Group 000, General Engine Data, (no normalization) Groups 001 - 009: General Engine Data Groups 010 - 019: Ignition & Misfire Detection Groups 020 - 029: Knock Control Groups 030 - 049: Mixture Control, O2S Heating, Catalytic Converter Groups 050 - 059: Engine Speed Control Groups 060 - 069: Throttle Valve Control Groups 070 - 079: Emission Control Systems (EVAP, Sec. AIR, EGR) Groups 080 - 085: Control module identification Groups 090 - 098: Camshaft & Intake Manifold Control Groups 099 & 100: Compatibility Groups Groups 101 - 109: Fuel Injection Groups 110 - 119: Load Registration & Boost Pressure Control Groups 120 - 129: Communication Between Control Modules Groups 130 - 137: Engine cooling Groups 140 - 147: BDE rail pressure system Groups 160 - 169: Lambda Control for SULEV-ULEV Group 000, General Engine Data, (no normalization) 000 1 Bank-Systems 1 Engine coolant temperature 2 Load 3 RPM 4 Voltage 5 Throttle valve potentiometer 6 Idle Air Control Valve 7 Idle Air Control Valve learning value 8 Lambda control 9 Lambda control learning value idle 10 Lambda control learning value partial load 000 2 Bank-Systems 1 Engine coolant temperature 2 Load 3 RPM 4 Throttle valve angle 5 Idle Air Control 6 Idle Air Control Valve learning value 7 Lambda control Bank 1 8 Lambda control Bank 2 9 Lambda adaptation (add) Bank 1 10 Lambda adaptation (add) Bank 2 Groups 001 - 009 General Engine Data General 2 Bank systems 001 RPM [1/min] Engine coolant temperature [°C] Lambda control value Bank 1 [%] Lambda control value Bank 2 [%] General 1-Bank-Systems 001 RPM Engine coolant temperature [1/min] Lambda control value (Injection adjustment) [°C] Adjustment requirements for basic setting [%] xxxxxxxx Coolant temp. > 80°C RPM 2000 1/min Throttle Closed Lambda control: OK Idle Switch closed A/C compr.OFF Cat temp.reached no DTC stored in memory 1: Conditions attained 0: Conditions not attained 002 General Systems with Mass Airflow Sensor RPM Load Mean injection time Air mass [1/min] [%] [ms] [g/s] 002 General Systems with intake manifold pressure sensor RPM Load Mean injection time Intake manifold pressure [1/min] [%] [ms] [mbar] 003 General Systems with Mass Airflow Sensor RPM Air mass Throttle valve angle (Potentiometer) Ignition angle (actual) [1/min] [g/s] [%] [°KW] 003 General Systems with intake manifold pressure sensor RPM Intake manifold pressure Throttle valve angle (Potentiometer) Ignition angle (actual) [1/min] [mbar] [%] [°KW] 004 General RPM Voltage Cooling temperature Intake air temperature [1/min] [V] [°C] [°C] 005 General RPM Load Speed Operating condition [1/min] [%] [km/h] Text (Idle, partial load, full load, SA, BA) [1] 006 General RPM Load Intake air temperature Altitude correction [2] [1/min] [%] [°C] [%] 007 General BDE RPM Load Intake manifold pressure Mass Airflow Sensor Pressure bake booster [1/min] [%] [mbar] [mbar] 008 General Condition brake Supply voltage Condition vacuum pump for brake Pressure bake booster activated / not activated [V] Pump ON / Pump OFF [mbar] 009 Groups 010 - 019: Ignition & Misfire Detection 010 Ignition RPM Load Throttle valve angle (Potentiometer) Ignition angle (actual) [1/min] [%] [%] [°KW] 011 Ignition RPM Coolant temperature Intake air temperature Ignition angle (actual) [1/min] [°C] [°C] [°KW] 012 Distributor adjustment RPM Load No. of crankshaft tooth at camshaft flank low->high No. of crankshaft tooth at camshaft flank low->high [1/min] [%] [xx] [xx] 013 014 Misfire recognition RPM Last Misfire counter Misfire recognition [1/min] [%] [n] Text activated / locked 015 Misfire recognition Counter Cyl.. 1 Counter Cyl. 2 Counter Cyl. 3 Misfire recognition [n] [n] [n] Text: activated / locked 016 Misfire recognition Counter Cyl.. 4 Counter Cyl. 5 Counter Cyl. 6 Misfire recognition [n] [n] [n] Text: activated / locked 017 Misfire recognition Counter Cyl.. 7 Counter Cyl. 8 Counter Cyl. 9 Misfire recognition [n] [n] [n] Text activated / locked 018 Load / RPM window misfire recognition (if no misfire recognized: 0 at all positions) Lower RPM limit Upper RPM limit Lower RPM limit Upper RPM limit [n] [n] [%] [%] 019 Misfire recognition Counter Cyl. 10 Counter Cyl. 11 Counter Cyl. 12 Misfire recognition [n] [n] [n] Text: activated / locked Groups 020 - 029: Knock Control 020 Knock control [1] Ignition angle retard Cyl. 1 Ignition angle retard Cyl. 2 Ignition angle retard Cyl. 3 Ignition angle retard Cyl.4 [°KW] [°KW] [°KW] [°KW] 021 Knock control Ignition angle retard Cyl. 5 Ignition angle retard Cyl. 6 Ignition angle retard Cyl. 7 Ignition angle retard Cyl. 8 [°KW] [°KW] [°KW] [°KW] 022 Knock control RPM Load Ignition angle retard Cyl. 1 Ignition angle retard Cyl. 2 [1/min] % [°KW] [°KW] 023 Knock control RPM Last Retard Cyl. 3 Retard Cyl. 4 [1/min] [%] [°KW] [°KW] 024 Knock control RPM Last Retard Cyl. 5 Retard Cyl. 6 [1/min] [%] [°KW] [°KW] 025 Knock control RPM Last Retard Cyl. 7 Retard Cyl. 8 [1/min] [%] [°KW] [°KW] 026 Knock control, knock sensor voltage (amplifier factor included) Cyl.. 1 Cyl.. 2 Cyl.. 3 Cyl.. 4 [V] [V] [V] [V] 027 Knock control, knock sensor voltage (amplifier factor included) Cyl.. 5 Cyl.. 6 Cyl.. 7 Cyl.. 8 [V] [V] [V] [V] 028 Test knock sensor, short trip RPM Load Coolant temperature Result [1/min] [%] [°C] Text:Test ON /Test OFF/ Sys. OK / Sys. not OK 029 Groups 030-049: Mixture Control, O2S Heating, Catalytic Converter 030 Oxygen sensor, status 2-bank systems Bank 1, sensor 1 Bank 1, sensor 2 Bank 2, sensor 1 Bank 2, sensor 2 xxx 4¦¦L-Control active ¦L--Sensor ready¦ L---Sensor heater ON xxx [1] ¦¦L- Control active ¦L-- Sensor ready L--- Sensor heater ON xxx 4¦¦L- Control active ¦L-- Sensor ready L--- Sensor heater ON xxx 4¦¦L- Control active ¦L-- Sensor ready L--- Sensor heater ON 030 Oxygen sensor, status 1- bank systems Bank 1, sensor 1 Bank 1, sensor 2 xxx 4¦¦L- Control active ¦L-- Sensor ready L--- Sensor heater ON xxx 4¦¦L- Control active ¦L-- Sensor ready L--- Sensor heater ON 031 Oxygen sensor voltage 2- bank systems Bank 1, sensor 1 Bank 1, sensor 2 Bank 2, sensor 1 Bank 2, sensor 2 [V] [V] [V] [V] 031 Oxygen sensor voltage 1- bank systems Bank 1, sensor 1 Bank 1, sensor 2 [V] [V] 031 Linear oxygen sensors 2- bank systems Lambda actual value Bank 1 Lambda specified value Bank 1 Lambda actual value Bank 2 Lambda specified valueBank 2 [] [] [] [] 031 Linear oxygen sensors 1- bank systems Lambda actual value Bank 1 Lambda specified valueBank 1 [] [] 032 Oxygen sensors learning values (maximum value) 2- bank systems Bank 1, sensor 1, idle Bank 1, sensor 1, partial load Bank 2, sensor 1, idle Bank 2, sensor 1, partial load [%] [%] [%] [%] 032 Oxygen sensors learning values (maximum value) 1- bank systems Bank 1, sensor 1, idle Bank 1, sensor 1, partial load [%] [%] 033 Lambda control value 2- bank systems Bank 1, control value Bank 1, Oxygen sensor voltage Bank 2, control value Bank 2, knock sensor voltage [%] [V] [%] [V] 033 Lambda control value 1- bank systems Bank 1, control value Bank 1, Oxygen sensor voltage [%] [V] 033 Linear oxygen sensor control value 2- bank systems Bank 1, control value Bank 1, sensor voltage before cat. converter of a broad band sensor Bank 2, control value Bank 2, sensor voltage before cat. converter of a broad band sensor [%] [V] [%] [V] 034 Oxygen sensor aging test Bank 1 or Bank 3 before catalytic converter, short trip RPM Exhaust gas / cat. converter temperature Length of period Result [1/min] [°C] [s] Text:Test ON/Test OFF/B1-S1 OK/B1-S1 not OK or:B3-S1 OK /B3-S1 not OK 034 Oxygen sensor aging test Bank 1 or Bank 3 before cat. converter for linear oxygen sensors. short trip RPM Exhaust gas / cat. converter temperature Dynamic factor Result [1/min] [°C] 2000 RPM 0,8SENSOR NEW 1,99 Text:Test ON/Test OFF/ B1-S1 OK/B1-S1 not OK or B3-S1 OK ./B3-S1 not OK 035 Oxygen sensor aging test Bank 2 or Bank 4 before cat. converter, short trip 2-bank systems RPM Exhaust gas / cat. converter temperature Length of period Result [1/min] [°C] [s] Text:Test ON/Test OFF/ B2-S1 OK/B2-S1 not OKor B4-S1 OK/B4-S1 not OK 035 Oxygen sensor aging test Bank 2 or Bank 4 before cat. converter for linear oxygen sensors, short trip 2- bank systems RPM Exhaust gas / cat. converter temperature Dynamic factor Result [1/min] [°C] [ ] Text:Test ON/Test OFF/B2-S1 OK /B2-S1 not OK or:B4-S1 OK/B4-S1 not OK 035 Oxygen sensor aging test Bank 2 before cat. converter 1- bank systems 036 Oxygen sensor readiness after cat. converter, short trip 2- bank systems Bank 1, sensor 2 Result Bank 2, sensor 2 Result Sensor voltage Text:Test ON/Test OFF/B1-S2 OK/B1-S2 not OK or: B3-S2 OK/B3-S2 not OK Sensor voltage Text:Test ON/Test OFF/ B2-S2 OK/B2-S2 not OK or:B4-S2 OK/B4-S2 not OK 036 Oxygen sensor readiness after cat. converter, short trip 1- bank systems Bank 1, sensor 2 Result Sensor voltage 2000 RPM 0-1 VOLT Text:Test ON/Test OFF/ B1-S2 OK./B1-S2 not OK. 037 Oxygen sensors, short trip Last Bank 1: Oxygen sensor voltage after cat. converter Bank 1: TV shift Result [%] [V] [ms] Text:Test ON/Test OFF/ Sys. OK/Sys. not OK 037 Linear oxygen sensors, short trip Last Bank 1: Oxygen sensor voltage after cat. converter Bank 1: D Lambda Result [%] [V] [ ] Text:Test ON/Test OFF/Sys. OK/Sys. not OK 038 Oxygen sensors, short trip 2- bank systems Last Bank 2: Oxygen sensor voltage after cat. converter Bank 2: TV shift Result [%] [V] [ms] Text:Test ON/Test OFF/ Sys OK/Sys. not OK 038 Linear oxygen sensors, short trip 2- bank systems Last Bank 2: Oxygen sensor voltage after cat. converter Bank 2: D Lambda Result [%] [V] [ ] Text: Test ON/Test OFF/ Sys OK/Sys. not OK 038 Oxygen sensors 1- bank systems Not used 039 Sensor exchange after cat. converter short trip Air mass Bank 1: sensor voltage Bank 2 sensor voltage Result [g/s] [V] [V] Text:Test ON/Test OFF/ Sys OK/Sys. not OK 040 Oxygen sensor heaters resistor Combined wires and heaters 2- bank systems Heater resistor Condition Heater resistors Condition Banks 1+2, sensor 1 [?] Text:Heater before cat. ON/ Heater before cat. OFF Banks 1+2, sensor 2 [?] Text:Heater before cat. ON/ Heater before cat. OFF 040 1- bank systems Not used 041 Oxygen sensor heater 1- bank systems Resistor Condition or duty cycle Resistors Condition Bank 1, sensor 1 [?] Text:Heater before cat. ON/ Heater before cat. OFFor:sensor 1 [%] Bank 1, Sensor 2 [?] Text:Heater after cat. ON/ Heater after cat. OFF 042 Oxygen sensor heaters, separate wires of heaters 2- bank systems Resistor Condition or duty cycle Resistors Condition Bank 2, Sensor 1 [?] Text:Heater before cat. ON/ Heater before cat. OFF or:Sensor 1 [%] Bank 2, Sensor 2 [?] Text:Heater after cat. ON/ Heater after cat. OFF 043 Oxygen sensor ageing after cat. converter, linear oxygen sensors, short trip Bank 1 RPM Exhaust gas / cat. converter temperature Oxygen sensor voltage Result [U/min] [°C] [V] Text:Test ON/Test OFF/ B1-S2 OK/B1-S2 not OK Or:B3-S2 OK/B3-S2 not OK 044 Oxygen sensor ageing after cat. converter, short trip Bank 2 RPM Exhaust gas / cat. converter temperature Oxygen sensor voltage Result [U/min] [°C] [V] Text :Test ON/Test OFF/B2-S2 OK /B2-S2 not OK Or:B4-S2 OK/B4-S2 not OK 044 1-bank systems 045 NOx memory cat. converter Bank 1, short trip NOx memory cat. converter Bank 2 Factor memory entry NOx Result Factor memory entry NOx Result Text:Test ON/Test OFF/Sys. OK/Sys. not OK Text:Test ON/Test OFF/Sys. OK/Sys. not OK 046 Cat. converter conversion test Bank 1 or Bank 3, short trip RPM Cat. converter temperature Measuring value cat. Converter conversion Result [1/min] [°C] OVER 400°C UNDER 0.50 Text:Test ON/Test OFF/Cat B1 OK/Cat B1 not OKor:Cat B3 OK/Cat B3 not OK 047 Cat. converter conversion test Bank 2 or Bank 4, short trip 2-Bank-Systems RPM Cat. converter temperature Measuring value cat. Converter conversion Result [1/min] [°C] Text:Test ON/Test OFF/Cat B2 OK/Cat B2 not OK or:Cat B4 OK/Cat B4 not OK 047 Cat. converter conversion test Bank 2 1-Bank-Systems Not used 048 Thermal cat. converter diagnosis Bank 1, short trip Operating system BDE Number of test steps Exothermal temperature increase Result [-] [-] [K] Text:Test ON/Test OFF/ Sys. OK/Sys. not OK 049 Thermal cat. converter diagnosis Bank 2, short trip Operating system BDE Number of test steps Exothermal temperature increase Result [-] [-] [K] Text:Test ON/Test OFF/Sys. OK/Sys. not OK Groups 050 - 059: Engine Speed Control 050 RPM increase Systems without separation for rear window defroster /A/C readiness RPM actual value RPM specified value Rear window defroster/Request for A/C A/C compressor [1/min] [1/min] Text ON/ OFF Text ON/ OFF/ decrease 050 RPM increase Systems with separation for rear window defroster /A/C readiness RPM actual value RPM specified value Request for A/C A/C compressor [1/min] [1/min] Text ON/ OFF Text ON/ OFF/ decrease 051 RPM, shift initiations RPM actual value RPM specified value Driving range (only for automatic transmission) Supply voltage [1/min] [1/min] 0-6 (Idle, driving ranges 1-6) [V] 052 RPM increase Systems without separation for rear window defroster /A/C readiness Not used 052 RPM increase Systems with separation for rear window defroster /A/C readiness RPM (actual value) RPM (specified value) A/C readiness Rear window defroster [1/min] [1/min] Text ON/OFF Text ON/OFF 053 RPM increase based on generator load RPM (actual value) RPM (specified value) Voltage Generator load [1/min] [1/min] [V] [%] 054 Closed throttle position switch RPM Operating conditions Throttle valve angle (Potentiometer) Throttle valve angle (Potentiometer) [1/min] (LL, TL, VL, SA, BA) [%] [%] 054 Closed throttle position switch for E-Gas-systems RPM Operating conditions Sensor 1 for accelerator pedal position Throttle valve angle (Potentiometer) [1/min] (LL, TL, VL, SA, BA) [%] [%] 055 Idle air control Systems without separation for rear window defroster /A/C readiness RPM Idle air control Current learning value for idle air control Operating conditions [1/min] [1] [ [2]] [ [3]] x0xxx [4] ¦¦¦¦L-A/C ¦¦¦¦ compressor ON ¦¦¦L--Driving¦¦¦ range selected ¦¦L---A/C readiness,¦¦ rear window¦¦ defroster ¦¦ ON ¦L----always0 LSteering to stop 055 Idle air control Systems with separation for rear window defroster /A/C readiness RPM Idle air control Learning value for idle air control Operating conditions [1/min] [ [5]] [ [6]] xxxxx 8¦¦¦¦L-A/C ¦¦¦¦ compressor ON ¦¦¦L--Driving¦¦¦ range selected ¦¦L--- A/C readiness¦¦ ON ¦L---- rear window¦ defroster ON L Steering to stop 056 Idle air control Systems with separation for rear window defroster /A/C readiness RPM (actual value) RPM (specified value) Idle air control valve Operating conditions [1/min] [1/min] [ [7]] x0xxx 8¦¦¦¦L- A/C ¦¦¦¦ compressor ON ¦¦¦L-- Driving ¦¦¦ range selected ¦¦L--- A/C readiness,¦¦ rear window¦¦ defroster ¦¦ ON ¦L----always 0 L Steering to stop 056 Idle air control Systems without separation for rear window defroster /A/C readiness RPM (actual value) RPM (specified value) Idle air control valve Operating conditions [1/min] [1/min] [ [8]] xxxxx [9] ¦¦¦¦L- A/C¦¦¦¦ compressor ON ¦¦¦L-- Driving¦¦¦ range selected ¦¦L--- A/C readiness,¦¦ rear window ¦L---- defroster¦ ON L Steering to stop 057 Idle air control, pressure signal A/C compressor RPM (actual value) RPM (specified value) A/C compressor Duty cycle pressure receiver [1/min] [1/min] Text: ON/OFF/decreasing [%] 058 RPM Load Engine bearing 1 right Engine bearing 2 left [1/min] [%] ON/OFF ON/OFF 059 Groups 060 - 069: Throttle Valve Control 060 ESB adaption Vehicles with ESB Throttle valve angle (potentiometer) Throttle valve angle (potentiometer) Operating condition Adaption condition [%] [%] Text: (Idle, partial load, full load, deceleration enrichment, acceleration enrichment) Text:(ADP runs/ADP OK/ERROR [1]) 060 E-Gas adaption Vehicles with E-Gas Throttle valve angle (potentiometer 1) Throttle valve angle (potentiometer 2) Electrically controlled throttle valve adaption status Operating condition [%] [%] [n] Text: ADP runs/ADP OK/ERROR 061 ESB/E-Gas Systems without separation for rear window defroster /A/C readiness RPM Supply voltage Ubat Triggering throttle valve control Operating condition [1/min] [V] [%] if possible 0xxx [2] ¦¦¦L- A/C¦¦¦ compressor ON ¦¦L-- driving¦¦ range selected ¦L--- A/C readiness/ r rear window defroster ON¦ L----always 0 061 ESB/E-Gas Systems with separation for rear window defroster /A/C readiness RPM Supply voltage Ubat Actuating throttle valve control Operating condition [1/min] [V] [%] xxxx 15 ¦¦¦L-A/C¦¦¦ compressor ON ¦¦L--driving¦¦ range selected ¦L---A/C readiness¦ ON L----Rear window defroster ON 062 E-Gas, potentiometer voltage relationship U/Uref Angle sensor 1 for throttle valve drive (0->100%) Angle sensor 2 for throttle valve drive (0->100%) Sensor 1 accelerator pedal position (0->100%) Sensor 2 accelerator pedal position (0->100%) [%] [%] [%] [%] 063 Kick-down adaption Sensor 1 accelerator pedal position (0->100%) Sensor 1 learned Kick-down point (0->100%) Switch Result [%] [%] Kick-down Actuated; ADP runs; ADP OK; ERROR 064 Throttle valve potentiometer adaption values Potentiometer 1 lower adaption Potentiometer 2 1 lower adaption Emergency air gap potentiometer 1 Emergency air gap potentiometer 2 [V] [V] [V] [V] 065 066 Cruise control switched free for 4 position operating lever Vehicle speed actual Switch positions Vehicle speed specified Switch positions [km/h] xxxxxxxx ¦¦¦¦¦¦¦Lbrake light switch¦¦¦¦¦¦¦Pedal pressed ¦¦¦¦¦¦Lbrake pedal switch ¦¦¦¦¦¦ Pedal pressed ¦¦¦¦¦L--clutch switch¦¦¦¦¦ Pedal pressed¦¦¦¦L---CC function¦¦¦¦ switched free ¦¦¦L----ADR-Function¦¦¦ switched free ¦¦¦ ¦¦L-----not used¦¦ 00 ADR/CC not active (also used for not installed) 01 ADR/CC in control mode 10 Condition „over controlled“, driver accelerates more than cruise control regulator 11 ADR not released 1: Condition fulfilled 0: Condition not fulfilled [km/h] in 1 km/h-steps (only displayed when cruise control function is freely switched) For 4 position operating lever xxxxxxxx ¦¦¦LCC ON / OFF ¦¦Lmemory set ¦¦ /CC OFF ¦L-Set /tip down / ¦ decelerate L-Resume / Tip up/ acceleration ----0000 CC engaged OFF ----0001 CC tipped OFF ----0011 CC engaged ON (stand by) ----01x1 Set/Tip down/ decelerate ----1011 Resume/Tip up/ accelerate 066 Cruise control switched free for 6 position operating lever Vehicle speed actual Switch positions Vehicle speed specified Switch positions [km/h] xxxxxxxx ¦¦¦¦¦¦¦L brake light switch¦¦¦¦¦¦¦ Pedal pressed ¦¦¦¦¦¦L brake pedal switch ¦¦¦¦¦¦ Pedal pressed ¦¦¦¦¦L-- clutch switch ¦¦¦¦¦ Pedal pressed¦¦¦¦L--- CC function¦¦¦¦ switched free ¦¦¦L----ADR function¦¦¦ switched free ¦¦¦ ¦¦L----- not used¦¦ 00 ADR/ CC not active (also used for not installed) 01 ADR/ CC in control mode 10 Condition „over-controlled“, driver accelerates more than cruise control regulator 11 ADR not released 1: Condition fulfilled 0: Condition not fulfilled [km/h] in 1 km/h-steps (is only issued with freely switched cruise control function) For 6 position operating lever xxxxxxxx ¦ ¦¦¦¦¦LCC ON /OFF engaged ¦ ¦¦¦¦¦ (CAN)¦ ¦¦¦¦LCC tipping, yes/no ¦ ¦¦¦¦ Memory set ¦ ¦¦¦L-Tip down / decelerate¦ ¦¦L- Tip up/ accelerate ¦ ¦L Set ¦ L Resume L CC ON/OFF engaged (Hardware PIN) 0-000000 CC engaged OFF 1-000001 CC engaged ON (stand-by) 1-000011 CC tipped OFF 1-000101 Tip down/decelerate 1-001001 Tip up/accelerate 0-010000 Set (with CC engaged OFF) 1-010001 Set (with CC engaged ON) 1-100001 Resume 067 068 069 Groups 070 - 079: Emission Control Systems (EVAP, Sec. AIR, EGR) 070 Fuel tank venting and valve testing, short trip Opening degree fuel tank ventilation [1] Lambda regular/ diagnostic value with active diagnose Idle air control valve / diagnostic value with active diagnose Result [%] [%] [ [2]] / [%] / [g/sec] Test ON/ Test OFF/Fuel tank ventilation OK/ Fuel tank ventilation not OK. 071 Fuel tank leak test, short trip Condition reed contact DTC Test status Result Text Reed Open / Reed Closed Text Small leak/large leak System test/measurement/measurement end Test ON/ Test OFF/ AbortSyst. OK/ Syst. Not OK 072 Tank leak test 073 074 EGR regulator solenoid adaption Null-Position Max. stop Current potentiometer value Text [V] [V] [V] Leak detection pump runs/ LDP OK/ ERROR 075 EGR, short trip Systems with Temp.-sensor Engine RPM EGR-Temp. Sensor EGR temperature difference Result [1/min] [°C] [°C] Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 075 EGR, short trip Systems with intake manifold pressure sensor Engine RPM Intake manifold pressure Intake manifold pressure difference Result [1/min] [mbar] [mbar] Test ON/ Test OFF/Syst. OK/ Syst. Not OK 075 EGR, for map adaption short trip Systems with intake manifold pressure sensor Pressure difference diagnostics EGR phase 1 and 2 Pressure difference diagnostics EGR phase 2 and 3 Pressure difference diagnostics EGR phase 1 and 3 Result [hPa] [hPa] [hPa] Test ON/ Test OFF/Syst. OK/ Syst. Not OK 076 EGR for pressure systems Engine RPM Intake manifold pressure Opening degree (U/Uref) EGR potentiometer Duty cycle EGR valve [1/min] [mbar] [%] [%] 076 EGR for air mass system Engine RPM Last Opening degree (U/Uref) EGR potentiometer Duty cycle EGR valve [1/min] [%] [%] [%] 076 EGR map adaption Actual EGR value – potentiometer without offset Correction factor in the upper opening range Correction factor in the lower opening range Status [V] [%] [%] Test OFF / Leak detection pump runs/ LDP OK/ ERROR 077 Test secondary air injection system, short trip, Bank 1 Systems with conventional oxygen sensor RPM Engine air mass Air mass secondary air injection system Result [1/min] [g/sec] [g/sec] Test ON/ Test OFF/ AbortSyst. OK/ Syst. Not OK 077 Test secondary air injection system, short trip, Bank 1 Systems with linear oxygen sensor RPM Engine air mass relative Air mass Result [1/min] [g/sec] [ ] Test ON/ Test OFF/ Abort Syst. OK/ Syst. Not OK 078 Test secondary air injection system, short tripBank 2 Systems with conventional oxygen sensor RPM Engine air mass Air mass secondary air injection system Result [1/min] [g/sec] [g/sec] Test ON/ Test OFF/ AbortSyst. OK/ Syst. Not OK 078 Test secondary air injection system, short trip, Bank 2 Systems with linear oxygen sensor RPM Engine air mass Relative air mass Result [1/min] [g/sec] [ ] Test ON/ Test OFF/ AbortSyst. OK/ Syst. Not OK 079 Groups 080-085: Control module identification080 Control module identification (display shown at NA-No. 63) 080 Manufacturer’s code and marking Manufacturing date Manufacture’s change status Manufacturer’s test stand number. Manufacturer’s running number. 081 Control module identification (display shown at NA-No. 63) Vehicle identification number Limit No or serial number Type test number WVWZZZ1JZWW12345 12345678901234 1234567 082 Control module identification (display shown at NA-No. 63) Flash tool code (FTC) Flash date Hardware Comp. group type Software Comp. group type 1234567890123 dd.mm.yy 123 12 123 12 083 Control module identification 084 Control module identification 085 Control module identification Groups 090 - 098 Camshaft & Intake Manifold Control 090 Camshaft adjustment Intake RPM Adjustment Adjustment Bank 1 Adjustment Bank 2 [1/min] Text ON/OFF [°KW] [°KW] 090 Camshaft adjustment Exhaust RPM Adjustment Adjustment Bank 1 Adjustment Bank 2 [1/min] Text ON/OFF [°KW] [°KW] 090 Continuous camshaft adjustment Exhaust Bank 1 RPM Duty cycle Adjustment specified Adjustment actual [1/min] [%] [°KW] [°KW] 091 Camshaft adjustment Intake Bank 1 RPM Last Adjustment Adjustment [1/min] [%] Text ON/OFF [°KW] 091 Continuous camshaft adjustment, Intake Bank 1 RPM Duty cycle Adjustment specified Adjustment actual [1/min] [%] [°KW] [°KW] 092 Camshaft adjustment Intake Bank 2 RPM Last Adjustment Adjustment [1/min] [%] Text ON/OFF [°KW] 092 Continuous camshaft adjustment, Intake Bank 2 RPM Duty cycle Adjustment specified Adjustment actual [1/min] [%] [°KW] [°KW] 093 Camshaft adaption values Intake 2-Bank Systems RPM Last Phase position [1] Bank 1 [2] Phase position Bank 2 [1/min] [%] [°KW] [°KW] 093 Continuous camshaft adaption values Phase position intake Bank 1 Phase position intake Bank 2 Phase position exhaust Bank 1 Phase position exhaust Bank 2 [°KW] [3] [°KW] [°KW] [°KW] 094 Camshaft adjustment Banks 1 and 2 Intake, short trip RPM Camshaft adjustment Test result Bank 1 Test result Bank 2 [1/min] Text: Camshaft position ON / Camshaft positionOFF Test ON/ Test OFF/ Syst. OK/ Syst. Not OK Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 094 Continuous camshaft adjustment Banks 1 and 2 intake, short trip RPM Phase position intake Test result Bank 1 Test result Bank 2 [1/min] [°KW] Test ON/ Test OFF/ Syst. OK/ Syst. Not OK Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 095 Intake manifold change-over Single step change-over Engine RPM Last Coolant temperature Status [1/min] [%] [°C] Text:ein/aus 095 Intake manifold change-over Multi-step change-over Engine RPM Last Coolant temperature Status [1/min] [%] [°C] Text:Off /step 1/step 2 096 Camshaft adjustment Banks 1 and 2 Exhaust, short trip RPM Camshaft adjustment Test result Bank 1 Test result Bank 2 [1/min] Text: Camshaft position ON / Camshaft positionOFF Test ON/ Test OFF/ Syst. OK/ Syst. Not OK Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 096 Continuous camshaft adjustment Banks 1 and 2 Exhaust, short trip RPM Phase position exhaust Test result Bank 1 Test result Bank 2 [1/min] [°KW] Test ON/ Test OFF/ Syst. OK/ Syst. Not OK Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 097 Intake air change-over / Snow flap RPM Last Temperature / Pressure Intake air change-over [1/min] [%] [°C]/[mbar] ON/ OFF 098 Continuous camshaft adjustment Exhaust Bank 2 RPM Duty cycle Adjustment specified Adjustment actual [1/min] [%] [°KW] [°KW] Groups 099 & 100: Compatibility Groups099 Shut-off l-Regulation (via basic setting) (for compatibility reasons with older systems) RPM Coolant temperature Lambda regulation Lambda regulation [1/min] [°C] [%] ON/OFF 100 Readiness code (for compatibility reasons with older systems) Ready bits (concluded tests) 1= not concluded 0= concluded Coolant temperature Time since engine start OBD-Status xxxxxxx ¦¦¦¦¦¦¦L Cat. ¦¦¦¦¦¦¦ converters ¦¦¦¦¦¦LHeat cat ¦¦¦¦¦L AKF-System ¦¦¦¦L SL-System ¦¦¦L A/C ¦¦L Oxygen sensors ¦L Oxygen sensor heating L EGR [°C] xxxxxxxx ¦¦¦¦¦¦¦L no warm-¦¦¦¦¦¦¦ up cycle ¦¦¦¦¦¦¦ possible ¦¦¦¦¦¦L warm-up ¦¦¦¦¦¦ cycle finished ¦¦¦¦¦L not used ¦¦¦¦L not used ¦¦¦L at least one DTC¦¦¦ recognized ¦¦L Trip complete ¦L Driving cycle fulfilled L MIL ON 1: Description fulfilled 0: Description not fulfilled Groups 101 - 109: Fuel Injection 101 Fuel injection Systems with Air mass measurement RPM Last Mean injection time (at deceleration = 0) Air mass [1/min] [%] [ms] [g/s] 101 Fuel injection Systems with intake manifold pressure measurement RPM Last Mean injection time (at deceleration = 0) Intake manifold pressure [1/min] [%] [ms] [mbar] 102 Fuel injection RPM Coolant temperature Intake air temperature Mean injection time [1/min] [°C] [°C] [ms] 103 Air-shrouded fuel injectors, short trip RPM Air mass idle air control LFR-Offset adaptation Results [1/min] [g/s] [n] Test ON/Test OFF/l injector OK /l injector not OK 104 Start adaptation values Start engine temperature Temperature adaptation factor 1 Temperature adaptation factor 2 Temperature adaptation factor 3 [°C] [%] [%] [%] 105 Cylinder shut off RPM (actual) Last Coolant temperature Shut-off [U/min] [%] [°C] Text: ON/OFF [1] 106 107 Lambda regulation, short trip RPM Lambda regulation Bank 1 (average value) Lambda regulation Bank 2 (average value) Result [1/min] [%] [%] Text Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 108 109 Groups 110 - 119: Load Registration & Boost Pressure Control 110 Load, full load enrichment RPM Coolant temperature Average injection time Throttle valve angle (potentiometer) [1/min] [°C] [ms] [%] 111 Boost pressure control Adaption value boost pressure control RPM range 1 Adaption value boost pressure control RPM range 2 Adaption value boost pressure control RPM range 3 Adaption value boost pressure control RPM range 4 [%] [%] [%] [%] 112 Exhaust gas temperature Exhaust gas temperature Bank 1 Enrichment factor sensor Bank 1 Exhaust gas temperature Bank 2 Enrichment factor sensor Bank 2 [°C] [%] [°C] [%] 113 Last RPM Last Throttle valve angle (potentiometer) Air pressure [1/min] [%] [%] [mbar] 114 Boost pressure control Specified load without correction Specified load after correction Actual load Duty cycle Boost pressure valve [%] [%] [%] [%] 115 Boost pressure control RPM Last Boost pressure specified value Boost pressure actual value [1/min] [%] [mbar] [mbar] 116 Boost pressure control RPM Correction factor fuel Correction factor coolant temperature Correction factor intake air temperature [1/min] [%] [%] [%] 117 Boost pressure control RPM Gas pedal position Throttle valve angle Boost pressure specified [1/min] [%] [%] [mbar] 118 Boost pressure control RPM Intake air temperature Duty cycle boost pressure control valve Boost pressure before throttle valve [1/min] [°C] [%] [mbar] 119 Boost pressure control RPM Actual adaption value boost pressure control valve Duty cycle boost pressure control valve Boost pressure before throttle valve [1/min] [%] [%] [mbar] Groups 120 - 129: Communcations between Control Modules 120 ASR/FDR Engine RPM Specified moment ASR/FDR Engine moment Status [1/min] [Nm] [Nm] Text (ASR active/ASR not active) 121 122 Transmission Engine RPM Specified moment Transmission Engine moment Status [1/min] [Nm] [Nm] Text (Engine intervention /no intervention) 123 Reserved for CAN Bus signals 124 Reserved for CAN Bus signals 125 CAN Bus signals see CAN-Product Description Manual Transmission [1] ABS22 Instrument cluster22 A/C22 126 CAN Bus signals ADR22 LWS 22 Airbag22 Electrical wiring22 127 CAN Bus signals All wheel22 Level Steering wheel 128 CAN Bus signals 129 CAN Bus signals Groups 130-137: Engine cooling 130 Map cooling (coolant filling), Short trip Temperature Engine outlet Temperature Radiator outlet Duty cycle Thermostat Result [°C] [°C] [%] Text: Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 131 Map cooling Temperature Engine outlet Temperature Engine outlet (specified) Temperature Radiator outlet Duty cycle Thermostat [°C] [°C] [°C] [%] 132 Map cooling Temperature Radiator outlet (specified) Temperature difference Engine and radiator outlet Heater pre-run potentiometer Status cooling [°C] [°C] [%] xxxxxxxx ¦¦¦¦¦¦¦L Error ¦¦¦¦¦¦¦ in system ¦¦¦¦¦¦L Thermostat-¦¦¦¦¦¦ actuation ¦¦¦¦¦¦ active ¦¦¦¦¦L Cooling van ¦¦¦¦¦ triggering active ¦¦¦¦LControl deviation ¦¦¦¦0 > specified temp. ¦¦¦¦1 < specified temp ¦¦¦L Fan stage 2 active¦¦L Fan stage 1 active ¦L not used L not used 1: Description fulfilled 0: Description not fulfilled 133 134 Temperature Oil temperature Ambient temperature Intake air temperature Engine outlet temperature [°C] [°C] [°C] [°C] 135 Coolant fan control, short trip Temperature Radiator outlet (specified) Duty cycle Coolant fan actuation 1 Duty cycle Coolant fan actuation 2 Result [°C] [%] [%] Text: Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 136 Relay for coolant fan actuation Relay 1 Relay 2 Relay 3 Relay 4 ON / OFF ON / OFF ON / OFF ON / OFF 137 A/C requirements AC-inlet Compressor High pressure switch or Pressure of A/C system Fan request from A/C system ON / OFF ON / OFF ON / OFF or [bar] [%] Groups 140-147:BDE 140 Pressure control valve, short trip Duty cycle DSV Rail pressure specified Rail pressure actual Result [%] [bar] [bar] Text: Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 141 Fuel supply system Rail pressure regulator Regulator rail pressure system Regulator rail pressure system residual portion Status rail pressure system [bar] [-] [-] [-] 142 143 144 145 Exhaust gas temperature sensor, short trip Exhaust gas temperature from model Bank 1 Exhaust gas temperature sensor measured Bank 1 Exhaust gas temperature sensor measured Bank 2 Result [°C] [°C] [°C] Text: Test ON/ Test OFF/ Syst. OK/ Syst. Not OK 146 147 Charge movement flap for BDE Charge movement flap Actual position Charge movement flap Specified position Offset value of potentiometer voltage LBK Adaptation condition [%] [%] [V] TextADP runs/ ADP OK/ Error(in emergency running mode) Groups 160-169: Lambda control / SULEV-ULEV 160 Individual cylinder recognition/ Individual cylinder control Normal Lambda control starting point cylinder 1 Normal Lambda control starting point cylinder 2 Normal Lambda control starting point cylinder 3 Normal Lambda control starting point cylinder 4 [-] [-] [-] [-] 161 Individual cylinder recognition/ Individual cylinder control Normal Lambda control starting point cylinder 5 Normal Lambda control starting point cylinder 6 Normal Lambda control starting point cylinder 7 Normal Lambda control starting point cylinder 8 [-] [-] [-] [-] 162 163 164 165 166 167 168 169 Channel 1: Lambda Correction This is a fuel correction table used by the computer when it senses the car richening and leaning from the programmed air/fuel tables. The numbers will be displayed as a percentage starting from 0% indicating NO fuel correction is needed. This means the car is doing what it has been asked to do. No fuel is having to be added or removed to maintain harmony. The computer can correct for these rich and lean conditions up to 25% or so. Note that seeing numbers higher than 0 does not necessarily mean your car is running dangerously rich or lean just because of a little correction. Positive numbers displayed indicate fuel is having to be added to compensate for lean conditions. Negative numbers indicate fuel is having to be removed to compensate for a richer condition. The lower the numbers the better. Numbers upwards of 20 indicate some real problems that bear much closer attention. Remember that lean is your ultimate enemy. Note: This channel can not be substituted for channel 31 which displays the actual air/fuel ratio. This channel displays the deviance or the correction from the a/f that is requested, but if the incorrect air/fuel is requested by the programming than one could still be running an unsafe air/fuel ratio and the computer would not correct for it. To determine the actual a/f that is being requested and achieved you would defer to channel 31. To determine if the vehicle is having to remove or add fuel to achieve that a/f you would rely on this channel. Channel 2: Mass Air Flow Sensor (MAF) This channel measures the grams per second or airflow taken into account by the MAF sensor. Input I have collected from tuners suggest that this is not a direct measure and depends on other sensors, so programming may be able to affect the g/s independent of changes to actual airflow. Nevertheless, while this may not be a reading that can completely state the airflow your car is taking in, it can provide a good estimate. This is a great log to look at if you suspect a common failure, the dying MAF sensor. On a chipped car one would expect MAF numbers to increase linearly as the car approaches redline. Your highest numbers will be seen at or near redline and are likely to be in the neighborhood of 160-180 g/s. Low numbers at redline such as 120 g/s are a good indicator your MAF is on the way out. Codes may not be thrown at this point. Terribly low or NO readings means she is dead. Channel 4: Intake Air Temperatures This channel displays the coolant temperature of the car and in the last column the intake air temperatures of the car. The intake air temperature sensor probe is located in the intake manifold just after the throttle body assembly. This sensor will measure the temperature in degrees Celsius of the air after it has passed through the intercoolers and is preparing to enter the motor to mix with the fuel. Unfortunately this channel is not ideal to be used to measure ultimate intercooler efficiency because this would require two probes to be installed on the vehicle, one to measure pre-intercooled air and another to measure the air post intercooler such as the case with this sensor we are dealing with for channel 4. On the other hand, being able to measure the post intercooled intake air temperatures will at least give us a general idea of the adequacy of the intercooling abilities as well as yet another heads up on the possibility of other problems with the car that would cause increased air temps post turbo compressor and intercoolers. Ideally the intake air should be as cool as possible, perhaps remaining at or below ambient temps. The intercoolers are designed to make use of the air flowing over the car to cool the intake air so it may be common to see temps begin to rise after a spirited driving regimen while the car is back at idle. Watching those temps rise while idling and then observing how quickly they once again reduce as the car goes underway gives some insight into the recovery rates of the intercoolers. In adddition, you may want to observe the temps througout a 3rd gear wide open throttle (WOT) run to see if the temps remain cool and stable. If the temps start to rise too high, this may be an indicator that an intercooler upgrade would be of benefit or a change in the state of the tune of the car is in order. Channel 20: Ignition Knock Control-Timing Retard for Each Cylinder This channel is very straight forward. You should see a field of 0s everywhere with a few possible spikes in retard up to 6 degrees retard. The number 0 in each of the cylinder boxes indicates NO timing retard is taking place. This means no timing is having to be removed by the computer as it senses knock. Now, what if you see some random numbers like "1.5" and "3" every once in awhile? This should be fine. If you were a tweaker, ideally you would want to find that point where you are able to use the most timing without triggering problems. Since most people do not mess with timing adjustments, we want to see as close to zero as possible though. Timing retard of greater than "6" would have me worried and I would want some further investigation and adjustments made. Running overly aggresssive timing will result in lower power (BTDC is adjusted down based on knock activity in channel 20) and is a major player in engine destruction. Examples: CAR RUNNING TOO MUCH TIMING RPM CYL 1 CYL 2 CYL 3 CYL 4 2500 0 0 0 0 2750 0 0 0 0 3000 0 0 0 0 3250 3 0 1.5 4 3500 3 3 4 4 3750 4 6 6 6 4000 3 0 3 4 4250 6 6 6 6 4500 6 6 6 6 4750 6 4 6 4 5000 8 6 8 4 5250 2 8 6 8 5500 6 8 8 6 5750 8 4 6 6 6000 6 6 6 4 6250 8 8 8 8 6500 8 6 6 6 6750 6 6 6 6 CAR RUNNING AGGRESSIVE TIMING (performance tuned) RPM CYL 1 CYL 2 CYL 3 CYL 4 Retard 2500 0 0 0 0 2750 0 0 0 0 3000 0 0 0 0 3250 0 0 0 0 3500 0 1.5 0 0 3750 3 0 0 1.5 4000 0 0 3 0 4250 1.5 1.5 3 3 4500 3 3 3 3 4750 1.5 3 1.5 1.5 5000 3 3 6 3 5250 0 1.5 3 0 5500 3 3 1.5 1.5 5750 3 4 3 1.5 6000 1.5 3 1.5 4 6250 3 3 3 3 6500 4 3 3 3 6750 1.5 3 1.5 3 CAR RUNNING VERY SAFE TIMING RPM CYL 1 CYL 2 CYL 3 Cyl 4 Retard 2500 0 0 0 0 2750 0 0 0 0 3000 0 0 0 0 3250 0 0 0 0 3500 0 0 0 0 3750 0 0 0 1.5 4000 0 0 0 0 4250 0 0 0 0 4500 0 0 0 0 4750 1.5 0 0 0 5000 0 0 0 0 5250 0 1.5 0 0 5500 0 0 0 0 5750 0 0 0 0 6000 0 0 0 0 6250 0 0 0 0 6500 0 0 0 0 6750 0 0 0 0 Channel 31: Lambda Reading or A/F Ratio This value is particularly important to be viewed and interpreted only when the car is under full throttle input as lifting up on the throttle will result in funky numbers. Take your log in third gear (or higher if your local authorities will allow) from 2500rpm or so until redline. The values you will see are: 1 = 14.7:1 ratio, .85 = 12.5:1 ratio, .75 = 11:1 ratio. As you have probably figured, simply multiply the lambda value by 14.7 to obtain the ratio. A car that runs 14:1 (lambda value of about .95) all the way up to redline on increased boost is running a bit lean. Conversely, a car that is running 10:1 (lambda value of about .70) from idle to redline is running a bit rich. Remember that lean is your ultimate enemy. Running too lean for too long will spell disaster for the motor. Ideally you would like to see the A/F pass linearly from the factory 14.7:1 at idle towards 13:1 in the mid rpms (3500rpm or so) to at least 12:1 at redline (NOTE: New FSI platforms are running approximately 10.5:1 at WOT). This would show a car that is getting good fuel mileage under easy driving, but richens up nicely as you wind it out under full throttle to redline. This would make you feel at ease driving the car under high load conditions at high speeds (freeway cruising at 120mph) or using the car for frequent track days. Example of manifold injection performance tuned a/f ratio readings: (NOTE: New FSI will request richer mixtures than this such as Lambda = .75 up top): RPM Lambda 2500 .99 2750 .95 3000 .95 3250 .95 3500 .90 3750 .90 4000 .90 4250 .85 4500 .85 4750 .85 5000 .85 5250 .85 5500 .85 5750 .85 6000 .80 6250 .80 6500 .80 6750 .80 Channel 34: Exhaust Gas Temperatures (EGT) Pretty straight forward here and a great channel to use to give you the heads up that other things are going wrong. This monitors the exhaust gas temperatures of the car. You want to see what the limits are here and it will take some beating on the car to find it. When the car is still warming up, your readings may not accurately reflect just how high these temps can get. Take your car out for some spirited full boost runs, then start logging in the normal 3rd gear WOT manner. Exhaust gas temperatures at 900 degrees Celsius and below are common for our engines when heavily boosted. This sensor appears to be only accurate up to 999 degrees Celsius or so. If you see readings creeping up this high, you have a great indicator that something is not right on your car and your engine is not happy with you. Running too high of temps for too long will spell disaster. Channel 115: Requested Boost and Actual Boost This is a very helpful channel for diagnosing boost leaks, trying to figure out why your car went into limp mode, and seeing if the software or hardware (electronic or manual boost controllers) are doing what they should be. This channel displays the boost requested by the computer (requested boost) in the first column and the boost actually made by the turbo (actual boost) in the second column. The readings you will see here can be misleading. First, you should know that the numbers you will see are not yet corrected for atmospheric pressure (about 1040mbar at sea level). The atmospheric pressure seen at the boost sensor is tough to estimate with complete precision, but I have found that subtracting 1000mbar from the numbers gets you close enough to actual boost unless you are living at 20,000 feet above sea level. The next thing you have probably noticed about these numbers are that they are displayed in mbar instead of psi like we are all used to. Well, this won't be a problem thanks to the metric system. 1000mbar = 1 bar and 1 bar = 14.5psi. There you have it. So, can we all figure out what boost level in psi this car is requesting and making at 3000rpm? RPM Requested Boost Actual Boost 2500...2100...1800 2750...2200...1950 3000...2200...2250 3250...2200...2200 3500...2200...2100 The correct answer is: The computer is requesting 1.2 bar of boost at 3000rpm. This can also be expressed as 17.4psi. The turbo is boosting 1.25 bar of boost at 3000rpm. This can also be expressed as 18.1psi. So why are the above numbers important to us other than acting as a boost guage to entertain us? Well, as you can imagine, if you had a boost leak you would have a car that is requesting the correct boost but you would see very little in the actual boost column. In the case that you had just installed your new little boost controller or N75 valve you could do some logging to find that your actual boost was far exceeding your computers' requested boost numbers causing your car to go into limp mode due to it's sensing an "overboost condition. For those of us who dare to run a turbo that was not designed specifically for the software they are using, this is a great way to see why it is not working out for you. For example, the boost maps on a K03 will show the ECU requesting max boost at around 3000rpms (this is a small turbo that makes its boost low in the rpm range). Now if you were to throw on a Garrett gt28r or T28 turbo or even larger you would see that the computer will still request the max boost at 3000rpm, but the turbo is not capable of making it's max boost until closer to 3800rpm leaving you with an "underboost" condition. NOTE: The sensor will only measure up to 2540mbar including atmospheric pressure. This means that if you are running more than 1.5bar or 21.75psi of boost this sensor will not measure beyond it. Both values will show maxed out at 2540mbar.