MSD 8503 Ford 289, 302 E-Curve Pro-Billet 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

Electronic Centrifugal Advance: Since this distributor is all electronic, there really is no mechanical 

or centrifugal advance. On a standard distributor, this advance would be called centrifugal so it will 

be referred to as the electronic centrifugal advance. The chart on page 4 shows all of the different 

combinations you can achieve by simply turning the two rotary dials located under the distributor cap. 

Total Timing: This is the total amount of timing that the engine will achieve. This is the amount that 

all of the electronic curve and settings will be based from. This setting also includes any amount of 

vacuum advance that you plan to use. 

Vacuum Advance: The vacuum advance will advance the timing under part throttle conditions when 

the engine is not under a heavy load. This advance is added on to the electronic timing curve as 

well. The advance will begin as low as 4-in. of vacuum and will max out at 10-in. of vacuum. There is 

a separate chart in Figure 3 that illustrates the vacuum curve selection. 

Locked-Out Timing: If you do not want to have a timing advance, set the rotary dials in the Locked-

Out position. This means the timing will not move from the setting you position the distributor in. You 

may however, take advantage of a start retard (see below). 

Start Retard: When you select Locked-Out timing, the engine may be hard to crank. A start retard 

amount can be selected to aid in cranking. This amount can range from 5°, 10°, 15° and 20°. When 

the engine is cranking, the timing will be retarded. Once the engine reaches 600 rpm, the timing will 

return to the locked-out setting. 

Note:  The total amount of any timing change that can be achieved is 34° (25° for the electronic 

advance with vacuum an additional 9°). This includes the electronic advance as well as the 

vacuum advance. 

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

Figure 2 Ignition Timing Factors.