without the change of Valve train components. Installation is easy and straightforward.
• PRO Camshafts
  Proseries as the name suggest are extreme production from Greddy. Featuring
  • Radical Duration
  • Lift
  • Base Circle
  • Lobe Center.

The Greddy Pro Series camshafts harness the maximum torque and power from modified cylender hear. Adjusting valve timing allows to optimize the powerband according to need. The Pro series camshafts are designed for professional tiners looking for max HP under high RPM. Additional valve train upgrades is needed. The proseries camshafts are sold seperately for intake and exhaust profiel for specific powerband.

GREDDY EASY (STREET) CAMSHAFTS

• GREDDY EASY (STREET) CAMSHAFTS Mitsubishi 4G63
• GREDDY EASY (STREET) CAMSHAFTS Mitsubishi 4G63
• GREDDY EASY (STREET) CAMSHAFTS Nissan RB26DETT
• GREDDY EASY (STREET) CAMSHAFTS Nissan RB26DETT
• GREDDY EASY (STREET) CAMSHAFTS Nissan SR20DET

GREDDY STEEL HIGH CAMSHAFTS

• GREDDY STEEL HIGH CAMSHAFTS Nissan SR20DET
• GREDDY STEEL HIGH CAMSHAFTS Nissan SR20DET
• GREDDY STEEL HIGH CAMSHAFTS Nissan SR20DET
• GREDDY STEEL HIGH CAMSHAFTS Nissan SR20DET
• GREDDY STEEL HIGH CAMSHAFTS Nissan SR20DET
• GREDDY STEEL HIGH CAMSHAFTS Nissan SR20DET

Gallery

	Components of a typical, four stroke cycle, DOHC piston engine. (E) Exhaust camshaft, (I) Intake camshaft, (S) Spark plug, (V) Valves, (P) Piston, (R) Connecting rod, (C) Crankshaft, (W) Water jacket for coolant flow.
	Double overhead cams control the opening and closing of a cylinder's valves.