Competition engines are built and designed to make maximum torque and horsepower, but what exactly does that mean? Torque is the heart of the matter. Defined as a twisting force it represents the potential to perform work. Engine torque is the force potential or turning moment applied to the crankshaft flange or flywheel when combustion […]
How to Build Racing Engines: Planning and Getting Started
Purpose-built competition engines vary in content according to the particular requirements of their intended application. Some are built for very high RPM with a narrow powerband; others are designed for a lower, broader power range with greater emphasis on drivability and endurance qualities. All of them target operational requirements specific to their racing application and […]
Introduction to Standalone EFI Systems
The ever-increasing number of “do-it-yourself” horsepower enthusiasts helped to explode the market for standalone EFI systems. These self-contained systems are designed to work independently from any other vehicle systems. This means they work equally well in a classic restoration project, dedicated racecar, or retrofit to most modern road-going vehicles. Almost all stand-alone aftermarket systems are […]
GM Engine Tuning and Examples
GM PCMs used in the early TPI systems were a simple MAF based, bank-to-bank system. Early LT1 systems were speed density with sequential control with knock control. The LT1, 3800 V-6, and LS1 are primarily MAF based, sequential injection with knock control. For LT1, spark is calculated in terms of MAP, just like speed density. […]
Ford Engine Tuning and Examples
The Ford Mustang is arguably the most popular vehicle for the do-it-yourself tuner. Ford refers to its PCM as an EEC, or electronic engine control. Starting with the 1988 California specification, and 1989 50-state versions, the Mustang has been equipped with a mass air, sequential EFI system. Other truck and passenger car applications soon followed […]
Engine Tuning: Forced Induction Guide
So far, the focus of this book has been naturally aspirated engine calibration. Although forced induction has been occasionally mentioned, it deserves some more focused attention. The aftermarket performance industry is flush with ways to add power to an engine. Few of these methods come close to the potential that forced induction offers for power […]
Engine Tuning: How to Improve Drivability
At this point, most of the work is complete. If all the steady state values are correct, the vehicle should operate fairly well. The final phase of calibration is improving drivability. This should be thought of as finely polishing a sculpture. Where we were using a chainsaw earlier, we are now using sandpaper. There shouldn’t […]
How to Tune Your Engine’s Idle Speed
Now that the engine has been mapped under most stable operating conditions, it is possible to move on to a less stable condition: idle. Because of the slow engine speed, there is a relatively long time between possible corrections the PCM can make at each TDC event. The longer pause before the next feedback signal […]
Engine Tuning: Calibration Framework
Now that we have a good idea of what an engine needs to operate smoothly, it is time to actually begin to construct the framework of the calibration. Before the engine is even started, the calibrator must provide the PCM with some parameters that are close enough to the optimum setting to begin checking operation. […]
Engine Tuning: Data Logging with a PCM
Before we begin changing PCM parameters, let’s take a look at the key elements to monitor. Most tables and functions in the PCM are constructed with axes that represent a range of engine operating conditions. In order to know where to make changes to the PCM tables, it is necessary to know exact engine conditions […]