M84 User Manual
Contents
1. Typically all other compensation tables should be set to zero Ignition Tables Ignition Main Table The table should be smooth Make sure that the Ignition Main Table is initialised with a conservative curve for the particular engine not too advanced and not too retarded MoTeC Initial Calibration 35 Ignition Air Temp Check the Ignition Air Temp compensation table Typically the following table can be used 20 10 o 10 20 30 40 50 60 70 80 90 100 prefe of of ao of 3 6 9 12 15 Other Ignition Compensation Tables Typically all other ignition compensation tables should be set to zero 36 Initial Calibration MoTeC MoTeC Initial Starting Procedure 37 Initial Starting Procedure The ECU Manager software should be used to assist during starting The ECU Manager software allows all diagnostic errors and sensor readings to be checked and allows the injectors ignition system and auxiliary outputs to be tested while the engine is stopped The calibration tables and setup parameters should also be checked Pre Start Checks Calibration Tables 8 Setup Parameters Check that all setup parameters have been set appropriately Check that all calibration tables have sensible values in them Check that any advanced functions such as Traction Control are turned off Power to the ECU If the ECU has power then the ECU Manager software should indicate that the ECU is co2. Up to eight injectors may be driven fully sequentially including very low ohm types 0 5 ohms Ignition Outputs The Ignition Outputs may be used to drive many different types of ignition systems which are detailed in the various ignition system drawings Up to six ignition outputs are available for multicoil applications e Up to 8 coils may be driven from one Ignition Output using a MoTeC CDI8 or MoTeC Ignition Expander Auxiliary Outputs The M84 has eight Auxiliary Outputs that may be used for Turbo Waste Gate Control Idle Speed Control Gear Change Light Driver Warning Alarm plus many others CAN Communications The CAN Communications system is a high speed network communications system that allows multiple devices to be connected and communicate with each other The CAN connection is used for all communications with the PC via the ECU Manager software which includes calibration diagnostics checking retrieving the logged data firmware upgrading and enabling options 6 Overview MoTeC CAN may be used to communicate with the MoTeC ADL amp SDL Dash Loggers PLM LTC and SLM RS232 Serial Communications Used for receiving GPS data input and transmitting MoTeC Data Set 1 for use with dash displays and loggers MoTeC Overview 7 Calibration amp Setup Calibration Tables The Calibration Tables determine how the output devices should be controlled for various sensor readings For example the fuel calibrati
3. Data Logging is also very useful for identifying unexpected problems such as an incorrect air temperature reading due to fuel vapour cooling the sensor or excessive air temperature due to hot air entering the intake system Data logging may also be used to verify and fine tune the operation of the various advanced functions such as traction control The light load and overrun calibration must also be completed on the road as these areas cannot be adjusted on a dyno 48 Calibration MoTeC MoTeC ECU Manager Software 49 ECU Manager Software Introduction The following is an overview of the main concepts of the ECU Manager software More detailed information is available from the online help The ECU Manager software is used for Calibration and Setup Sending calibration files to the ECU Viewing Sensor readings Viewing Diagnostics information Testing the Outputs Unloading the logged data Upgrading the ECU firmware Enabling ECU options PC Requirements See the MoleC Software section Connecting a PC to the ECU See the MoleC Software section Installing the Software See the MoleC Software section Basics Starting ECU Manager To start ECU Manager double click the icon on the desktop or select ECU Manager from the Start menu for example Start Programs MoTeC M84 ECU Manager 1 0 Note that the desktop icon will start the latest version of ECU Manager 50 ECU Manager Software MoTeC Online Help Onlin
4. The Air Temperature sensor is mainly used to correct for air density change due to air temperature variation The sensor contains a temperature dependant resistor and is designed for high speed response in an air flow The Air Temp sensor must be placed to measure the air temperature before the butterfly and after the intercooler on turbo charged engines Avoid placing the sensor too close to the stand off vapour in a multi runner manifold as this will cool the sensor and give a false reading The ECU Sensor Setup parameters must be set to indicate the particular type of sensor Engine Temp Sensor The Engine Temperature sensor is mainly used for cold start enrichment The sensor contains a temperature dependant resistor and is designed for water immersion The ECU Sensor Setup parameters must be set to indicate the particular type of sensor 18 Installation MoTeC Trigger Sensors REF amp SYNC The trigger sensors supply the necessary timing information to the ECU so that it knows when to fire the fuel injectors and ignition system Normally two sensors are used REF and SYNC Many different types of trigger sensors and chopper patterns may be used The wiring and ECU setup information for the trigger sensors are specific to the particular system Refer to the appropriate MoTeC drawing Home made sensor systems often cause problems Do not use Chrome molly for chopper disks as it is anon magnetic material Runout of the d
5. The Tools Menu allows selection of various functions as listed on the menu below The Tools Menu may also be displayed by pressing the F9 key in this case the previously selected item will be highlighted which makes it easier to do repetitive operations Note that the items on the menu will changes depending on which adjust table is shown For example Quick Lambda is not available for all tables The letter to the right of some menu items is the hot key Pressing this key will activate the item without selecting the Tools menu Layout Utilities Help Axis Setup A Compare Mode On Off C Select Compare File Jump to Site Space Quick Lambda Q Quick Lambda Copy Up amp Right w Lambda Was L Graph G Reverse Y Axis Overall Trim Table Interpolate Vertical Column Interpolate Horizontal Row Copy Vertical Column Right Copy Horizontal Row Up Copy Site Up and Right Fil Set ALL values to current Reset ECU R Clear All Clear Current Del Set with BkSp Copy Table from another File Load Table Save Table Options Compare Mode On Off Turns Compare Mode on or off MoTeC ECU Manager Software 61 Compare Mode shows the difference between the current file and the selected comparison file When Compare Mode is turned on the selected compare file description is shown on the status line at the bottom of the screen The comparison file may be selected by choosing Select Compare Fil
6. B22 AV8 Analogue Voltage Input 8 Analogue Temp Inputs B3 AT1 Analogue Temperature Input 1 B4 AT2 Analogue Temperature Input 2 B5 AT3 Analogue Temperature Input 3 B6 AT4 Analogue Temperature Input 4 B7 AT5 Analogue Temperature Input 5 B19 AT6 Analogue Temperature Input 6 Digital Inputs B8 DIG1 Digital Input 1 B9 DIG2 Digital Input 2 B10 DIG3 Digital Input 3 B11 DIG4 Digital Input 4 Trigger Inputs B1 REF Crank Reference Timing Input B2 SYNC Cam Sync Timing Input Lambda Inputs B26 LA1 P Lambda1 Pump Current B25 LA1 S Lambda1 Sense Voltage B13 LA2 P Lambda2 Pump Current B12 LA2 S Lambda2 Sense Voltage Comms B17 TX 232 RS232 Transmit Data B18 RX 232 RS232 Receive Data B24 CAN LO Can Bus Low B23 CAN HI Can Bus High B14 OV COM OV Comms A13 8V AUX 8V Auxiliary Sensor and CAN Supply MoTeC Appendices 81 Appendix M Wiring Schematic Reter to the Trigger Injectors Connect in firing order Drawings for details for sequential operation REF SYNC Relays or Valves 5V Eng Note 4 AVI ANALOG TEMP INPUTS PIT Ald DOLO WAY ROI UA MOLIM PANA 51 Ved U4 10 PPUM UJ LOFOMPOIGSY 15002 PT Md IILAN ANALOG VOLT Fuel Pressure INPUTS Oil Pressure Exhaust Temp DIGITAL INPUTS gt m O a 3 2 o 2 g io fo S a i a lt Note 3 The Ignition System Relay shoud ba activated using the Fuel Pump control wire to ensure that the Ignition System is off when the engine ls stopp
7. MoTeC ECU Manager Software 51 ECU Status Connected or NOT Connected if the ECU is connected the ECU firmware version is also shown If the ECU is not connected the reason that it is not connected is shown where the Diagnostics Errors are normally shown The number of diagnostics errors if the ECU is connected Calibration Files ECU Manager records the ECU calibration and setup data in files that are stored on the PC hard disk this ensures that a permanent record of the data is kept The files also record comments to allow easy identification of each file Any file may be sent to any ECU which will totally re configure the ECU according the calibration and setup data contained in the file Creating a New Calibration File To create a new calibration file open an existing file and save it to a new file by selecting Save As from the File menu Sending a Calibration File to the ECU To send a calibration file to the ECU select Send File to ECU from the File menu Note that the ECU must be connected to the PC using a MoleC UTC or CAN Cable Changing the Comments To change the file comments select Edit Comments from the File menu Versions amp Upgrading MoleC is continually updating the software and newer versions may be downloaded from the website at no charge www motec com au The software consists of the ECU Manager software that runs on the PC and the control software firmware that runs inside the ECU The ECU firmwa
8. SOUP caia it 30 Input Output FUNCtIONS civic cheers did E dees eevee 30 Other Functions css aaa 31 Initial CalIbrationN ai dis 33 Fuel Tables inei onenn nanea lleida dada dr 33 lontoo Tables tic cia 34 Initial Starting Procedure cooooocccccccccccconnnnnnnancccnnnnnnnnnnnnaas 37 Pre Start CheckSiuurciicansia a a ieee 37 Sta Sead eee etal ed tend soles a eo a Sd 39 Atter Start Eheim fects titi ce ea EE A es ales ae 40 e jo Aol as ad 43 Warning Alarms as eE EEE ETE ET TETE 43 Ensure that the engine is On Site oocococonncccnnccincccnonnnconcnnnnnnnnnc crac crac crac nn 43 Site Tables asnon aee e r Eas A R RETANO ASEE REAS weet id 43 DYNO Calibration avec nerden arta dos ct aaa cera 44 Fuel Main Table cui os 44 lgnition Mal Tabla E A E necia 45 Fuel Injection Timing cocino e 46 Fuel Gold Starton aia re aaee aros dial tee eax 46 Other Calibration Tables ireren iius diadenn iesita destained dio ei ai 46 Data Logging amp Road TestinQ cooococononcccnnoncconnnonnnnnnoncnnnnnon cnc nan nnnn nara nnnnnnn cnn 47 ECU Manager SoftWarl oooomoocccccccnnnnnnnccancccnnnnnnnnnnnnanaanannns 49 INTOAUCH N ooocioiciccica lia li acia 49 Bass a el Ue 49 Calibration FIE Szorin cdo pt lia 51 Versions amp Upgrading eier ae Ea aaea a aeran aaae raaa aaa a ea Aa p aiea amasis 51 Screen Layo ts issis AN 53 Making AdjUStMent oocoooocccononcccnononcnonanancnn non cnn enora de ganai rn nn rn nrnn anna 55 MS acd aniseed ath nad abba dh
9. will add 2 5 to the whole table Block Operations To perform maths on a block mark the block by holding down the Shift key while pressing the arrow keys then perform the maths operation Quick Lambda The Quick Lambda feature allows the Fuel Main Table values to be adjusted to the correct Lambda by simply pressing the Q key This feature uses the Wideband Lambda reading and the value from the Lambda Table to calculate the new fuel table value The Lambda Table may be accessed by MoTeC ECU Manager Software 59 pressing the F8 key The adjustment is made to the value closest to the current engine operating point This feature may be performed from the Fuel Main Table or from the Ignition Main Table Quick Lambda can also be used to trim the Fuel Individual Cylinder Tables by pressing the Q key while the particular table is selected Note that this feature requires a Wideband Lambda sensor or meter to be connected to the ECU Set Indicators An will appear next to items that have been set with the exception of tables that are dependent on the engine operating point where a will only appear if the engine operating point corresponds to the currently selected site The indicates that the point has been tuned The s may be cleared individually or all may be cleared at once To clear an individual press the Delete key To clear ALL select Clear ALL from the Tools menu 60 ECU Manager Software MoTeC Tools
10. Optional Sensors Wide Band Lambda Sensor Wide Band Lambda Sensor Ignition Outputs Auxiliary Sensor Switch Switch Switch Mass Air Flow Sensor Fuel Pressure Sensor Oil Pressure Sensor Exhaust Temp Sensor GearPosition Sensor Auxiliary Sensor Auxiliary Outputs Auxiliary Devices such as Idle Speed Motors Boost Control Valves Relays Waming Lights Wheel Speed or Switch etc Wheel Speed or Switch Wheel Speed or Switch Wheel Speed or Switch Communications RS232 Communications CAN Communications Main Engine Sensors The Main Engine Sensors are required for correct operation of the ECU The engine RPM s derived from the REF trigger sensor The SYNC trigger sensor is required to synchronise the Fuel and Ignition to the correct engine cycle for sequential injection and correct firing of multicoil ignition systems MoTeC Overview 5 The Throttle Position Manifold Pressure Air Temp and Engine Temp are used as inputs to the various calibration tables Optional Sensors The Optional Sensors are not required for basic operation of the ECU The Lambda Inputs may be used for Wideband air fuel ratio measurement or Wideband or Narrowband closed loop Lambda control The Digital Inputs may be used for wheel speed measurement or to activate functions such as Dual RPM Limit The other inputs may be used for data logging e g Exhaust Gas Temp Fuel Pressure etc or for special calibration features Fuel Injector Outputs
11. Range 0 70 to 32 0 Lambda Narrow Band The LA1S and LA2S inputs may be used to measure the voltage of normal narrow band oxygen sensors If closed loop control is to be used then an external 33k ohm bias resistor from the input to OV is required to bias the input to Stoichiometric 0 45V while the sensor is cold Digital Inputs Suitable for Pullup Resistor Voltage Range Positive Trigger Threshold Negative Threshold Hysteresis Filter Time Constant Trigger Edge Measurement Methods Switch to OV logic signal and open collector device e g Hall Switch 4700 ohms to 5 V 0to15V 3 5 V max 1 0 V min 0 5 V Min 22 usec Programmable Switched Speed Frequency Period Pulse Width MoTeC Appendices 73 Appendix D Auxiliary Output Characteristics The following tables list the characteristics for the Auxiliary Outputs Output Low Side Driver High Side Driver General Nominal Min Nominal Min Flyback Max Max Current Max Current Voltage Freq Current Limit A Current Limit A V Hz A A AUX1 5 Tr 5 T Recirculate 10000 AUX2 5 7 5 7 Recirculate 10000 AUX3 1 3 60V 10000 AUX4 1 3 60V 10000 AUX5 1 3 0 7 0 7 Recirculate 200 AUX6 1 3 0 7 0 7 Recirculate 200 AUX7 1 3 0 7 0 7 Recirculate 200 AUX8 1 3 0 7 0 7 Recirculate 200 Normally the current should not exceed the Nominal Max Current but in some circumstan
12. The MoTeC i2 software may be used to analyse the logged data The 2 software is supplied separately to the ECU Manager software The 2 software makes it easy to analyse mixture readings and other sensor readings by presenting the data in various graphical formats Refer to the 2 help screen for more detail 14 Software MoTeC MoTeC Installation 15 Installation Throttle Position or MAP Load Sensing The load point for the fuel and ignition calibration tables may be based on any defined load measuring sensor The most commonly used are the Throttle Position sensor or the MAP Manifold Pressure sensor Turbo Charged Engines Normally use Manifold Pressure load sensing connect the MAP sensor to the inlet manifold A Throttle Position sensor is optional and will be used for acceleration enrichment if fitted Normally Aspirated Engines Normally use Throttle Position load sensing The MAP sensor may be used to compensate for barometric pressure changes by venting it to atmospheric pressure If Idle Speed Control is used then the MAP sensor should be connected to the plenum or Manifold Pressure load sensing should be used This is required so that the fuel is varied as the idle speed control valve opens and closes Sensors Throttle Position Sensor The Throttle Position sensor must be a potentiometer type older switch types are not suitable The sensor will produce a voltage proportional to the angle of the thrott
13. be sure to test the crimp with the particular wire size being used Soldering the terminal is a last resort if the correct crimping tool is not available Soldering will cause a stress point where the solder wicks up the wire which is likely to fracture unless all movement is avoided Solder flux can also cause corrosion and may affect the contacts Terminal Damage The various connector terminals are easily damaged if probes are inserted into them Do not insert probes of any kind into the terminals lf checking a circuit for continuity gently touch the side of the terminals only or preferably attach a mating connector MoTeC Installation 21 Wire Splicing Preferably use a crimp splice If soldering a wire splice wire movement near the joint must be avoided otherwise a fracture may occur at the stress point created by the solder Use heatshrink sleeving to insulate and provide support to the wires Wire Strain Avoid pulling the wires tight at the connectors Wire Movement Avoid wire fatigue by tying the wires down close to the connectors Heat Keep the ECU wires away from the exhaust system Fuel System An ideal race fuel system is shown below a f Damper Filter 12 mitran Pressure naguia _ dl Siralner 100 micron Fuel filter d micron rin pump A Pressure puma Manifold Injectors A Siranar J Water separator Pel berth p Lift Pump The Lift Pump is a
14. before expected Possible causes e Abad SYNC signal has caused extra SYNC pulses check voltage levels with a scope e Abad REF signal has caused missing REF pulses check voltage levels with a scope e Bad REF SYNC alignment e Incorrect Setup No SYNC Two or more consecutive SYNC pulses are missing Possible causes e No SYNC signal check the wiring and SYNC sensor voltage levels with a scope e Abad REF signal has caused many extra pulses check voltage levels with a scope e Incorrect Setup Multiple REF SYNC Errors Multiple REF SYNC errors may occur Often the first error to occur is the correct error Multiple errors may also occur due to incorrect Setup MoTeC Calibration 43 Calibration The Calibration Tables determine how the output devices should be controlled for various sensor readings For example the Fuel Main Table determines the pulse width for the Fuel Injectors for all combinations of RPM and Load The ECU Manager software should be used to adjust the various calibration tables to suit the engine Warning Alarms Set the Warning Alarms to warn if the engine temperature goes too high The warning alarms may be set in the Functions menu Ensure that the engine is On Site The engine must be On Site for changes to the table values to affect the tuning This means that the engine must be operating at the same RPM and Load as the currently selected site in the c
15. exhaust temperatures and help avoid knocking At lighter loads the mixture may be adjusted for best emissions 1 00 Lambda or best economy 1 05 Lambda The cranking starting fuel may be changed by adjusting the O RPM load sites Typically more fuel is required at cranking than at idle RPM The Quick Lambda feature may be used to quickly adjust each table value with one key stroke Press the Q key The adjustment is made to the value MoTeC Calibration 45 closest to the current engine operating point The Quick Lambda feature may only be used if the ECU is directly measuring the Lambda reading The desired Lambda value must be set in the Functions Lambda Control Table If the maximum value in the table falls below 60 then the setup parameter IJPU should be decreased to increase the table values This ensures that the table has sufficiently fine resolution Similarly if the table values reach the maximum table value then the IJPU setup parameter should be increased to decrease the table values Use the F5 key to change quickly between the Fuel Main Table and the Ignition Main Table Use the F6 key to change quickly between the Fuel Main Table and Fuel Timing Table Use the View Fuel Screens to check that all the fuel trims and compensations are correct press the V key Refer to the ECU Manager software help for more details Press F1 Ignition Main Table The Ignition Main Table allows adjustment of the Ignit
16. of the engine operating point For best calibration the indicator should be within or close to the centre rectangle this ensures that the ECU tuning is determined mainly by the site being adjusted and not by the adjacent sites 58 ECU Manager Software MoTeC Up Down Adjustment Up or Down adjustments may be made to the selected table value using the PgUp and PgDn keys Fast adjustments may be made by holding the Ctrl key down while pressing the PgUp or PgDn keys This will increment the value by ten times the normal amount If the PgUp or PgDn keys are held down the value will continue to change until the key is released Locking in the New Value When the desired adjustment has been made the new value must be locked in Set by pressing the Enter key This stores the new adjustment in the ECU s programmable memory e If the cursor is moved before pressing the Enter key the value will revert to its previous unadjusted value Direct Entry The table values may also be entered directly using the number keys followed by the Enter key Maths Operations Mathematical operations may be performed on the currently selected value or the WHOLE table or a BLOCK within a table To perform a maths function enter the value followed by an operation key For example 2 5 will add 2 5 to the current table value To apply the maths operation to the whole table type a T before pressing the operation key For example 2 5T
17. the engine block 20 Installation MoTeC Temporary wiring is likely to cause problems use a proper eyelet terminal that is securely crimped to the ground wire Studs fixed in place by Loctite can also cause a problem as the Loctite becomes an insulator These comments apply to both the ECU ground wire and the Ignition system ground wire The ground wire must be at least 12 3 3 mm and must be kept as short as possible Power Wiring The power wire must be wired by the shortest path possible to the battery via a 30 Amp relay and a 20 Amp fuse The relay and fuse must be in good condition and the wires must be crimped securely to the appropriate terminals The relay should be activated by the Ignition Switch The ECU power must NOT be fed directly from the Ignition switch because it probably won t handle the required current The power wire must be at least 12 3 3 mm and must be kept as short as possible Spark Plug Leads The spark plug leads can cause interference in the ECU wiring Keep the ECU wires away from the plug leads wherever possible at least 100mm If it is necessary to cross the plug leads cross at right angles Terminal Crimping Use the correct crimping tool for each type of terminal Do a pull test on a sample wire and terminal to verify that the crimp is sound In theory the wire should break before the wire pulls out of the crimp Most crimp tools are only designed for a certain range of wire sizes so
18. which allow the ECU to be configured for a particular need or updated later if necessary The options may be enabled at any time by selecting Utilities Enable ECU Options from the main menu and entering the enabling password MoTeC ECU Manager Software 67 Keyboard Reference PgUp Adjust Up PgDn Adjust Down Ctrl PgUp Fast Adjust Up Ctrl PgDn Fast Adjust Down Shift PgUp Slow Adjust Up Not available on all tables Shift PgDn Slow Adjust Down Not available on all tables Enter Set the adjusted Value Alt X Close the ECU or File Esc Show the Adjust menu with the current screen item highlight Tab Select the next Layout page Spacebar Jump the cursor to the site closest to the current engine operating point F1 Show Help F3 Show the Diagnostics Errors screen F5 Toggle between the Fuel and Ignition screens Alt F6 Remember the current screen show it when F6 is pressed Alt F7 Remember the current screen show it when F7 is pressed Alt F8 Remember the current screen show it when F8 is pressed F6 Select the Fuel Timing screen or the remembered screen F7 Select the Boost Limit screen or the remembered screen F8 Select the Lambda Table screen or the remembered screen F9 Show the Tools menu F10 Select the Main menu F11 Copy site up and right C Turn Compare Mode Off On E Edit the File Comments G Switch table between table mode and graph mode L Lambda Was Q Quick Lambda W Quick Lambda plus copy up and right V Sh
19. 0 0 SV Aux Y 5 00 5Y Eng Y 4 98 Input Positions BY Aux V 7 37 SySnPos deg 0 0 ev Eng V 7 98 Reset Fuel Used Reset Max RPM Close Help 66 ECU Manager Software MoTeC Testing the ECU Outputs The ECU Outputs Fuel Injectors Ignition Outputs and Auxiliary Outputs may be tested by selecting Test Outputs from the Utilities menu This allows verification of the operation of the wiring and actuators It is also very useful in checking that the injectors are wired in firing order ECU Password A password may be set in the ECU to stop unauthorised access to the ECU configuration data The password may be set by selecting Adjust Security Setup from the main menu File Encryption File Encryption allows a configuration file to be distributed to a customer without the customer being able to view the contents of the file An encrypted file can only be sent to an ECU that has it s password set to the same value as the Encryption Number that was used to encrypt the file An encrypted file cannot be sent to an ECU with no password The data in an encrypted file cannot be viewed The comments for an encrypted file are the same as those of the file from which it was created The comments cannot be edited It is possible to create files with the same comments so care needs to be taken to ensure the correct files are used Any unnecessary files should be deleted Enabling ECU Options A number of options are available
20. Current Injector Battery Compensation Refer to the ECU Manager help screens for details Calculation Methods Efficiency Calculation Method Load Calculation Method Refer to the ECU Manager help screens for details Number of Cylinders CYLS 4 Stroke engines use positive numbers e g 8 for 8 cyl 2 Stroke engines use negative numbers e g 2 for 2 cyl Rotary engines use 2 for 2 rotor and 3 for 3 rotor Trigger Setup Ref Sync Mode REF Crank Reference Teeth CRT Crank Index Position CRIP These parameters are dependant on the type of trigger system Refer to the appropriate MoleC Trigger drawing or Ignition System drawing 30 Initial Setup MoTeC Note that the trigger sensor type Hall Mag Edges etc must be setup in the Sensor Setup screens Ignition Ignition Type IGN Number of Coils COIL Ignition Dwell Table Ignition Delay Time These parameters are dependant on the type of Ignition Module Refer to the appropriate MoleC Ignition Module drawing or Ignition System drawing Sensor Setup Throttle Position Sensor Hi Lo TPLO Throttle Position LO Closed Throttle TPHI Throttle Position HI Wide Open Throttle The Throttle HI and LO points must be set every time the throttle position sensor is moved or replaced so that the throttle can be correctly scaled between 0 and 100 REF SYNC Sensor Setup The REF SYNC setup parameters must be set to suit the trigger sensors Refer to the MoleC Trig
21. EZ 5750 sooo 6250 esoo 6750 70C gt 5790 v EficykPa 180 0 580 595 600 600 600 5945 585 57 1055 1600 580 530 595 600 600 5940 575 56 Table 140 0 575 580 590 595 590 585 565 56 us a 20 565 575 585 585 580 565 555 53 RPmM 100 0 540 550 _ 560 560 560 550 535 51 00 0 80 0 505 515 520 515 505 495 480g Efcy 60 0 425 430 425 425 415 NO 400 39 ap 40 0 365 365 370 370 365 30 340 32 HRS 20 0 2350 250 250 250 250 240 25 20 IAS 160 MER 160 155 145 130 115 10 SS SOI Fuel Overall Trim 0 0 gt Fuel Trims ms 1 12 Lal Aim Value 0 89 Lambda Diff 039 Vet e Arrow Keys Select PgUp PgDn Adjust Enter Set Value The image above shows one possible screen layout that suits an 800x600 screen Layout Pages Separate layouts may be defined on separate pages A number of pages may be loaded at once and may then be selected by clicking on the tabs at the top of the pages or by pressing the Tab or the Ctrl Tab keys The layout pages are saved to files To open close or create new pages select the appropriate menu item from the Layout menu Layout Objects To add an object to the layout page select Add from the Layout menu or right click on an empty space in the layout page and select Add 54 ECU Manager Software MoTeC To change the properties settings of any object right click on the object and select Properties To delete an object right click on the object and select Delete Adjust Tables and Adjust Graph O
22. MoleC M84 User s Manual Contents o AA 1 Additional Documentation oooconnnccccnnoccccononnnonnnoncnnnnrn cnn nano cnn r nor cnn nnnrn nr rra rnrnnrnnn 1 Ove Ve aair aaa seers ates ree cee eee cetera ees 3 QOpllOns sik Be E ee leek AE Se es dd 3 ECU Inputs amp Outputs cummins ada 4 Calibration amp SOtup ss iseccveicesadecsesech ecards E AT 7 ECW FUNCHONS aes renarna raa Ea E a aa aE aTe dd a aa Sea Ee Ei a adh 8 MoTeC Software castidad certs 11 PG Requirements musicos tallas dele aaa a aaaea he Ean bli ies 11 Connecting a PC to the ECU ooocncccincccnoccconnnanancnnoncnnancnnnncannnccnnnnnnnncnrnn ca nnncnnnnr 11 Installing the SoftWare siazcnsesscaschiscapdsccesvecteucicsedesseecesdessndedeesarizacshantapdezessazars 11 Starting the Software cc eee nan eine crane ered eerie 12 ECU Manager Software ecccecccesscessceeeseeesseeeeseeeeeeseaeeeeaceseaeeessaeseaeeseaeeeaees 12 Data LOGGING 2 cistc A E iria 12 InstallatiON ssa acca occ casos areae aeaaaee oae saacececocasaeevecasduce 15 Throttle Position or MAP Load Sensing cecceeesceeeeeeteteeeeeeeteeeeeeeeteaeeeeeeene 15 E 15 WI aa as 19 FUGISSYSUGIN Aracin ea atar 21 Ignition SYStEM cti a leet hacen tet alte atts a eerie 25 Auxillary VAVE Sataa ea a aan aeaea aa a Eea aa ieia a aAA e aaiae 27 ECU MOUNN iiser ane iA iia ee ele eee 27 E U Cleaning vocoder 27 MASCUS Aaa ee Ae Poetics 29 Main Setup cora eee hai eee ad elie ceive eas me deca 29 SENSOM
23. adele 65 Testing the EGU Outputs ceci atlas 66 Enabling EGU Options it aa eaa aaa aa aoar a oe NE Ae nera 66 Keyboard Reference ccccccccccesceceeteseeeeeseneeesesceeeeeeseeeeteseaeeeseeeseeesseeeeeeseeeenes 67 PD PENGICES 26 sehccc 655 cee ccttcesgi aces teed canes aes acest este 69 Appendix A General Specifications ecceeceesceeeeeeeeneeeeneeeeaeeeeneeeeneeeeneeeeeees 69 Appendix B Sensor Supplies ooooocccincccnocccioncconcncnoncnonc conan ncnncn conc nnancn cana nnannnnan 70 Appendix C Input CharacteristiCS oooncocinnncinnccinnnnnncccnonncnnrncnnrncnnccnnnncnnn canario 71 Appendix D Auxiliary Output Characteristics ooooonnicicnnnnnncnnnccnnocnnoncnnnncnnancnnnno 73 Appendix E Ignition Output CharacteristiCS oonnocinnicinininnnnnoccnnncnncrcnnnanannncnn 74 Appendix F Injector Output CharacteristiCS ooooonnncinnnninninnccnnnccnnnccnnnrncnnnnnnno 75 Appendix H Wire Specificati0NS ooooocncnninnicinnnnnnccnncccnoncncnncncnnrn conc ncnnnncnncncnn 76 Appendix J CAN Wiring Multiple Devices ooooocincccnonicnncconocccnncccnancccnrncnnncnos 77 Appendix K CAN Bus Wiring Single DeviCe oooooocncncnnnicincccnoccconcncnonccananonnos 78 Appendix L Pin list by FUNCHION ooooococnnnnncccnnconnnononcnnnnnrnnnnnnrrnnn nan nnn naar nconnnos 79 Appendix M Wiring Schematic ooococinoccnnnccnnncicncccnnccnnoncnnannnnancnnnnnnnnncnrannnanccnnn 81 For racing and off highway use only Not legal on emiss
24. alibration table Note that when the engine RPM or Load is between table sites the current fuel value or Ignition value etc is affected by the sites to either side For this reason when adjusting the calibration values it is important that the engine RPM and Load are centred on the current adjustment site to ensure that the values from the adjacent sites have minimal influence on the value being adjusted Use the Target at the left of the table to ensure that the engine operating point is centred on the site being adjusted During initial tuning if large adjustments are required to a particular site ensure that the sites around it are also adjusted to a similar value so that the adjacent sites have minimal influence Use the SPACEBAR key to quickly move the adjustment cursor to the engine s current operating point Site Tables The RPM and Load sites for the various calibration tables may be modified in the Setup Sites screen A number of site tables are available which affect different calibration tables Use the help to check which calibration tables are affected by which site tables 44 Calibration MRC To insert or delete sites use the Tools menu press the F9 key When sites are inserted or deleted the calibration tables may be adjusted so that the new sites do not affect the tuning Dyno Calibration The alternator should be connected while tuning the engine to ensure that the injectors are working at normal oper
25. ating voltage The exhaust system should be the same as that in the vehicle as it will affect the engine tuning On multi runner intake manifolds the air box should be fitted as it is an integral part of the intake system and will affect the engine tuning The fuel pressure is critical to the injector flow and should be monitored during dyno tuning Incorrect fuel pressure will result in incorrect tuning Note that on turbo engines the fuel pressure will vary as the manifold pressure varies because the regulator maintains a fixed pressure above manifold pressure Fuel Main Table The Fuel Main Table allows adjustment of the fuel at various RPM and Load points Work through all the table values systematically so that all points are adjusted for the correct Air Fuel Ratio reading Use extreme caution when adjusting the fuel to ensure that the engine does not run lean at high loads It is best to start rich A temperature compensated Wideband Air Fuel Ratio Meter is essential to ensure correct air fuel ratio Note If the engine is misfiring for any reason including over rich the sensor may falsely read lean due to the oxygen in the unburnt mixture The Air Fuel Ratio should be adjusted according to the engine load and the desired results for example power economy emissions etc At high loads the mixture should be approximately 0 89 Lambda for maximum power On turbo charged engines a richer mixture may be required to reduce
26. bjects In order to make adjustments the layout page must contain an Adjust Table or an Adjust Graph or both Note that only one Adjust Table and one Adjust Graph are allowed per page Adjust Tables Adjust Tables show the values for the currently selected table and allow adjustments to be made They also show axis indicators and a target to help positioning of the engine operating point Fuel Main of IJPU P RPM E 5750 6000 6250 6500 6750 7000 5740 v Effcy 90 0 7 0 750 750 750 750 750 750 79 5 80 0 62 0 620 620 620 620 620 70 0 60 0 60 0 600 600 600 600 600 a 20 5 0 510 510 510 50 50 50 50 0 430 430 430 430 430 430 430 40 0 38 0 3830 330 330 380 380 380 30 0 320 320 320 320 320 320 320 20 0 320 320 320 320 320 320 320 10 0 320 320 320 320 320 320 320 320 320 320 320 320 320 Adjust Graphs The table values may also be shown graphically in an Adjust Graph The graph may be rotated if necessary by clicking on the rotation buttons or by holding down the Ctrl key while using the arrow keys Graph Table If there is no graph displayed the table object may be switched between table mode and graph mode by pressing the G key Y Axis Reversing On certain graphs it may be desirable to reverse the Y axis so that the graph surface is easier to see MoTeC ECU Manager Software 55 To do this select Reverse Y Axis on the Tools menu or press the Y key Making Adjustments On Line Offline Changes may be mad
27. bove right and diagonally above and right if the sites do not contain a Lambda Was Adjusts the fuel table value by an appropriate amount by comparing the value entered by the user to the desired Lambda value in the Lambda Table The value that is entered may be either the current Lambda reading from a lambda meter if tuning online or the Lambda reading from the logged data if tuning offline Note that if a Lambda sensor is directly connected to the ECU then online tuning may be performed more easily using the Quick Lambda function Overall Trim Table Trims the whole table by the percentage indicated by the Overall Trim then sets the Overall Trim back to 0 This is useful during initial tuning of the Fuel Main Table since an existing table can be used then trimmed to take into account variations in injector sizing etc Note that it is better to change the IJPU setup parameter if large changes are required as this will ensure that the table numbers maintain sufficient range and resolution i e ensures that the table numbers do not become too small or too large Note that during interpolation the engine may run incorrectly It is therefore best if the engine is stopped during the interpolation If the engine is running a warning will be given before the interpolation is started Interpolate Vertical Column Linearly interpolates the current column between the upper most value and the lower most value leaving the upper most value
28. ces it may exceed this value for a short period of time as long as it does not exceed the Min Current Limit and as long as the duty cycle is low The limiting factor is thermal dissipation in the output driver e The total maximum low side current should not exceed 15A all outputs added together e The minimum frequency for all outputs is 15Hz except when used as a switched output e Items marked use a linear current limit All other outputs shutdown at the current limit 74 Appendices MoTeC Appendix E Ignition Output Characteristics Source Current 20mA Single Coil Coil per Plug 40mA Wasted Spark Source Voltage 5 7V max at 20mA 4 6V max at 40mA Sink Current 1 Amp max nominal 3 Amp current limit MoTeC Appendices 75 Appendix F Injector Output Characteristics The Injector outputs can operate in two modes Peak and Hold mode and Saturated mode Peak and Hold Mode This mode is normally required for low resistance injectors 5 ohms or less This mode allows the injector current to build up to a high value to open the injector and is then reduced to minimise power dissipation in the injector Normally this means that the ECU has to dissipate a large amount of power MoTeC uses a switch mode technique to minimise power dissipation in the ECU The opening current is referred to as the Peak current and the reduced current as the Holding current The peak current is fully programmable and is suitable for very lo
29. e 8V AUX Sensor Supply 5 max over entire temperature range Protection Short circuit Thermal overload Connection to battery MoTeC Appendices 71 Appendix C Input Characteristics Analogue Voltage Inputs Suitable for Potentiometers voltage output sensors and Variable resistance sensors Measurement Voltage 0Oto15V Range Input Resistance 100k ohms to 0 V Resolution 3 74 mV Filter 150Hz 1 order Measurement Method Absolute e Note that variable resistance sensors require a pullup resistor to the 5V sensor supply Normally a 1000 ohm resistor is used e Note that voltages outside the input voltage range may affect the readings on other inputs Analogue Temp Inputs Suitable for 2 wire variable resistance sensors and some voltage output sensors Measurement Voltage 0to15V Range Input Resistance 1000 ohms to the 5V sensor supply and 100k ohms to OV Resolution 3 74 mV Filter 150Hz 1 order Measurement Method Absolute e Note that some voltage output sensors may not be able to drive input resistance e Note that voltages outside the input voltage range may affect the readings on other inputs When used as Switch Inputs The Analogue Temp Inputs may also be used as Switch Inputs 72 Appendices MoTeC Trigger Levels Programmable 0 to 15V Hysteresis Individually programmable high and low levels Lambda Inputs Wideband Sensor Type NTK or Bosch LSU 4 0 4 2 4 9 Measurement
30. e CAN Communications Cable may also be connected to the trunk with up to 500mm 20in of twisted wire and should be within 500mm of one end of the trunk If desired two CAN Cable connectors may be used so that the MoTeC CAN Cable may be connected to either side of the vehicle Both connectors must be within 500mm of each end of the trunk CAN Cable Connector 100 Terminatina p Resistors at each These wires must be Twisted end ofthe CAN Bus Minimum one twist per Orr ir Sorin 1 lt lt CAN Bus gt gt Short CAN Bus If the CAN Bus is less than 2m 7ft long then a single termination resistor may be used The resistor should be placed at the opposite end of the CAN Bus to the CAN Cable connector Single Device See Appendix K CAN Bus Wiring Single Device 78 Appendices MoTeC Appendix K CAN Bus Wiring Single Device When a single device such as an ECU is connected to the CAN bus the wiring scheme shown below may be used to provide a connection point for the MoTeC CAN cable If the wiring length is less than 2m 7ft the terminating resistor is recommended but not essential If other devices are connected to the CAN bus a special wiring scheme is required See CAN Bus Wiring Multiple Devices 5 Pin Connector Black B19 13 Red A3B72 5 CXXX These wires must be Twisted 100R Resistor Minimum one waist per 50mm Zin Not essential if the wiring length is less than 2m 7ft 5 Pin Connector T
31. e Fuel End of Injection Timing at various RPM points and optionally at various Load points This table is only effective if the injectors are fired sequentially Adjusting the Injection Timing ensures that the fuel is injected at the optimum point in the engine cycle so that the engine makes best use of the fuel In theory the fuel should end injection at a point where all the fuel will be sucked into the current induction stroke therefore the end of injection point should be some time before the intake valve closes The optimum point depends on the engine RPM and load Torque economy emissions and idle quality are all affected by the Injection Timing At high duty cycles the Injection Timing will have minimal influence since the injectors are on for most of the engine cycle Refer to the ECU Manager software help for more details Press F1 Fuel Cold Start The Cold Start parameters may be adjusted after the Fuel Main Table has been tuned and the 0 RPM sites have been set for good hot starting Refer to the ECU Manager software help for more details Press F1 Other Calibration Tables The other calibration tables may be adjusted as necessary Refer to the ECU Manager software help for more details Press F1 MoTeC Calibration 47 Data Logging amp Road Testing The calibration must be verified on the road This is best done by logging the air fuel ratio and other sensors and checking them using the MoleC i2 software
32. e appropriate table or setup screen may be selected from the Adjust menu by using the mouse or the keyboard To select the Adjust menu using the keyboard hold down the Alt key followed by the A key then use the arrow keys and the Enter key to make a selection Alternatively the Adjust menu may be displayed by pressing the Esc key This has the advantage that it shows the Adjust menu with the current table selected which often makes it easier to select the next table el MoTeC ECU Manager Start File View Tools Layout Utilities Help fim Close amp Save Alt X P FR XZ Stor IEC TA Ignition gt Injection Timing E Overall Trim Functions Individual Tri Digital Input Functions gt a aa 2 Bank Trims Auxiliary Output Functions gt Second Load Table General Setup Le Secondary Injection gt Sensor Setup Accel Enrichment Data Logging Setup Le Compensations Fuel Ignition Toggle F5 key The F5 key will quickly toggle the screen between the current Fuel table and the corresponding Ignition table or vice versa F6 F7 F8 Key Assignment The F6 F7 or F8 keys may be assigned to any table by pressing Alt F6 Alt F7 or Alt F8 This assigns the current table to the F6 F7 or F8 keys which allows that table to be returned to quickly Changing Table Values Selecting the ltem to be Adjusted The cursor selects the table value that may be adjusted MoTeC ECU Manager Software 57 The cursor may be moved using th
33. e arrow keys or by pressing the Spacebar which will automatically move the cursor to the current engine operating point Note that the table does not show all values at once To view the additional values move the adjustment cursor to the edges of the table using the arrow keys this will cause the table to scroll and show the hidden values Make sure the engine is On Site For adjustments to affect the current engine operation the engine operating point must be at the centre of the selected site The Adjust Table object provides Indicators and a Target to assist in this Fuel Main of IJPU RPM 4500 4750 SOOM 5500 5320 v Effoy 2 90 0 488 490 508 523 533 77 5 65 470 spa ss 70 0 428 440 453 465 473 60 0 400 410 415 425 430 50 0 373 383 388 2395 39 8 P 40 0 345 35 30 365 365 30 0 298 30 3 305 308 308 20 0 250 250 250 250 250 10 0 250 250 250 250 250 0 0 250 250 250 250 250 Table Indicators Indicators are shown at the top and side of the table the black triangles The indicators show the current engine operating point and therefore indicate which table value or values the ECU is currently using The indicators must point to the same site as the adjustment cursor for any adjustments to the current engine tuning The site that is closest to the current operating point is also indicated by a red rectangle Table Target A target is shown at the left of the table This allows more accurate positioning
34. e directly to the ECU Online or to a file Offline Online ECU Connected To make changes directly to the ECU connect the ECU then select Open ECU from the File menu When the ECU is opened the calibration data is first retrieved from the ECU then matched to a file If the ECU data does not match an existing file then a new file will be created at which point an Engine Description and Comment should be entered to describe the file Changes to the ECU are also saved to this file when the ECU is closed Offline ECU not Connected To make changes to a file with the ECU offline select Open from the File menu The file may be sent to the ECU at a latter date by selecting Send File to ECU from the File menu Closing the ECU or File When the changes are completed the ECU or file should be closed by selecting Close from the File menu This will ensure that changes are saved to the associated file Warning Alarms If the Warning Alarms have been set a warning screen will be displayed if any sensor goes outside its alarm limits This can be particularly useful for automatically monitoring engine temperature during a dyno session The alarms can be configured in the Functions table Help Context sensitive help is available by pressing F1 or clicking on the help button This shows help that is relevant to the current screen 56 ECU Manager Software MoTeC Selecting the Adjust Table Once a file or the ECU has been opened th
35. e from the Tools menu When Compare Mode is turned on an icon will appear at the left of the Adjust Menu items that contain differences Select Compare File Selects the file used for Compare Mode Jump to Site Moves the Cursor block to the Site closest to the current engine operating point Quick Lambda Adjusts the fuel value to achieve the Lambda value in the Wideband Lambda table The new fuel value is calculated by checking the difference between the Lambda sensor reading and the value in the Wide Band Lambda Table The Lambda reading may be either Lambda 1 Lambda 2 or the Average of both This is configured in the Wideband Lambda setup The engine must be operating near the centre of the site for the calculation to give correct results Quick Lambda may be used from the Fuel Main Table Fuel Injection Timing Table Ignition Main Table Fuel Second Load Table and Fuel Individual Tables When used from the Fuel Main Table the cursor jumps to the closest site if the cursor is not on site When used from the Ignition M ain Table or Fuel Injection Timing Table the Fuel Main Table site closest to the current operating point is adjusted When used from the Fuel Second Load Table or the Fuel Individual Tables the change is made to that table rather than the Fuel Main Table 62 ECU Manager Software MoTeC Quick Lambda Copy Up amp Right As for Quick Lambda except that the new value is copied to the sites immediately a
36. e generally limited to about 8000 RPM on an 8 cylinder engine but will run a 6 cylinder to 11 000 RPM and a 4 cylinder to 15 000 RPM Most modern road cars run HEI ignition systems that are equally well suited to high performance engines as long as the above RPM restrictions are observed Multicoil HEI or CDI HEI or CDI multicoil systems will generally run any engine to 15 000 RPM Two types of Multicoil systems are possible Coil per plug One coil for each spark plug fired sequentially Double Ended Wasted Spark Double ended coils have two high tension towers and fire two plugs at the same time one on the compression stroke and the other on the exhaust stroke Each coil is fired sequentially twice per engine cycle and must feed the appropriate two cylinders Ignition System Wiring amp Setup The wiring and setup parameters are specific to the particular ignition system Refer to the appropriate MoTeC Ignition System or Ignition Module drawing Distributor Button Alignment If using a distributor the button must be aligned so that it is leaving the tower at Top Dead Centre for that cylinder Button just leaving tower at TOC a pl Button Rotation e MoTeC Installation 27 The button must be a wide tip type to cater for a wide range of advance points since the advance is changed electronically rather than mechanically Make sure that the button still overlaps the tower at the maximum advance point The distributo
37. e help is available in two forms Context sensitive help is available by pressing F1 or clicking on the help button this shows help that is relevant to the current screen General help is available from the Help menu Main Menu MoTeC ECU Manager o lesa File Adjust View Tools Layout Utilities Help The Main Menu is used to access all of the features of the ECU Manager software Select a menu item by using the mouse or use the keyboard by holding down the Alt key followed by the keys corresponding to the underlined letter of the menu items to be selected For example to select File Exit hold down the Alt key then press F then X Alternatively press the F10 key then use the arrow keys and the Enter key to select the desired menu item Unavailable Menu Items Note that some menu items may be unavailable if the ECU is not connected or a file is not opened Unavailable items appear grey Button Bar Toolbar ae 7 86H X Z3 0 The Button Bar provides an alternative way of activating some of the commonly used items on the main menu To find out what each item does hold the mouse pointer over the button of interest until a hint appears Note that some items will not be available depending on whether the ECU is connected and if a calibration file is open Status Bar M84 Connected V9 00L Arrow Keys Select PgUp PgDn Adjust Enter Set Value The bottom line on the screen is called the Status Bar and shows the following
38. e position tables so it is wise to start with a table from a similar engine Fuel Air Temp Check the Fuel Air Temp compensation table Typically the following table can be used 40 30 20 10 o 10 20 30 40 50 60 70 80 ptos 901587 bier 2 0s ee ate 263 peo 105 12 Fuel Engine Temp The Fuel Engine Temp compensation table may be used instead of the cold start warm up parameter If using Engine Temp compensation the following table can be used 10 0 10 20 30 40 50 60 70 80 90 100 110 5 so so a 30 2m0 s 2 0 o oto 34 Initial Calibration MoTeC Fuel MAP Check the Fuel MAP compensation table The fuel must be increased by 100 every 100 kPa increase in air pressure Normally the MAP table should contain the following values with a straight line increase between values 100kPa 200kPa 300kPa 400 kPa 500 kPa 10 o 100 20 30 40 This table is equally applicable whether the MAP sensor is used for barometric pressure measurement or for manifold pressure measurement Note that the higher pressure sites will only be available if a high pressure MAP sensor is used Fuel Cold Start Start with the typical values listed in the help Fuel Acceleration Enrichment Start with the typical values listed in the help Generally acceleration enrichment is not required above 4000 RPM Other Fuel Compensation Tables
39. ed Or use the Looking Into Connector on ECU The Fuse ls essential to ensure that tho Fuel Pump Relay to power the Ignition ECU Is not damaged by reversed battery System This also provides reverse battery protection to the Ignition System Note 4 To avold the Fuse blowing due to Aux 1 2 amp 8 can also dive grounded reversa battery polarity use a Diode loads acdvated Relay eg Basch 0332 014 112 Aux 1 and 2 are HI Power to Auxillary Sensors 90000M LoL ON Sujmesg ON 1884S 82 Notes MoTeC MoTeC Notes 83 84 Notes MoTeC
40. ed directly on the injectors are recommended as they do not suffer these problems The fuel rails must have sufficient volume to minimise fuel pressure pulsation and resonance problems Fuel Pressure Regulator The fuel pressure regulator maintains constant fuel pressure to the injectors which is necessary to ensure constant metering of the fuel Any variation in the fuel pressure will cause a corresponding mixture change The fuel pressure regulator should be mounted at the end of the fuel rail so that fuel is always flowing through the rail This helps to avoid vapour locks Adjustable pressure regulators are available If Using Manifold Pressure Load Sensing Connect the regulator port to the plenum as this ensures that constant pressure is maintained across the injectors Note that this will cause the fuel pressure required from the pump to increase as the manifold pressure increases 24 Installation MoTeC If Using Throttle Position Load Sensing Leave the regulator port open to the atmosphere unless the MAP sensor is connected to the manifold as is recommended when using idle speed control in which case the regulator port should be connected to the manifold Fuel Injectors The fuel injectors meter the fuel by opening for a short but defined time once per engine cycle Sequential operation The injectors must be wired in the firing order of the engine Sizing The size of the injector determines the maximum amount of fu
41. el that can be delivered to the engine As a rule of thumb the engine will require about 5 cc per minute per horse power for petrol or gasoline For alcohol a higher flow rate is required For example A 600 hp V8 will require each injector to flow at least 600 hp x 5 cc min hp 8 injectors 600 x 5 8 275 cc min Note that the flow rate of any particular injector is dependant on the fuel pressure applied to it Sometimes oversize injectors are used to maintain lower duty cycles since high duty cycles reduce the effect of sequential injection because the injectors are turned on for most of the time However this can affect idle fuelling as the injector may have trouble delivering small amounts of fuel Flow Rate Matching The flow rate of injectors can vary between injectors of the same type It is advisable to match the flow rates of injectors by testing each injector on a flow bench Fuel Pressure The fuel pressure applied to the injector will directly affect the amount of fuel that the injector delivers Doubling the pressure however only increases the fuel flow by about 1 4 times Most injectors will only operate correctly over a certain range of fuel pressures If the pressure is too low then the fuel may not atomise properly If the pressure is too high then the injectors may not turn off fully Many injectors MoTeC Installation 25 will operate correctly at 2 5 bar 29 psi and some will operate up to 5 bar 73 psi Cur
42. emory Single Wideband Lambda input Data Logging Allows logging of the ECU sensors and operating parameters to the internal data logging memory The logged data may then be analysed in graphical format using the MoTeC 2 Software Wideband Lambda Allows Wideband Lambda Air Fuel Ratio measurement which may be used for data logging or closed loop control of the Air Fuel Ratio The ECU is compatible with Bosch LSU 4 0 4 2 and 4 9 or NTK Wideband Lambda sensors Options A number of options are available which allow the ECU to be configured for a particular need and can also be updated later if necessary The options may be enabled at any time by entering an enable password Optional functions include e Traction Control e Boost Enhancement Anti lag e Hi Lo Injection e Gear Change Ignition Cut e Advanced Functions Traction Control Boost Enhancement Anti lag Hi Lo Injection Gear Change Ignition Cut e Dual Wideband Lambda Inputs 4 Overview MoTeC ECU Inputs Outputs The ECU analyses signals from the sensors then controls the Fuel Injectors Ignition System and other auxiliary devices according to the Calibration and Setup Data which is stored in the ECU s programmable memory The Inputs and Outputs are shown below M84 Main Engine Sensors REF Trigger Sensor Sync Trigger Sensor Fuel Injector Outputs Throttle Position Sensor Manifold Pressure Sensor Engine Temp Sensor Air Temp Sensor
43. errors press the Enter key while viewing the ECU Manager Diagnostics Errors screen The following operational errors may occur in a new installation MoTeC Initial Starting Procedure 41 Injector Errors Open The Injector is open circuit check the wiring Short The Injector is short circuit check the wiring Peak The Injector peak current was not reached Possible causes e The Injector Current Setup Parameter IJCU is set too high e The battery voltage is too low Over Duty The injector duty cycle is too high typically the duty cycle should not exceed 85 If the injectors exceed their maximum duty then larger injectors or higher fuel pressure is needed REF SYNC Errors The possible causes of the various errors are detailed below REF Error Too many REF pulses have occurred between SYNC pulses Possible causes e Abad REF signal has caused extra pulses or a SYNC pulse has been missed check voltage levels with a scope e Bad REF SYNC alignment e Incorrect Setup No REF Two SYNC signals have occurred without a REF signal Possible causes e Ifthe RPM is 0 then there is no signal check the wiring and sensor voltage levels with a scope e lf RPM is not 0 then a bad SYNC signal has caused extra pulses check voltage levels with a scope e lf RPM is low the REF and SYNC signals may have been swapped e Incorrect Setup 42 Initial Starting Procedure MoTeC SYNC Error The SYNC signal has occurred
44. ger drawings for details Sensor Calibrations The sensors calibrations must be set to suit the connected sensors Refer to the ECU Manager help screens for details Input Output Functions Setup any essential Input Output functions It may be best to start with any non essential functions turned off e g Idle Speed Control Dual RPM Limit etc MoTeC Initial Setup 31 Refer to the ECU Manager help screens for details Other Functions Ensure any other functions such as Boost Control Traction Control etc are all set appropriately It may be best to start with any non essential functions turned off e g Traction Control Lambda Control etc Refer to the ECU Manager help screens for details 32 Initial Setup MoTeC MoTeC Initial Calibration 33 Initial Calibration Before attempting to start the engine the calibration tables should be initialised to sensible values Use the MoleC ECU Manager software to initialise the ECU calibration tables Preferably start with a calibration file from a similar engine as this will make initial calibration faster and easier Clear any s from the tables by selecting Clear s from the ECU Manager software Tools Menu Press the F9 key The s indicate values that have been set correctly which is inappropriate at this stage Fuel Tables Fuel Main Table Check the Fuel Main Table The table should be smooth In general turbo tables look quite different from throttl
45. he Ignition System is functioning correctly Notes e Some special ignition systems do not work in the Ignition Test screen e g Mazda Series 4 and 5 and other direct fire ignition systems e lf the Ignition System is wired via the Fuel Pump relay then the ignition test will not work unless this relay is activated e lt will be necessary to place a spark plug on the lead from the ignition coil if the ignition system uses a distributor Test the Injectors Use the ECU Manager Injector Test in the Utilities menu to ensure that all injectors are working and that they are wired in the correct firing order for sequential operation WARNING Ensure that the fuel pump is off during this test Initial Cranking Crank the engine without fuel pressure and check the RPM reading Check that the RPM reading is sensible if the RPM is too high or too low or is erratic then the Setup may be incorrect or there may be a problem with the REF sensor signal If there is no RPM reading then the REF sensor is not working MoTeC Initial Starting Procedure 39 Check that no REF or SYNC Diagnostic Errors occur during constant cranking Diagnostic errors may occur as cranking winds up this is OK but the errors need to be cleared by pressing the Enter key while viewing the ECU Manager Diagnostics Errors screen so that constant cranking may be checked for errors Diagnostic errors may occur as cranking winds down this is also OK Cranking Ignition T
46. he V key or by selecting the desired view page from the View menu The View Screen displays all the operating details of the ECU including e Sensor data e Diagnostics errors e Fuel injection detail including all trims and compensations e Ignition detail including all trims and compensations e Boost control detail e Status information e Output Status e Internal voltages etc The View Screen has a number of pages that may be accessed by pressing Tab while holding down the Ctrl key or by pressing the first letter of the screen name It also allows resetting of Diagnostic Errors Maximum RPM and Fuel Used The Diagnostic Errors Screen may be accessed directly by pressing the F3 key Note that the View Screen may be viewed with or without the ECU open but only if the ECU is connected View Screen mes Sensors Diagnostic Errors Fuel Ignition Boost Calculated Status Outputs Intemal GPS Trigger Sensors Main Sensors Gear Sensors RPM 5780 Bat v 14 5 FP kPa 385 1 Gear Y 0 00 Max RPM rpm 14192 Lal 0 92 OP 0 Gear 0 SyncPos 38 6 La2 0 00 EGT 0 Ref v 0 28 TP 63 5 User 1 0 Syne Y W 0 07 MAP kPa 100 0 User 2 0 Ref Max W 5 42 ET 0 0 ECU T C 36 9 Speed Sensors Ref Min v 5 54 AT C 36 7 Gnd Spd 0 0 SyncMax V 491 Drv Spd 0 0 SyncMin 4 5 00 LD Spd km h 0 0 RD Spd km h 0 0 LG Spd km h 0 0 AG Spd km h 0 0 Sensor Supplies Slip
47. he engine won t start e Check for correct fuel pressure e Check for fouled plugs e Re check for diagnostics errors e Re check the Ignition Timing with a Timing Light e Check the setup parameters against the drawings e Check that the ignition is wired in the correct firing order e Check that the ignition is firing on the compression stroke not the exhaust stroke After Start Checks Ignition Timing Check Check the Ignition Timing with a Timing Light to ensure that the actual Ignition Timing corresponds to the ECU Ignition Timing as shown on the ECU Manager View screen Check the timing at high and low RPM to ensure that it is correct at all revs If the timing is correct at one RPM but incorrect at another RPM and the REF sensor is a magnetic type then the trigger edge may be incorrect or the sensor may be wired in the wrong polarity Adjust the setup parameter CRIP Crank Index Position to correct for small variations in the REF sensor positioning Adjust the Ignition Individual Cylinder Trim for cylinder number 1 and verify that it changes the ignition timing for cylinder number 1 rather than any other cylinder If not the CRIP is incorrect and needs to be adjusted by multiples of the angle between cylinders Fuel Pressure Check that correct fuel pressure is maintained under all load conditions Operational Diagnostics Errors After the engine has started check for diagnostics errors To clear any non current
48. hese sensors are different to the sensors used on previous model ECUs Note that the sensor heater must be connected to these sensors at all times and must be controlled by the ECU by connecting it to one of the Auxiliary Outputs The sensor should preferably be placed within 0 5 m of the collector pipe on a normally aspirated engine or 0 5 m of the turbo on a turbo charged engine If placed too close to the exhaust outlet the reading may be affected by the outside oxygen The sensor can be contaminated by exhaust manifold sealant use an exhaust gas sensor friendly sealant The lifetime of the Sensor will be significantly reduced by leaded fuels Refer to the MoTeC Tech Notes and Drawings for more details Wiring Wiring Drawings For general wiring details refer to the following drawing M84 Wiring The wiring details for the REF and SYNC Trigger Sensors and the Ignition Module are specific to the type of sensors and Ignition system MoTeC can provide wiring diagrams for most Trigger Sensors and Ignition systems Wiring details for other sensor types are available from MoTeC Wiring Reliability The wiring is critical for reliable operation of the ECU The following points will help to ensure that the wiring is reliable Ground Wiring One of the most common wiring problems is poor ground wiring The ground wire must be grounded properly to the engine block There should be no paint or anodising between the ground wire and
49. iming Check that the Ignition Timing is correct during constant cranking This can best be done in the Crank Index Position setup screen under the ignition menu While in this screen the ignition timing will stay fixed at the value set under Test Advance This allows the CRIP to be adjusted if necessary until the timing matches the Test Advance Notes e Dial back timing lights such as the Snap On brand may not work correctly at cranking use a traditional timing light e For some trigger modes one tooth per firing the Ignition Timing is set by the sensor position only In this case the ECU only controls the timing above 500 RPM e If the spark is going to the wrong cylinder on a Direct Fire Ignition the ignition may be wired incorrectly or the CRIP Crank Index Position setup parameter may be out by a multiple of the angle between cylinders Starting Fuel System Power up the fuel pumps and check the fuel system for leaks before attempting to start the engine Fuel Overall Trim Use the FUEL Overall Trim to vary the mixture when trying to start the engine to see if the engine needs more or less fuel This ensures that the mixture is varied equally for all RPM and Load points Establish how much trim the engine needs on average then trim this out by adjusting the setup parameter IJPU Injector Pulse Width Scaling or by using the Overall Trim Table item in the Tools Menu 40 Initial Starting Procedure MoTeC If t
50. ion Timing at various RPM and Load points Start with a conservative curve for the particular engine not too advanced and not too retarded Use extreme caution when adjusting the Ignition Timing to ensure that the engine does not knock due to excessive advance Re check the Ignition Timing with a Timing Light to ensure that what the ECU thinks is the ignition advance is in fact the actual advance The Ignition Timing should be adjusted for maximum torque without knocking by increasing the advance until the torque stops increasing Make sure there are at least 3 or 4 degrees margin to the knock limit Too much retard will cause excessive exhaust gas temperature At idle a more retarded ignition setting is desirable approximately 10 to 15 degrees This makes the idle speed less sensitive to load changes Also the ignition should be flat over the idle RPM range so that timing variations do not cause the engine to hunt since variations in the timing will vary the engine torque 46 Calibration MoTeC The Quick Lambda feature may also be used from the Ignition Main Table which allows ignition timing adjustments to be made while also maintaining correct mixture readings Use the View Ignition Screen to check that all the fuel trims and compensations are correct Press the V key Refer to the ECU Manager software help for more details Press F1 Fuel Injection Timing The Fuel Injection Timing table allows adjustment of th
51. ions controlled vehicles unless appropriately certified Copyright MoTeC Pty Ltd 2001 2010 The information in this document is subject to change without notice While every effort is taken to ensure correctness no responsibility will be taken for the consequences of any inaccuracies or omissions in this manual 11 April 2014 MoTeC Introduction 1 Introduction Thank you for purchasing a MoTeC Engine Management System This manual will help you understand the installation and calibration requirements of your MoTeC Engine Management System Additional Documentation Additional documentation is available in the form of Drawings and Tech Notes These can be downloaded from the MoTeC website at www motec com au They are also available on the MoTeC Resource CD Drawing Categories Accessories ECUs Looms Ignition Modules Combined Module amp Trigger Systems Trigger Systems Valves Sensors Miscellaneous Tech Notes Traction Control Boost Control Idle Speed Control Closed Loop Lambda Control Wideband Lambda Sensor Others Introduction MoTeC MoTeC Overview 3 Overview The MoTeC M84 ECU is a powerful and compact programmable Engine Control Unit ECU The M84 is characterised by the following features 1 2 3 4 5 6 and 8 Cylinder 2 3 and 4 rotor operation 8 injector outputs 6 ignition outputs 8 Auxiliary outputs Waterproof plastic connector with gold plated contacts 512 kByte logging m
52. isk imperfections and bolt heads are also potential sources of problems Where possible it is best to use the manufacturer s trigger system REF Sensor Supplies the crank position information Some sensors supply one pulse per Top Dead Centre 4 pulses per engine rev on a V8 others supply as many as 360 pulses per engine revolution The Engine RPM is derived directly from this signal SYNC Sensor Used to indicate each engine cycle which is required for sequential injection and multicoil operation Generally supplies one pulse per engine cycle i e once every 2 revs on a 4 stroke engine On some special trigger systems the ECU can be synchronised using the REF sensor only e g Ford Narrow Tooth REF SYNC Alignment Most modern distributors supply both REF and SYNC signals in which case the alignment is pre set When using separate REF and SYNC sensors the alignment of the two sensors relative to one another is critical Ensure that the sensors are aligned correctly for the type of trigger system being used Refer to the appropriate drawing Allow for any mechanical play in the distributor drive system if the SYNC signal is derived from the distributor MoTeC Installation 19 Exhaust Gas Sensor Lambda Sensor The ECU may optionally use a wideband exhaust gas sensor for data logging or closed loop control of the Air Fuel Ratio The ECU is compatible with the Bosch LSU Wideband sensor and the NTK Wideband sensor T
53. le plate Throttle sensors generally have a dead band at either end and must be pre loaded to avoid the dead band The Setup Parameters TPHI and TPLO must be set to indicate the fully closed and fully open positions These parameters must be set any time the 16 Installation MoTeC sensor is moved or replaced lt is very important to set these parameters with the butterfly in exactly the same place each time The resistance element inside the sensor may wear due to vibration in high performance engines which can cause erratic readings lt is best to replace the throttle position sensor periodically Avoid high pressure washing as this may penetrate the seals and damage the sensor For wiring details refer to the appropriate MoTeC drawing MAP Sensor The MAP Manifold Absolute Pressure sensor measures Absolute Pressure i e pressure relative to a vacuum 0 kPa Absolute Complete Vacuum 100 kPa 1 Bar 14 5 PSI Atmospheric Pressure at sea level is approximately 100 to 102 kPa depending on the weather MAP sensors normally produce a voltage between 0 and 5V depending on the pressure The pressure sensor may be used to measure the inlet manifold pressure or to measure the barometric pressure depending on the Load Sensing arrangement detailed earlier The ECU Sensor Setup parameters must be set to indicate the type and pressure range of the sensor Avoid severe vibration of the sensor as this can cause fluctuations i
54. low pressure pump designed to lift the fuel from the fuel tank to the swirl pot header tank The Lift Pump must be capable of flowing enough fuel for full power operation 22 Installation MoTeC Swirl Pot The swirl pot header tank maintains a reserve of fuel to avoid fuel starvation to the engine during cornering and acceleration Fuel starvation can also cause damage to the pressure pump as it relies on the fuel for cooling lubrication and speed limiting The swirl pot also forms a header tank for the pressure pump since the pressure pump is not capable of lifting the fuel from the tank if the tank is lower than the pump Place the swirl pot at the same level or higher than the pressure pump Pressure Pump The Pressure Pump is a high pressure pump that must be capable of delivering the required amount of fuel at the correct pressure at full power It is very important that the pump is capable of maintaining the correct fuel pressure at full power otherwise the engine could be damaged due to a lean mixture A 600 hp engine requires a flow rate of approximately 250 lb hr for petrol or gasoline Notes e The pressure pump must be lower than the outlet of the swirl pot e Prime the pump with fuel before use e The pump s flow capability is dependant on the required pressure the flow capability of the pump will be less at higher pressures A small pump will maintain correct pressure at light load but will not maintain correct p
55. n the reading Do not mount rigidly to the engine Normally the pressure sensor is mounted to the vehicle body If Used for Manifold Pressure Sensing For normally aspirated engines use a 100 kPa sensor For turbo charged engines a 300 kPa absolute sensor will measure up to 200 kPa 29 psi of boost above Atmospheric If higher boost will be achieved a sensor with a higher pressure range will be needed The sensor should be connected to the inlet manifold plenum via a short hose less than 1m The sensor should be mounted above the level of the plenum with the port facing down to avoid moisture accumulating on the sensor element The hose should run downwards all the way to the plenum MoTeC Installation 17 The plenum take off point should be at a position that best represents the average manifold pressure and has minimal pressure pulsations A small restrictor may be needed at the manifold end of the hose to help reduce pressure pulsations The take off point should not be teed in with other items such as idle speed control valves as they can affect the pressure reading If used for Barometric Pressure Sensing Use a 105 kPa sensor Vent the sensor to the atmosphere with the port facing down Avoid mounting at a point where air buffeting occurs Any pressure fluctuations will directly affect the mixture It may be desirable to sense the pressure at the air intake as the pressure may vary due to aerodynamic effects Air Temp Sensor
56. ner Clutch Control e RPM Load Table Output e Gear Change Light Output e Fuel Used Pulse Output e Slip Warning Output e Alternator Control e Spray Bars Output e Status Output e Thermo Pump 10 Overview MoTeC MoTeC Software 11 MoTeC Software The following software is available for the M84 ECU ECU Manager Used for calibration setup diagnostics output testing upgrading unloading the logged data and enabling ECU options i2 Used to analyse the logged data PC Requirements e IBM PC compatible e 200 MHz Pentium or faster e Operating System Windows XP Windows Vista Windows 7 Connecting a PC to the ECU The PC must be connected to the ECU by a MoTeC UTC or CAN Cable Note that the ECU must be wired with the mating connector MoTeC CAN Cable Connected to the Printer Port Installing the Software The MoTeC Software must be installed on to the PC hard disk before it can be used 12 Software MoTeC The main software required is the ECU Manager software if Data Analysis is required then the 2 software should also be installed The software can be downloaded from the MoTeC website at www motec com au It is available on the MoTeC Resource CD MoTeC is continually updating the software and newer versions may be downloaded from the website at no charge To install the software after downloading from the web double click on the downloaded file and follow the instructions Note that a sepa
57. nnected at the bottom left corner of the screen Diagnostic Errors Before starting the engine check the diagnostic errors on the ECU Manager Diagnostic Errors screen Any errors must be rectified before starting the engine To clear any non current errors press the Enter key on the PC while viewing the Diagnostics Errors screen e Note that the diagnostic errors are lost if the ECU power is turned off Sensor Errors If an error is shown for a sensor that is not fitted the sensor should be disabled by setting the sensor setup number to zero Sensor Errors may be due to bad wiring to the Sensor either short circuit or open circuit 38 Initial Starting Procedure MoTeC Test the Sensors Before starting the engine test that all sensors are giving sensible readings by viewing their values on the ECU Manager View screen Vary the sensor readings if possible to check for correct operation Check that the Throttle Position Sensor varies smoothly from 0 to 100 when moved from fully closed to fully open Note that the TPHI and TPLO setup parameters must have been set correctly for correct operation of the Throttle Position sensor The MAP sensor should read barometric pressure when the engine is stopped approximately 100 to 102 kPa at sea level depending on the day The Engine Temp and Air Temp sensors must give correct readings Test the Ignition Use the ECU Manager Ignition Test in the Utilities menu to ensure that t
58. ns menu the Digital Input Functions menu or the Auxiliary Output Functions menu Help on each function is available from within ECU Manager by pressing the F1 key when the appropriate screen is shown Tech Notes are available from MoleC on the more complicated functions such as Traction Control The functions are as follows Functions The following functions are setup in the Functions menu e Boost Control e Warning Alarms e Gear Detection e Overrun Fuel Cut e Ground Sped Limiting e Gear Change Ignition Cut e Boost Enhancement Anti lag e Lambda Control e Traction Control e Idle Control must also be setup in the Digital Input Functions must also be setup in the Auxiliary Output Functions MoTeC Overview Digital Input Functions The following functions are setup in the Digital Input Functions menu e Speed Measurement e Period Measurement e Pulse Measurement e Dual RPM Limit e Air Conditioner Request e Ignition Switch e Brake e Logging Enable e Clutch e Overrun Boost Enhancement e Traction Control Enable e Ground Speed Limiting e Power Steering Auxiliary Output Functions The following functions are setup in the Auxiliary Output Functions menu e Boost Control e Idle Speed Control e Aux Table Controlled Output e Tacho Signal e Stepper Idle Speed Control e Lambda Sensor Heater e Fuel Pump Control e Thermatic Fan Control e Air Conditioner Fan Control e Air Conditio
59. on table determines the base injector pulse width for all combinations of RPM and Load Other calibration tables will also affect the fuel injector pulse width such as Air Temperature compensation and Engine Temperature compensation The ECU determines the amount of fuel to inject by first calculating the RPM and Load then extracting the corresponding value from the table If the RPM and Load do not match an RPM and LOAD point exactly then the values from the closest sites are mathematically interpolated to arrive at an intermediate value A typical 3 dimensional fuel calibration table is shown below Fuel Main of IJPU id soo 750 1000 1250 1500 Load 50 0 350 405 440 440 440 440 Fuel 4 NS QS SNA SS S SOS 8 Overview MoTeC Setup Parameters The Setup Parameters allow the ECU to be configured for almost any engine The Setup Parameters include Number of Cylinders Ignition Type Sensor Types Injector Current Auxiliary Output Functions etc e The Setup Parameters must be correct before attempting to start the engine ECU Functions The ECUs can perform a large number of functions in addition to the normal Fuel and Ignition control capabilities including Hi Lo injection Individual Cylinder tables for Fuel and Ignition Rotary Ignition Split and various sensor compensations The functions are setup using ECU Manager either in the Functio
60. ow the last View screen S Show the sensors tab on view screen Y Reverse the Y axis on the table graph or both Delete Delete at the current site Backspace Place at the current site Home Select one of a number of default view angles for the graph Ctrl Arrrow Change the view angle of the graph Shift Arrow Mark a block on the table mathematics may be applied to the block Ctrl Shift Arrow Copy the current table value to an adjacent cell 68 ECU Manager Software MoTeC MoTeC Appendices 69 Appendices Appendix A General Specifications Physical Case Size 147mm x 105mm x 40mm 5 8in x 4 1in x 1 6in Weight 0 50 kg 1 10lb Power Supply Operating Voltage 6 to 22 Volts DC Operating Current 0 5 Amps Max excluding sensor and load currents Reverse Battery Via External Fuse Protection Battery Transient Internal Clamp Protection Operating Temperature Internal Temperature 10 to 80 C 14 to 176 F Range Ambient Temperature 10 to 70 C 14 to 158 F typical depending on Range output loading 70 Appendices MoTeC Appendix B Sensor Supplies Maximum Current 5V ENG Sensor Supply 0 20 Amps Max 5V AUX Sensor Supply 0 15 Amps Max 8V ENG Sensor Supply 0 30 Amps Max 8V AUX Sensor Supply 0 30 Amps Max Accuracy Temp Drift 5V ENG Sensor Supply 0 5 max at 25 C 100ppm C max 5V AUX Sensor Supply 0 5 max at 25 C 100ppm C max 8V ENG Sensor Supply 5 max over entire temperature rang
61. r should have no mechanical or vacuum advance as this is provided by the ECU Spark Plug Leads The spark plug leads should be high quality Inductive Suppression leads such as Magnicor leads and must be in good condition e Do not use wire leads as they can cause interference e Do not use resistive suppression leads as they will reduce the spark energy Auxiliary Valves The ECU can control various auxiliary devices such as Idle Speed or Turbo Boost control valves Refer to the appropriate MoTeC drawing for setup and wiring details Refer also to any relevant Tech Notes ECU Mounting The ECU should be mounted in an area where the internal temperature of the ECU will not exceed 85 C Generally this is in the passenger compartment Allow for adequate air circulation around the ECU The ECU internal temperature may be viewed using the ECU Manager software or it may be recorded using the data logging Mount so as to minimise vibration this will help to prolong the ECU s life ECU Cleaning Avoid high pressure washing or degreasing of the ECU 28 Installation MoTeC MoTeC Initial Setup 29 Initial Setup Before attempting to start the engine the setup parameters must be correct Use the MoleC ECU Manager software to adjust the setup parameters Preferably start with a calibration file from a similar engine as this will make setup faster and easier Main Setup Injectors Injector Scaling IJPU Injector
62. rate folder directory is automatically created for each version of the software Old versions are kept so that they may be used if necessary e Do not change the MoTeC directory structure or move the software to a different directory otherwise the software will not operate correctly Starting the Software To start the MoTeC Software double click the appropriate icon on the desktop or select the appropriate program from the Start menu For example Start Programs MoTeC M84 ECU Manager 1 0 ECU Manager Software The ECU Manager software is covered in more detail later in this manual Data Logging Data Logging allows the ECU operational data to be recorded in a memory chip inside the ECU The data may then be extracted for analysis on a PC Data logging is extremely useful for checking mixture readings sensor readings diagnostics errors and other operating information The items to be logged and the logging rates must be setup using the MoTeC ECU Manager software This is done in the Data Logging Setup screens The ECU will remember the logged data even if the ECU power is turned off e Ifthe logging memory becomes full the oldest data is overwritten so that the most recent data is always available MoTeC Software 13 Unloading the Logged Data The logged data can be extracted by connecting the MoTeC UTC or CAN Cable to the ECU and selecting Utilities Get Logged Data from the ECU Manager menu Data Logging Analysis
63. re may be updated at any time by the user which allows the latest features to be used The ECU Manager version may be viewed by selecting About from the Help menu The ECU firmware version is shown on the ECU Manager status line when the ECU is connected 52 ECU Manager Software MoTeC Matching Versions The version of ECU Manager and the version of the firmware in the ECU must match in order to be able to communicate with each other To communicate with an ECU that has older firmware in it either the matching ECU Manager software must be used or the ECU firmware must be upgraded to match the version of ECU Manager on the PC Upgrading the ECU To upgrade the ECU firmware select Upgrade ECU Version from the Utilities menu This will send the new firmware to the ECU and automatically convert the calibration data in the ECU to ensure it is compatible with the new firmware Calibration File Versions The calibration files that are stored on the PC must also match the version of software being used To ensure that older version calibration files are not rendered useless the older version calibration files may be converted in order to be used with the new version of the software To convert older files select Convert from the File menu Minor Version Updates Minor version updates do not require the calibration data to be converted but still require the firmware to be sent to the ECU by selecting Upgrade ECU Version from the Utili
64. rent Different injectors require different operating currents The ECU injector drives must be programmed to suit the injector using the Injector Current setup parameter Pulse Width The amount of time that the injector spends open during each injection pulse is called the Injector Pulse Width and is measured in milliseconds thousandths of a second abbreviated as msec The injector pulse width is controlled by the ECU according to the ECU s calibration data Duty Cycle The Injector Duty Cycle is a measure of the ratio of the time the injector is open pulse width to the available time per engine cycle For example if the injectors were on for half the available time then the duty cycle would be 50 The maximum allowable duty cycle is about 85 percent beyond this the injector does not have time to open and close and is therefore open continuously and cannot deliver more fuel The ECU will set a Diagnostics Error if the duty cycle exceeds the maximum allowed duty cycle Ignition System Ignition System Types Many different types of ignition systems are available with some better suited to different applications than others CDI Distributed CDI systems are suited to high revving engines with 8 or more cylinders and are generally capable of at least 12 000 RPM on an 8 cylinder CDls are also good at firing fouled plugs 26 Installation MoTeC HEI Distributed High Energy Inductive HEI distributed ignition systems ar
65. ressure as the flow requirement increases e On boosted engines the pressure required from the pump increases with boost pressure because the regulator maintains constant pressure above manifold pressure e Avoid running the pump dry as this may destroy the pump Filters The filters are necessary to ensure that the fuel pump is not damaged and to ensure that the injectors do not become blocked e The strainer before the pressure pump is essential to prevent the pump from seizing A strainer is used because the pressure pump won t suck through a paper filter MoTeC Installation 23 Fuel Lines The fuel feed lines must be high pressure type and should be at least 8mm 5 16 inch diameter The return lines should also be at least 8mm 5 16 inch diameter to ensure that the fuel is easily returned to the tank Use proper high pressure hose clamps to ensure that the lines do not blow off under pressure Keep the fuel lines as cool as possible to avoid fuel vaporisation The temperature of the fuel will also affect the mixture due to the change in fuel density Avoid fire risk by ensuring that all hoses and fittings are in good condition and installed correctly Fuel Rails The fuel rails must be free of any debris that could block the injectors Welded fuel rails can often cause a problem unless they have been properly treated to remove all scale and debris and even then they may corrode and cause problems Aluminium fuel rails mount
66. tables The s are normally used to indicate which sites have been tuned Clear Current Clears the on the current site 64 ECU Manager Software MoTeC Set with Sets an on the current site whether or not the engine is currently at that site Copy Table from Another File Copy a table from another calibration file into the current table Warning The current table data will be overwritten Import CSV File Read a CSV Comma Separated Value file into the current calibration table Normally the CSV file is one that has been written out from another configuration file possibly for a different ECU type Warning The current table data will be overwritten Note that the CSV file must be for the same type of table Note also that the site values are not imported therefore the site values must be the same as the sites in the CSV file for the table to have the same result Export CSV File Write the current table to a CSV Comma Separated Value file May be used to transfer data between different ECU types or for use in a spreadsheet Insert Site Insert a site to the left of the current site The new site value will be half way between the value of the current site and the value of the site to the left Available only in the Site setup screens Delete Site Delete the current site Available only in the Site setup screens MoTeC ECU Manager Software 65 View Screen The View Screen may be shown by pressing t
67. the lower most value and points marked with an unchanged Note that it may be necessary to use the Backspace key to mark the desired points with an Interpolate Horizontal Row Linearly interpolates the current row between the left most value and the right most value leaving the left most value the right most value and any points marked with an unchanged MoTeC ECU Manager Software 63 Note that it may be necessary to use the Backspace key to mark the desired points with an Copy Vertical Column Right Copies the data in the current column to the column immediately to its right Copy Horizontal Row Up Copies the data in the current row to the row above Copy Site Up And Right Copies the value of the current site to the sites immediately above right and diagonally above and right if the sites do not contain an Reverse Y Axis Reverses the Y axis for the Graph or Table or both This makes some graphs easier to see Toggle Table Mode If a table is displayed and there is no graph displayed this will switch the table between table mode and graph mode Set All Values To Current Set all values in the current table to the value of the current site Reset ECU Resets the ECU This can be useful if changes have been made to a setup item that requires the ECU to be reset normally this does not happen until a different screen is selected Clear All Clears all s in either the currently displayed table or all
68. ties menu Minor updates usually contain bug fixes or minor enhancements A minor update is one where the number before the decimal point and immediately after do not change for example 1 004 1 00C 1 01A are all minor updates of version 1 0 Software Version Release Notes The changes between the various software versions may be viewed by selecting Release Notes from the Help menu MoTeC ECU Manager Software 53 Screen Layouts The screen layouts are completely user definable and may be optimised to suit the user s preference the screen resolution and the task to be performed For example it may be useful to have screen layouts to suit different types of engines or to perform particular tasks such as Idle Control or individual cylinder tuning E MoTeC ECU Manager Start e File Adjust View Tools Layout Utilities Help BAG sAGM 73 0 MoTeC RPM 5790 Lambda 1 1 02 LaDit ET C Batv v Main Sensors Fuel Lal Aim Value 089 oo 1100 160 RPM 5790 TP 89 0 F APW ms 962 aay 1 10 j i Etfcy kPa 105 5 MAP kPa 105 5 F Duty 46 3 SY 5g Load kPal 105 5 Bat V V 14 5 F Time deg 320 0 Rar 7 ET C 80 0 F Trims ms 1 12 2 0 38 80 0 145 Lambda ATIC 20 0 52 8 ist 100 EGT C D Ignition 21 93 La2 0 00 lan Adv 4BTDC 28 0 O 1000 10 5 LaCult Off Trims ABTDC 0 0 7 gt 0 05 20 0 sol Lacuiz Off Fuel Main of MPU APM s2so
69. w ohm injectors including 0 5 ohms Peak Current Programmable from 0 to 6 Amps Holding 25 of Peak Current Current Flyback 60V Voltage Diagnostics Open Circuit Short to Battery Peak current not reached Saturated Drive Mode This mode is normally used for high resistance injectors 12 ohms or greater Nominal Maximum Current 2 Amps Current Limit 4 Amps Flyback Voltage 60V Diagnostics Open Circuit short to Battery High Low Injection The injector output characteristics may be set independently for High Low injectors allowing two different types of injectors to be used 76 Appendices MoTeC Appendix H Wire Specifications M22759 16 Wire Ratings For Various Wire Gauges Insulation Material Tefzel Conductor Tin Plated Copper Voltage Rating 600 V Maximum 150 C Temperature Cross Max Current Resistance Resistance Sectional at 100 C ohm m ohm 1000 ft Area mm Ambient MoTeC Appendices 77 Appendix J CAN Wiring Multiple Devices The CAN bus should consist of a twisted pair trunk with 100R 0 25Watt terminating resistors at each end of the trunk The preferred cable for the trunk is 100R Data Cable but twisted 22 Tefzel is usually OK The maximum length of the bus is 16m 50ft including the MoTeC CAN Cable PC to CAN Bus Communications Cable CAN Devices such as MoTeC ADL BR2 etc may be connected to the trunk with up to 500mm 20in of twisted wire The connector for th
70. ype Deltron 716 0 0501 Non Latching Neutrik NC5FDL1 Latching MoTeC Appendices 79 Appendix L Pin list by Function M84 Pin No Abbrev Description Battery A26 VBAT Battery Positive A10 A11 GND Battery Negative Sensor Supplies A12 8V ENG 8V Engine Sensor Supply A2 5V ENG 5V Engine Sensor Supply B16 OV ENG OV Engine Sensor Supply A13 8V AUX 8V Auxiliary Sensor and CAN Supply A9 5V AUX 5V Auxiliary Sensor Supply B15 OV AUX OV Auxiliary Sensor Supply Auxiliary Outputs A18 AUX1 Auxiliary Output 1 Al AUX2 Auxiliary Output 2 A23 AUX3 Auxiliary Output 3 A24 AUX4 Auxiliary Output 4 A31 AUX5 Auxiliary Output 5 A32 AUX6 Auxiliary Output 6 A33 AUX7 Auxiliary Output 7 A34 AUX8 Auxiliary Output 8 Ignition Outputs A3 IGN1 Ignition Output 1 A4 IGN2 Ignition Output 2 A5 IGN3 Ignition Output 3 A6 IGN4 Ignition Output 4 A7 IGN5 Ignition Output 5 A8 IGN6 Ignition Output 6 Injector Outputs A19 INJ1 Injector Output 1 A20 INJ2 Injector Output 2 A21 INJ3 Injector Output 3 A22 INJ4 Injector Output 4 A27 INJ5 Injector Output 5 A28 INJ6 Injector Output 6 A29 INJ7 Injector Output 7 A30 INJ8 Injector Output 8 80 Appendices MoTeC Pin No Abbrev Description Analogue Voltage Inputs A14 AV1 Analogue Voltage Input 1 A15 AV2 Analogue Voltage Input 2 A16 AV3 Analogue Voltage Input 3 A17 AV4 Analogue Voltage Input 4 A25 AV5 Analogue Voltage Input 5 B20 AV6 Analogue Voltage Input 6 B21 AV7 Analogue Voltage Input 7
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