Lotus Service Notes Section EMP
Contents
1. Disable Criteria None Potential failure modes e P0117 signal short circuit e P0118 signal open circuit e Sensor failure P0117 Enable Criteria Engine running Disable Criteria None Potential failure modes e Signal short circuit Coolant Temperature 40 C 104 F lt 0 029 V e Sensor failure P0118 Enable Criteria Engine running Disable Criteria None Potential failure modes e Signal open circuit Coolant Temperature gt 140 C 284 F gt 4 892 V Sensor failure m Page 10 sn_emp_cyclone indd 10 D 06 04 2005 15 45 29 Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J page DI 39 to DI 45 Page 11 mmm sn_emp_cyclone indd 11 06 04 2005 15 45 29 Throttle Position P0121 P0122 P0123 P0121 Throttle Pedal Position Sensor Switch A Circuit Range Performance P0122 Throttle Pedal Position Sensor Switch A Circuit Low P0123 Throttle Pedal Position Sensor Switch A Circuit High Description The Throttle Position Sensor TPS is a potentiometer device which is connected to a 5V reference source a ground and an input signal to the ECU Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Ground 34 52 Way 2 5V Ref 8 52 Way 3 Signal 20 52 Way Sensor characteristics 0 0 595 V 5 100 4 148 V 52. Monitor Continuous P0121 Enable Criteria Rationality check throttle not too high at low engine load Engine running TPS gt 80 Engine speed gt 1500rpm e MAPS lt 40 e Vehicle Speed gt 30 km h 18 6mph OR Rationality check throttle not too low at high engine load e Engine running TPS lt 10 Engine speed 1500 2010rpm e MAPS gt 65 MAPS Mass Air Per Stroke Disable Criteria P0101 P0102 P0103 MAF Sensor fault codes P0500 Vehicle Speed sensor Potential failure modes e Sensor short or open circuit Sensor failure peen Page 12 sn_emp_cyclone indd 12 06 04 2005 15 45 29 Enable Criteria None Disable Criteria None Potential failure modes e Signal short circuit lt 0 283 V e Reference voltage open circuit e Reference voltage short to ground Sensor failure P0123 Enable Criteria None Disable Criteria None Potential failure modes e Signal open circuit gt 4 487 V e Reference voltage open circuit e Reference voltage short to ground e Sensor failure Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J page DI 45 to DI 52 Page 13 mm sn_emp_cyclone indd 13 06 04 2005 15 45 30 Coolant Thermostat P0128 P0128 Coolant Thermostat Coolant Temperature Below Thermostat Regulating
3. ENGINE MANAGEMENT SECTION EMP Sub Section Page Diagnostic Trouble Code List EMP 1 3 Lotus Scan Diagnostic Tool EMP 2 43 Engine Management Component Location EMP 3 45 Mechanical Throttle Setting Procedure EMP 4 46 Page 1 mm sn_emp_cyclone indd 1 06 04 2005 15 45 27 EMP 1 DIAGNOSTIC TROUBLE CODE LIST DTC Fault description P0011A Camshaft Position Timing Over Advanced or System Performance P0012A Camshaft Position Timing Over Retarded P0076 P0077 P0101 P0102 P0103 P0106 P0107 P0108 P0111 P0112 P0113 P0116 P0117 P0118 P0121 P0122 P0123 P0128 P0131 P0132 P0133 P0134 P0135 P0137 P0138 P0139 P0140 P0141 P0171 P0172 P0201 P0202 P0203 P0204 P0300 P0301 P0302 P0303 P0304 P0324 P0327 P0328 P0335 P0340 P0351 P0352 P0353 P0354 P0420 P0441 P0442 pen Page 2 sn_emp_cyclone indd 2 Intake Valve Control Solenoid Circuit Low Intake Valve Control Solenoid Circuit High Mass or Volume Air Flow Circuit Range Performance Mass or Volume Air Flow Circuit Low Input Mass or Volume Air Flow Circuit High Input Manifold Absolute Pressure Barometric Pressure Circuit Range Performance Manifold Absolute Pressure Barometric Pressure Circuit Low Input Manifold Absolute Pressure Barometric Pressure Circuit High Input Intake Air Temperature Sensor 1 Circuit Range Performance Intake Air Temperature Sensor 1 Circuit Low Intake Air Temperature Sensor 1 Circuit High Engine Coolant Temperat
4. In this phase a pressure rise would normally be expected but when the purge valve is not sealing this causes depression in the tank When the pressure is below 1 7mbar a purge valve fault is detected Purge valve stuck closed A purge valve that is unable to open will not be able to achieve the required depression during the evacuation phase A positive pressure rise during the leak check evacuation phase will be detected Additional purge checks will set a purge valve fault code Monitor Until leak check is completed P0442 This code is set during the evaporative leak check process if the system calculates the measure of leak is above a specified value determined by a table related to fuel level after the 6 3 second timer has expired Monitor Until leak check is completed Potential failure modes e Leak from pipes or connections e Leaking or damaged seal on filler cap not fitted correctly e Canister Closure valve not fully closing P0455 This code is set if during the evaporative leak check the system fails to reach the evacuation target pressure The system will perform additional purge checks to determine the nature of the problem The additional purge checks will also run if the leak check fails to complete because the calculated vapour concentration is above the limit Additional Purge Check Enable Criteria e Vehicle not stationary Load between 30 35 e Purge value gt 75 Monitor Until leak check is complete
5. A Primary Secondary Circuit P0352 Ignition Coil B Primary Secondary Circuit P0353 Ignition Coil C Primary Secondary Circuit P0354 Ignition Coil D Primary Secondary Circuit Description A Direct Ignition System DIS is used on the engine The DIS improves the ignition accuracy reduces high voltage loss and enhances the reliability of the ignition system The DIS is a 1 cylinder system that ignites one cylinder with one ignition coil The ECU determines the ignition timing and outputs the ignition signals IGT for each cylinder Based on IGT signals the power transistors in the igniter cuts off the current to the primary coil which induces a spark at the spark plug connected to the secondary coil The igniter will also send an ignition confirmation signal IGF as a fail safe measure to the ECU Component connections Connector Pin Description ECU Pin ECU Connector 1 Supply Voltage Coil 1 Coil 2 Coil 3 Coil 4 2 Ignition Coil Feedback 22 22 22 22 52 Way 3 Coil Output Logic 52 26 47 48 52 Way 4 Ground Malfunction Criteria No IGF signal to ECM while engine is running Potential failure modes Open or short in IGF1 IGF4 circuit from ignition coil to ECU e Coil failure Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 97 to DI 103 Page 27 mmm sn_emp_cycl
6. A leak is detected by monitoring any decrease in vacuum level over a calibrated period of time Sensor component connections Vapour Pressure sensor Connector Pins Description ECU Pin ECU Connector 1 Ground 78 28 Way 2 Signal 75 28 Way 3 5V V Ref 55 28 Way Purge Canister Closure Valve Connector Pins Description ECU Pin ECU Connector A Battery Voltage B ECU ground 9 52 Way Purge Solenoid Connector Pins Description ECU Pin ECU Connector A Battery Voltage B ECU ground 38 52 Way Enable Criteria Altitude lt 8000 ft 2438 m Baro gt 700 mbar e Coolant gt 45 C 113 F e Air temp lt 80 C 176 F e Fuel level between 8 35 litres 2 1 9 24 US gallons e Vehicle must be stationary e Closed loop fuelling control enabled e Closed loop idle speed control enabled e Ignition on Disable Criteria P0171 P0172 Fuel trim too rich or lean soft code P0441 P0444 P0445 Purge faults P0446 P0447 P0448 Canister closure faults P0451 P0452 P0453 Tank Pressure sensor faults P0461 P0462 P0463 Fuel level sensor faults P0500 Vehicle speed faults Malfunction Criteria P0441 This code can be caused by the purge value being either stuck closed or open Page 29 mmm sn_emp_cyclone indd 29 D 06 04 2005 15 45 32 Purge valve stuck open A purge valve that is unable to seal correctly will result in a tank evacuation during the sealing phase of the leak check sequence
7. Enable Criteria Engine run time gt 60 seconds Monitor Continuous m Page 16 sn_emp_cyclone indd 16 06 04 2005 15 45 30 Potential failure modes Sensor connector and wiring should be checked for corrosion and loose connections Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 53 to DI 62 Page 17 mmm sn_emp_cyclone indd 17 06 04 2005 15 45 30 O2 Sensor Post Catalyst P0137 P0138 P0139 P0140 P0141 P0137 O2 Sensor Circuit Low Voltage P0138 O2 Sensor Circuit High Voltage P0139 O2 Sensor Circuit Slow Response P0140 O2 Sensor Circuit No Activity Detected P0141 O2 Sensor Heater Circuit Description The oxygen sensor monitors the oxygen content in the exhaust gases The sensor consists of a zirconia elec trode between two platinum plates When zirconia comes into contact with oxygen it becomes an electrical conductor The exhaust gases passes through louvers in the sensor One plate is in contact with the outside air and the other plate is in contact with the exhaust gases The platinum plate in contact with the air is electrically negative due to the oxygen in the atmosphere and the plate in contact with the exhaust gases is electrically positive This will cause a difference in electrical potential to develop between the two plates Thus the voltage across
8. MAP Baro Faults P0116 P0117 P0118 Coolant temperature faults P0131 P0132 P0133 P0134 P0135 P0137 P0138 P0139 P0140 P0141 Oxygen sensor faults P0171 P0172 Fuelling faults P0300 P0301 P0302 P0303 P0304 Misfire faults Potential failure modes e Exhaust system leak e Oxygen sensor faults e Oxygen sensor heater failure e Catalyst failure Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 86 to DI 88 m Page 28 sn_emp_cyclone indd 28 06 04 2005 15 45 32 Evaporative Emission Control Leak Detection System P0441 P0442 P0455 P0456 P0441 Evaporative Emission System Incorrect Purge Flow P0442 Evaporative Emission System Leak Detected small leak P0455 Evaporative Emission System Leak Detected large leak P0456 Evaporative Emission System Leak Detected very small leak Description During an Evaporative Emission System Leak Detection check the vacuum in the system is monitored by ECU using the fuel tank pressure sensor At the appropriate time the test starts with the ECU closing the canister closure value and opening the purge solenoid with the appropriate duty cycle This allows the engine to draw a vacuum on the entire evaporative emission system After a calibrated vacuum level is achieved the purge solenoid is closed sealing the system
9. Module failure e A C compressor clutch failure e ECU output circuit failure Notes No MIL will be illuminated for this failure Page 39 mmm sn_emp_cyclone indd 39 06 04 2005 15 45 33 Misfire P1301 P1302 P1301 Misfire level causing emissions increase P1302 Misfire level causing catalyst system damage Description When the engine misfire reaches a high enough percentage the engine emission output levels can exceed the allowed limits this will produce the fault code P1301 If the misfire percentage is high enough and there is a possibility that the catalyst may be damaged then code P1302 will be set See misfire faults P0300 P0301 P0302 P0303 P0304 Notes e The MIL will flash for a 1302 fault code e The MIL will be illuminated if the 1301 fault is present for 2 consecutive trips m Page 40 sn_emp_cyclone indd 40 06 04 2005 15 45 33 Coolant Recirculation Pum P2602 P2603 P2602 Coolant Pump Control Circuit Low P2603 Coolant Pump Control Circuit High Description During a hot shutdown of the engine the recirculation pump can continue to pump coolant around the engine The recirculation pump will run after the engine has been turned off if the enable criteria are matched Component connections Connector Description ECU Pin ECU Connector 2 RMC 1 MFRU Fuse box 5 RMC 2 MFRU Recirc Pump Relay 69 28 Way MFRU Multi Function Relay Unit Monitor Continuous Enable Cri
10. Temperature Description The thermostat diagnostic is enabled after each cold engine start and monitors the rate of temperature rise during warm up relative to the measured engine air flow Monitor Continuous Enable Criteria e Engine running e Coolant Temperature gt 10 C 14 F e Coolant Temperature lt 70 C 158 F Disable Criteria P116 P117 P118 Engine Coolant Temperature sensor faults Potential failure modes Thermostat failure Notes The MIL will be illuminated if the fault is present for 2 consecutive trips r Page 14 sn_emp_cyclone indd 14 06 04 2005 15 45 30 O2 Sensor Pre Catalyst P0131 P0132 P0133 P0134 P0135 P0131 O2 Sensor 1 Circuit Low Voltage P0132 O2 Sensor 1 Circuit High Voltage P0133 02 Sensor 1 Circuit Slow Response P0134 O2 Sensor 1 Circuit No Activity Detected P0135 02 Sensor 1 Heater Circuit Description The oxygen sensor monitors the oxygen content in the exhaust gases The sensor consists of a zirconia elec trode between two platinum plates When zirconia comes into contact with oxygen it becomes an electrical conductor The exhaust gases pass through louvers in the sensor One plate is in contact with the outside air and the other plate is in contact with the exhaust gases The platinum plate in contact with the air is electrically negative due to the oxygen in the atmosphere and the plate in contact with the exhaust gases is electrically positive This will cau
11. applied to the vanes A 50 duty cycle applied to the valve will hold the valve current timing by preventing oil flow from the VVT controller housing a duty cycle less than 50 will retard the valve timing a duty cycle greater then 50 will advance the valve timing Component connections Sensor Connector Description ECU Pin ECU Connector 1 Battery Voltage 2 VVT Oil Control Valve 49 52 Way P0011 P0012 Monitor Continuous Enable Criteria e Engine running gt 30 secs Coolant temperature gt 60 C 140 F Disable Criteria P0116 P0117 P0118 Coolant temperature fault codes Potential failure modes e Static valve timing is incorrect e VVT camshaft actuator failure e VVT valve stuck open closed P0076 P0077 Monitor Continuous Enable Criteria Engine running Disable Criteria None Potential failure modes e VVT valve open circuit e VVT valve short to ground e ECU output circuit failure Notes The MIL will be illuminated if the faults are present for 2 consecutive trips peen Page 4 sn_emp_cyclone indd 4 D 06 04 2005 15 45 28 Intake Air Flow P0101 P0102 P0103 P0101 Mass or Volume Air Flow Circuit Range Performance P0102 Mass or Volume Air Flow Circuit Low Input P0103 Mass or Volume Air Flow Circuit High Input Description The Mass Air Flow MAF sensor is incorporated into the airbox and measures both intake air flow rate and Intake Air Temperature IAT The MAF sensor uses a
12. platinum hot wire and a cold wire element By control ling the current flow through the hot wire to maintain a constant temperature and therefore known resistance any change in air flow and therefore temperature will be detected by a change in resistance This change of resistance is the output signal from the sensor Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Battery Voltage 2 MAF Ground 31 52 Way 3 MAF Signal 45 52 Way 4 IAT Signal 44 52 Way 5 IAT Ground 18 52 Way Sensor characteristics 0 655 g sec Typical values 1 5 5 0 g sec idle 5 0 15 0 g sec 2500rpm elevated idle no load Monitor Continuous P0101 Enable Criteria e Engine running e Engine speed gt 2490rpm e TPS gt 80 P0101 MAPS too low e TPS lt 5 P0101 MAPS too high MAPS Mass Air Per Stroke Disable Criteria P0121 P0122 P0123 Throttle Position fault codes Potential failure modes e MAF sensor battery voltage open circuit MAF value g sec 0 0 e MAF sensor signal open circuit or short to ground MAF value g sec 0 0 e MAF sensor ground open circuit MAF value g sec gt 229 0 P0102 Enable Criteria Engine running Disable Criteria None Potential failure modes e MAF sensor battery voltage open circuit MAF value g sec 0 0 e MAF sensor signal open circuit or short to ground MAF value g sec 0 0 e MAF sensor ground open circuit MAF value g sec g
13. seconds of DFCO Enable Criteria Engine run time gt 200 seconds Coolant temperature gt 60 C 140 F e Open loop fuel control e DFCO Deceleration Fuel Cut Off Disable Criteria P0116 P0117 P0118 Coolant Temperature Sensor faults P0201 P0202 P0203 P0204 Injector faults P0300 P0301 P0302 P0303 P0304 Misfire faults P1301 P1302 Misfire faults causing emission or catalyst damage Monitor Continuous until the test is either passed or failed Potential failure modes e Check and rectify any pre catalyst sensor fault code as they may be causing the fault code to be set e Catalyst P0140 Set when the sensor fails to switch above 557mV and below 400mV within 60 seconds Enable Criteria Engine run time gt 30 seconds e Engine is not at idle Engine is in closed loop fuel control Monitor Continuous Potential failure modes Check and rectify any front sensor fault code as they may be causing the fault code to be set e Sensor connector and wiring should be checked for corrosion and loose connections e Catalyst P0141 Set when the sensor output is greater than 1900mA or less than 250mA for 1 5 seconds for 40 consecutive checks Enable Criteria Engine run time gt 60 seconds Monitor Continuous Potential failure modes Sensor connector and wiring should be checked for corrosion and loose connections Notes e The MIL will be illuminated if the fault is present for 2
14. 0ms or switch from a Rich to a Lean condition in under 500ms A selection of switches is used to determine the average times Enable Criteria e Vehicle speed between 0 255 km h 158 5 mph MAF per stroke between 15 70 mg e Engine speed between 2600 3511rpm Engine run time gt 200 seconds Coolant temperature gt 60 C 140 F Closed loop fuelling enabled Disable Criteria P0116 P0117 P0118 Coolant temperature sensor faults P0131 P0132 P0134 P0135 Pre catalyst oxygen sensor faults P0101 P0102 P0103 MAF sensor faults Monitor Monitored until the required amount of switches in both directions has been achieved Approx 150 sec Potential failure modes e Sensor connector and wiring should be checked for corrosion and loose connections Sensor contaminated possibly from fuel improper use of RTV engine oil or coolant P0134 Set when the sensor fails to switch above 557mV and below 400mV within a 5 1 second period for 5 consecu tive checks Enable Criteria Engine run time gt 30 seconds e Engine is not at idle Engine is in closed loop fuel control Monitor Until either passed or failed 5 1 x 5 25 5 sec initial 30 sec 55 sec maximum Potential failure modes Sensor connector and wiring should be checked for corrosion and loose connections P0135 Set when the sensor output is greater than 1900mA or less than 250mA for 1 5 seconds for 40 consecutive checks
15. C Clutch Relay Control Circuit High Misfire level causing emissions increase Misfire level causing catalyst system damage Coolant Pump Control Circuit Low Coolant Pump Control Circuit High A Rocker Arm Actuator System Performance or Stuck Off A Rocker Arm Actuator System Stuck On A Rocker Arm Actuator Control Circuit Low A Rocker Arm Actuator Control Circuit High When applicable reference may be made under the Notes heading to a page in the Toyota service manual This information should be used only for diagnosis and connection detail of the sensor The Elise Exige uses a Lotus ECU the connections for which may be found in circuit diagrams in Section MP Diagnostic Trouble Codes should be read using a Lotus Scan tool T000T 1418F sn_emp_cyclone indd 3 Page 3 mmm 06 04 2005 15 45 27 Camshaft Timing Control VVT P0011 P0012 P0076 P0077 P0011A Camshaft Position Timing Over Advanced or System Performance P0012A Camshaft Position Timing Over Retarded P0076 Intake Valve Control Solenoid Circuit Low P0077 Intake Valve Control Solenoid Circuit High Description The Variable Valve Timing system VVT on the intake camshaft can vary the timing by approximately 25 The camshaft relative position is varied by a system of vanes mounted on the drive end of the camshaft The VVT oil control valve modulates a spool valve position in accordance with the drive signal duty cycle this in turns controls the oil pressure
16. Criteria P0171 This code is set when the calculated fuel demand has been increased to its maximum limit of 17 and the system still cannot maintain an air fuel ratio of 14 7 1 under normal driving conditions Potential failure modes e Fuel Pressure too low Air leak in system e Water in fuel e Exhaust leak crack before front oxygen sensor Injector fault e Sensor connector and wiring for signs of corrosion or loose connections P0172 This code is set when the calculated fuel demand has been decreased to its minimum limit of 17 and the system still cannot maintain an air fuel ratio of 14 7 1 under normal driving conditions Potential failure modes e Fuel Pressure too high e Leaking fuel injector e Restriction in the exhaust system or air intake filter e Erratic throttle position sensor Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 67 to DI 72 m Page 20 sn_emp_cyclone indd 20 D 06 04 2005 15 45 31 Fuel Injection System P0201 P0202 P0203 P0204 P0201 Injector Circuit Open Cylinder 1 P0202 Injector Circuit Open Cylinder 2 P0203 Injector Circuit Open Cylinder 3 P0204 Injector Circuit Open Cylinder 4 Description The ECU has four injector driver circuits each of which controls an injector When the engine is running the ECU continu
17. E B120T0327J pages DI 82 to DI 83 Page 25 mmm sn_emp_cyclone indd 25 06 04 2005 15 45 31 Engine Speed Position Sensors P0340 P0340 Camshaft Position Sensor A Circuit Description The camshaft position input to the ECU is used to determine engine phase enable sequential fuel injection control and to determine camshaft position for the VVT system The inlet camshaft has three teeth spaced 90 apart which are detected by the electromagnetic sensor The valve timing setting is measured in the ECU by measuring time from a fixed position crankshaft tooth to a variable position camshaft tooth As the engine speed and the position is known from the crankshaft sensor signal the camshaft position can be calculated Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Signal VR Input 16 52 Way 2 Ground 42 52 Way Monitor Continuous Enable Criteria Engine running e Engine speed gt 600rpm Disable Criteria None Potential failure modes e Sensor signal open circuit or short to ground Sensor ground open circuit Sensor failure Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found in Toyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 84 to DI 85 m Page 26 sn_emp_cyclone indd 26 06 04 2005 15 45 31 Ignition System P0351 P0352 P0353 P0354 P0351 Ignition Coil
18. Enable Criteria Engine running Disable Criteria None Potential failure modes e Signal short circuit IAT 40 C 104 F lt 0 049 V e Sensor failure m Page 8 sn_emp_cyclone indd 8 06 04 2005 15 45 29 Enable Criteria Engine running Disable Criteria None Potential failure modes e Signal open circuit IAT gt 140 C 284 F gt 4 932 V e Sensor failure Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 33 to DI 38 Page 9 mm sn_emp_cyclone indd 9 06 04 2005 15 45 29 Engine Coolant Temperature P0116 P0117 P0118 P0116 Engine Coolant Temperature Circuit Range Performance P0117 Engine Coolant Temperature Circuit Low P0118 Engine Coolant Temperature Circuit High Description The engine coolant temperature sensor is a thermistor device which changes resistance with temperature As coolant temperature decreases the thermistor resistance value increases and conversely as coolant tempera ture increases so the thermistor resistance value decreases Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Ground 7 52 Way 2 Signal 33 52 Way Sensor characteristics 0 C 32 F 3 279V 19 4 C 67 F 2 186 V 42 5 C 108 5 F 1 249 V 80 C 176 F 0 469 V P0116 Enable Criteria Engine running gt 800 seconds
19. P0601 at ECU power up P0606 continuously while the engine running Notes The MIL will be illuminated if the fault is present for 2 consecutive trips Page 37 mmm sn_emp_cyclone indd 37 06 04 2005 15 45 33 Fuel Pump P0627 P0627 Fuel Pump Control Circuit Open Description The fuel system is of the non return type The pump is incorporated into the fuel tank module which also con tains the level sensor regulator and vapour pressure sensor Component connections Connector Description ECU Pin ECU Connector 4 RMC 1 MFRU Inertia Switch Pin 1 2 RMC 2 MFRU Fuel Pump Relay 68 28 Way MFRU Multi Function Relay Unit Monitor Continuous Enable Criteria Ignition on Disable Criteria None Potential failure modes e Pump open circuit or short to ground e Multi Function Relay Unit failure e Pump failure e ECU output circuit failure Notes No MIL will be illuminated for this failure m Page 38 sn_emp_cyclone indd 38 06 04 2005 15 45 33 Air Conditioning System P0646 P0647 P0646 A C Clutch Relay Control Circuit Low P0647 A C Clutch Relay Control Circuit High Component connections Connector Description ECU Pin ECU Connector 5 ACCM 2 AC Clutch Relay 53 28 Way ACCM A C Control Module Monitor Continuous Enable Criteria Engine running Disable Criteria None Potential failure modes A C compressor clutch open circuit or short to ground e A C Control
20. agement component location drawin Electronic Control Unit ECU Multi function relay unit Oil control valve for variable valve lift Camshaft position sensor Fuel injector Knock sensor Oil control valve for variable valve timing Crankshaft position sensor Plug top coil 10 Coolant temperature sensor 11 Pre catalyst oxygen sensor 12 Post catalyst oxygen sensor 13 Oil pressure switch 14 Throttle position sensor 15 Vacuum solenoid for intake flap valve 16 Mass airflow sensor OMNOARWN gt For component replacement procedures refer to manual B120T0327J sn_emp_cyclone indd 45 D Page 45 mmm 06 04 2005 15 45 35 EMP 4 MECHANICAL THROTTLE SETTING PROCEDURE To avoid throttle cable strain and ensure correct idle control and pedal operation the following adjustments must be maintained If the pedal downstop is incorrectly set overloading of the throttle body cable quadrant can occur resulting in quadrant distortion closed throttle position error and engine stalling 1 Check the throttle body cable quadrant for distortion and mis alignment If necessary repair or replace the quadrant 2 Check that there is 2 3 mm free play at the throttle pedal adjusting at the throttle body cable abutment bracket if necessary 3 If an idle control problem has been reported reset the closed throttle stop screw on the throttle body With ignition off use a hexagonal key in the bottom end of
21. consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 63 to DI 66 Page 19 mmm sn_emp_cyclone indd 19 D 06 04 2005 15 45 30 Fuel Control System Too Lean Or Rich P0171 P0172 P0171 System Too Lean P0172 System Too Rich Description The oxygen sensor sends a signal to the ECU corresponding to the exhaust gas oxygen content enabling the ECU to maintain a 14 7 1 air fuel ratio under normal driving conditions The ECU can make fuel corrections of 17 to the calculated fuel demand If the ECU determines a rich condition exists oxygen sensor above 0 450mV it will decrease the calculated fuel demand to maintain a 14 7 1 ratio If the ECU determines a lean condition exists oxygen sensor below 0 450mV it will increase the calculated fuel demand to maintain a 14 7 1 ratio Enable Criteria e Fuel Trim condition enabled e Closed loop fuelling enabled e Engine speed gt 1100 rpm e MAF gt 6 g sec e Engine load lt 70 Altitude lt 8000 ft 2438 m Baro gt 756 mbar Inlet air temperature gt 10 C 14 F Disable Criteria P0106 P0107 P0108 Baro sensor faults P0111 P0112 P0113 Air Intake Sensor faults P0131 P0132 P0133 P0134 P0135 Oxygen sensor faults P0300 P0301 P0302 P0303 P0304 Misfire faults P0441 P0442 P0443 P0447 P0448 P0450 P0451 P0455 P0456 EVAP faults Monitor Continuous Malfunction
22. d Potential failure modes e Fuel filler cap not fitted e Leak from pipes or connections e Canister Closure valve stuck open P0456 This code is set during the evaporative leak check process if the system calculates the measure of leak is above a specified value determined by a table related to fuel level after the 19 7 second timer has expired Monitor Until leak check is completed Potential failure modes e Leak from pipes or connections e Leaking or damaged seal on filler cap not fitted correctly e Canister Closure valve not fully closing Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J page FI 53 m Page 30 sn_emp_cyclone indd 30 D 06 04 2005 15 45 32 Evaporative Emission Control Purge Open Closed Circuit P0444 P0445 P0446 P0447 P0448 P0451 P0452 P0453 P0444 Evaporative Emission System Purge Control Valve Circuit Open P0445 Evaporative Emission System Purge Control Valve Circuit Closed P0446 Evaporative Emission System Vent Control Circuit P0447 Evaporative Emission System Vent Control Circuit Open P0448 Evaporative Emission System Vent Control Circuit Closed P0451 Evaporative Emission System Pressure Sensor Switch Range Performance P0452 Evaporative Emission System Pressure Sensor Switch Low P0453 Evaporative Emission System Pressure Sensor Switch Hig
23. es Gear changes cause the fuel to slosh around so the ECU monitors the signal to see if there is any pressure rise Disable Criteria P0500 Wheel speed sensor fault Notes The MIL will be illuminated if the fault is present for 2 consecutive trips peen Page 32 sn_emp_cyclone indd 32 06 04 2005 15 45 32 Engine Cooling Fan Control P0480 P0481 P0480 Fan 1 Control Circuit P0481 Fan 2 Control Circuit Component connections Sensor Connector Description ECU Pin ECU Connector 2 ACCM 2 Relay 1 67 28 Way 3 ACCM 2 Relay 2 60 28 Way ACCM A C Control Module Monitor Continuous Enable Criteria Engine running Disable Criteria None Potential failure modes e A C Control Module failure e ECU output circuit failure Notes No MIL will be illuminated for this failure Page 33 mmm sn_emp_cyclone indd 33 06 04 2005 15 45 32 Vehicle Speed Sensor P0500 P0500 Vehicle Speed Sensor A Description The ECU uses the left rear wheel speed sensor to determine vehicle speed This output to the ECU is via the ABS module Sensor connections ABS Control Unit Description ECU Pin ECU Connector 3 Wheel Speed 3 from ABS LR 77 28 Way Sensor characteristics Hall Effect sensor Malfunction Criteria e TPS lt 0 8 e Engine speed gt 1800rpm and lt 5010rpm e Baro gt 756 mbar Monitor Continuous Potential failure modes e Open or short in vehicle speed sensor circuit e B
24. h Description When the engine is running the ECU continuously monitors the feedback signals from the evaporative emission components The feedback signal should be low when the turned ON and high when turned Off The following codes will be set if the above conditions are not met P0444 P0445 P0447 P0448 P0452 P0453 P0446 This code can be caused by the canister closure valve CCV being either stuck closed or open CCV stuck open A CCV is stuck open then there will be minimal tank depression when the leak test is performed Addition check will be performed when the vehicle is being driven before the code is set CCV stuck closed Detection of a stuck closed CCV is implemented by detecting an excessively low tank pressure during normal purge Detection of this fault will disable further purging Additional checks for stuck CCV closed e Vehicle not stationary e Load between 30 35 e Purge Value gt 75 Monitor Until leak check is completed P0451 This code is set when the ECU detects abnormalities in the fuel tank vapour pressure sensor signal The ECU analyses the filtered and unfiltered pressure signal at idle after a de slosh period to determine if there is any difference a big difference indicates as fault The ECU also monitors the signal on gear changes to see if there is any pressure rise as a result of the fuel sloshing around Disable Criteria P0500 Wheel speed sensor fault Monitor Until leak check i
25. imary Secondary Circuit Ignition Coil C Primary Secondary Circuit Ignition Coil D Primary Secondary Circuit Catalyst System Efficiency Below Threshold Evaporative Emission System Incorrect Purge Flow Evaporative Emission System Leak Detected small leak Page 4 4 4 4 5 5 5 7 7 7 8 8 8 06 04 2005 15 45 27 Fault description Evaporative Emission System Purge Control Valve Circuit Open Evaporative Emission System Purge Control Valve Circuit Shorted Evaporative Emission System Vent Control Circuit Evaporative Emission System Vent Control Circuit Open Evaporative Emission System Vent Control Circuit Shorted Evaporative Emission System Pressure Sensor Switch Range Performance Evaporative Emission System Pressure Sensor Switch Low Evaporative Emission System Pressure Sensor Switch High Evaporative Emission System Leak Detected large leak Evaporative Emission System Leak Detected very small leak Fuel Level Sensor A Circuit Range Performance Fuel Level Sensor A Circuit Low Fuel Level Sensor A Circuit High Fan 1 Control Circuit Fan 2 Control Circuit Vehicle Speed Sensor A Idle Air Control System RPM Lower Than Expected Idle Air Control System RPM Higher Than Expected Idle Air Control System Circuit Low Idle Air Control System Circuit High System Voltage Low System Voltage High Watchdog Checksum Fuel Pump Control Circuit Open A C Clutch Relay Control Circuit Low A
26. le speed learn limit 15 e Timer expired 5 seconds Monitor Continuous Potential failure modes Throttle body sticking not fully closing e Connector wiring corroded or loose connections e Throttle linkage cable binding Induction system air leak e Excessive engine load from front end accessory drive system e g water pump seizing Notes The MIL will be illuminated if the fault is present for 2 consecutive trips Page 35 mmm sn_emp_cyclone indd 35 D 06 04 2005 15 45 33 Battery Voltage P0562 P0563 P0562 System Voltage Low P0563 System Voltage High Monitor Continuous Enable Criteria e Engine running e P0562 Voltage Too Low lt 10V e P0563 Voltage Too High gt 16V Disable Criteria None Potential failure modes e Alternator fault e Battery fault Notes The MIL will be illuminated if the fault is present for 2 consecutive trips m Page 36 sn_emp_cyclone indd 36 06 04 2005 15 45 33 ECU Integrity P0601 P0606 P0601 Checksum P0606 Watchdog Description These codes are used by the ECU to check the integrity of the software and calibration data P0601 checks that on power up the checksum for calibration data is the same as checksum saved on power down P0606 checks the watchdog timer after a defined period to see if it has reset If the watchdog timer has not reset then the code has entered an unplanned loop or condition stopping it resetting the timer Monitor e
27. night charging of the printer and also for powering the Scan tool during software downloading from a PC personal computer For the software download operation the Scan tool requires a power supply from the mains via the transformer and an inverter Two types of inverter have been used early kits used an adaptor lead to plug into the bottom end of the Scanner tool Later kits use an adaptor plug fitting into the top end of the scanner When charging the printer it is most important that the inverter is NOT used or damage to the transformer may be caused Incorrect connection is possible only with the early type adaptor lead with which extra care should be exercised 1 Reading data from vehicle Data Link Connector DLC Scan tool front of passenger footwell Printer Page 43 mmm sn_emp_cyclone indd 43 D 06 04 2005 15 45 34 2 Downloading software from P C With early type adaptor lead Connect to COM Power port on PC a supply N pe lt transformer _ Adaptor lead used to connect to transformer With later type adaptor Connect to COM port on PC Power supply transformer Power supply adaptor T000T1436F 3 Charging printer Power supply transformer Do NOT use adaptor lead for this application Pa Printer lt I Page 44 sn_emp_cyclone indd 44 D 06 04 2005 15 45 34 EMP 3 ENGINE MANAGEMENT COMPONENT LOCATION IC Assaf HINZ i Key to engine man
28. nning Disable Criteria None Potential failure modes Sensor failure Notes The MIL will be illuminated if the fault is present for 2 consecutive trips Page 7 mmm sn_emp_cyclone indd 7 D 06 04 2005 15 45 28 Intake Air Temperature P0111 P0112 P0113 P0111 Intake Air Temperature Sensor 1 Circuit Range Performance P0112Intake Air Temperature Sensor 1 Circuit Low P0113Intake Air Temperature Sensor 1 Circuit High Description The combined sensor which measure both Mass Air Flow MAF and Intake Air Temperature IAT is incorpo rated into the airbox The IAT sensor is a thermistor device which changes resistance with temperature As air intake temperature decreases the thermistor resistance value increases and conversely as air temperature increases so the thermistor resistance value decreases Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Battery Voltage 2 MAF Ground 31 52 Way 3 MAF Signal 45 52 Way 4 IAT Signal 44 52 Way 5 IAT Ground 18 52 Way Sensor characteristics IAT 20 C 4 F 12 5 16 9 KQ IAT 20 C 68 F 2 19 2 67 KQ IAT 60 C 140 F 0 50 0 68 kQ Monitor Continuous P0111 Enable Criteria e Engine running lt 30 secs e Coolant temperature lt 30 C 86 F Disable Criteria P0116 P0117 P0118 Coolant temperature fault codes Potential failure modes e P0112 signal short circuit e P0113 signal open circuit e Sensor failure P0112
29. one indd 27 D 06 04 2005 15 45 31 Catalyst System Efficienc P0420 P0420 Catalyst System Efficiency Below Threshold Description The ECU compares the waveform of the oxygen sensors located before and after the catalyst to determine whether or not the catalyst has deteriorated If the catalyst is functioning normally the front oxygen sensor will be switching rich to lean and the rear oxygen sensor should also be switching rich to lean but more slowly When both the oxygen sensor waveforms change at the same rate it indicates that the catalyst performance has deteriorated The ECU counts the number of pre and post catalyst oxygen sensor switches and divides one by the other to determine a ratio number If the ratio number is greater than 0 6 the code is set Sensor connections Pre catalyst oxygen sensor Sensor Connector Description ECU Pin ECU Connector 1 Signal 15 52 Way 2 Ground 41 52 Way 3 Heater Supply 1 52 Way 4 Battery Voltage Battery Voltage Post catalyst oxygen sensor Sensor Connector Description ECU Pin ECU Connector 1 Signal 3 52 Way 2 Ground 29 52 Way 3 Heater Supply 27 52 Way 4 Battery Voltage Battery Voltage Malfunction Criteria e Closed loop fuel control enabled e Coolant temperature gt 60 C 140 F e Baro gt 756 mbar e Vehicle speed lt 130 km h 81 mph e MAF lt 40 g sec e Air inlet temp gt 10 C 14 F Disable Criteria P0101 P0102 P0103 MAF faults P0107 P0108
30. ously monitors the injector circuit feedback signals The feedback signal should be low when the injector is ON and high voltage when the injector is OFF Component connections Injector ECU Pin ECU Connector 1 25 52 Way 2 51 52 Way 3 14 52 Way 4 40 52 Way Malfunction Criteria The operation of all the injector codes is the same the last digit relates to the injector involved i e a code P0203 indicates there is a problem with injector number 3 Enable Criteria Engine running Monitor Continuous Limp home e Limit maximum engine speed to 6000rpm e Return the fuel system to open loop fuel control Potential failure modes Sensor connector or wiring corroded or loose connections Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips e Ifan injector goes short circuit it is likely that the ECU injector driver will be damaged Page 21 mmm sn_emp_cyclone indd 21 D 06 04 2005 15 45 31 Misfire P0300 P0301 P0302 P0303 P0304 P0300 Random Multiple Cylinder Misfire Detected P0301 Cylinder 1 Misfire Detected P0302 Cylinder 2 Misfire Detected P0303 Cylinder 3 Misfire Detected P0304 Cylinder 4 Misfire Detected Description A misfiring cylinder can be detected by analysing crank speed variation As a result of a combustion event there will be a net acceleration of the crankshaft Subsequent to a misfire event the engine will decelerate over the period following the missed cylinder event S
31. peed changes can be characterised by observing changes in the time period for a fixed angle of rotation after firing events A significant change in this period assessed by comparison to previous periods may be attributed to misfire on a known cylinder Component connections Connector Description ECU Pin ECU Connector 1 Supply Voltage Coil 1 Coil 2 Coil 3 Coil 4 2 Ignition Coil Feedback 22 22 22 22 52 Way 3 Coil Output Logic 52 26 47 48 52 Way 4 Ground Malfunction Criteria The operation of all the misfire codes is the same the last digit relates to the misfire involved i e a code P0303 indicates there is a problem with coil number 3 P0300 indicates the misfire is random and not linked to one particular cylinder Enable Criteria e Battery voltage between 10 16 V Coolant temperature between 10 120 C 14 248 F e Engine speed between 660 8010rpm e Engine speed transient gt 15rpm Altitude lt 8000 ft 2438 m Baro gt 756mbar e Fuel level gt 5 litres 1 3 US gallons e Engine load between 15 48 depending on engine speed Disable Criteria DFCO enabled Deceleration Fuel Cut Off Monitor Continuous Limp home e Limit maximum engine speed to 6000 rpm e Return the fuel system to open loop e ECU may deactivate two cylinders the misfiring cylinder and it s matched other i e 1 amp 4 or 2 amp 3 Potential failure modes e Injector related codes as these can cause misfire codes
32. rature must be gt 60 C 140 F Component connections Connector Description ECU Pin ECU Connector 1 Battery Voltage 2 VVL Oil Control Valve 12 52 Way VVL Oil Pressure Switch 21 52 Way Monitor Continuous Enable Criteria Engine running Disable Criteria None Potential failure modes e VVL valve stuck open closed e VVL valve open circuit e VVL valve short to ground e Rocker arm failure e Rocker shaft location pin failure e ECU output circuit failure Notes The MIL will be illuminated if the fault is present for 2 consecutive trips peen Page 42 sn_emp_cyclone indd 42 06 04 2005 15 45 34 EMP 2 LOTUS SCAN DIAGNOSTIC TOOL In order to provide for communication with the engine management system electronic control module a hand held electronic scanner Lotus Scan part number TOO0T 1418F may be plugged into a special 16 terminal harness connector socket known as a Data Link Connector DLC located at the front of the passenger footwell Note that this tool may also be used on previous Elise models excluding Exige 340R and 160 models Amongst the operations available using the Lotus Scan tool are Reading of Trouble Codes Clearing of Trouble Codes Reading live data Test operation of individual solenoids Running engine history report Reprogramming ECU Operating instructions are provided with the tool Important Note The power supply transformer is used for over
33. s completed Notes The MIL will be illuminated if the fault is present for 2 consecutive trips Page 31 mmm sn_emp_cyclone indd 31 D 06 04 2005 15 45 32 Fuel Level Sensor P0461 P0462 P0463 P0461 Fuel Level Sensor A Circuit Range Performance P0462 Fuel Level Sensor A Circuit Low P0463 Fuel Level Sensor A Circuit High Description When the engine is running the ECU continuously monitors the fuel level sensor feedback signals The feedback signal should be low when turned ON and high when turned OFF The following codes will be set if the above conditions are not meet Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Vapour pressure and fuel level ground 78 28 Way 2 Fuel level sensor 76 28 Way 3 Vapour pressure amp fuel level V ref 55 28 Way Enable Criteria e P0462 amp P0463 Condition not met as above e P0461 Checks for three conditions stuck when full stuck when empty or stuck midway The ECU determines if the sensor is stuck by calculating the amount of fuel used during the test period with the engine conditions as listed below RPM gt 2800rpm e Load gt 40 e Minimum Fuel level gt 2 litres 0 5 US gallons e Ifthe ECU calculates that no fuel has been used during these tests it indicates that the sensor is not work ing correctly The ECU also monitors the filtered and unfiltered signal at idle after a 10 second de slosh period and compares the differenc
34. se a difference in electrical potential to develop between the two plates Thus the voltage across the platinum plates ranges approximately from 100 millivolts to 900 millivolts depending on the oxygen content of the exhaust gases Thus when the air fuel mixture is rich the oxygen sensor output will be high If the air fuel mixture is lean the oxygen sensor output will be low Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Signal 15 52 Way 2 Ground 41 52 Way 3 Heater ground 1 52 Way 4 Battery Voltage Sensor characteristics Normal operating range is 0 1000mV Malfunction Criteria P0131 Set when the sensor operates below 5mV for more than 1 5 seconds consecutively for a specified number of times Monitor Continuous Disable Criteria DFCO Deceleration Fuel Cut Off Potential failure modes e Low fuel pressure Lean mixture e Malfunctioning sensor e External water on sensor e Sensor wire shorted to ground P0132 Set when the sensor operates above 1200mV for more than 1 5 seconds consecutively for a specified number of times Monitor Continuous Page 15 mmm sn_emp_cyclone indd 15 D 06 04 2005 15 45 30 Potential failure modes e High fuel pressure Rich mixture e Leaking or shorted injector e Purge valve fault e Oxygen sensor contamination Engine oil contamination e Sensor wire P0133 Set when the sensor fails to switch from a Lean to a Rich condition in under 60
35. t 229 0 Page 5 mmm sn_emp_cyclone indd 5 D 06 04 2005 15 45 28 Enable Criteria Engine running Disable Criteria None Potential failure modes e MAF sensor battery voltage open circuit MAF value g sec 0 0 e MAF sensor signal open circuit or short to ground MAF value g sec 0 0 e MAF sensor ground open circuit MAF value g sec gt 229 0 Notes e The MIL will be illuminated if the faults are present for 2 consecutive trips Further information on the sensor may be found in Toyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J Page DI 26 to DI 32 m Page 6 sn_emp_cyclone indd 6 06 04 2005 15 45 28 Barometric Pressure P0106 P0107 P0108 P0106 Manifold Absolute Pressure Barometric Pressure Circuit Range Performance P0107 Manifold Absolute Pressure Barometric Pressure Circuit Low Input P0108 Manifold Absolute Pressure Barometric Pressure Circuit High Input Description The barometric pressure sensor is located internally within the ECU and measures atmospheric pressure This parameter is required to compensate the mass air flow when the vehicle is operated at higher altitudes Monitor Continuous P0106 Enable Criteria e Engine running e Engine speed 2190 3510rpm TPS gt 80 Disable Criteria P0101 P0102 P0103 MAF Sensor fault codes P0121 P0122 P0123 Throttle Position fault codes Potential failure modes Sensor failure P0107 P0108 Enable Criteria Engine ru
36. tem contacting vehicle Knock sensor fixing too tight e Sensor connector wiring corroded or loose connections Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 79 to DI 81 a Page 24 sn_emp_cyclone indd 24 06 04 2005 15 45 31 Engine Speed Position Sensors P0335 P0335 Crankshaft Position Sensor A Circuit Range Performance Description Engine speed is calculated by measuring the time between the teeth of the crankshaft sensor trigger disc The disc has 34 teeth and 2 missing teeth spaced at 10 degree intervals around the disc The 2 missing teeth are positioned at 225 degrees before cylinder No 1 and 4 TDC The crankshaft sensor signal is also used to determine misfires events Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Sensor input 4 52 Way 2 Ground 30 52 Way Monitor Continuous Enable Criteria Engine running Disable Criteria None Potential failure modes e Sensor signal open circuit or short to ground Sensor ground open circuit e Sensor failure Notes e Ifa sensor or sensor circuit failure occurs the engine will not fire or start e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733
37. teria P2602 engine not running P2603 engine running Disable Criteria None Potential failure modes e Pump open circuit or short to ground e Multi Function Relay Unit failure e Pump failure e ECU output circuit failure Notes No MIL will be illuminated for this failure Page 41 mmm sn_emp_cyclone indd 41 06 04 2005 15 45 33 Camshaft Lift Control VVL P2646 P2647 P2648 P2649 P2646 A Rocker Arm Actuator System Performance or Stuck Off P2647 A Rocker Arm Actuator System Stuck On P2648 A Rocker Arm Actuator Control Circuit Low P2649 A Rocker Arm Actuator Control Circuit High Description Intake and exhaust camshaft lift can be changed by means of the Variable Valve Lift VVL system which varies the amount of maximum lift of the intake and exhaust valves The mechanism uses dual element rocker arms to provide cam changeover with both the intake and exhaust camshafts having high and low speed cam profiles The system is ECU controlled using an oil control solenoid which when activated uses hydraulic pressure to push a rocker arm locking pin into engagement to activate the high speed cam profile A signal from the VVL oil pressure switch provides feedback to the ECU that VVL activation has taken place VVL activation to the high lift camshaft profile occurs at 6200rpm when engine speed is increasing and returns to the low lift camshaft profile at 6000rpm when the engine speed is decreasing Coolant tempe
38. the platinum plates ranges approximately from 100 millivolts to 900 millivolts depending on the oxygen content of the exhaust gases Thus when the air fuel mixture is rich the oxygen sensor output will be high If the air fuel mixture is lean the oxygen sensor output will be low The post catalyst oxygen sensor performance is a good indicator of catalyst efficiency Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Signal 3 52 Way 2 Ground 29 52 Way 3 Heater ground 27 52 Way 4 Battery Voltage Sensor characteristics Normal operating range is 0 1000mV Malfunction Criteria P0137 Set when the sensor operates below 5mV for more than 1 5 seconds consecutively for a specified number of times Monitor Continuous Disable Criteria DFCO Deceleration Fuel Cut Off Potential failure modes e Check and rectify any pre catalyst sensor fault code as they may be causing the fault code to be set e Sensor wire shorted to ground e Catalyst P0138 Set when the sensor operates above 1200mV for more than 1 5 seconds consecutively for a specified number of times Monitor Continuous m Page 18 sn_emp_cyclone indd 18 06 04 2005 15 45 30 Potential failure modes e Check and rectify any front sensor fault code as they may be causing the fault code to be set e Catalyst P0139 Set when the sensor fails to reach 650mV after 1 9 seconds of P E or when the sensor fails to drop below 150mV after 5
39. the throttle stop screw to allow the throttle but terfly valve to fully close and introduce clearance between the screw and quadrant stop bracket Screw upwards until contact is just made and then a further turn upwards Secure with the locknut Recheck cable adjustment as above 4 Adjust the throttle pedal downstop such that vigorous full depression of the pedal achieves full opening of the throttle butterfly without allowing the cable or mechanism to be strained 5 If the throttle stop screw was adjusted allow the engine to idle for 15 minutes to relearn settings 6 An alternative pedal position which may be preferred for heel and toeing may be achieved by replacing the rubber upstop buffer with an M5x15 hex head setscrew with three flat washers beneath the head for a total thickness of around 7mm The cable must then be re adjusted at the engine abutment as above The foopad downstop bolt should then be replaced by an M8x20 setscrew and reset as above Throttle cable Closed throttle stop bracket Cable quadrant Throttle stop screw m Page 46 sn_emp_cyclone indd 46 06 04 2005 15 45 35
40. to be set e VVT or VVL codes set e Sensor connector and wiring for signs of corrosion or loose connections e Spark plug Cylinder compression e Cam timing Damage to rocker arm assembly Page 22 sn_emp_cyclone indd 22 D 06 04 2005 15 45 31 Notes e The MIL will be illuminated if the fault is present for 2 consecutive trips Further information on the sensor may be found inToyota 1ZZ FE 2ZZ GE manual RM733E B120T0327J pages DI 73 to DI 78 Page 23 mmm sn_emp_cyclone indd 23 06 04 2005 15 45 31 Knock Control System P0324 P0327 P0328 P0324 Knock Control System Error P0327 Knock Sensor 1 Circuit Low P0328 Knock Sensor 1 Circuit High Description The knock sensor contains a piezoelectric element which generates a voltage when it becomes deformed The piezoelectric element sends the signal to the ECU when the cylinder block vibrates due to engine knocking If knock is detected then the ECU will retard the ignition to suppress it The knock control sensor cannot dif ferentiate between spark knock and other similar sounding noises Sensor connections Sensor Connector Description ECU Pin ECU Connector 1 Sensor input 43 52 Way 2 Ground 13 52 Way Malfunction Criteria P0327 This code is set when the knock sensor signal is lt 0 586 V P0328 This code is set when the knock sensor signal is gt 2 928 V Potential failure modes Abnormal engine noise i e damaged engine or exhaust sys
41. uild up of debris in the sensing plate on the wheel hub Notes The MIL will be illuminated if the fault is present for 2 consecutive trips Page 34 sn_emp_cyclone indd 34 06 04 2005 15 45 33 Idle Speed Control P0506 P0507 P0508 P0509 P0506 Idle Air Control System RPM Lower Than Expected P0507 Idle Air Control System RPM Higher Than Expected P0508 Idle Air Control System Circuit Low P0509 Idle Air Control System Circuit High Description The ECU controls the air entering the engine with an idle air control IAC valve To increase the idle the ECU commands the IAC to open up This allows more air to bypass the throttle blades To decrease the idle speed the ECU commands the IAC to close up This will reduce the amount of air bypassing the throttle body The ECU performs low and high circuit checks when it is activating the component Component connections Connector Description ECU Pin ECU Connector 1 Idle air control value 35 52 Way 2 Battery Voltage 3 Ground Malfunction Criteria P0506 This code is set if the engine fails to achieve the desired idle speed by more than 100 rpm P0507 This code is set if the engine fails to achieve the desired idle speed by more than 200 rpm P0508 This is set when the ECU does not get the expected feedback P0509 This is set when the ECU does not get the expected feedback Enable Criteria Engine at idle speed e Battery Voltage between 10 16 V e Id
42. ure Circuit Range Performance Engine Coolant Temperature Circuit Low Engine Coolant Temperature Circuit High Throttle Pedal Position Sensor Switch A Circuit Range Performance Throttle Pedal Position Sensor Switch A Circuit Low Throttle Pedal Position Sensor Switch A Circuit High Coolant Thermostat Coolant Temperature Below Thermostat Regulating Temperature O2 Sensor Circuit Low Voltage Pre Catalyst O2 Sensor Circuit High Voltage Pre Catalyst O2 Sensor Circuit Slow Response Pre Catalyst O2 Sensor Circuit No Activity Detected Pre Catalyst O2 Sensor Heater Circuit Pre Catalyst O2 Sensor Circuit Low Voltage Post Catalyst O2 Sensor Circuit High Voltage Post Catalyst O2 Sensor Circuit Slow Response Post Catalyst O2 Sensor Circuit No Activity Detected Post Catalyst O2 Sensor Heater Circuit Post Catalyst System Too Lean System Too Rich Injector Circuit Open Cylinder 1 Injector Circuit Open Cylinder 2 Injector Circuit Open Cylinder 3 Injector Circuit Open Cylinder 4 Random Multiple Cylinder Misfire Detected Cylinder 1 Misfire Detected Cylinder 2 Misfire Detected Cylinder 3 Misfire Detected Cylinder 3 Misfire Detected Knock Control System Error Knock Sensor 1 Circuit Low Knock Sensor 1 Circuit High Crankshaft Position Sensor A Circuit Range Performance Camshaft Position Sensor A Circuit Ignition Coil A Primary Secondary Circuit Ignition Coil B Pr
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