VAG EA888 Engine Tuning

VW EA888 Engine Tuning


The EA888 Gen 3 (EA888.3) is a global engine suitable for MLB (Modularer Langsbaukasten/Longitudinal ) and MQB (Modularer Querbaukasten/Transverse) platforms, capable of meeting the latest emission and fuel economy targets in different markets

In the Europe, the new MQB EA888 Gen 3 engines were introduced to Volkswagen Golf, Skoda Octavia, Seat Leon and Audi A3/S3 vehicle.  

A Simos 18 Engine Control unit was utilised in order to control the features of the engine. The Engine family has two different sizes currently (1.8 litres and 2.0 litres) with the larger (2.0l) family offering both a lower output (but high compression) option and a high output (Lower compression) option.

Currently Gen 3 EA888 engines, used in MQB cars covered in this document, use an exhaust only AVS (Audi Valvelift System).

Supplemental Content

Platform Specific


Table of Contents

Summary of Software

ProECU software has been introduced to allow reprogramming of the factory ECU in order to tune the necessary components of the calibration, allowing for modifications and increases in power.  Pro ECU software filters several thousand OE calibration maps into a comprehensive set of maps, selected to all allow the tuner to tune the engine with similar ease, found on a standalone replacement ECUs.

The software allows easy control over most factory parameters including:

  • Boost targets and wastegate control
  • Target AFR
  • Ignition timing and knock control
  • Valve timing and lift control
  • Fuel delivery including fuel pump calibration (using the same style pump as OEM)
  • Airflow Measurement and fuel compensation

Tuning should be carried out by suitably trained individuals.

Use this document is a guide. Changes to any calibration is at your own risk.

Changes involving the evaluation of full engine load, should be carried out in the safety of a chassis dynamometer by trained personal.

The base engine should be deemed in a serviceable state of health as well as the dress kit bolted to it before attempting to tune it etc.

For the best results, ensure the engine is run on the best commonly available fuel (in the EU, RON 98 or greater)

This document is also work in progress.


For information on how to program as well as flash recovery, check out.

For more software guides check out:

Tuning Guide

The Simos 18.X Engine Control Unit (ECU) requests and outputs torque via a fast path and a slow path.

The fast path includes the following attributes.

  • Ignition control.
  • Fuel setpoint and lambda control.
  • Fuel shut off.

The slow path includes the following  attributes.

  • Load demand via air setpoint
  • Throttle setpoint
  • Turbocharger actuator set point.
  • Cam setpoint.

Tuning the ECU for more power involves several operations and involve raising the load limits on the slow path and optimising the fuel and ignition settings on the fast path.

Adjusting the Threshold Limiters

Setting proper limits on what the engine can and can't do is an important step to start with.  In some cases the limiters will step in when you attempt to make additional power which can slow or even halt forward progress on a tune.  The important thing to remember is that these limiters aren't just in place to stop you from making power.  They exist to protect various vehicle components and some common sense should be used when raising them.  For example raising the allowed Exhaust Gas Temperature to high can lead to a shorter life span on the vehicle's catalyst etc.


  • EGT Maximum Relates to the maximum catalyst temp and is set at a factory 950 deg C
  • EGT Limit for Overheat Protection Relates to the turbocharger turbine protection

Rev limit

  • Engine Speed Maximum Set as desired from factory default of 6800 rpm
  • Engine Speed Limit for Stationary Vehicle AUTO/MT/DCT, usually set at ~ 3800 rpm from factory
  • Engine Speed Limit for VVL System High/Low/by Gear Set to match Engine Speed Maximum   factory redline.

Throttle Pressure ratio Limits

  • Throttle Pressure Ratio Threshold for WOT - To force the throttle open to WOT, you need to reduce the pressure ratio around the point where there is just about positive pressure.
    It will need to be blended and refined from the example below, to not have the throttle slam open at light loads or pullaway

Air limit

  • Maximum Air Intake Volume 1/2 ( No lift or Lift) Set to a maximum beyond what is output from   Reference Air Charge.
  • Maximum Cylinder Air Set Point Alter if more than 2000 mg/stk is to be consumed through the engin

Intake pressure limit

  • Manifold Pressure Set point Limit Set this value higher than the highest desired boost   expected in the manifold. Default is 3000 mbar ( 2 bar gauge)
  • Maximum Intake manifold Pressure Setpoint Set this value higher than the highest desired   boost expected in the manifold. Default is 2500 mbar ( 1.5 bar gauge)
  • Minimum Charge Air Pressure Quotient Too High for Diagnosis Adjust to clear maximum boost   achieved.

PUT to Intake pressure deviation limit

  • Maximum Boost Deviation for Charge Pressure too high Set to ensure transients into target   boost has enough head room.
  • Charge Air temperature Limit
  • Intake Air Temp Threshold for Torque reduction Turbo Charge Air temperature threshold -  To   be raised due to operating higher operating pressure ratios.
  • Intake Air Temp Threshold setpoint for Torque reduction Turbo Charge Air temperature   threshold set point. To be raised due to operating higher operating pressure ratios.

Turbo limits

  • Minimum Torque for Turbo Overheat Protection Option to set higher than stock.
  • Turbo speed Max Recommendation to set beyond 176K rpm.
  • Turbo speed Max for protection Recommendation to set beyond 161K rpm.
  • Turbo Pressure ratio limit Set to beyond target PR.

Maximum indicated torque limit

  • Maximum Reference Indicated Torque Set this to a maximum.

Basic indicated Maximum TQ Full Ld - Power Class 1-5

  • Basic indicated Maximum TQ Full Ld - Power Class 1-5.  Set these maps to a maximum on some Cal ID's they will be set at 1024Nm as standard.
  • Basic indicated Maximum TQ Full Ld - Gear Spread 1-5.  Set these maps to a maximum on some Cal ID's they will be set at 1024Nm as standard.

Vehicle Speed limit

  • Vehicle Speed limit All. Set to desired maximum.

Airflow Determination

Airflow determination comprises of several calibration tables that allow the load of the engine to be increased for a given set of engine speeds.
Increasing the boost via an increase in air mass set point can be summed up by the following illustration.

Driver requested torque This is a function of the Maximum torque request factor by the driver.  The driver request factor comes from the pedal via the parameter "Driver Interpretation Map" and is often scaled to be nonlinear by the manufacturer with a   leading edge at the low loads, low rpm breakpoints.

There are several of these Interpretation tables and they depend on the driving mode of the vehicle (i.e Eco, Normal, Sport) and the cam position (low or high), as well as the transmission type

An example of a typical Driver Interpretation Map from the example rom is shown    below (recalibrated to be more linear).

Important Logging Item Accel Pedal %

The output of the Accel Pedal ratio tables, is multiplied into the following parameter,   Maximum Torque AT/MT depending on the power class and load range. These tables   can be condensed to have the same values. Below is an example of a typical Maximum     Torque map.

The above table was set at a desired maximum beyond stock globally i.e. for every gear   and engine speed set point.  The overall maximum final Indicated torque limitation, "Maximum Torque Final" is set out   of the way at 1023 Nm.  The output of that table after losses at the clutch are added to create combustion torque   set point or indicated torque set point, is used on an axis of a 3D table to set the Airflow  target of the engine.

Indicated torque, deduced from the Maximum Torque tables, feed into  Reference Air Charge. There are several of these tables, based on the position of the port flaps, valve lift, and the camshaft position of inlet and exhaust.

At wide open pedal (WOP) with the intake flaps lowered (open), valve lift and the camshafts at their end stops. The indexing will be - Open flap - No Lift - In1 - EX1, whereas at light loads, for example at 2500 rpm, the intake flaps will be raised (closed), the exhaust only AVS will be in lift and the camshafts can be in overlap, this will result in a Reference Air Charge table with the index - Closed flap - Lift - In3 or In2 or Ex3 or Ex2 being utilised.

A typical example of Reference Air Charge taken from an example rom of the Ecutek Golf 7 R shown below.

Indicated Torque at Reference Conditions

Logging Item - Torque Actual at Clutch

Should be set to not limit reported engine torque used to calculate clutch pressure in the DSG>  This is set up to a maximum at higher airflows.

Logging item Air Mass Charge from Manifold, Air Mass Charge Setpoint

With the airflow setpoint determined, the output of the Refence Air Charge table, air mass in mg/stk,  is used as an axis for ignition setpoint tables (which will be covered later) and is also converted into intake manifold pressure, used as an axis for determining pressure upstream turbo limits. As mentioned in the previous slide, there are several Reference Air Charge tables which are indexed by active port flaps, valve lift, intake/exhaust cam position.

Once the Refence Air charge tables and Maximum torque tables are set high enough to achieve desired pressure upstream of the throttle, the boost setpoint offset table can be calibrated. All boost calculations are derived from the Refence Air charge tables and Maximum torque tables.

Typical Boost pressure offset table shown below derived from Mass Charge from Manifold and Air Mass Charge Setpoint .

The turbocharger feature on the EA888 as certain sub features modelled to determine turbocharger speed, turbo pressure ratio and the wastegate position for a desired pressure upstream throttle.

To achieve the desired boost beyond standard, the limit for turbine speed must be increased to avoid any limiting errors.  WG position tables usually remain as default for calibrations based on standard hardware.  For hybrid turbos, errors in desired WG position, causing an under or overboost condition require some tuning of the WG PID and position set point tables to ensure the WG actual position is the same as the setpoint.

Logging items - Pressure Upstream Throttle, Manifold Absolute Pressure, Wastegate Position, Wastegate Position Setpoint, Exhaust Pressure Flow Factor, Intake Pressure Flow Factor, Turbine Actuator Proportional/Integral, Turbine Actuator Final Value ,Turbo speed/setpoint.

Optimise the Ignition Timing.

With the Airflow and boost settings elevated for more performance, optimisation of ignition setpoint will become necessary to ensure the engine can be operated safely between broadline det (BLD) and maximum brake torque timing (MBT).

The EA888 Simos ECU has two important sets of ignition tables.  The basic ignition angle or Ignition Angle and the MBT ignition angle or Ignition Ref Angle.

The Ignition Ref Angle is set during OE development and represents the theoretical maximum ignition setting on a reference high octane fuel, with a lambda efficiency of 1. It shouldn't require much if any alteration on calibrations involving standard hardware. It also takes part in ignition efficiency calculations.  The final ignition setpoint will be determined by experimentation in the ignition Angle tables.

There are several Ignition setpoint tables for both Ignition Ref Angle and Ignition Angle, which are indexed by active port flaps, valve lift, intake/exhaust cam position.

At wide open pedal (WOP) with the intake flaps lowered (open), valve lift and the camshafts at their end stops. The indexing will be - Open flap - No Lift - In1 - EX1, whereas at light loads, for example at 2500 rpm, the intake flaps will be raised (closed), the exhaust only AVS will be in lift and the camshafts can be in overlap, this will result in a Reference Air Charge table with the index - Closed flap - Lift - In3 or In2 or Ex3 or Ex2 being utilised

A typical ignition table for WOP is shared in the illustration below.


Logging items – Ignition 1 to 4

Optimisation of knock correction.

Knock detection and control is usually a feature that is designed during a lengthy OE process involving hours of design validation on an engine dyno, which is then tested on various market place fuels and climates and involving Tier 1 grade combustion analysing equipment.

The knock control feature, allows each cylinder to be optimised by allowing the cylinder to operate safely and as close to MBT as possible and thus maximising torque while reducing the spark spread across the engine cylinders.

This feature also has benefits of reducing engine roughness and improving fuel consumption while delivering the best engine response.

Depending on engine modifications and loads, detection integrals can be optimised as well the step changes to correct for a knock event when running boost levels beyond the factory set point of 2200 mbar.

Tables that will commonly be revised are:

  • Knock Detection - integral correctional increase.
  • Delay Before Dynamic Knock Speed. Transient knock sensitivity
  • Delay Before Timing Increase in Fast Mode
  • Knock Retard Increment
  • Knock Retard Decrement

Logging Items - Knock Retard 1 to 4

Reviewing ignition compensation tables

  • Ignition Angle Base - Correction for all combustion modes.
  • Ignition Angle Correction Combustion mode 2 - FSI double injection ignition correction.
  • Ignition Angle Intake Temp Corr. - Ignition correction for manifold temperature increase.

Tuning the Lambda Set Point. (Air Fuel Ratio)

On the EA888 Gen 3 engine, a lambda set point of 1 is targeted for the entire operating range.  Featuring a piston design which is profiled to suit direct injectors and an optimised combustion chamber design, lambda 1 is achieved at spark plug, for engines operated at factory load limits.

To achieve optimum power with greater cylinder pressure, a richer lambda set point is recommended.  Lambda setpoint can be influenced by high intake or catalyst temperatures, as well as turbo protection tables. So these tables will have to be altered in a safe manner to suit the new fuel target.

Optimum settings between LBT (Lean Best Torque) and RBT (Rich Best Torque) should be determined by experimentation.

Logging items - Lambda Actual, Lambda Target

Setting The Ideal Camshafts Transitions and Valve Lift.

The factory camshaft setpoints can be further optimised to increase midrange torque.
This is with lift or without.

An experiment involving setting individual cam tables i.e. the exhaust bank or the intake bank at a time, to global settings at high air flow set points and all engine speed set points, can be used to find the best setpoint at various engine speed break points.
The results of the experiment can be blended into the cam set point tables for the best full load curve.


Logging items - Intake Cam Absolute Position, Intake Cam Absolute Position Setpoint,     Exhaust Cam Absolute Position, Exhaust Cam Absolute Position Setpoint

Valve lift is usually zero after ~2600 rpm and high airflows

Logging Item - Valve Lift Setpoint.

Glossary of Tuning Terms
An alphabetical list of technical acronyms and terms with explanations (where terms are not self-explanatory)
  • Accelerator pedal maps
    The ECU maps that relate pedal opening percentage and throttle butterfly valve angle.

  • ACT (Air Charge Temperature)
    Also written as AIT (Air Intake Temperature) or CAT (Charge Air Temperature).

  • Active Regeneration
    Diesel particulate filter clearing, which is carried out when required by the engine management system, which raises exhaust temperature by temporarily introducing a particular mode of engine operation.

  • Advance Multiplier
    The degree of ignition timing advance between the ignition base map and the maximum ignition timing, which is limited either by a secondary 'max' map or an additional advance map.

  • AFM (AirFlow Meter)
    Continuously measures the flow of engine intake air.

  • AFR (Air Fuel Ratio)
    The ratio of intake air to injected fuel. 14.7:1 is the ideal 'stoichiometric' ratio, which means the ideal ratio at which all oxygen is consumed and all fuel is burned.

  • AT
    Automatic Transmission

  • AIT (Air Intake Temperature)
    Also sometimes written as CAT (Charge Air Temperature)

  • APS
    Accelerator Pedal Position

  • ASC (Adaptive Shift Control)
    Nissan's 'learning' auto-transmission control, which adapts shifting style to the driver's preferences and road conditions.

  • Auto blip
    The management system's brief burst of engine revs to allow the driver to downshift under braking.

  • AVS
    Audi Valve lift System

  • BLD
    Border line Detonation

  • CAF (Calculated AirFlow)
    Where the airflow sensor voltage does not have a linear relationship to the flow, the ECU uses a scaling map to translate sensor voltage into an airflow rate value.

  • CAN/CANbus (Controller Area Network)
    A vehicle bus standard that allows microcontrollers and devices to communicate with each other in applications without a host computer. Originally designed for multiplexing vehicle electrical wiring.

  • CAT (Charge Air Temperature)
    Sometimes also written as ACT (Air Charge Temperature) or AIT (Air Intake Temperature) and not to be confused with Cat - an abbreviation for catalytic converter.

  • CEL
    Check Engine Light

  • Closed Loop
    Control based on feedback, or input responding to output. A feedback control loop is used in three-way catalytic converter systems and various electronic circuits.

  • Colour by Lambda
    EcuTek software feature that provides an easy, live visual representation of fuel/air mixture changes.

  • Colour by Knock
    EcuTek software feature that provides an easy, live visual representation of cylinder knock characteristics.

    Custom Datalogging
    Allows the logging of 50 or more custom parameters not available from the factory ECU

  • Custom Gauge (see also Gauge Hijack)
    This allows the tuner to display a fixed value or the output of a custom map on the dashboard gauges, the exact functionality depending on the type of gauge cluster fitted to the car. It can be used, for example, to display the required fuel octane for each map switch mode, to display the current AFR or the output of an external ethanol content sensor

  • Custom Maps
    Bespoke new maps added by Ecutek for increased functionality

  • CVN (Checksum Verification Number)
    A checksum is a small datum from a block of digital data, whose purpose is to detect errors that may have been introduced during its transmission or storage. Usually applied to an installation file after it is received via a download

  • DBW (Drive By Wire)
    The use of electrical or electromechanical systems for performing vehicle functions traditionally achieved by mechanical linkages

  • DCT
    Dual Clutch Transmission

  • DeltaDash
    An early EcuTek software data logger for Subaru cars, whose functionality is now incorporated in the ProECU product

  • DI (Direct Injection or Direct Injector)
    The favoured petrol engine technology in which fuel is injected into the combustion chamber rather than the inlet port

  • DLC
    Diagnostic data Link Connector

  • Dongle
    A small hardware device (such as the ProECU Licence Key USB dongle) which connects to another device, typically a computer, to provide it with added functionality, copyright protection or product licensing

  • DPF (Diesel Particulate Filter)
    A carbon-particle (soot) trap in the exhaust system of a diesel
    DTC (Diagnostic Trouble Code)
    A trouble/fault code generated and stored by the engine management when it detects a problem

  • DSG
    Direct Shift Gearbox

  • DTC
    Diagnostic Trouble Code, also referred to as CEL codes (check engine light)

  • DQ
    Transverse Mounted DSG Gearbox

  • ECO

  • ECT
    Engine Coolant Temperature

  • ECU
    Engine Control Unit.  The computer for the powertrain of the vehicle.  Also called PCM, ECM, PCU etc. from various manufacturers
  • EGR
    Exhaust Gas Recirculation

  • EGT
    Exhaust Gas Temperature

  • Engine Load
    AirFlow divided by engine RPM; effectively how much air enters the engine per revolution. It may be expressed as a percentage of cylinder fill

  • EOI (End of Injection)
    Stipulated as an angle, in degrees

  • ESP (Electronic Stability Program)
    Also Dynamic Stability Control, is onboard computer technology that improves vehicle stability by detecting loss of traction or steering control and intervening to correct it via the antilock braking system and engine control

  • Equivalence Ratio
    The desired closed-loop AFR that the management ECU attempts to meet

  • EX

  • Fail Safe
    A device or function attribute that, in the event of a specific type of failure, responds in a way that minimises or negates harm to other devices or persons

  • FastFlash
    EcuTek's rapid system of ROM programming by block, where all code is built into the ECU

  • FI (Forced Induction)
    Boosted air charge, as with supercharging and turbocharging

  • Flash Licence (EcuTek)
    See 'Dongle' previously

  • FFS (Flat-Foot Shifting)
    An EcuTek ProECU feature that lets you keep your foot flat on the accelerator while changing gear so as to minimise change time and keep up engine speed and torque, maximising acceleration in the next gear up

  • FlexFuel (Also Dual Fuel)
    Refers to an engine that runs on more than one fuel (eg petrol and ethanol) and both fuels share the same fuel tank

  • FMIC
    Front Mounted Intercooler
  • Forced Induction
    Utilizing a supercharger or turbocharger to force air into the intake tract of a vehicle.  See NA / Naturally Aspirated
  • FPW (Fuel Pulse Width)
    The duration of opening of each injector in milliseconds (ms)

  • FT (Fuel Trim)
    A system-integrated ability to automatically make small adjustments to fuel metering to compensate for certain factors affecting engine operation

  • FTLT (Fuel Trim Long Term)
    Fuelling compensation applied on long-term basis

  • FTST (Fuel Trim Short Term)
    Fuelling compensation applied on short-term basis

  • Gauge Hijack (see also Custom Gauge)
    The temporary reassignment of certain dashboard instruments via EcuTek software in order to display other functions such as AFR, Boost, Fuel Trims or Map Switch modes

  • Hybrid Speed Density
    A programmable function that allows switching between MAP and MAF airflow sensing for the Engine Load calculation depending on operating conditions

  • Hysteresis
    A slight margin for variation, or 'cushion zone', particularly with reference to a predetermined rev limit

  • Idle Learning
    A program feature that balances idling parameters - particularly on a dual-intake system such as that of the Nissan GT-R

  • IMRC (Intake Manifold Runner Control)
    Or Intake Manifold Swirl Control (IMSC), a vacuum and solenoid-actuated system that partially closes an intake duct to generate intake air turbulence under low-power running

  • IMSC (Intake Manifold Swirl Control)
    Or Intake Manifold Runner Control (IMRC), a vacuum and solenoid-actuated system that partially closes an intake duct to generate intake air turbulence under low-power running

  • IN

  • Injector Scaling
    The recalibration of fuel injector characteristics (parameters such as flow rate, pulse width etc) to suit engine modifications

  • ISS (Intercooler Spray System)
    A coolant-spraying mechanism that maximises intercooler efficiency and is used on a few high-performance turbocharged cars

  • K-Factor
    A Nissan-specific multiplier for the manufacturer's base fuel schedule - a figure best left unchanged

  • K-Line
    A pre-CANbus communications data-transmission line and protocol still occasionally used in conjunction with a CANbus

  • Knock Correction
    The amount of ignition timing correction (positive or negative) set by the ECU in response to cylinder knock, or its absence

  • Knock Retard
    The amount of ignition timing retardation set by the ECU in response to detected cylinder knock

  • Lambda Sensor (O2 Sensor)
    A sensor in a petrol-engine exhaust system that continuously measures the concentration of oxygen in the exhaust gases

  • Launch Control
    An electronic aid - effected via a number of management functions - that assists drivers of both racing and street cars to accelerate cleanly (ie with minimal wheelspin) from a standing start

  • LBT
    Lean Best Torque

  • Limp-Home
    A reduced-performance mode of engine operation adopted by the management system when certain engine faults are detected

  • Live Data
    Data streamed from the management ECU as the engine is running

  • MAF (Mass Air Flow)
    As in MAF Sensor; the amount of air flowing is stipulated in grammes per second (g/s)

  • MAF Bank Switching
    A feature that allows airflow measurement correction after the fitting of an aftermarket intercooler that swaps airflow between cylinder banks

  • MAP (Manifold Absolute Pressure)
    As in MAP sensor, whose output is stipulated in psi or bar

  • Map Switching
    The selection of an alternative engine management map via a 'hijacked' or 're-purposed' control in the car

  • Master Tuner (Ecutek)
    Master Tuners are the most experienced category of engine tuners (as determined by EcuTek) and have the authority to purchase ProECU Programming Kits and retail them to vehicle owners together with their own ECU calibrations

  • MBT (Maximum Best Torque/Minimum Best Timing/Maximum Brake Torque)
    Can also be understood as 'minimum timing advance for best torque'

  • MQB
    Modularer Querbaukasten (Modular Transverse Platform used by VAG in such vehicles as the GTI, Audi A3)

  • MLB
    Modularer Langsbaukasten (Modular Longitudinal Platform used by VAG in such vehicles as the Audi A4, A5)

  • MRP (Manifold Relative Pressure)
    Negative or positive inlet manifold pressure relative to atmospheric pressure

  • MPI
    Manifold Port Injection or Multi-Port Injection

  • MT
    Manual Transmission

  • NA (Naturally Aspirated) Also refferred to as NASP
    Unboosted, neither turbocharged nor supercharged

  • OBD (On Board Diagnostics)
    A general term for a vehicle's self-diagnostic and reporting capabilities; OBD systems give access to the status of the various vehicle sub-systems

  • OBD-II (On Board Diagnostics)
    The current OBD standard capable of providing real-time data and a standardised series of diagnostic trouble codes.

  • OEM (Original Equipment Manufacturer)
    Most often used by EcuTek in the context of the manufacturer of the car being modified, and specifically its 'OEM' (factory) engine management maps

  • Open Loop Control
    A control mechanism that does not observe the output of the process it controls, but instead computes its input on the basis of current state and its integral model

  • Per-Gear Rev Limit
    As the name suggests, different rev limits can be set for individual gears

  • PI (Port Injection or Port Injector)
    Fuel injection into the air inlet port rather than the combustion chamber - as with Direct Injection

  • Piggybacking
    An undesirable method of tuning whereby various factory-standard engine-management ECU input and output signals are 'hijacked' or manipulated by a third-party device in order to 'deceive' the ECU

  • Power Balance
    The disabling of individual fuel injectors to help pinpoint cylinder faults

  • ProECU TOOLS (EcuTek)
    Everything the EcuTek Tuner needs - hardware, software, licence key and documentation - to successfully tune using ProECU

  • ProECU Programming Kit (EcuTek)
    The hardware and software that Master Tuners purchase from EcuTek and sell on to retail customers for their own, non-commercial use, together with the relevant vehicle ROM files.
  • ProECU Tuning Suite (EcuTek)
    The vehicle-specific software needed to produce tuned ROM files. Tuning Suites are ‘trade only’ tools that allow ECU calibrations to be altered (for a wide range of tuning requirements) then programmed into the factory ECU using the ProECU Programming Kit

  • RaceROM Features (EcuTek)
    Additional and enhanced features for OEM vehicle ECUs tuned with EcuTek tuning tools, which bring increased tuning and driving capabilities such as Map Switching, Flat-Foot Shifting, Valet Mode and more. RaceROM features are included in the cost of the relevant Tuning Suite
  • RaceROM Feature File (EcuTek)
    The EcuTek code and data applied to an ECU ROM file before it is programmed into a vehicle ECU

  • RAM (Random Access Memory)
    A type of computer data storage (usually volatile as it needs constant power) in integrated circuit form that allows data to be read or written in almost the same amount of time regardless of its physical location within the memory

  • RBT
    Rich Best Torque

  • Regional Distributor (EcuTek)
    A company appointed by EcuTek to exclusively sell and support EcuTek products in a specific country or defined territory; receives support directly from EcuTek

  • Regional Sub-Dealer (EcuTek)
    Receives support from the EcuTek Regional Tuner chosen to be their 'parent' tuner who provides ROM file calibrations and tuning support, plus any EcuTek software required

  • Regional Tuner (EcuTek)
    Operating in the specific country or defined territory of the Regional Distributor, the Regional Tuner purchases software, hardware and Flash Licences from, and is supported by, that distributor

  • Rolling Cylinder Cut
    The engine management-controlled shutting-off of one or more cylinders in a predetermined sequence to achieve smoother rev limitation - especially in conjunction with Launch Control

  • Roll Racing
    In motor sport a moving (rather than standing) start to a race that reduces shock stresses on vehicle components; also an EcuTek RaceROM feature for the Nissan GTR

  • ROM (Read Only Memory)
    A type of non-volatile memory used in computers and other electronic devices in which stored data can be modified only slowly, with difficulty or even not at all

  • RRBC
    RaceROM Boost Control

  • RRFF
    see RaceROM Feature File

  • SC
    Supercharger or Supercharging

  • Soot Accumulation Ratio
    The pressure differential across two points in a diesel particulate filter that determines pressure drop, and therefore the need for regeneration (clearing) of the filter

  • Speed Density (SD)
    The calculation of engine load from manifold absolute pressure rather than mass air flow

  • SDI
    Suction Direct Injection

  • SD-VE (Speed Density-Volumetric Efficiency based)
    The SD feature changes the way Mass Airflow is calculated: in SD mode the ECU disregards MAF sensor input and calculates Mass Airflow based on Engine Speed, Manifold Pressure and Air Temperature

  • Single Turbo
    A system utilizing a single exhaust driven turbocharger for an entire engine system.

  • Stoichiometric
    The ideal air/fuel mixture ratio (of 14.7:1) to give complete combustion

  • Sub-Dealer (EcuTek)
    A member of the EcuTek Tuner network who tunes customer vehicles using ProECU Tools and suitable tuned ROMs provided by a 'parent' EcuTek Tuner. There are two Sub-Dealer types: those who program only and those who create and edit ROMs using full Edit Software acquired from a parent dealer

  • SRM (SynchroRev Match)
    A Nissan name for programmed double-declutching-style throttle 'blips' on gearbox downshifts – otherwise known as Autoblip in EcuTek-speak

  • TC
    Turbocharger or Turbocharging

  • TCM
    Transmission Control Module

  • TCS
    Traction Control System

  • Throttle Angle
    The opening angle of the throttle butterfly valve, in degrees

  • Throttle Target Max
    The maximum allowed throttle valve opening angle in relation to RPM

  • Torque Actual
    The current torque produced by the engine, as calculated from MAF; the amount of torque available irrespective of Torque Demand

  • Torque Demand
    The torque demanded by the driver using the accelerator pedal; the driver input

  • Torque Monitoring
    The calculation of torque output from predetermined engine management data when there is no direct means of measuring it (ie with a dynamometer)

  • Trustful Checks
    Pre-programmed data checks and comparisons built into some ECUs to detect and safeguard against errors, particularly those with road-safety implications

  • Tuner (EcuTek)
    A business whose facilities and experience are deemed suitable by EcuTek to recalibrate engines with a ProECU Programming Kit and Tuning Suites, and which receives support directly from EcuTek

  • Tuning Bundle (EcuTek)
    EcuTek multi-pack of tuning suites available from the EcuTek web store at a preferential price.

  • Tuning Suite (EcuTek)
    The EcuTek software required to tune a given car

  • Twin Turbo
    A system utilizing two turbochargers for a single engine system.  Twin-turbo setups can fall into the two basic categories or parallel operation and series (sequential) operation

  • USB
    Universal Serial Bus

  • Valet Mode
    An easily enabled low-power mode with torque, speed and distance settings that brings peace of mind when entrusting your vehicle to another person

  • VDC (Vehicle Dynamics Control)
    A system based on anti-lock braking that senses a vehicle's loss of grip and impending wayward handling and applies individual brakes and adjusts engine power in order to correct it

  • VE (Volumetric Efficiency)
    The efficiency with which intake air is packed into the cylinders, expressed as a percentage - the higher the better

  • VTC (Variable Timing Control)
    Adjusts the inlet and/or exhaust camshaft position relative to the current crankshaft position

  • VTEC (Variable Valve Timing and Lift Electronic Control)
    A Honda system that improves petrol-engine volumetric efficiency by using two camshaft profiles, selecting between them by hydraulic means. Not to be confused with VVT

  • VVEL (Variable Valve Event and Lift)
    Nissan's petrol-engine valve-lift control system uses links varied by stepper motor to open intake valves, which allows continuous adjustment and optimisation of valve lift. Not to be confused with VTEC

  • VVL (Variable Valve Lift)

  • VVT (Variable Valve Timing)
    Advances or retards the inlet or exhaust camshaft position relative to the current crankshaft position without changing either cam profile or valve lift

  • VVT-i (Variable Valve Timing with Intelligence)
    Toyota's petrol-engine variable-timing technology for inlet valves, featuring two-stage cam phasing under hydraulic control. Variants such as VVTL-i, Dual VVT-i, VVT-iE and Valvematic have since followed

  • Wastegate Duty (also called WGDC Wastegate Duty Cycle)
    The programmed cycling of a solenoid valve that applies positive pressure to the turbocharger wastegate actuator rod in order to control turbo speed

  • WG (Wastegate)
    The boost-limiting valve of a turbocharger installation

  • WHP (Wheel HorsePower)
    The horsepower produced and measured at the driven wheels

  • WOP
    Wide Open Pedal (100% accelerator pedal position)

  • WOT
    Wide Open Throttle, throttle in the fully open position

  • WTQ (Wheel Torque)
    The torque produced and measured at the driven wheels

EcuTek ProECU tuning tools tools should only be used by experienced tuners who understand the product and engine calibration. 
If you do not fully understand this product then you WILL damage your engine, ECU or your vehicle. 
Please ensure you fully read all EcuTek manuals BEFORE attempting to use ProECU with your laptop or your vehicle. 
Use with extreme caution and understanding at all times, if in doubt then do not proceed. 
EcuTek accepts no responsibility for any damage to the engine, ECU or any part of the vehicle that results directly or indirectly from using the product.

** If you are in any doubt that you do NOT have the experienced required to use this product then you should NOT USE IT **

Retail customers

** If you have any doubt that you do NOT have the experienced required to use this product then you should NOT USE IT, you should simply contact your EcuTek Master Tuner shown clearly on the top of your Programming Kit or visit your preferred tuning shop to have a professional tuner to use it for you ** 

Contact Us:

EcuTek Technical Support

(+44) 1895 811200

When dialing from within the UK, the country code is not required so dial 01895 811200

Open Hours

Monday to Friday 9:00am - 5:00pm BST (UK Time)

(4am-1230pm Eastern Standard TIme US)

Visitors by appointment only

EcuTek Tehnologies Ltd.
8 Union Buildings
Wallingford Road
Uxbridge, UB8 2FR

VAT No: 
GB 235 2616 23