?_ l9F Stinger 4Copyright ...0RegisterRoutine("MMSYSTEM","sndPlaySound","Si")-RegisterRoutine("MMSYSTEM","mciExecute","S")BrowseButtons()Zmain>DO/MAINStinger 4bOz0W pO)M##O,l?ZsecondaryWindow1tinger 4bOz0W pO)W##O,l@@@@ZsecondaryWindow2tinger 4bOz0W pO)W##O,lZsecondaryWindow3tinger 4bOz0W pO)W##O,lZsecondaryWindow4GlossarybOz0W? pOtOW##O,lZsecondaryWindow5IndexrybOz0W? pOtOW##O,l/&;)z4|CONTEXT|CTXOMAP|FONT9|KWBTREE|KWDATA|KWMAP|SYSTEM|TOPIC|TTLBTREE|bm0|bm1Z|bm10V|bm11|bm12%|bm13ft|bm14|bm15M|bm16z|bm2|bm3|bm4<|bm5|bm692|bm7|bm8|bm9YB9 @L1B|LZDGetting Started= * $&6Getting Startedm8L5 8q6When you start the Stinger 4 ECU Control Software the first screen to appear is the tuning screen. You can read data from the ECU or a saved file by selecting the appropriate menu option. You can also read tune files created with version 3 software. To read from a saved file you go to menu option "File -> Open Tune File", select the file you want and press the "OPEN" button.To read from an ECU you must first have one connected and on-Line. You can tell if an ECU is on line when the green light on the bottom right corner of the window is flashing. To bring a connected ECU on-line go to menu option "ECU -> On Line". If the command is successful then the green light will be flashing.To read from the ECU go to menu option "ECU -> Read from ECU". If the ECU is connected and On Line then the information will start down loading into the PC/Laptop.All ECU data is saved in files. You can create any number of files each with a different name. To save the data to a file go to menu option "File -> Save Tune File", enter a file name and press the "SAVE" button.)& 4N^.}0 0\6y`See Convert Stinger 3 files to Stinger 4*' 6)}& 4N^4.* $h6Setting the ECU parameters for a specific engine(V( 6Press the Goto "ECU Setup" button to go to the ECU Setup screen. Use this screen to set the parameters for a specific engine. You can set parameters such as number of cylinders, number of igniters, types of engine sensors attached, load sensor type etc.).& 4NJV0 046Fa_OSee ECU Setup Screen9* $6Auxiliariesr) "6There are 2 parts to the Auxiliary Control Settings screen.Output Control Circuits and Input Control circuits)& 4Nk.1 = J\6ς&ISee Digital InputSee Turbo Anti LagFw * $86 Output Control circuits}1  * "6The Stinger 4 provides four programmable auxiliary outputs, each output can perform one of 12 functions. 8 of the 12 functions can be used to control relays and tachos, the remaining 4 provide pulse width modulated output for controlling variable devices such as PWM idle control motors and boost control.Use the Auxiliary Output screen to define the function for each output.)w G & 4Nq4 = Jh6NwuދASee Auxiliary OutputsSee PWM modes 9 - 12;G * $"6Engine Tuning_  - (6The Stinger 4 control software provides a graphical view of the ECU mappings.This gives the user an instant overall picture of how an engine is tuned, highlighting any abnormalities.All engine tuning is performed via this screen. If the Ecu is on line with this computer ,any change made to the tuning maps is instantly transmitted to the ECU.) & 4NP  0 0@6~8See Fuel and Ignition Maps; 3* $"6Tune Analyserc ' 6Tune Analyser is a feature designed by EMS to assist in tuning an engine to its peak performance)3& 4Nl/R= J^6ȭ2, nUser Defined GaugesSee Tune Analyser>* $(6Special FeaturesJR0 0461xiSee Special Features: @* $ 6 @ Data Logging"A1 06The Stinger 4 system provides flexible data logging capabilities to assist in gaining the maximum efficiency from an engine.NOTE: Data logging is only available if the ECU is attached fordata logging.) @KA& 4NF"AA0 0,6xSee Log Controls=KAA* $&6Wiring Diagrams$AC I63vȆzcARӀp<O@CĀ%Jހ'1!2$ECU Connection DiagramAuxiliary Input ConnectionsTrigger and Sync Sensor ConnectionsHall SensorEMS Igniter WiringNOS Wiring Diagram6 Cylinder DFI Wiring Diagram4 Cylinder DFI Wiring Diagram2 Rotor DFI Wiring Diagram3 Rotor DFI Wiring DiagramS)AC* $R6Setting up your own triggering systemo2CZD= Jd6D.aiCrank and Sync DiagramCrank wheel SetupT#CD1@ DNConvert Stinger 3 file to Stinger 4R(ZDE* $P6Convert Stinger 3 files to Stinger 4DE( U6You can open tune files that were created with Stinger tuning software version 3 but you can not open files that were created with the older version 2 tuning software.)EE& 4NM&EHF' L6Steps to open version 3 tune files.)EqF& 4NHF5G, &1v:l1 Select the "Open Tune Files" option and then select "Stinger 3 Tune Files" in the "File of Type" field. (This will show all Stinger 3 tune files).qFqFG+ &v:l2 Select the file you want to convert and press the "Open" button.tI5GH+ &v:l3 Save the file. Once saved, the file will be converted to version 4.i?GH* $~6All version 2 files must be converted to version 3 first.)HH& 4NP)HH' R6Steps to convert version 2 tune files.)H%I& 4N^3HI+ &fv:l1 Open a tune file using the version 2 software%I9J, &v:l2 Download this tune into a Stinger 3 or Stinger 4 ECU that has not been upgraded. (Serial numbers beginning with ST1,ST2,ST3 or ST43)mBIJ+ &v:l3 Close the version 2 software and open the version 3 softwareW9J(K+ &v:l4 Read the tune back from the ECU you just down loaded into the version 3 software.@JhK+ &*v:l5 Save this file.rG(KK+ &v:l6 Close the version 3 software and open the new version 4 software.hKL, &1v:l7 Select the "Open Tune Files" option and then select "Stinger 3 Tune Files" in the "File of Type" field. (This will show all Stinger 3 tune files).^K'M+ &v:l8 Select the file you just saved using the version 3 software and press the "Open" button.tILM+ &v:l9 Save the file. Once saved, the file will be converted to version 4.'MqN+ $W6NOTE:If a version 3 file has been opened with the version 4 software then you will need to reset the soft and hard rev limiter values as well as the boost cut value.)MN& 4NAqNN1|]N?ECU Setup screen>NO* $(6ECU Setup ScreenhANO' 6Describe all of the engine specific parameters in this screen.)OO& 4N";O؁ w6j<ت 7ÀgYZURO؁NW,+Cthu9 X܀9kc x5nLoad SourceInjector ArrangementTrigger SensorTrigger EdgeTrigger Pull Up ResistorNumber of Trigger TeethSync SensorSync EdgeSync Pull Up ResistorStatic TimingLambda SensorNumber of CylindersIgnition TypeIgnition Fire EdgeNumber of IgnitersEO 6BC'N&'X?DPi݄O{^eʀHzʀG`\-:`k.̀Dwell mSInjector OhmsSensitivityAspiration (Intake Induction)Supercharger BoostAcceleration EnrichmentEnrichment DurationSoft Rev LimiterHard Rev LimiterBoost CutDeceleration Fuel CutCalibrate Throttle Position SensorBase PWM FrequencyTeeth After MissingH؁?0 0061Closed Loop Lambda< {1u{Load Source9?* $6Load Source{- (U6There are two load source .Load source 1 is the main default load source that the ecu uses in theFuel and ignition main MAPS. This can either be MAP sensor or TPS)& 4NE1 ]Injector ArrangementB;* $06Injector Arrangement_2- *d6Multi point 360 for rotary and piston enginesi<;- (y6Check the position of the fuel injectors. They must be fitted as Multi Point (1 injector per cylinder). When Multi-point 360 is selected regardless of the number of cylinders, the computer will fire the injectors twice every cycle (once per crank rotation). Throttle body should be selected for 2 strokes. ),& 4NY,- *X6Multi point 720 for piston engines only,L/ ,16Check the position of the fuel injectors. They must be fitted as Multi Point (1 injector per cylinder). When Multi-point 720 is selected regardless of the number of cylinders, the computer will fire the injectors once every engine cycle (two complete crank revolutions). Using Multi point 720 will provide smoother idle with larger injectors.NOTE: Throttle body should be selected for 2 strokes. )u& 4Nj=Lߊ- *z6Throttle Body for rotary and 2 or 4 cycle piston enginesk@uJ+ $6Check the position of the fuel injectors. They may be fitted to a Throttle Body (all injectors at one single point).When throttle body is selected the computer fires the injectors every ignition pulse if it is a 6cyl or less. If it is a V8 or more the computer will fire the injectors every 2nd ignition pulse. )ߊs& 4NNJ0 0<6oSee Injector connectionsEs1%Injector connectionsBH* $06Injector Connections83 6 6 "?H1BTrigger SensorA* $.6Trigger Sensor Type5 5* $6General( 6Signals from Optical, Hall or Magnetic sensors can be used to trigger the Ecu on the trigger circuit or the sync circuit. These inputs are programmable by selecting either of the following.)5F& 4N<* $$6Hall / Optical_F) "6Hall and Optical sensors are usually 3 wire sensors. They produce a square wave signal.see)?& 4N]-0 0Z6ARӀSee Trigger and sync sensor connections6 ?* $6MagneticuLG) "6Magnetic sensors are 2 wire sensors.They produce a sine wave signal.see)p& 4N^.G0 0\6ARӀSee Trigger and sync sensor connections.T#p"1%"Trigger and sync sensor connectionsQ's* $N6Trigger and Sync Sensor Connections8"3 6 6 "< s1̃oTriggerEdge:!* $ 6Trigger Edge5 V* $6General!)* "S6The trigger edge determines whether the computer is triggered by the positive or negative edge of the trigger signal. The computer can be triggered by either edge.)VR& 4N:)* $ 6For MagneticW.R) "\6The trigger edge must be set to positive.) & 4NHT* $<6For Hall / Optical sensors F5 8{6Depending on the sensor Wheel Slots / Teeth, The signal will either be Rising orFalling at approx 10 degrees BTDC.If unknown, connect a multi meter from the Trigger wire to ground and watch the voltage level change while turning the engine slowly by hand to determine if the signal is Rising or Falling.If Rising, select + TriggerIf Falling, select - Trigger.DANGER !Disconnect the ignition coils before rotating the engine by hand.)To& 4N= F1>R TrigResistor>o* $(6Trigger Resistor* "6When Hall is selected for the trigger input, the "TRIGG RES" feature gives you the option of selecting "ON" if the ECU is to Introduce a 1000 ohm pull up resistor to 8V or "OFF" if the 1000 ohm resistor is to be disconnected.)$& 4N8\3 6 6 "$^/ ,6 TRIG RES "ON" TRIG RES "OFF"The "ON" is usually selected if the Stinger 4 ECU alone is to be connected to the trigger sensor .If Stinger 4 is installed in a piggy back situation where the original ECU is still connected to the trigger sensor then both computers' will share the signal.Since the original ECU has a pull up resistor in circuit, the Stinger 4 pull up should be selected to be "OFF".)\& 4N=^* $&6Magnetic Sensor* "-6When a magnetic sensor is selected for the Trigger sensor, the TriggerResistor is automatically turned off by the Ecu regardless of this setting.)& 4N: 1' ̃u TrigTeethK!2* $B6Number of teeth per cam cycleI{* $>61 tooth per cylinder firing2, &6In situations where there is 1 tooth per cylinder firing you can select either "Multi teeth off" or a number that is equal to the number of cylindersSync sensor is not required if single ignition coil is used.){& 4NF0 0,6lSee Engine Cycle9'* $6Multi tooth4 6_6If there are more Trigger teeth per cycle than cylinders, Key in the amount of teeth per cam cycle.Note: The amount of Teeth per cycle must divide down equally b'y the amount of cylinders.Eg. 24 teeth divided by 4 cylinder = 6. This is ok.Eg. 18 teeth divided by 4 cylinder = 4.5. WILL NOT WORK !The teeth must be spaced evenly and a sync sensor MUST be used.The trigger tooth directly after the sync tooth is the index tooth.The index tooth is usually positioned in front of the Trigger sensor when the engine is at 10 BTDC on cylinder No. 1If "Missing tooth" Ignition mode is selected then you can set the index tooth by setting the "No. of teeth after missing" field.)'?& 4No/ ,6NOTE:If the trigger wheel is running at the same RPM as the crank then you must double the number of teeth counted on the wheel and enter the number into to "No. of teeth per cam cycle" field. If the trigger wheel is running at the same RPM as the cam then you must count the teeth on the wheel and enter the number into to "No. of teeth per cam cycle" field.)?& 4N: @1JR @PPer Cycle:z* $ 6Engine Cycle}@'0 .61 engine cycle = 2 complete crankshaft revolutions for 4 stroke engines.In this time the distributor would rotate 1 complete turnIf the trigger teeth are in the distributor or camshaft driven crank angle sensor,count the number of trigger teeth and enter it into the "No. of Trigger teeth " setting.If the trigger teeth are on the crankshaft, count the teeth and double.)zP& 4N< '1=u  Sync Sensor>P* $(6Sync Sensor Type5 * $6General) 6Signals from Optical, Hall or Magnetic sensors can be used to trigger the Ecu on the trigger circuit or the sync circuit. These inputs are programmable by selecting either of the following.)& 4N<N* $$6Hall / Optical_) "6Hall and Optical sensors are usually 3 wire sensors. They produce a square wave signal.see)N& 4N]-\ 0 0Z6ARӀSee Trigger and sync sensor connections6  * $6MagneticuL\  ) "6Magnetic sensors are 2 wire sensors.They produce a sine wave signal.see) 0 & 4N]-  0 0Z6ARӀSee Trigger and sync sensor connections90  1 SyncEdge7  * $6Sync Edge5 2 * $6General  * "G6The sync edge determines whether the computer is triggered by the positive or negative edge of the sync signal. The computer can be triggered by either edge.)2 ( & 4N: b * $ 6For MagneticP)(  ' R6The sync edge must be set to positive.)b  & 4NH # * $<6For Hall / Optical sensors . *A6Depending on the sensor Wheel Slots / Teeth, The signal will either be Rising orFalling.If unknown, connect a multi meter from the Trigger wire to ground and watch the voltage level change while turning the engine slowly by hand to determine if the signal is Rising or Falling.If Rising, select + TriggerIf Falling, select - Trigger.DANGER !Disconnect the ignition coils before rotating the engine by hand.)# & 4N> X1XhDSync Resistor;* $"6Sync ResistorX@) 6When Hall is selected for the trigger input, the "Trigger Pull up R@esistor" feature gives you the option of selecting "ON" if the ECU is to Introduce a 1000 ohm pull up resistor to 8V or "OFF" if the 1000 ohm resistor is to be disconnected.)@& 4N8@A3 6 6 "@C. *6 TRIG RES "ON" TRIG RES "OFF"The "ON" is usually selected if the Stinger 4 ECU alone is to be connected to the trigger sensor .If Stinger 4 is installed in a piggy back situation where the original ECU is still connected to the trigger sensor then both computers' will share the signal.Since the original ECU has a pull up resistor in circuit, the Stinger 4 pull up should be selected to be "OFF".)ADC& 4N=CC* $&6magnetic SensorDC?D) +6When a magnetic sensor is selected for the Trigger sensor, the TriggerResistor is automatically turned off by the Ecu regardless of this setting.)ChD& 4N> ?DD1ރD{FStatic TimingDhDD* $46Static Ignition Timingh;DRF- (w6Select "locked". The ECU will fire the ignition timing where the trigger has been fitted BTDC. To see where the trigger has been fitted, a timing light should be used to check the timing of the engine.Once the static timing is established, eg. 10 BTDC. select 10 degrees BTDC inthis field and press enter.)D{F& 4N> RFF1·F>MLambda sensor;{FF* $"6Lambda sensor.F"H- (6This selects the type of lambda sensor that is connected to the Ecu.The Ecu converts the sensor signal to and Air / fuel Ratio if Bosch wide band sensor is connected and can used as a tuning aid.NOTE: Use Sensor safe sealants on the exhaust system.)FKH& 4N1"H|H* $6OffDKHH) "66This turns lambda off.)|HH& 4N_5HHI* $j6Bosch 4 Wire (Bosch Sensor Number 0 258 104 002)H?J+ $6In this mode the Ecu Provides Temperature compensation and Linearization of the sensor to give accurate and repeatable results.Allow 4 minutes for the sensor to reach minimum operating temperature. )HIhJ& 4NK!?JJ* $B6Bosch 5 Wire (Innovate LC-1)P hJK0 0@6ʗ See LC1 Connection DrawingP#JSL- (G6In this mode the Stinger ECU reads either analog 1 or 2 of the LC-1.Before the LC-1 can be used with the Stinger it must be calibrated. Use LM Programmer software to calibrate the LC-1. Set the output to read 0.050 volts for 8.0 air-fuel-ratio and 0.950 volts for 22 air-fuel-ratio.)K|L& 4N9SLL* $6Narrow Band`9|LM' r6You must use narrow band sensor for this mode to work.)L>M& 4N< MzM1ރzMMLC1 DiagramD>MM* $46LC1 Connection Drawing8zMM3 6 6 "5M+N1·+N CylsAMlN* $.6Number of Cylinders?+NO. *#6Adjust to the correct number of cylinders / Rotors for your engineNOTE:For Two Stroke engines, double the number of cylinders to achieve the correct R.P.M. Eg: Two cylinder Two stroke = 4 in the amount of cylinders.)lN & 4NO M8OD1DIgnType; * $"6Ignition Type5 D* $6General~* "A6This feature is constantly being update as new triggering modes are developed for different engines. Most common mode used in most applications is mode 00.)& 4NB~* $06IGN TYPE (00) Normal- (I6For piston engines with multi tooth distributors or crank angle sensors. The number of teeth/cycle should be selected in the "No. of Trigger Teeth" setting.For engines with same number of teeth in distributor or cam sensor as cylinders should select 0 in the "No. of Trigger Teeth" setting.NOTE: To use the TRIG/CYC page you must have evenly spaced and an even number of trigger teeth (Max. 24 per engine cycle). The SYNC tooth must be between the last trigger tooth and trigger tooth 1.Trigger tooth 1 must be approx. 10 deg. before to dead center. Use only one sync tooth per cycle for sequential spark. 1 or 2 sync teeth can be used for wasted spark applications.)& 4NB%* $06IGN TYPE (01) Nissan[0+ $a6Is used for Multi-coil applications using cam mounted crank angle sensors eg; CA18, RB20, VG30, SR20.Ignition outputs 1, 2, 3 can be used, the ECU will fire these outputs in 1 2 3 order, 6 cyl engines would use 1, 2 & 3 as wasted spark.0 Number of Trigger Teeth must be used with all Nissan modes.)%& 4NX(0 0P6qSee Nissan crank angle positioningIJ. ,66IGN TYPE (02) Nissani=, &{6Is used for Multi Coil applications when a distributor is used instead of a cam mounted crank angle sensor .Eg, FJ20, ET PULSAR.Ignition outputs 1,4 & 2,3 will be fired if 2 igniters have been selected in the setup screen. Note: When using a distributor, select ignition type 00 and do not connect sync wire. )J܈& 4NX(40 0P6qSee Nissan crank angle positioningL܈. ,<6IGN TYPE (03) WRX SUBARUE4Ŋ+ $56Set Number of cyl to 4, Number of Trigger Teeth to 0.If using a coil pack then set Number of igniters to 2 and use outputs 1 & 2 as wasted spark. If using 4 separate coils then set Number of igniters to 2 and use outputs 1 & 4 for front cylinders and 2 & 3 for rear cylinders.)& 4NAŊ/. ,&6IGN TYPE (04) 87 <6Direct fire rotaries.For 2 rotor Select 24 in the No. of Trigger Teeth page, 2 Rotor, 2 Igniters. Output 1(pink) is for leading. Output 2 (o/r) is for trailing 1, Output 3(gry/blk) is for trailing 2. 3 Rotor select IGN TYPE 00For 3 rotor select 3 Rotor, 24 in the No. of Trigger Teeth page, 3 igniters .Output 1 leading & trailing 1Output 2 leading & trailing 2Output 3 leading & trailing 3.For Rotaries with Distributors, Select Ignition Type 00)/a& 4Nn18ύ= Jb6'1!2$2 Rotor DFI diagram3 Rotor DFI diagram8a* $6N16 Nissanύ) 6This is a special ignition mode for the QG 4 cyl 2002 model. This may also work on other 4 cyl Nissan engines for the same vintage.)& 4N9* $62001 Subaruf( 6This is a special mode for Subarus made since 2001, these are the ones with the round head lights.)Џ& 4N>* $(6''AudЏ i 136 Teeth{SЏ( 6This is a special mode for Audi V6 engines with 135 teeth plus 1 missing tooth.)& 4N@* $,6Missing tooth mode+ $6This is for crank teeth with 1 or 2 missing teeth.For this mode to work you must also set Number of trigger teeth, Sync sensor used and Tooth number after missing.This mode does not work on 3 & 5 cylinder engines.)-& 4N[J d6k.̀7See Number of teeth per cam cycleSee Missing Tooth ModeSee Sync Sensor UsedO-!1J!!Nissan crank angle positioningL"m* $D6Nissan Crank Angle PositioningW!/ ,6All Nissan Crank Angle Sensors need to be re positioned.Nissan Sensors are normally set to 60 deg BTDC.The ecu requires the trigger sensor to be positioned approx.5 - 15 Deg. BTDC.If the engine is fitted with a Distributor the Rotor button(if driven via a gear) or optical sensor or disk needs to be repositioned (if no gear drive) .)m& 4NC_1C_2 Rotor DFI Wiring@* $,62 Rotor DFI Wiring8_3 6 6 "83 6 6 "CR1!_R3 Rotor DFI Wiring@* $,63 Rotor DFI Wiring8R3 6 6 "C 1GC Missing Tooth Mode@M* $,6Missing Tooth Mode N+ $6The ECU needs to know which tooth is the static (index) tooth. This is normally somewhere between 15 deg BTDC and TDC.EG: If the static tooth is 5 teeth after the missing tooth/teeth then put 5 in this field.)Mw& 4NNr+ $6NOTE: Please see chart below for rules governing missing tooth mode.This chart describes the maximum allowable number of teeth after the missing for different cylinder engines."NS" Denotes not supported)w& 4NWrs#Ҁ$6!6!>6!v6!Maximum allowed for 36 - 1Maximum allowed for 60 - 2Maximum allowed for 12 - 1#Ҁ&$6!6!6! 6!4 Cyl14262s#Ҁ($6!6!6! 6!5 CylNSNSNS0#Ҁ&$6!6!6!6!6 Cyl716NS#Ҁ&$6!6!6!6!8 Cyl511NS0Y#Ҁ($6!6!6! 6!10 CylNS8NS#Ҁ&$6!6!6!6!12 Cyl26NS$Y" AR1_RSync Sensor Used>* $(6Sync Sensor UsedR. *6Set this to "Yes" If you want to fire igniters sequentially (one coil per plug).This is used in conjunction with missing tooth mode or Subrau Boxer 2001+ Mode.Because most missing tooth wheels run from the crank (same RPM as Crank) the ECU will receive 2 index signals per engine cycle and therefore true sequential is not obtainable.By reading a TDC sync signal from a cam or distributor wheel the ECU can then run in true sequential mode.)& 4NC1W Ignition Fire Edge@7* $,6Ignition Fire Edgev5 86The Ignition Fire Edge setting determines whether the ignition output is normally ON and then turned OFF to fire the coil or normally OFF and then turned on to fire the coil. you can see the effect of this on the ignition sequence simulator.Negative fire will leave the ignition output OFF and then turn it ON to fire the coil.Positive fire will leave the ignition output ON and then turn it OFF to fire the coil.NOTE:Be aware that setting the Ignition Fire Edge to positive fire will leave power on the ignition output which could cause coils and igniters to burn out if they are not designed to operate in this mode.)7 & 4N9D1]D Igniters= * $&6No. of Igniters*D' 6)& 4NC* $26''Multi Ignition CoilA X4 66This enables you to fire up to 4 coils sequentially. By using multiple coils, you eliminate the use of a distributor cap and rotor button. In this section you must set the correct number of Igniters that will be sequenced. Eg. 4 cyl with 4 coil sequential, select 4 igniters.Eg. 4 cyl with 4 coil wasted spark, select 2 igniters.Fires 1 & 4 together and 2 & 3 together.Eg. 4 cyl with 2 coil wasted spark, select 2 igniters.If using a dissy cap and rotor button to distribute the spark, set to 1 igniter. If more than one igniter is chosen, the computer will fire these Igniters sequentiallyand requires a Sync sensor to be connected. To enable the computer to fire more than one igniter sequentially, an extra (reset) sync must be given to trigger the computer.)& 4NBX* $06Single Ignition coil|U? ' 6You must use a separate igniter between the ECU and coil. See ECU Connections help)h & 4NI?  0 0263vSee ECU Connections@h  1v f Ecu Connections= . * $&6Ecu Connections8 f 3 6 6 "6.  1]K  Dwell?f  * $*6Ignition Dwell mS  2 2{6Ignition dwell time is the amount of charge time the coil is charged for, before it is fired.This time will vary between different ignition and coil systems. Typically 3.5mS is used. The ECU is adjustable between 1.5 mS and 5 mS of dwell. Nissan direct coil on plug, set dwell to 2 mS.NOTE: Incorrect dwell time will result in a weak spark or overheating the ignition system. For more information contact your local EMS dealer.)  & 4N5 ( 1v!( @Ohms; c * $"6Injector Ohms( `@0 .6Set this setting to the approximate ohms (*, Resistance) of your fuel injectors. Low ohm injectors have a faster response time than high ohm injectors. So by setting the correct injector resistance will allow the ECU to compensate for injector latency more accurately.You can do a test by using a Multi-Meter. Unplug the electrical harness off one of the injectors and place the Multi-Meter's probes on the injector pin outs (where the electrical harness clips on) and measure the resistance. When you have a reading adjust the Ecu to the closest setting.Note: If you are using Staged Injectors with a different vc `@ alue of Ohms, Set the Ecu to the value corresponding to the Primary Injectors.see)c @& 4NN`@@0 0<6oSee Injector connections< @A1K~ACSensitivity9@LA* $6Sensitivity|KAC1 06In this section you will find that you have 3 settings to choose from; Coarse(0), Medium(1) and Fine(2). You may need to experiment with these settings to obtain the best response time. The coarse setting is used for normal throttle bodies, medium is for a large throttle bodies and fine is for the use of a larger throttle bodies. This function will only appear on screen if a throttle position sensor has been fitted and selected in the "ECU Setup" screen.These settings affect both the amount of fuel and how quickly the accelerator pump fuel enrichment is activated.)LAC& 4NAC2D1r!F2DcFIntake Induction>CpD* $(6Intake Induction.2DD) " 6)pDD& 4N<DE* $$6Normal / TurbovMDyE) "6Select this setting if the engine is Normally aspirated or Turbo charged)EE& 4N;yEE* $"6Super Charged]6E:F' l6Select this setting if the engine is Super Charged.)EcF& 4N9:FF1e~ FGMaxBoostAcFF* $.6Super Charger BoostFG+ $/6Set this value equal to the max boost pressure that will be reached . This setting is only for super charged engines, not used for turbo engines.)FG& 4N: GH1F3!HKAccelpumpDGFH* $46Accelerator Enrichment]HK> J?6"Acceleration Enrichment" setting adds % of extra fuel for immediate acceleration. Through acceleration testing, adjust the ECU until you have reached a satisfactory engine response. The value in this setting represents a percentage increase of fuel when the accelerator is pushed. This is normally set between 5 and 30%. The duration of the increase is defined in the "Enrichment Duration" setting.NOTE: You will need to place an amount in the "Enrichment Duration" setting so you can correctly fine tune the "Accelerator Enrichment". There is a pre-set figure of 16 in "Accelerator Enrichment" and 20 in "Enrichment Duration" but you may need to adjust these figures. When Tuning the fuel Maps at steady state, temporarily set these to 0 and don't forget to reset afterwards.)FHK& 4N> K L1" LNAccelPumpTimeAKKL* $.6Enrichment Durationp7 LN9 @o6Enrichment Duration sets the time for which the fuel is added. Through acceleration testing, adjust the Ecu until you have reached a satisfactory engine response. You will need to move back and forward between Acceleration Enrichment and Enrichment Duration to get the best settings. Enrichment Duration = The amount of cylinders fired that extra fuel is added.Normally set to 20 for 4 cyl and 30 for 6 cyl etc. but can be reduced.When tuning the fuel maps at steady state, temporarily set this to 0 and don't forget to reset it back afterwards.)KLN& 4N8NO1M3#OсRevSoft<NXO* $$6Soft Rev LimitDO6 :6The Ecu has a Rpm Limiter that can be adjusted from 0 to 32000 RPMIf you wish to use this option, set to the reXONquired rpm limit and press the enter button. The rpm limiter cuts the fuel out on every second engine cycle eg. the engine will be injected with the correct amount of fuel for one cycle and no fuel for the next cycle, in turn not running the engine lean at any stage.To disable the Soft Rpm Limiter set it to 0 RPM.NOTE: Rev limiter should only be used if there is one injector per cylinder runner.)XOс& 4N8 1E$ RevHard<сE* $$6Hard RPM Limitz . *6The Ecu has a Rpm Limiter that can be adjusted from 0 to 32000 RPMThe Ecu will cut the fuel at the selected R.P.M and will enable the fuel when the R.P.M has dropped below this value. This will prevent an engine from over revving.If you wish to use this option, set to the required rpm limit and press the enter button. To disable the Hard Rpm Limiter set it to 0 RPM.)E& 4N9O1p%OBoostCut7 * $6Boost CutO, &6Select the allowable pressure limit before cutting the fuel injectors off.The fuel will be injected again once the pressure has dropped below the value set. If boost cut is not required select OFF.)& 4N6߅1&߅DecelC"* $26Deceleration Fuel CutN߅p0 .=6This feature allows the tuner to cut fuel to the engine on deceleration. Select at which vacuum value you would like the computer to cut fuel. If this feature is not required select No Fuel Cut.The fuel injection is stopped when the vacuum is stronger than the selectedvalue.)"& 4NU$p1p'Throttle Position Sensor CalibrationR(@* $P6Throttle Position Sensor CalibrationhA' 6The Throttle Calibration is located in the ECU Settings screen)@ш& 4NA* $.6Use Throttle Sensorшω( +6If a Throttle sensor is fitted and is required to be used in the accelerator pump maps calculations, (tick) the "Use Throttle Sensor" check box.)& 4N<ω4* $$6Close Throttle>r/ ,6(Use only if a throttle position sensor is fitted)Note: With the engine turned off, make a visual and physical check of the throttle to see that it does fully open and close. With your throttle closed, press "Read Closed Throttle" button on the setup screen.)4& 4NAr܋* $.6Fully Open Throttle>. *!6 (Use only if a throttle position sensor is fitted)NOTE: With the ENGINE TURNED OFF make a visual and physical check of the throttle to see that it does fully open and close. Open your throttle fully, then press "Read Open Throttle" button on the setup screen. )܋C& 4N5 x* $6GeneralCs0 .6 This function can only be used if a throttle position sensor has been fitted and the Use Throttle sensor check box is ticked. If the engine has not had the throttle position sensor connected ,the Use Throttle sensor check box must be unchecked. The reason for this set-up is so the computer will still calculate acceleration enrichment using the map sensor. If the throttle is mechanically adjusted, the throttle calibration must be re-entered. )x& 4NCsߏ1I(ߏPWM Base Frequency@+* $,6ߏ+PWM Base FrequencysFߏ- (6The Base Frequency is used in mode 9 to 12 of the Auxiliary outputs.This is an overall frequency setting used by all 4 outputs when a pwm function is selected on that output.The frequency range is adjustable between 1hz and 3923hz. Most valves or idle control valves normally function between 20 HZ to 100 HZ.)+& 4NC 1 ) Closed Loop Lambda@J* $,6Closed Loop LambdaY ( 6The Stinger 4 offers two closed loop lambda control modes. Narrow band and Wide band.)J& 4N9-* $6Narrow Band#P0 .6Set the operation mode to Narrow Band.Select the maximum automatic adjustment allowed in the "Allowable Change +/-" field. This setting prevents the ECU form over-adjusting the fuel delivery.Set operating range in the "Operating Range" field. This will turn off the lambda control when the engine is above the selected vacuum (closer to zero). The ECU will start controlling again once the engine vacuum goes below the selected level.The Target A/F Ratio can not be selected in this mode.)-y& 4NDP* $46Bosch 4 Wire Wide BandCy, &/6This mode used the Bosch 4 Wire sensor (Bosch Sensor Number 0 258 104 002)In this mode the Ecu Provides Temperature compensation and Linearization of the sensor to give accurate and repeatable results.Allow 4 minutes for the sensor to reach minimum operating temperature. ))& 4NU+~* $V6Bosch 5 Wire Wide Band (Innovate LC-1)P#)- (G6In this mode the Stinger ECU reads either analog 1 or 2 of the LC-1.Before the LC-1 can be used with the Stinger it must be calibrated. Use LM Programmer software to calibrate the LC-1. Set the output to read 0.050 volts for 8.0 air-fuel-ratio and 0.950 volts for 22 air-fuel-ratio.)~& 4NK!B* $B6Wide Band Closed Loop Controli=, &{6Select the maximum automatic adjustment allowed in the "Allowable Change +/-" field. This setting prevents the ECU form over-adjusting the fuel delivery.Set operating range in the "Operating Range" field. This will turn off the lambda control when the engine is above the selected vacuum (closer to zero). The ECU will start controlling again once the engine vacuum goes below the selected level.Set the target A/F ratio you want to achieve in the "Target A/F Ratio" field. The ECU will automatically adjust the fuel delivery in order to achieve the selected target.)B& 4N@1v I0*Auxilary inputs;O* $"6Digital Input5 * $6GeneralO?+ $!6There are 4 user selectable modes. Depending which modeis selected, different grey fields will become active for values tobe changed. see)h& 4N>?* $(6Disable Anti lag h* "6This mode will disable (turn off) the anti lag if active.Most common use is to connect to a switch that is actuated by the Clutch pedal or thumb operated switch. When pedal is release, the switch will be actuated thus disabling the anti lag.)& 4NB1* $06Two Step RPM limiter_0/ ,a6This mode will enable the "Rpm Limit" field. In one switch position,the Ecu will engage the Soft RPM limit to the value selected in thefield. In the other 1switch position, the Ecu reverts back to the normal RPMlimits set in the main setup page.This mode gives the user an extra stall Rpm limit.)1& 4N@* $,6Idle Up Percentage/ ,6This mode is used in conjunction with one of the Auxiliary Outputs set to Idle control mode.The In Gear Idle up % field will become active.The Input can be connected to auto transmission or air / concompressor clutch so that if a gear is selected or the air air / concuts in, the extra idle up % value will open the idle valve to help stopengine stalling with the additional load shock.)& 4N:#* $ 6Nos Functionu5 86This mode is used when Nitros oxide injection is activated.The auxiliary input would be connected to the Nos solenoid.When activated, The user can select the amount of Ignitionretard in degrees and fuel enrichment in mS to be performed.These two fields will become active when this mode is selected.Note:It is recommended that the fuel portion required with the gas beinjected by a separate fuel solenoid and only use the Nos Fuel Increaseto trim if a little extra fuel is needed.If you use the Nos Fuel Increase to inject all the fuel required tomix with the Nos, ensure that the fuel injectors are large enough!)#& 4N?51+5 DTurbo Anti Lag<q* $$6Turbo Anti Lag85* $6Rally ModejqdQ p6Rally mode selects boost enhancement for rally cars on throttle back off. When the throttle position signal is BELOW the pre-set TPS level AND when the engines RPM is above the pre-set RPM level, the boost enhancement feature is enabled. When the boost enhancement is enabled the ECU misfires the Ignition (see Ign. Fire), retards the timing (see Ign Trim) and adds fuel (see fuel trim). This feature would be used in conjunction with an auxiliary o/p to energize a blow off solenoid valve to either bypass the throttle body or to blow air directly into the exhaust manifold near the exhaust ports.RPM >This sets the minimum RPM that the ECU will enable the boost enhancement.T/P <When the throttle position signal is BELOW this setting, the boost enhancement will be enabled.NOTE: Both T/P AND RPM conditions must be true to enable the boost enhancement.KPAThis setting has no effect in S/Mode 01 (see mode 02).IGN FIRE(Ignition Misfiring)SETTING 00This selects Ignition misfire sequence Fire Fire Miss Fire Fire Miss Fire Fire.SETTING 01Selects Ignition misfire sequence Fire Miss Fire Miss Fire Miss Fire Miss.SETTING 02Selects Ignition misfire sequence Miss Miss Fire Miss Miss Fire Miss Miss.NOTE: In Twin turbo installations, the engines firing order must be studied before deciding on the setting of Ign. Fire.FUEL TRIMThis setting will select + - 127% fuel while boost enhancement is enabled. This setting in conjunction with(fuel) closed - throttle maps will result in the amount of fuel injected. Normally set to + % to add fuel.IGN TRIMThis setting will select + - 127% spark timing, while boost enhancement is enabled. Normally set - % toretard the timing.)& 4N7 d* $6Drag ModeCI ` 6Drag mode selects boost enhancement for drag cars when throttle is opened. When the throttle signal level is ABOVE the pre-set TPS setting AND the engines RPM is ABOVE the pre-set RPM setting AND the boost pressure is below the Kpa setting Cthe boost enhancement is enabled.RPM >This sets the minimum RPM that the ECU will enable the boost enhancement.T/P>When the TPS signal is ABOVE this setting the boost enhancement is enabled.KPAWhen the boost pressure is BELOW this setting the boost enhancement is enabled.IGN. FIRE (Ignition Misfiring)SETTING 00This selects Ignition misfire sequence Fire Fire Miss Fire Fire Miss Fire Fire.SETTING 01Selects Ignition misfire sequence Fire Miss Fire Miss Fire Miss Fire Miss.SETTING 02Selects Ignition misfire sequence Miss Miss Fire Miss Miss Fire Miss Miss.NOTE: In Twin turbo installations, the engines firing order must be studied before deciding on the setting of Ign. Fire.FUEL TRIMThis will change fuel injected + % of what would normally be injected. Normally + %.) D& 4NBCOD1!0,OD\Auxillary Outputs? DD* $*6Auxiliary OutputsQ!ODF0 .C6There are 4 auxiliary outputs which are user selectable, for 12 different modes,and another 4 which have 7 different modes. These modes fall into 2 categories. Digital Modes that can be ON or OFF depending on the conditions. Typical use of a digital o/p thermo fan shift light etc. (All 4 outputs) The pulse width modulated modes (pwm) give a signal that varies depending on the duty cycle, this will give a varying average current to the device being controlled. Typical use of the pwm idle control , boost etc. (Outputs 1 - 4 ))DG& 4NW'F_G0 0N6See Auxiliary outputs connectionsDGG* $46Auxiliary Output Modes},_G JQ pY6Each o/p can be selected to perform any of the following fully adjustable modes.Mode No. Description Mode No.Description 0Off 1Digital RPM 2Digital KPA 3Digital throttle position 4Digital Engine temp. 5Digital RPM and KPA 6Digital RPM and throttle position 7Fuel Pump o/p 8Tacho o/p 9PWM RPM 10PWM KPA 11PWM Throttle position 12PWM, Idle controlSee Also:-)GIJ& 4Ns6 JJ= Jl6ދA x?See PWM Modes 9 to 12See Idle Motor ControlR(IJK* $P6Relay Control Modes 1 - 4 (Digital)8JFOB R6All digital modes follow a set comparison format.1) ON >(> Greater than)2) ON < (< Less than)3) OFF >(> Greater than)4) OFF <(< Less than)Using thermo fan control as an example, o/p mode 4 (Digital Engine Temp.) would need to be selected eg. If fans are to turn ON when engine temperature is (>Greater than) 90C and turn OFF when engine temperature is (< Less than) 84C, the auxiliary o/p would be set up as follows:AUX O/P No. (Number 1-4)O/P Mode = 4 (Engine Temperature)Rev Act = ON or OFF (explained later)ON > 90ON < Not usedOFF > Not usedOFF < 84When not used is selected the comparison program ignores that particular setting. In the Engine Temp. (Thermo fan control) eg. both ON< and OFF> are ignored as not used is selected. These will have no effect on the control of that particular o/p. As temperature rises the o/p remains off until the user programmed 90C ON> is reached. The o/p will Turn on and remain on until the OFF< condition is reached.)KoO& 4N8FOO3 6 6 "4oO? L6As the fans cool the engiO Dne and the engine temperature drops, the fans will remain on until the Programmed OFF< 84C is reached where the o/p will turn off.Example no. 2 Shift LightO/p mode 1 (Digital rpm) would need to be selected, eg. if shift light is to turn ON when rpm is > Greater than 6750 rpm and turn OFF when rpm is < Less than 6700 rpm.AUX O/P No. (Number 1-4)O/P Mode = 1 (RPM)Rev Act = ON or OFF (explained later)ON > 6750ON < Not usedOFF > Not usedOFF < 6700 Example no. 3 turn o/p on within a specified zone. This might be used to control numbers, to help a Turbo engine get on boost. For this we would use the digital KPA function mode 2 eg. turn ON when KPA is > Greater than - 5 KPA and stay on until KPA reaches + 50 KPA boost then turn OFF> than + 50 KPA boost and turn off < - 5 KPA vacuum.AUX O/P No. (Number 1-4)O/P Mode = 2 (KPA)Rev Act = ON or OFF (explained later)ON > - 5 KPAON < + 50 KPAOFF > + 50 KPAOFF < - 5 KPA)O& 4N8H3 6 6 "R(* $P6Relay Control Modes 5 - 6 (Digital)zHO; D6These modes are an extension of the already mentioned but require 2 criteria to be true for the o/p to turn on, eg. function 5 needs rpm comparison to result with an ON AND the KPA part to result with an on for the o/p to actually turn on. If either the rpm comparison or the KPA comparison results in an off result the o/p will remain OFF.Example turn on NOS at a certain rpm and KPA. If rpm is > 2850 turn ON and < 2800 turn OFF AND! when KPA is > -10 KPA turn ON and KPA Is < - 5 KPA turn OFF. Set-up of this would be as followsAUX O/P No. (Number 1-4) O/P Mode = 5 (RPM & KPA) Rev Act = ON or OFF ON > 2850 AND ON > - 10 )ON < Not used ) RPM ON< Not used ) KPAOFF > Not used ) SECTION OFF> Not used ) SECTIONOFF < 2800 OFF< - 5 )For the o/p to turn on both RPM must be greater than 2850 "AND" KPA must be greater than - 10 KPA.)x& 4N8O* $6Rev Acting x. *6This stands for reverse acting in some circumstances the relay that is connected to the output actually works BACKWARDS!! (normally closed contacts) This would normally make things very confusing as when things should be on they are actually off and when things should be off they are actually on ie. everything is working backwards.The selectable rev act feature to combat this problem. When Rev Act is OFF the o/p will turn on when it should be on and off when it should be off (normal Logic). When Rev Act is ON the o/p will turn off when it should be on and on when it should be off (reverse Logic). Rev Act would normally be OFF only turn it ON if you are using a backwards relay. (with normally closed contacts))& 4NF(* $86Fuel Pump Output Mode 7 , &q6The Fuel pump output is designed to drive a fuel pump relay.When the ignition is on, the output will energize for approx. 4 seconds and then turn off again.Once the Ecu sees pulses on the trigger wire it will turn the pump output on again.If the engine stalls or stops, the Ecu will commence timing the 4 seconds from when it no longer receives trigger pulses. After the 4 seconds has elapsed, the Ecu will turn off the pump output .)(5& 4NA v* $.6Tacho Output Mode 853+ $ 6The Tacho output is used when a Tacho signal is required to be manufactured bythe Ecu eg.Whev3 Dn using sequential coils. Connecting to only 1 coil will give a much slowertacho rpm reading. By using the tacho output mode in these situations the Ecu will reproduce a square wave signal with the correct number of pulses in proportion to the engines speed and number of Cylinders / Rotors.)v\& 4NN31*--Auxillary outputs connectionsK!\* $B6Auxiliary Outputs Connections8-3 6 6 "Bo1.o PWM Modes 9 to 12?-* $*6PWM Modes 9 to 12Z*o0 .U6The auxiliary o/p can be selected for 4 different pulse width modulated (PWM) modes.Mode 9 PWM verses RPM 10 PWM verses KPA 11 PWM verses Throttle position 12 PWM verses idle control The Ecu PWM signals are fully adjustable for frequency and for duty cycle.)1& 4NL}0 086`See PWM Base Frequency7 1* $6Frequencyi}F) "6Frequency is normally expressed in hertz (HZ) 1 HZ = 1 cycle per second40 HZ = 40 cycles per second)o& 4N8F3 6 6 " .o; D 6Fig. BIn Fig. B there are 8 cycles in 1 second so the frequency is 8 HZ. There are 2 frequency adjustments withinthe Ecu. The first adjustment is the Base Frequency.This is an overall adjustment and is applied to ALL of the 4 Aux o/p's using any PWM function. (Base Frequency).Most valves or idle control valves normally function between 15 HZ to 100 HZ.The second adjusting frequency is an individual adjustment. There is a separate adjustment for each Aux. O/p. These are found in each Aux. O/p section but only appears if a PWM function 9 to12 is selected. It is strongly recommended to try and leave this number at 255. Reducing this number will increase the frequency for that particular Aux. O/p but there is a trade off. The normal resolution of the Aux. O/p duty cycle (explained next) is 0 - 255 when this frequency number is set at 255. This is 0.39% increments.If this frequency number is reduced to 100 for example, the frequency o/p would increase, but the resolution for that Aux. O/p will be reduced to only 0 to 100. This will make any adjustment coarser to 1% increments. By adjusting this Freq. Number the frequency = (255 / Freq Num.) X Base Freq. = Aux. O/p Freq.Eg. If base freq. was 20 HZ, from the previous overall formula, and 200 was selected in this individual Aux. O/p Freq. adjustment. The Resultant frequency in HZ for this Aux. O/p channel would be as follows: (255 / 200 ) X 20 HZ = 25.5 HZ)& 4N86* $6Duty Cycle.0 .6PWM O/P's control devices (valves etc) by giving them an average current (amps). Even though the PWM O/P is pulsating, the valve only sees the average resultant current. By increasing the duty cycle, the average current will increase which will increase the opening of the valve.A duty cycle of 20 will give the valve or motor less current then if a valueof 220 were used which would give the valve nearly full current opening it almost fully.)6W& 4NC.* $26PWM Verses RPM Mode 9[W.- (6In mode 9 you can adjust the duty cycle from 0 to the maximum set by the individual frequency number, (see Frequency) normally 255. This duty cycle is adjustable at RPM sites from 0 RPM to 12500 RPM in 500 RPM increments. The ECU will interpolate between these points eg. If a duty number of 128 is ente.-red at 3500 RPM and 135 at 4000 RPM and the actual RPM was 3850 the ECU will calculate 132.9 as the duty number. This mode's typical use would be Boost control or induction length control. Example if using this mode for boost control you can adjust your boost level every 500 RPM.)W& 4ND.* $46PWM Verses Kpa Mode 10W^. *+6In this mode you can adjust the duty cycle every 10 KPA from -100 KPA to + 150 KPA in the normal boost level version Ecu. Every 20 Kpa fro -100 to + 400 Kpa in the high boost version Ecu. This mode can be explained as a changing duty cycle as engine load changes. The Stinger 4 ECU will interpolate in between load points to give smooth transitions. An example would be to control a water injection D.C. motor, increasing duty as the engine load increases would speed up the D.C. motor and reducing the duty would slow down the water injection D.C. motor. This would change the amount of water being injected depending on the load of the engine.)& 4NR(^* $P6PWM Verses Throttle Position Mode 11M &- (A6In this mode you can adjust the duty cycle every 5% TPS from 0% TO 100% This mode can be explained as a changing duty cycle as engine load changes. The Stinger 4 ECU will interpolate in between load points to give smooth transitions. An example would be to control a water injection D.C. motor, increasing duty as the engine load increases would speed up the D.C. motor and reducing the duty would slow down the water injection D.C. motor. This would change the amount of water being injected depending on the load of the engine.)O& 4NF&* $86PWM Idle Control Mode 12b:O( t6This function has three modes, OFF , MANUAL and AUTO. ) & 4NLl0 086 x?See Idle Motor ControlC . ,*6REV ACT FOR PWM!l . *6The Reverse Acting function while a PWM function is set will reverse the duty cycle output of the Ecu.This function is needed when a valve (eg. idle valve) work backwards, eg. Bosch BMW idle valve. With these type of valves, increasing the duty cycle will actually slow down the engine and reducing the duty cycle will increase the idle speed. If you are faced with a valve that works backwards, you should select REV ACT on. If you have a valve that works normally select REV ACT off.) & 4NC < 1) */< .GIdle Motor Control@ | * $,6Idle Motor Control<  * "6Although idle control sounds simple do achieve. The parameters and mathematics involved are quite complex.EMS have tried to make it as simple as possible to setup by allowing only a minimum number parameters and a simple setup procedure.)|  & 4NU+  * $V6Step 1: Ensure the engine is well tuned  ( W6Ensure that the engine is properly tuned especially in the idle area. The automatic idle control will continually try to adjust a badly tuned engine around the idle RPM) & 4NU+ g* $V6Step 2: Select an output circuit to usenF( 6Now we will need to use the laptop software for these adjustments.)g& 4NS. ,v:l Set Idle control to off (this ensures that the valve or motor will be closed)O!. ,Bv:l Type in the target idle RPMZ,4@. ,Xv:l 4@ Set Initial open position to around 20H|@. ,4v:l Set Max Steps to 255|4@&A. ,v:l Set idle vacuum to whatever the engine is currently idling on while at operating temp or tick "Use TPS to detect idle"b4|@A. ,hv:l Set Additional Cold Open Position to around 60T&A B. ,v:l These number are only starting points and will be adjusted to suit the engine.^4AhB* $h6Step 3: Set the mechanical idle speed adjustment BIC( s6Set the mechanical idle screw until the engine idles 100 RPM lower than the Target RPM. This is a backup to prevent the engine from stalling if the idle control motor or valve fails.)hBrC& 4NFICC* $86Step 4: final adjustmentN rCD. ,@v:l Set Idle Control to ManualbCD. ,v:l Adjust the Initial Open Position (higher or lower) until the engine idles at the Target RPM.V(DD. ,Pv:l Set the Idle control to Automatic.L"D8E* $D6Step 5: Cold engine adjustmenta:DE' t6Do this the next morning when the engine is fully cold.)8EE& 4Nf8E(F. ,pv:l Before starting engine set Idle control to Manual.EF/ ,v:l Start engine and adjust the Additional Cold Open Position only (higher or lower) until the engine idles at the Target RPM.V((F.G. ,Pv:l Set the Idle control to Automatic.GFuG1ʄ0uGHFuel and Ignition MapsD.GG* $46Fuel and Ignition MapsYuG:H( 6Depending on the Ecu setup, There are different tuning techniques thatcan be adopted.)GcH& 4N}@:HH= J6n6gSee Stinger 4 High BoostThrottle Position Load PointsT#cH4I1  14I4Normal and Boost Vacuume Load PointBHvI* $06Stinger 4 High Boostq4IL3 46This section is for adjusting fuel / ignition maps at user defined R.P.M increments.Starting at 0 through to 32000 R.P.M.There are 40 user definable R.P.M columns.There are 21 user definable vacuum / boost load rows.Range is from -100kpa to + 200 kpa boost (3 Bar) -45psi to + 30 psi boost The Ecu comes with a pre-programmed Fuel Map. These are preset values give a starting point.If this is the first time you have set up a particular engine you should use the "Fuel Trim" function in the "Trims" section of the "ECU Setting" screen to help get the engine started. )vICL& 4NGLL0 0.6ˀSee Grid Commandse;CLL* $v6Using "FUEL TRIM" for First time engine set-up startingLM+ $c6It is much easier to get the engine running for the first time using the fuel Trim adjustment.This adjustment is found in the "Trims" section of the "ECU Setting" screen.)LM& 4NL"M@N* $D6Adjusting Fuel / Ignition MapsTM΀. *6Bring the engine up to the desired R.P.M / load and press the "Space bar", this will position the cursor onto the R.P.M load point that matches the actual engine R.P.M / Load. Adjust the fuel / ignition setting by the pressing the "Pg up" or "Pg dn" keys to increase or decrease the injector mS or Ignition timing to the desired value. IMPORTANTa) The engine should be up to operating temperature@N΀H before tuning. If you tune below 70C then the appropriate choke settings must be at zero (0).b) The engine must be held as close as possible to kpa / Rpm Fuel Map positions when tuning. )@N& 4N>΀5* $(6Clear Flood Mode * "Y6Clear flood mode is used when engine is flooded. Throttle position sensor must be fitted. Press throttle passed 90% while cranking, the Ecu will not fire injectors.)54& 4N> r1Hʄ 2rGrid CommandsF4* $86Tuning grid command keysbrI/ .6These commands are also available on a pop-up menu when you right-click on the tuning grid.)r& 4NHI* $<6Page-Up and Page-Down Keysr, &=6Press the page-up key to increase the value of a cell by 1 and Page-down to decrease the value by 1.You can also select a range of cells and increase or decease them by pressing the Page-up and Page-down keys.Use Shift and any combination of arrow buttons to highlight / Select a range of grid cells that you want to adjust and then press the Page-up or Page-down key to increase or decrease each cell by 1.)& 4ND* $46Auto Trace (Space Bar), &56You can automatically position the cursor onto the load/rpm point of an engine while the is running by pressing the space bar.If you keep the space bar pressed then the system will trace the engine as it moves through each load point. Each load point will be highlighted with a green boarder indicating the load path of the engine.You can clear the path by pressing the "Clear Trace" button or "alt + c")& 4Ne;E* $v6Insert RPM Column (Ctrl +Right Arrow or Shft+Alt+C)X) 6Press Ctrl then Right Arrow to Insert a new RPM column in between the current cursor position and the column to the left.This will push all RPM columns from the cursor (including the cursor) to the right and then insert a new one.)E& 4Nc9X* $r6Insert Load Row (Ctrl + Down Arrow or Shft+Alt+R)) 6Press Ctrl then Down Arrow to Insert a new load row (TPS/KPA/Analog) in between the current cursor position and the row above.This will push all load rows from the cursor (including the cursor) down and then insert a new one.)& 4Nd:* $t6Delete RPM Column (Ctrl + Left Arrow or Shft+Ctrl+C)Y) c6Press Ctrl then Left Arrow to Delete the RPM column immediately left of the cursor. This will pull all columns from the cursor (including the cursor) to the left one column.)& 4NZ0Y܌* $`6Delete Row (Ctrl + Up Arrow or Shft+Ctrl+R)) K6Press Ctrl then Up Arrow to Delete the load row (TPS/KPA) immediately above the cursor.This will pull all rows from the cursor (including the cursor) up one row.)܌Ӎ& 4NQ'$* $N6Copy grid cell Value (Alt + Arrow)`4Ӎ, &i6Starting from the cell that you want to copy from.Use Alt and the arrow button in the direction that you wish to copy to.This will copy current cell to the next adjacent cell in the direction of the Arrow.To copy to many other cells, the arrow must be released then repressed for each successful copy.)$& 4NoE(* $6Interpolate or Fill (Shift + Left or Ri(4ght or Up or Down Arrows)4 6 6Use Shift and any combination of arrow buttons to highlight / Select a range of grid cells that you want to automatically fill or interpolate. Once selected, use Alt+Ctrl+R if you want to interpolate/fill using the top and bottom rows as the reference points. This means that the system will automatically calculate all the cell values for each cell in between the top and bottom selected rows.ORUse Alt+Ctrl+C if you want to interpolate/fill using the left and right columns as the reference points. This means that the system will automatically calculate all the cell values for each cell in between the left and right selected rows.)( & 4NT*_* $T6Create new Tuning grid (Alt+Ctrl + T) $* "76Create or change a tuning grid.This will allow you to change the number of columns or rows in a tuning grid.This is normally used on first time setup.)_M& 4Nh>$* $|6Changing Existing RPM or Load index values (Alt+Ctrl + H)M* "6Change the load and RPM value for the selected column/row.Use this to adjust the RPM and load for the selected grid cell.Instead of Ctrl + H, you can double click the grid in the correct row/column.)& 4N: * $ 6Alt+Ctrl + R) y6See interpolate and fill above.Automatically fill all selected cells from left to right with extrapolated values based on the value in the first (left) and last (right) selected cells.) & 4N:U* $ 6Alt+Ctrl + C<* "{6See interpolate and fill above.Automatically fill all selected cells from top to bottom with extrapolated values based on the value in the first (top) and last (bottom) selected cells.)Ue& 4NY/<* $^6Changing the page-up & page-down resolutionpeZ, &6This is only used on the ignition grid.You can select the amount of degrees the system increments or decrements each time you press the page-up/down key.Selecting 0.2 deg on the resolution selection box will cause each page-up/down key press to change the timing value by 0.2 degrees. If 2.0 deg deg is selected then each press will cause a change of 2 degrees.)& 4NMZ1  3Throttle Position Load PointK!* $B6Throttle Position Load Points+ $S6This section is for adjusting fuel / ignition maps at user defined R.P.M increments.Starting at 0 through to 32000 R.P.M.There are 40 user definable R.P.M columns.)& 4NG_0 0.6ˀSee Grid CommandsF* $86Throttle Position SensorxN_* $6Starting at 0 through to 100%.There are 21 user definable TPS load rows.)F& 4NG0 0.6ˀSee Grid CommandsW(F/ ,Q6It is extremely important that a good quality TPS Sensor beused when tuning using TPS load sensing.Make sure that the tps is a Variable resistance (potentiometer) type.Ensure that the sensor reading is repeatable after calibrating it.First, calibrate the sensor in the Ecu Setup Screen.) & 4N^.k0 0\6:See Throttle Position Sensor CalibrationS' , &O6Check that the reading follows your foot movement and reaches 100%,then returns back to 0 %. Do this a knumber of times ensuring that the reading returns to 0% every time.This Load source selection heavily relies on the TPS sensor, so ensure its proper operation before commencing tuning.)k& 4ND71U 47BDUser Defined GaugesAx* $.6User Defined Gauges-7(  6The EMS tuning software allows you to define your own gauge display screen. There are 4 different gauge styles you can choose from: Bar, Dial, Digits, and Scope. This allows you to display data in a variety of ways making engine analysis much more intuitive.)x& 4N( 6Defining gauges for all standard engine parameters and output circuits is done via the "Define Standard Gauges" Option from the "Goto" Menu.)& 4N( 6Once gauge parameters are defined they will be saved each time you save the tuning map. To display the gauges screen simply select "Display User Defined Gauges" Option from the "Goto" Menu.)& 4N}( -6You can adjust the size and position of the gauges screen as well as each gauge within the screen. This is also saved when you save the tuning map.)& 4N}N( 6When defining a gauge you can leave the default gauge parameters or you can adjust some parameters to suite your application.)w& 4NN6 :6Press the Refresh Gauges button to see any changes you have made to the gauge definitions.PLEASE NOTE: When a gauge is defined for the first time it will be displayed in the top left corner of the gauges screen. If multiple gauges are defined then each one will be shown in the top left corner on top of each other. You must drag and resize each gauge to the desired position and size. Once the tuning map is saved then the gauge sizes and positions will also be saved.)w& 4N>* $(6Gauge Parameters , &6Display Type This can be set to "No Display" or one of 4 display types, Digit Gauge, Dial Gauge, Bar Gauge and Scope Gauge.When set to "No Display" then there will be no gauge shown for this channel.) & 4NpF  * $6Description This value will be displayed at the top of each gauge.)  & 4NuK ! * $6Unit of Measure This will also be displayed along with the description.) J & 4N!  + $#6Minimum and Maximum These values define the upper and lower limits of the gauge. The gauge will indicate values between these two parameters.)J / & 4NT  , &6Unit Multiplier This value works with the minimum and maximum values so the the gauge can calculate the correct display value form the actual data value. IE: To define an RPM gauge showing from 0 to 6000 RPM and the numbers on the dial to read 0 to 60 you would set the minimum at 0 and the maximum at 60 and a multiplier value of 100.)/  & 4Nf h* $6Number of Digits This will determine the number of digits that will be shown on any of the gauges.) & 4Nfh!* $6Decimal Places This value determines the accuracy of the display by defining the decimal accuracy.)J& 4N!N@+ $6Number of Labels On a dial or scope gauge this value determines how many increments are used. On a bar gauge it determines maximum numberJN@ of bars displayed. For a digital gauge the value has no effect.)Jw@& 4NN@A+ $6Green and Blue Zone Percentages Each dial and bar gauge can be shown in three different color zones, green, blue and red. Use these values to set the green and blue percentages and the remaining percentage will be shown in red.)w@A& 4NA]B+ $6Show Digit Display If this parameter is ticked then the gauge will also display a textual representation of the gauge value.)AB& 4Ng]BC* $6Show Color Zones If you do not want a gauge to have color zones then simply un-tick this parameter.)B@C& 4NCD+ $]6Retain Max Value This only works with dial gauges. It will retain the maximum value reached on the gauge. NOTE: The color zones will not show if this parameter is ticked.)@CBD& 4N> DD1   5DʀTune Analyser;BDD* $"6Tune AnalyserDeF) 6Tune Analyser is a feature designed by EMS to assist in tuning an engine to its peak performance by allowing you to log the average A/F ratio at each load point. You can then analyse the data and make adjustments to the fuel map or have the system automatically adjust the fuel map by comparing the target AF Ratios with the actual AF ratios and adjusting the fuel map accordingly.)DF& 4NBeFF* $06Running the Analyser|FzG. ,v:l Press the Analyser Settings button and select the A/F input to use. Do not select both if you have only one installed. FH/ ,v:l Press the Run Analyser button while the engine is running. The system will now constantly monitor the AF ratio at each load point. The accuracy of the analysis will increase as you run the engine for longer periods.k=zGH. ,zv:l Press the Run Analyser button again to stop monitoring./H J2 2v:l You can see how many times each load point was recorded by placing the blue grid cursor on a grid cell and looking at the read count field just above the buttons.The load points that have been analyzed will show highlighted on the Fuel Map gridL"HlJ* $D6Applying changes Automatically JK(  6You can have the system automatically adjust the fuel map if you want. First you must set the target AF ratio for each load point)lJAK& 4NwHKL/ ,v:l Press the Target AF Ratio tab and enter the target AF ratio for each load point you want adjusted. You can also move the actual AF Readings over to the Target map by pressing the Actual to Target button and then adjust each load point to the desired value. Any load point with a 0 (zero) target value will not be adjusted.AKsM/ ,v:l Press the Apply Changes button. The system will compare the actual AF ratios with the target ones and adjust the fuel map accordingly.LlN/ ,6NOTE:You can exclude cells from the being applied by selecting the cell and pressing ALT+X or the "Exclude from apply" button.This can be done from the either the Fuel Map or Tune Analyser tabs.)sMN& 4NGlNN* $:6Applying changes ManuallyN* "6You can apply changes directly on the Fuel map. After you have Analised and set the AF targets each load point on the Fuel map will be highlighted with either blue or red. A blue highlight indicates that the Actual AF is within + or - .1 AF of thNBDe set Target. You can move to each red load point on the Fuel map and adjust the value up or down until the "Change required" field reads 0 (zero).)Nʀ& 4NA 1   6 փSpecial Features>ʀI* $(6Special FeaturesU ^ N6<" t]2!S7かHAӀZ7c-Hm'D: kBAir Temperature Sensor CalibrationWater Temperature Sensor CalibrationChoke ControlClearing a Flooded EngineCold Cranking SetupFuel Map OverrideFuel TrimmingIgnition Map OverrideIgnition TrimmingInjector ScalingStaged InjectionIgnition Trimming based on air and engine temperaturex;Iփ= Jv6`րIgnition Sequence SimulatorPost Start EnrichmentH^17  7?Temp Sensor CalibrationL"փj* $D6Temperature Sensor CalibrationP!/ ,C6Use this page to calibrate the ECU for a particular Engine Temperature sensor.There are many different types of sensor resistances on different cars. This means that we must create a sensor calibration table for each type of sensor. If you do not find a file that gives you the correct temperature readings, you will need to either create your own new calibration or modify an existing file.It is also known that O.E.M. sensors can have + or - 10% variation. In an extreme case, you may decide to-re calibrate the file you are using.)j& 4ND'* $46Using an existing File3 4G6Below is a list of sensor calibration files ( filename.emc) pre defined byEMS. You may down load any of these files into your ECU.To use a file, click on the file of your choice. It will be highlighted when selected.Press the "Read from File" button located at the right of the page.This will write the calibration into the table above.To send this calibration to the ecu, press the "Write to ECU" buttonOnce the progress bar has finished, the calibration has been sent to the ECU.To view the current water temp as seen by the ECU, Goto the tuning page.If it is not correct, try a different file or create or modify your own file and Write it to the ECU again.)'&& 4NDj* $46Creating your own Fileb"&̎@ NE6RULEAll numbers in the table MUST be in a sending or descending order. In The "Name" Field, type the name of your new file.Click on the first entry for -20 deg C. Type the A/D number that represents that temperature.Pressing the TAB button will move the cursor to the next temperature calibration field where you can enter the A/D number for that temperature.Press the Save To File button to save your new calibration table. If a calibration table with the same name already exists then it will be over-written.You can then download the new table to the ECU by pressing the Write to ECU button.You can also copy an existing table by simply re-naming it and pressing the Save To File button.To see the current A/D value, press the Read A to D Button. The read A to Dreading will be displayed in the center of the page. To accept this reading, pressthe Accept Reading Button. This will transfer the A to D reading into the tablein whichever temperature field is highlighted. This A/D number is what the Ecu is seeing from the sensor.)j& 4N;̎0* $"6A/ D Number.7 1  9Choke controlO%e* $J6Engine Temp. Compensation on Fuel&2 26There are 18 Water Temperature Enrichment / Enleanment settings used during engine warm up and over temp. These settings are expressed as percentages + or - (%) of fuels main Map.The settings begin at -20 deg C and go up in 10 deg increments until 150 deg Cwhich is the last setting. The Ecu interpolates between these settings to give a smooth warm up cycle. Through warm up testing you can adjust these settings to more closely suit your engine.NOTE: To disable extra / less fuel at any temperature point, set that point to 0%.These settings are located on the 3D tuning page, press theFuel MAP Temp Compensation Button.)eO& 4NL"&* $D6Air Temp. Compensation on Fuel3O3 46There are 18 Air Temperature Enrichment / Enleanment settings .These settings are expressed as percentages + or - (%) of fuels main Map.The settings begin at -20 deg C and go up in 10 deg increments until 150 deg Cwhich is the last setting. The Ecu interpolates between these settings to give a smooth transitions.NOTE: To disable extra / less fuel at any temperature point, set that point to 0%.These settings are located on the 3D tuning page.Fuel MAP Temp Compensation Button.)& 4NA81  :8 Clear Flood ModeG* $:6Clearing a Flooded EngineA8* $.6Clear Flood Feature ) S6NOTE: This feature will only work if a throttle position sensor is connected and the "Use Throttle Sensor" tick box is ticked. This is found in the ECU Setup screen.) & 4N  * "6This feature should be used to clear a flooded engine.While cranking an engine, press the accelerator to over 90%. This will cause the injectors to stop firing thereby allowing the flooded engine to clear.)  & 4No v ' 6If you have the laptop connected then a message will appear on the screen while clearing the flooded engine.)  & 4N: v  1  V ;  ColdCrank8  * $6cold crankn?  / ,6This function allows extra fuel for start-up.Adjust the choke setting prior to adjusting "Percentage for Cold Crank". Cold cranking enrichment adds fuel by a percentage of what the computer calculates at that time. This percentage is relative at -20 deg. C and interpolates automatically down to 0 % at 60 C.)  & 4NA  1 < DFuel MAP Overide? (* $*6Fuel MAP Override ( 6This feature can be used as a fuel trim for an entire load value. You must have the MAP sensor connected to use this feature.)(& 4N @( 6The ECU uses the values in this grid internally to determine the correct fuel delivery. Normally you would not need to adjust these settings but EMS allow you to adjust them in specialist situations. @ )5@& 4NC @xA( 76This would be used in situations where a throttle position sensor or mass air flow meter is used to determine the fuel delivery. In installations where a turbo charger is used along with these sensors the actual fuel requirement may not be proportional to the TPS or MAF readings.)5@A& 4NxA_B( -6Enter the increase or decrease percentage of fuel for each load position on the grid. This percentage is calculated from the current load position.)AB& 4N _BD0 .6If these values have been removed or changed to the point where the engine is not operating correctly you can easily bring them back to the factory setting by entering the same value as the actual load point at each point.EG; At the -50 KPA load point enter -50 At the -20 KPA load point enter -20 At the 0 KPA load point enter 0 AT the 25 KPA load point enter 25 AT the 50 KPA load point enter 50.You must do this for each grid position.)BD& 4N: DD1&V =DGfuel TrimBD7E* $06Fuel Trim PercentageDSF. *6This function trims ALL fuel settings. Use this function as an overall Trim in percentage (%). For first time engine start up you can adjust the Fuel Trim prior to setting the Fuel Maps.Fuel trim is located on the 3D tuning page.)7E|F& 4N<SFG( )6Once you are happy with the performance the selected trim is providing. You can apply the changes directly to the fuel map by pressing the Re-Adjust Map button beside the Fuel Trim selector. This will adjust the map by the trim percentage and then zero the fuel trim value.)|FG& 4NEG&H1} >&H^LIgnition MAP OverideCGiH* $26Ignition MAP Override&HI(  6This feature can be used as an ignition trim for an entire load value. You must have the MAP sensor connected to use this feature.)iH?I& 4N@IJ( 16This would be used in situations where a throttle position sensor of mass air flow meter is used to determine the fuel delivery. In installations where a turbo charger is used along with these sensors the actual timing requirement may not be proportional to TPS or MAF reading.)?IJ& 4NJnK( =6Enter the increase or decrease percentage of timing for each load position on the grid. This percentage is calculated from the current TPS or MAF readings.)JK& 4NwnK5L' 6NOTE: If you do not want the system to override at a particular load value you must enter 0 (zero) in that position.)K^L& 4N85LL1w ?L IgnTrimF^LL* $86Ignition Trim Percentage_2L;N- (e6This function adjusts the ignition timing by a + - percentage of what it would normally calculate from the ignition maps. The trim function can be used to alter the complete ignition curve due to variation in Octane levels of fuel.Ignition Trim is located in the Trim section off the 3D Tuning Map)LdN& 4NH ;NO( A6Once you are happy with the performance the selected trim is providing. You can apply the changes directly to the ignition map by pressing the Re-Adjust Map button beside the Ignition Trim selector. This will adjust the map by the trim percentage and then zero the ignition trim value.)dN & 4NO ^L?OK1 l @KˇInjector Scale< * $$6Injector Scaleq=K4 6{6The injector scale is used to set the resolution of each increment in the main fuel map.Injector Scale sets the max fuel available .half the scale number = the max milliseconds.E.G. scale number of 40 = 20mS max injector opening @ 0% Fuel Map overridesetting.Note: As a guide, the injector time scale should be set between 10 and 30 when in multi point 360 mode and between 40 and 80 when in multi point 720 mode. If you find that you need to go above or bellow this range you may need to change injector size or there is a problem in the fuel delivery system.)!& 4NNo0 0<6 7ÀSee Injector Arrangement3!: B6Each load point has 0 - 255 increments of injector on-time. The Injector scale is used to calculate the number of milliseconds per increment and is used to set the maximum allowable milliseconds for the size of injectors being used.IE: Larger injectors would require less milliseconds of on-time to supply the same volume of fuel that smaller injectors would require. This means that the injector scale value determines maximum injector on-time attainable.You can determine the maximum on-time by dividing the injector scale by 2.This example applies to TPS and Vacuum load points.EG: By setting the injector scale to 20 the maximum allowable injector on-time will be 10 milliseconds (20 divided by 2). This means that each increment for each load point will be 0.039 milliseconds (10ms divided by 255 increments).The same principle applies to vacuum mapped load points when on the 0 Kpa point. At different load points the ECU varies the actual resolution to compensate for differing air densities.)oˇ& 4N71< AStaged>ˇ@* $(6Staged Injection[ތC T6Staged injection is for engines with Staged fuel injectors (ie; two injectors per cylinder). If your engine is not using Staged injectors then select "OFF".WARNING!!DO NOT SELECT STAGED INJECTION FOR NON-STAGED INJECTED ENGINES AS THIS WILL CAUSE ENGINE DAMAGE.The Staged adjustments are located under the Trim Button off the 3DTuning page.When a staged number is selected in the staged amount field, the ecu willbring on the staged injectors Automatically, when it sees the primaryinjectors approaching 100% Duty.To test the Staged fuel amount the user can force the ecu to enable the Stagedinjection earlier by clicking on the "Force Staged inj On" check box. Via experimental testing, change the staged number until the correct air fuel ratio is achieved.For engine configurations with primary and secondary injectors of the same size,set the staged number to 57.6% and no need for further adjustment.If the secondaries are larger that the primary injectors, the staged number will besmaller.If the secondaries are smaller that the primary injectors, the staged number will be larger.)@& 4NV%ތ]1l  B]Ignition triming based on temperatureV,* $X6Engine Temp. Compensation on Ign. timing&]ُ3 46There are 18 Coolant Temperature Advance / Retard settings .These settings are expressed as percentages + or - (%) of Ignition main Map.The settings begin at -20 deg C and go up in 10 deg increments until 150 deg Cwhich is the last setting. The Ecu interpolates between these settings to give a smooth transitions.NOTE: To disable Ignition timing Advance / Retard at any Engine temperature point, set that point to 0%.These settings are located on the 3D tuning page.)& 4NُR(ُ`* $P6Air Temp. Compensation on Ign Timing}2 26There are 18 Air Temperature Advance / Retard settings .These settings are expressed as percentages + or - (%) of Ignition main Map.The settings begin at -20 deg C and go up in 10 deg increments until 150 deg Cwhich is the last setting. The Ecu interpolates between these settings to give a smooth transitions.NOTE: To disable Ignition timing Advance / Retard at any Air temperature point, set that point to 0%.These settings are located on the 3D tuning page.)`& 4NL}1 CTIgnition Sequence SimulatorI;* $>6Ignition Sequence Simulator+6 :u6The firing sequence of the ignition outputs depends on the selected number of cylinders, ignition type, Ignition fire edge and number of igniters. The simulator shows the firing sequence based on these fields.These field are located in the ECU Setup screen.NOTE:The Ignition Fire Edge setting determines whether the ignition output is normally ON and then turned OFF to fire the coil or normally OFF and then turned on to fire the coil. you can see the effect of this on the simulator.Be aware that setting the Ignition Fire Edge to positive fire will leave power on the ignition output which could cause coils and igniters to burn out if they are not designed to operate in this mode.);T& 4NF+1B n DPost Start EnrichmentCT* $26Post Start Enrichment`m0 .6The Post start enrichment feature ensures the engine will start easily by allowing you to increase the amount of fuel for a specific time duration after engine start. The increased percentage of fuel will decay down to zero percent over the specified time period.When an engine is cold extra fuel above the choke level is sometimes required for a short period to overcome fuel sticking onto the cold engine parts such as manifold and valves.Also, especially on hot days an engine may experience staring difficulties when trying to start after being stopped for short time. This is caused when the fuel inside the fuel lines near a hot engine increase in temperature due to heat soak. This effect causes the engine to run lean until the cool fuel reaches the injectors.To overcome this problem you can use the Post Start feature to adjust the fuel delivery.The Stinger allows you to specify a percentage of fuel increase at different engine temperatures and for a specific time duration.Using the Post Start grid under each temperature column specify the increase fuel percentage and decay duration in seconds.)& 4N= m1v QELog Controls: * $ 6Log Controls:G* $ 6New Data Logp ) "6Before you can commence logging, the ecu must be connected to the Laptopand communication link established.)G & 4N@I* $,6Start Logging - F2  2 2%6To start the logging either click the Start Logging button or press the F2button on the keyboard.To Stop logging press this button again.)I6& 4NO% * $J6Saving a Data Log session to file*6) 6Once you stop logging and wish to save the logging session, it can be saved to file.Press the "Save to File" button and either click on an existing file to overwrite that file or type in a new file name in to create a new file, then press "Save" button.)& 4NM#1* $F61Reading a save Data log session) !6To open a saved log session log session press the "Read from file" button, select the file you want to read and then press the "Open" button)1& 4NM`0 0:6㡌l߀See Viewing Logged Data7 * $6Log Graphz`:) "6This button will display the logged Data in Graphical format.The graph will display 4 Axis of user selected data.see:)c& 4NG:0 0.6_a5See Chart DisplayDc1n LFlViewing Logged DataA/* $.6Viewing Logged DataC3 46Once logging is stopped, the P.C. will take a few minutes to organize thedata. The Data will then be displayed on the main page in alpha-numerical format.This data can be scrolled through with the arrow buttons and analyzed.Starting at the top, The logger records the selected parameters line by line.Each line represents a group reading.The first parameter shows the Reading number.The Second shows the Time stamp, followed by the selected parameters sentby the Ecu.)/l& 4N> C1QGChart Display;l* $"6Chart DisplaywG\0 .6There are 4 Axis on the Graph Display Page.In this Area you can select any of the Logged parameters to be displayedon the graph. Each Axis is fully selectable.You can display any logged data on any axis.NOTE: If the parameter was not selected for logging in the Log Data section,It will not be available for viewing.)& 4NL\1LHRAuxillary input connectionsI* $>6Auxiliary Input Connections8R3 6 6 "< 1I Hall Sensor@R* $,6Hall Sensor Wiring8 3 6 6 " ?E 1JE  Igniter Wiring<  * $$6Igniter Wiring8E  3 6 6 " C  1K t NOS Wiring Diagram@ < * $,6NOS Wiring Diagram8 t 3 6 6 " A<  16L + 6 Cyl DFI Wiring>t  * $(66 Cyl DFI Wiring8 + 3 6 6 " F q 1UMq  4 Cylinder DFI WiringC+  * $264 Cylinder DFI Wiring8q  3 6 6 "G 3 16{N3  Crank and Sync DiagramD w * $46Crank and Sync Diagram83  3 6 6 "8w  3 6 6 "B ) 1UO)  Crank Wheel Setup? h * $*6Crank Wheel Setup8)  3 6 6 "?h  1P LFFile Selection: * $ 6File Manager , &6This area of the screen displays any files stored.A file is selected when you click on it.When selected, it will be highlighted.)& 4NG=* $:6Saving ECU Data to a file @) ]6To save ECU data you must type in a name in the "File Name" field and then press the "Save to File" button. After a few seconds the new file will appear = @ in the file list.)=I@& 4NF @@* $86Loading Data from a fileRI@#CB R6To read ECU data from a file you must first select a file from which to read the information.Select a file by clicking on it. The name of the file should appear in the File Name field.Now you can press the Read From File button. This will read all of the information about the ECU Setup and Tuning from the file and place this information into this computers memory.To down load this information into an ECU go to the ECU drop down menu andselect the Write to ECU selection. The down load from this computers memory (PC) to the Ecu is complete when the progress bars disappear.)@LC& 4N=#CC* $&6Deleting a fileLC=D* "6To delete a file Use right mouse button to select the file.A drop down menu will appear, click delete with the left button to delete.)CfD& 4N:=DD* $ 6Data LoggingqJfDE' 6To assist in tuning you can perform a time based data log of an engine.)D:E& 4NoEE4 86To get to the data logging to laptop section,Click on the Goto drop down menu and click on Data logging):EF& 4NFELF0 0,6xSee Data Logging= FF1`QFHFiles Screen:LFF* $ 6Files Screen9FF* $6Sub HeadingFH* "6This screen enables the user to manage the data from many ECUs by saving the ECU information into files.Here you can store many files of ECU data. This data can be retrieved from a file and down loaded into an ECU.)F*H& 4N<HfH* $$6File SelectionF*HH0 0,6See File Manager9fHH1RHHJLog Data6 HI* $6Log DataHJ, &6This section allows you to select the parameters that are to be logged fromthe Ecu to the P.C. (Laptop).To select a parameter, click the check box.The tick indicates that the parameter is selected for Logging.)IHJ& 4N7JJ1kSJJTopic14 HJJ* $6Topic11JJ1UTJK$JK"  1J1UI@ HelvArialCourierMs Sans SerifMs SerifSymbolTimes New RomanZapfDingbatsSystemH$C:G&v] %6̃dRu@PރZF_n]vxK2!(~F3<p"IJT0^h*rʄl |   b X    V   l   * n QL0:I@!C63L  I |U{pv]V    ~ރ·]n F_ʄKu *! l  %̃R 0 Q /& ;) i24e~3\help\stiPP2 Rotor DFI Wiring3 Rotor DFI Wiring4 Cylinder DFI Wiring6 Cyl DFI Wiring AccelpumpAccelPumpTimeAuxilary inputsAuxillary input connectionsAuxillary Outputs Auxillary outputs connections$BoostCut(Chart Display,Choke control0Clear Flood Mode4Closed Loop Lambda8ColdCrank<Convert Stinger 3 file to Stinger 4@Crank and Sync DiagramDCrank Wheel SetupHCylsLDecelPDwellTEcu ConnectionsXECU Setup screen\Fuel and Ignition Maps`Fuel MAP Overidedfuel TrimhGetting StartedlGrid CommandspHall SensortIdle Motor ControlxIgniter Wiring|IgnitersIgnition Fire EdgeIgnition MAP OverideIgnition Sequence SimulatorIgnition triming based on temperatureIgnTrimIgnTypeInjector ArrangementInjector connectionsInjector ScaleIntake InductionLambda sensorLC1 DiagramLoad SourceLog ControlsMaxBoostMissing Tooth ModeNissan crank angle positioningNormal and Boost Vacuume Load PointNOS Wiring DiagramOhmsPer CyclePost Start EnrichmentPWM Base FrequencyPWM Modes 9 to 12RevHardRevSoftSensitivitySpecial FeaturesStagedStatic TimingSync ResistorSync SensorSync Sensor UsedSyncEdgeTemp Sensor Calibration Throttle Position Load PointThrottle Position Sensor CalibrationTrigger and sync sensor connectionsTrigger SensorTriggerEdge TrigResistor$TrigTeeth(Tune Analyser,Turbo Anti Lag0User Defined Gauges4Viewing Logged Data8Water Temp Sensor Calibration<: 1C79E: FFFF: E04A7 index:00074: 1C86B: FFFF: E04CC index:00075: 1C91F: FFFF: E04E8 index:00076: 1C9D2: FFFF: E0500 index:00077: 1CA8D: FFFF: E051C index:0007/& ;) LzVVGetting Started|Convert Stinger 3 file to Stinger 4ECU Setup screen]Load SourceInjector ArrangementInjector connections%Trigger SensorTrigger and sync sensor connectionsTriggerEdgẽTrigResistorRTrigTeethuPer CycleSync SensorSyncEdgeSync ResistorStatic TimingރLambda sensor·LC1 DiagramCylsIgnTypeNissan crank angle positioning!2 Rotor DFI WiringC3 Rotor DFI Wiring_Missing Tooth ModeSync Sensor UsedIgnition Fire EdgeIgniters]Ecu ConnectionsvDwellKOhms!Sensitivity~Intake InductionFMaxBoostAccelpump3AccelPumpTimeRevSoftRevHardBoostCutpDecelThrottle Position Sensor CalibrationPWM Base FrequencyIClosed Loop LambdaAuxilary inputs0Turbo Anti LagAuxillary OutputsAuxillary outputs connections*PWM Modes 9 to 12Idle Motor ControlFuel and Ignition MapsʄNormal and Boost Vacuume Load Point Grid Commands Throttle Position Load Point User Defined Gauges Tune Analyser Special Features Temp Sensor Calibration Water Temp Sensor Calibration Choke control Clear Flood Mode ColdCrankV Fuel MAP Overide fuel Trim Ignition MAP Overide IgnTrim Injector Scalel Staged Ignition triming based on temperature Ignition Sequence Simulator Post Start Enrichmentn Log ControlsQViewing Logged DataLChart DisplayAuxillary input connectionsHall SensorIgniter WiringNOS Wiring Diagram6 Cyl DFI Wiring64 Cylinder DFI WiringUCrank and Sync Diagram{Crank Wheel SetupFile SelectionFiles ScreenLog DataTopic1/& ;) L4TXTς% x57, n 1xi Z7c kc/ɩj<ت]xn H y`|DPi~݄FR 7CHzeʄ k._Aӷ ARӹ` XރJ6lQ1I `G`&I0~8<"  hq6g 9'N&K\-pBCvai{  :gYZ%n2! 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