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Table Of Contents

Knock system outline
Knock sampling setup
Knock detection setup
Knock control action setup


Knock system outline

Vems Advanced knock control system can detect engine knock reliably and differentiate its characteristic sound from normal engine noise using the vehicle's original, factory-fitted knock sensors, to detect detonation. To improve this detection and reduce the influence of background engine noise a combination of a configurable knock window start angle/length and frequency filtering is used.

The engine sound energy during engine operation will vary for different frequencies in the spectrum. The knock sound energy will be more prominent at certain frequencies. A competent tuner needs to carry out a frequency analysis to determine the frequency where the difference of the engine sound with and without detonation is most clear to detect. The center frequency setting of the Knock system must match this frequency. The Knock Control system in the ECU can then be configured to adjust the ignition according to measured knock levels.

Knock Sensor

The knock sensor measures the engine vibrations and turns this into an AC waveform output.


Audio signal output from a knock sensor

With increasing engine RPM, the higher engine vibrations will result in an increase in the amplitude of the knock sensor signal. A race engine operating at high RPM will show high amplitudes making it difficult to detect knock.


Knock sensor signal with increased engine RPM

Vems Advanced knock control system improves knock detection by reducing the influence of background engine noise using a combination of knock data windowing, frequency filtering and definable background noise tables.


Knock window

The knock window is the period in the combustion cycle during which knock is likely to occur, normally between 10 and 50 degrees after TDC (top dead center). The ECU sends a knock window signal to onboard knock control chip to mark the start and end angle in the engine cycle. The knock chip will measure the knock sensor signal during this window and sends the information to the ECU. The ECU uses the measurement to calculate the knock levels for each cylinder of the engine.

Knock window relation to engine cycle

Frequency Bandpass Filtering

To correctly identify knock, the ecu bandpass filter must be set to match the theoretical best center frequency. The center frequency is normally set to the frequency of the engine that shows the greatest energy difference between normal engine operation and active detonation. Although this can be determined by frequency analysis as a good default this can be calculated as follows:

Knock frequency (kHz) = 900/(Pi * d * 0.5) where d = the bore in millimeters.

The knock chip filters and amplifies the signal transmitted from the knock sensor based on the center frequency. Signals of the selected center frequency pass the frequency filter amplified, while signals in other frequencies will be reduced. The further away from the center frequency, the more the signal will be reduced. Filtering will reduce the influence of background engine noise resulting in improved knock detection.

Gain Factor

A gain factor is required for knock sensors which normally have a relatively low signal output level. Vems has a dual channel knock interface, this allows you to choose, per cylinder, the knock sensor which is the closest (in distance) to the cylinder in question and to set the gain on a per cylinder base.



Knock sampling setup

In this section we will be focusing on the settings of the advanced knock control system which are related to the sampling of the knock data. Below you find an example of the knock settings dialog as it is available in inputs/knock sampling in VemsTune. The variables which are needed for the setup of knock sampling only (the rest we will outline in the next paragraphs) are highlighted in the red rectangle.

Within vemstune we have included several safe defaults for you to use. It is highly recommended to start out using one of these defaults; the default selection is available in the area within the yellow rectangle. In this example we are using "Enabled_All_Ch1_Log_Only".


Knock sampling settings VemsTune dialog



Knock Sampling Settings

Knock Channel: This is the decimal representation of the knock channel byte from the input/knock channels drop down list, you should not have to modify this manually

Knock Window Start: The knock window start angle in degrees (ATDC)

Knock Window Length: The knock window length in degrees

Knock Band-Pass Frequency (kHz): The center frequency of the knock band pass filter, this should be set to the calculated knock frequency of your engine (see frequency bandpass filtering section for more details); Example a BMW m54b25 engine (6 cyl 2.5 liter) with 85mm bore:

Knock frequency (kHz) = 900/(Pi * 85 * 0.5) = 6.741 kHz.

Choose the nearest frequency from the dropdown list, in our example this would be 6.64 kHz.

Knock Integrator Time Constant (uS; takes effect after burn and ECU reboot): Works as an amplifier, we will use this together with channel gain setting to get our reference measurement setting correct. Larger time constant results in lower knock reading. For the best accuracy try to keep time constant between 100-150uS and use lower gain settings

Knock Realtime Data

Realtime data option: Very useful during tuning (the knock flag is for indication, stays lit for seconds as racing drivers requested). This option allows you to switch realtime data stream the ecu transmits to VemsTune, you can select either "ADC/Individual power" or "Individual knock data" keep in mind that you can only watch one stream, not both at the same time. It is recommended to use "ADC/Individual power" in most cases this still allows you to watch individual knock channel data (although at slightly lower resolution) without compromising the individual power data. For setting up knock gain and cylinder calibrations (or if you prefer to monitor high resolution knock data above individual power data) it is possible to select "Individual knock data" when this option is selected the Individual power gauge and logging of its data is disabled.

Knock Sampling Base Reading Calibration


When setting up your knock control sampling we will start out from the save defaults as outlined in the previous paragraph, this also includes safe settings for the dialogs inputs/knock channels and inputs/knock gain and ref. Examples of what your dialogs should look like if you have successfully applied the default "Enabled_All_Ch1_Log_Only":


Knock channel settings VemsTune dialog

In this example setup we have loaded a default which uses knock sensor 1 for all cylinders, if your engine is equipped with multiple knock sensors make sure you choose the right sensor for each cylinder. The right sensor for your cylinder is the sensor which is the closest (in absolute distance) this usually gives the best reading for that specific cylinder.



Knock gain and reference settings VemsTune dialog



Before starting the actual calibration process you need to calculate the knock frequency for your engine bore and select this in the band pass frequency dropdown. For proper setup of gain levels also need to make sure that in the dialog inputs/knock sampling settings, section "realtime data option", the option individual knock data is selected (bottom red box from the dialog of previous section). Updated dialog with settings for our example engine (highlighted in purple).


Knock sampling with updated bandpass settings m54b25



It is now safe to start up the engine (prerequisite for this being that there is already a tuned map in your ecu to start engine on). Knock sample base reading can be calibrated in a few simple steps:



Your Vems ecu is now properly calibrated for knock sampling only it is not calibrated to accurately differentiate noise from knock, setup of these parameters will be handled in the next paragraph.


Knock detection setup

This section will handle the setup of parameters which allows the ecu to accurately differentiate engine noise from engine knock. Within the Vems firmware there are two active algorithms to determine if knock occurs (both are active at the same time):


Below you will find dialogs which are required for setup of knock detection and outline of the required settings




Knock sampling dialog with detect settings highlighted



Knock Detect Settings

Threshold for mean value: this is a scalar, which is multiplied by the mean value to determine knock 300% should be a safe value to start, if you want to detect knock earlier (mean based) lower this although values lower than 250% are not recommended, valid good range 250-400%.

Min noise val/Max noise val: Values used in gain self calibration mode (currently disabled), however mean of both values is used as a low limiter for knock_mean (knock reference average value on your knock screen) stay with the default values until instructed otherwise


Knock noise table default



Knock Noise Table

Knock noise table: this table is used for your active noise reading (kpa/rpm based) for the current cylinder, it can be upscaled using knock_reference_value per cylinder although it is recommended to keep these 100% for all applications. Entering a value of 797 disables knock control in this area, useful for overrun/low map or very low rpm conditions.


Knock Detection Calibration


Now that the meaning of the knock noise table is clear it is required to setup the knock noise table with measured values for your engine, procedure will be explained in a few simple steps:



An example of what your knock noise table might look like when finished is included below


Knock noise setup example



Your Vems ecu is now properly calibrated for knock sampling and detection but does not yet act on it, setup of these parameters will be handled in the next paragraph.


Knock control action setup

In this section we will be focusing on the settings of the advanced knock control system which are related to knock action, e.g. what happens when knock is detected.

Below you find an example of the knock settings dialog as it is available in inputs/knock sampling in VemsTune. The variables which are needed for the setup knock action are highlighted in the green rectangle. Included are safe defaults for the knock action variables, these are also available in the default "Enabled_All_Ch_1".

Do not apply this default but manually enter settings otherwise this will overwrite your previously done calibration!


Knock sampling with updated action settings



Knock Sampling Action Settings

Retard all simultaneously: When enabled all cylinders will be retarded if one cylinder (or more) detects knock, when disabled the cylinders are retarded on a per cylinder base (requires cam sync)

Max Retard: The maximum allowed knock retard in degrees, knock control will not retard more than this even if there still is knock present

Default Retard: Default applied retard this is applied on first start, if there is no knock present it will be removed quickly, take care this also applies knock enrichment on startup.

Retard Step: Amount of degrees to retard timing (for that cylinder or all) immediately if knock is detected, will be increased each iteration if still knock and below max retard

Advance Step: Amount of degrees to advance timing when knock is no longer detected, will be advanced each iteration until all retard is removed (or knock detected)

Advance Delay: Time to wait before advancing timing (mS), will wait after each iteration for advance delay mS (e.g. advance slowly/retard fast)

Rich Slope: Applied enrichment (in %/1 degree) this acts on lambda target, when knock retard is present, lambda is corrected with retarded_degrees * this percentage. This way knock enrichment is also present in closed loop (ego ON).

This concludes your Vems ecu knock system setup. It is now properly calibrated for knock sampling, detection and action