MSD 8504 Chrysler, 318, 340, 360, E-Curve Distributor Installation User Manual

2

INSTALLATION INSTRUCTIONS

M S D  

•   W W W . M S D P E R F O R M A N C E . C O M   •   ( 9 1 5 )   8 5 7 - 5 2 0 0   •   F A X   ( 9 1 5 )   8 5 7 - 3 3 4 4

Figure 2 Ignition Timing Factors.

Note:  It is recommended to have a dial-back timing light, timing tape or a fully degreed balancer to 

set the timing correctly. 

CHOOSING AN ADVANCE CURVE

The function of the advance curve is to match the ignition timing to the burning rate of the fuel with 

the speed (rpm) of the engine.  The piston is traveling much faster through the combustion stroke at 

5,000 rpm compared to 1,000 rpm. Any factor that changes the burning rate of the fuel or the engine 

speed can cause a need for an ignition timing change.  Figure 2 shows some of the factors that will 

affect engine timing.

FACTOR

Advance Timing

Retard Timing

For

For

Cylinder Pressure 

Low 

High

Vacuum 

High 

Low

Energy of Ignition 

Low 

High

Fuel Octane 

High 

Low

Mixture (Air/Fuel) 

Rich 

Lean

Temperature 

Cool 

Hot

Combustion Chamber Shape 

Open 

Compact

Spark Plug Location 

Offset 

Center

Combustion Turbulence 

Low 

High

Load 

Light 

Heavy

As you can see from the chart, most factors will change throughout the range of the engine operation. 

The Digital E-Curve allows you to make timing changes based on these factors.

Example:  An engine has 11:1 compression, a high energy ignition and turns 5,500 rpm.  With the 

specifications given, you will have to retard the timing for the high compression and high energy 

ignition.  By comparing the engine’s specifications against the chart, a usable timing guideline can 

be found.  Engines with a combination of items from both columns will require a timing that is set in 

the mid range.

Obviously a full technical explanation of correct ignition timing would be very complicated.  The best 

way to arrive at a suitable ignition curve for your engine is to use the Ignition Timing Factors Chart 

as a guide and compare it to the Advance Graphs in Figure 3 until a suitable curve is found.  When 

selecting your advance curve, use detonation (engine ping) as an indicator of too much advance, and 

a decrease in power as an indicator of too little advance. Also consider how the engine cranks and 

starts. Too much advance can cause an engine to crank slow or even kick back. Here are a couple 

of suggestions.

•  Use as much initial advance as possible without encountering excessive starter load.

•  Start the electrical advance just above the idle rpm.

•  Select an advance curve that produces good acceleration without detonation.