You can pick your nose, but you can't pick the engine for your fifth-gen Camaro SS--those who opt for the automatic transmission get an L99 under the hood while a manual transmission-equipped ride gets the LS3. Don't get us wrong, we aren't coming from a negative angle, just that there are two V-8 engines currently available for the Camaro SS based on transmission choice. The L99 and LS3 are nearly identical save for a couple key components--namely the parts and pieces required for the variable valve timing (VVT) and components of the Active Fuel Management (AFM) system, formerly known as Displacement on Demand (DOD). Let the debates begin on which engine is better for your Camaro, but rest assured, both new generation small-block engines are powerful and an excellent platform for performance.
The L99 is a 400-horsepower engine while its fraternal twin--LS3--is rated at 422 hp. The difference lies in the valvetrain; as the short-block, heads, and intake manifold are identical. One small note is that the L99 does have slightly less compression than the LS3 powerplants. The L99 valves are heavier while the pushrods, lifters, camshaft, and cam phaser make up the rest of the unique components. The AFM is a simple concept that makes a V-8 into a V-4 by deactivating lifters using oil control, which in turn doesn't activate the valves and shuts down select cylinders. This technique is coupled with a change in fuel flow into the deactivated cylinders. It helps save fuel mileage, but there are drawbacks. The technology was actually introduced in the '80s, but poor electronics caused stutters and rough transitions while the cylinders were being turned on and off. For the most part, today's digital ECMs, however, have the capabilities of controlling the oil effectively and smoothly. Though the engineers decided that a manual-equipped vehicle would experience harsh transitions using AFM, so it was deleted from such equipped Camaros. The automatic transmission also has the benefit of electronic control to allow for smooth transitions when going from eight cylinders down to four.
Yes, some might be screaming and kicking that the automatic Camaro SS is down 22 hp, but don't count out the VVT side of the L99. The camshaft can be advanced or retarded while the engine is operating, a feat that allows for excellent low-end torque, but as the RPM rises the camshaft timing is retarded and the engine breathes easier in the upper RPM ranges. Traditional fixed camshafts don't allow the benefits of both advance and retard conditions. East Coast Supercharging (ECS) of Cream Ridge, New Jersey, has been on the forefront of the LS wars since the engine was introduced many years ago. As many traditionalists are looking to swap out the VVT capabilities, ECS has embraced the technology by offering several upgrade packages.
"There comes a point where VVT should be eliminated, but in the case of many street cars, keeping it in place is a nice feature. It also saves a customer money because a VVT-modification package is cheaper than converting to an LS3 cam setup," says Matt Sorian of ECS. Matt Craft of Texas Speed and Performance expanded a bit more on the benefits of a VVT-style camshaft, "VVT allows us to change camshaft timing by grinding the camshaft with a lot of advance in the camshaft and slowly pulling the advance out as RPM increases. The result is you can get the best of both worlds. Instead of being limited to 4-degrees advance, for example, you can run more advance and then slowly pull it out through the entire RPM pull. The result is a healthy power gain in the lower and upper RPM range."
The ECS gang modified Ralph Fontanez's '11 Camaro SS with a Texas Speed and Performance VVT camshaft kit to prove the L99 is worthy of modification and not to be discarded for a fixed camshaft design. The car began in bone stock trim and produced 345 rwhp at 5,300 rpm and 355 lb-ft of torque at 4,400 rpm. The addition of a Cold Air Inductions intake system and ECS tune netted 363 rwhp; Doug Ring of ECS recalibrated the ECM (using EFI Live software) by tweaking the air/fuel ratio, adding some timing, and a few other little tricks. After a strong and consistent baseline, the ECS group brought the Camaro back into the shop to undergo the camshaft upgrade.
A late addition to the agenda was a complete American Racing Headers (ARH) exhaust setup to further take advantage of the camshaft upgrade. The ARH box included long-tube headers (17/8-inch primary tubes and 3-inch collectors), 3-inch X-crossover-pipe with catalytic converters, and 3-inch after-cat exhaust system including the company's own mufflers. The exhaust modifications were meant to complement the Texas Speed and Performance camshaft package making the L99 modifications a well-rounded package of better air ingestion and exhaling of the spent gases. We knew the entire list of changes was sure to bump the naturally aspirated horsepower significantly, and when the ECS chassis dyno stopped spinning, our mouths dropped. How does 98-rwhp gain over stock sound for said modifications? The final result was an outstanding 443 rwhp along with an even idle that sounded good, but not obnoxious.
The Texas Speed and Performance camshaft package goes for around $740 and allows the use of the stock AFM lifters. This comes with its limitations as Craft explains, "AFM is another item everyone is constantly discussing. The AFM lifters are a very limiting component on the L99 engine. These lifters, realistically, only allow about .500-inch lift before the guys at Comp Cams have started seeing failures. The AFM friendly camshafts require considerably less aggressive lobes to live more than just a few thousand miles." The limits are why Craft and his staff have spent considerable time and efforts designing and testing camshaft profiles. It has led to an effective camshaft design, but the downside is the company keeps the statistics and lobe shape a secret. The only info we have to share is that the duration is in the 220-degree range--anything under 230 degrees of duration doesn't effect piston-to-valve clearances. The milder camshaft design is said to be approximately 15 hp less than a more aggressive lobe (not compatible with AFM lifters) with the same specs as the cam we tested. Texas Speed and Performance also offers cam kits and AFM/DOD Elimination kits for easy swaps.
High-tech valvetrain or not--adding a properly designed camshaft will increase horsepower and the tried-and-true way of long-tube headers and larger exhaust whisk it away just the same as it always has done.
1 The front timing cover...
1 The front timing cover is removed, the cam phaser removed, and the camshaft taken out of the engine block. As a note, the oil pan does not need to be removed for this installation.
2 The OEM phaser sits next...
2 The OEM phaser sits next to the Comp Cams Phaser Limiter kit (PN 5640), which includes more tools and fixtures than actual parts installed. The only component utilized to limit phaser movement is the black spacer just to the right of the phaser.
3 The crescent shaped tool...
3 The crescent shaped tool from Comp Cams slides on to the phaser to lock the clock spring in place.
4 Using a wrench, you turn...
4 Using a wrench, you turn the crescent-shaped tool counter clockwise to the first phaser plug and insert the Comp-supplied pin to hold it in place.
5 The cover is removed revealing...
5 The cover is removed revealing the oil-operated cam phaser.
6 The Comp phaser limiter...
6 The Comp phaser limiter is a billet aluminum insert that slides into the oil chamber, thus limiting the phaser’s movement from 52 degrees down to just 22 degrees. This allows the use of a more aggressive camshaft without fear of piston-to-valve contact.
7 The instructions say to...
7 The instructions say to slide up the pinned bolt, but not to remove it. We don’t follow instructions well and pulled it out anyway. Be sure it goes back in the proper position as it holds the clock spring in place.
8 The cover is bolted back...
8 The cover is bolted back on using 85 inch-pounds of torque.
9 The Texas Speed and Performance...
9 The Texas Speed and Performance camshaft specs are top-secret thanks to countless hours of dyno testing. We do know the duration is in the 220-degree range, lift is under .500-inch, and the cam flat out makes healthy power with a nice, smooth idle.
10 The VVT-compatible cam...
10 The VVT-compatible cam is like other cams, thus it slides into the engine block like any camshaft installation. Don’t forget to add lube to the lobes before putting it in the block.
11 The camshaft retainer...
11 The camshaft retainer cover is bolted back on using 15 NM.
12 The phaser is reinstalled...
12 The phaser is reinstalled and ECS’ Tom Michalkowski cautioned to be careful not to break the camshaft dowel during this process.
13 The cam bolt is installed,...
13 The cam bolt is installed, torqued to 48 lb-ft, and turned an additional 90 degrees.
14 The timing chain cover...
14 The timing chain cover is reinstalled along with the pulleys and rest of the odds and ends. Michalkowski recommends using an alignment spacer to get the cover on properly.
15 The stock springs are...
15 The stock springs are discarded and there are several techniques used to change springs while the heads are in the car. Michalkowski uses a Crane Cams tool to compress the spring and remove the locks.
16 The new springs are a...
16 The new springs are a single coil PAC beehive spring, which is a direct replacement to the stock ones but with a stiffer rating.
17 The stock rocker arms...
17 The stock rocker arms are bolted back on after a new set of pushrods is installed. Texas Speed and Performance includes a set of pushrods that work in most cases, but you should check to be sure they are proper length as engines can vary despite them all being L99. The set we got was dead-on, but ECS has various lengths in stock in case we needed longer or shorter pushrods.
18 Always being thorough,...
18 Always being thorough, Michalkowski checks preload on the lifter. The stock rockers have no adjustment, so it’s mostly a matter of applying the proper torque and sequence when the valve is closed.
19 The engine is back together...
19 The engine is back together and ready to rock. You can see the Cold Air Inductions kit from this angle. The intake tube is ceramic coated inside and out for maximum protection against heat soak, resulting in only a 2-degree difference between IAT readings and ambient air. The insulated air-filter box has a clear lid for easy inspection of the Cold Air Inductions-designed air filter. The air filter itself features a velocity stack and a smooth bore tube stop.
20 The topside work was complete...
20 The topside work was complete and it was time for Michalkowski to go underneath and add the American Racing Headers long-tube headers. We were impressed with the clearance and fit as none of the tubes were rubbing on anything and there was plenty of room.
21 The 1-7⁄8-inch primary...
21 The 1-7⁄8-inch primary tubes are joined together and exhaust exits via a 3-inch collector. The collector also has provisions for the first set of 02 sensors.
22 The collectors exit into...
22 The collectors exit into an X-pipe system with high-flow catalytic converters, which have provisions for the secondary set of 02 sensors after the cats. The entire exhaust system is made from stainless steel and fit perfectly.
23 Fontanez’s Camaro SS came...
23 Fontanez’s Camaro SS came to the shop making a paltry 345 rwhp and 355 lb-ft of torque in 100 percent stock trim. It left the shop boasting 443 rwhp and 415 lb-ft of torque; that is a 98-rwhp gain from the Texas Speed and Performance VVT camshaft kit, American Racing Headers exhaust system, Cold Air Inductions cold-air kit, and custom ECM calibration by ECS.