The Ignition menu is used to configure all aspects of ignition control, including Knock Control.

This is the main ignition table, in degrees BTDC before any corrections. This defines the baseline ignition angle.

This table defines the coolant temperature ignition correction. Used to prevent knock on very hot engines.

This table defines the intake air temperature ignition correction. Use this table to prevent knock on bad intake setups or poor charge air cooling.

This table defines the dwell time for the ignition system, defined in miliseconds. This table is defined in the Y axis by the battery voltage, used to correct for poor spark during cranking by introducing more dwell time.

Compensates for trigger delay due to belt stretch, or other electro-mechanical issues. Also used to compensate for the ignition system delay.

This is correction in degrees by RPM. Beware that raising this value is directly added to the advance and this advances ignition timing!

If ignition is enabled.

• Single coil - Simple distributor

• Individual coils - One coil per cylinder (coil-on-plug or coil-near-plug). Requires sequential mode or phase guessing.

• Wasted spark - Fires pairs of cylinders together, either one coil per pair of cylinders or one coil per cylinder. Choose this if you have coil-on-plug or coil-near-plug but no camshaft sensor or you do not want to use phase guessing. Enable Individually wired Wasted Spark for such a setup.

• Two distributors - A pair of distributors, found on some BMW, Porsche, Toyota and other engines.

Clamp dwell duration to this % of time slot (100=do not clamp)

Just like injectors, ignition coils have duty cycle, if duty cycle gets close to or exceeds 100%, ignition stops working

This is needed if your coils are individually wired (COP) and you wish to use batch ignition (Wasted Spark).

Override the Y axis (load) value used for the ignition table.

Advanced users only: If you aren't sure you need this, you probably don't need this.

• Dynamic - Ignition behaves normally using the ignition table and any corrections applied to it.

• Static - Fixes the timing to the value set below.

Only used fixed timing to verify trigger configuration with a timing light, never during normal driving conditions.

The fixed timing value when fixed timing is used.

Only used fixed timing to verify trigger configuration with a timing light, never during normal driving conditions.

See ECU output mode selection.

This is the physical output pin for the ignition output.

To find the actual value for your hardware, see Hardware.

This disables the specified ignition output. Used for testing/debugging.

This is used for ignition table switching.

This is the pin to toggle the table switch.

See ECU input mode selection.

This changes the ignition table switch X axis parameter

Blend mode adds or multiplies the switch table with base, default is switch.

This changes the ignition switch table Y axis.

Advanced users only: If you aren't sure you need this, you probably don't need this.

This is the ignition switch OR blend table as defined by Ignition Table Switch x Blend Mode

This is individual cylinder ignition trim.

This table trims the ignition by the specified number of degrees in relation to load.

This is the physical input pin that enables the ignition adder.

See ECU input mode selection.

Random ignition adder x value (-60 to 60 degrees)

This is the epicEFI software-defined knock control. The knock control on epicEFI is software-based, ie. the software does the raw sensor sampling, the digital filtering, bandpassing and windowing (only listening to knock on specific crank angles).

Special thanks to Matthew Kennedy for implementing this feature and testing it on his engines (of which he destroyed a few in the process).

The Knock retard functionality is a tool to detect engine knock, but with wrong settings it can cause engine damages. Use with caution!

Enable or disable knock control.

Changes knock sensor values from logarithmic (dB) to a linear scale starting at 0.

This defines the linear scale gain.

Cylinder diameter in mm

If you want to define the knock frequency manually, use this input field. If this field is non-zero, the Cylinder Bore-based knock frequency calculation is ignored.

• First harmonic - The basic calculated or defined frequency

• Second harmonic - The first harmonic frequency, but doubled. This is possible because the pressure wave can fit two half-waves across the bore instead of one. It’s weaker than the first harmonic, but its much cleaner (less contaminated by valvetrain, piston slap, mechanical noise) and extremely useful at high RPM where the fundamental gets buried in engine noise.

The windowed knock control start window in degrees BTDC.

The angular duration of the knock window. Defined in crankshaft angle.

Available via TS Plugin see https://rusefi.com/s/knock

This defines a filter for the spectrogram.

This defines the relative sensitivity of the knock spectrogram.

This defines what cylinder is closes the the physical knock sensor.

Ignition timing to remove when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),

After a knock event, reapply timing at this rate.

Fuel to odd when a knock event occurs. Advice: 5% (mild), 10% (turbo/high comp.), 15% (high knock, e.g. GDI), 20% (spicy lump),

After a knock event, reapply fuel at this rate.

Fuel trim when knock, max 30%

Below TPS value all knock suppression will be disabled.

Below RPM value all knock suppression will be disabled

Knock sensor output knock detection threshold depending on current RPM. This is the threshold above which engine noise is considered as knock and response starts to get applied.

This table defines the maximum allowed knock retard.

This table defines the per-cylinder knock gain (used when lots of cylinders share a single knock sensor).