Our Blog

Take a poke around

LS3 6.2 V8 Facts and Info

2016-Holden-Commodore-VF-Series-II-6 (1)

Here are a few features about the new LS3 engine that is in the all new Holden Commodore Series II V8. This is a very high performance engine that demands respect.

Engine highlights include:

 

  • Cylinder Block and Rotating Assembly: the engine block was developed with math-based tools and data acquired via GM’s racing programs, and provides a light, rigid foundation for an impressively smooth engine. Its deep-skirt design helps maximize strength and minimize vibration. The bulkheads accommodate six-bolt, cross-bolted main-bearing caps that limit crank flex and stiffen the engine’s structure. A structural oil pan further stiffens the powertrain. Within the LS3 block is a durable rotating assembly that includes a steel crankshaft and connecting rods, as well as high-strength, aluminum-alloy pistons. The flat-top pistons are also lightweight, a characteristic that enhances high-rpm performance by enabling the engine to rev quicker.

 

  • High-Flow Cylinder Heads and Valvetrain: the LS3’s cylinder heads feature rectangular intake ports that support exceptional airflow. They support great airflow at higher rpm for a broader horsepower band, along with strong, low-rpm torque. The intake ports that feed the combustion chambers, as well as the D-shaped exhaust ports, are designed for excellent high-rpm airflow.

 

  • High-Flow Intake Manifold with Acoustic Shell: the LS3’s intake manifold ports are designed to match the cylinder head. The composite manifold is manufactured with a lost core process to improve runner-to-runner variation and to reduce flow losses. Acoustic foam is placed between the exterior top of the intake manifold and an additional “skull cap” acoustic shell to reduce radiated engine noise.

 

  • 58X Ignition System: the LS3 has an advanced 58X crankshaft position encoder to ensure that ignition timing is accurate throughout its operating range. The new 58X crankshaft ring and sensor provide more immediate, accurate information on the crankshaft’s position during rotation. This allows the engine control module to adjust ignition timing with greater precision, which optimizes performance and economy. Engine starting is also more consistent in all operating conditions.

 

Information acquired from http://gmauthority.com/

Click the link for more specifications.

 

 

 

 

Back to top