3) MIL ILLUMINATION
When the ECM or PCM detects a malfunction related emission during the first driving cycle, the DTC and engine data are stored in the freeze frame memory. The MIL is illuminated only When the ECM or PCM detects the same malfunction related the DTC in two consecutive driving cycles.
4) MIL ELIMINATION
- Misfire and Fuel System Malfunctions: For misfire or fuel system malfunctions, the MIL may be eliminated if the same fault does not reoccur during monitoring in three subsequent sequential driving cycles in which conditions are similar to those under which the malfunction was first detected.
- All Other Malfunctions: For all other faults, the MIL may be extinguished after three subsequent sequential driving cycles during which the monitoring system responsible for illuminating the MIL functions without detecting the malfunction and if no other malfunction has been identified that would independently illuminate the MIL according to the requirements outlined above.
5) ERASING A FAULT CODE
The diagnostic system may erase a fault code if the same fault is not re-registered in at least 40 engine warm-up cycles, and the MIL is not illuminated for that fault code.
6) K-LINE
- Bidirectional line
- K-Line is defined as the line which provides information in a serial digital form from ECM or PCM to the diagnostic tester. K-Line is used bidirectionally, in which case it may carry commands or data from the diagnostic tester to the ECM or PCM. K-Line is also used to initialize the serial communication.
7) DRIVING CYCLE
A driving cycle consists of engine start up, and engine shut off.
8) WARM-UP CYCLE
A warm-up cycle means sufficient vehicle operation such that the engine coolant temperature has risen by at least 40 degrees Fahrenheit from engine starting and reaches a minimum has risen by at least 40 degrees Fahrenheit from engine starting and reaches a minimum temperature of at least 160 degrees Fahrenheit.
9) TRIP CYCLE
A trip means vehicle operation (following an engine-off period) of duration and driving mode such that all components and systems are monitored at least once by the diagnostic system except catalyst efficiency or evaporative system monitoring when a steady-speed check is used, subject to the limitation that the manufacturer-defined trip monitoring conditions shall all be encountered at least once during the first engine start portion of the applicable FTP cycle.
11) FREEZE FRAME DATA
When a freeze frame event is triggered by an emission related DTC, the ECM or PCM stores various vehicle information as it existed the moment the fault occurred. The DTC number along with the engine data can be useful in aiding a technician in locating the cause of the fault. Once the data from the 1st driving cycle DTC occurrence is stored in the freeze frame memory, it will remain there even when the fault occurs again (2nd driving cycle) and the MIL is illuminated.
- Freeze Frame List
- Calculated Load Value
- Engine RPM
- Fuel Trim
- Fuel Pressure (if available)
- Vehicle Speed (if available)
- Coolant Temperature
- Intake Manifold Pressure (if available)
- Closed-or Open-loop operation
- Fault code
1) CATALYST MONITORING
The catalyst efficiency monitor is a self-test strategy within the ECM or PCM that uses the downstream Heated Oxygen Sensor (HO2S) to determine when a catalyst has fallen below the minimum level of effectiveness in its ability to control exhaust emission.
2) MISFIRE MONITORING
Misfire is defined as the lack of proper combustion in the cylinder due to the absence of spark, poor fuel metering, or poor compression. Any combustion that does not occur within the cylinder at the proper time is also a misfire. The misfire detection monitor detects fuel, ignition or mechanically induced misfires. The intent is to protect the catalyst from permanent damage and to alert the customer of an emission failure or an inspection maintenance failure by illuminating the MIL. When a misfire is detected, special software called freeze frame data is enabled. The freeze frame data captures the operational state of the vehicle when a fault is detected from misfire detection monitor strategy.
3) FUEL SYSTEM MONITORING
The fuel system monitor is a self-test strategy within the ECM or PCM that monitors the adaptive fuel table The fuel control system uses the adaptive fuel table to compensate for normal variability of the fuel system components caused by wear or aging. During normal vehicle operation, if the fuel system appears biased lean or rich, the adaptive value table will shift the fuel delivery calculations to remove bias.
4) ENGINE COOLING SYSTEM MONITORING
The cooling system monitoring is a self-test strategy within the ECM or PCM that monitors ECTS (Engine Coolant Temperature Sensor) and thermostat about circuit continuity, output range, rationality faults.
5) O2 SENSOR MONITORING
OBD-II regulations require monitoring of the upstream Heated O2 Sensor (H2OS) to detect if the deterioration of the sensor has exceeded thresholds. An additional HO2S is located downstream of the Warm-Up Three Way Catalytic Converter (WU-TWC) to determine the efficiency of the catalyst.
Although the downstream H2OS is similar to the type used for fuel control, it functions differently. The downstream HO2S is monitored to determine if a voltage is generated. That voltage is compared to a calibrated acceptable range.
6) EVAPORATIVE EMISSION SYSTEM MONITORING
The EVAP. monitoring is a self-test strategy within the ECM or PCM that tests the integrity of the EVAP. system. The complete evaporative system detects a leak or leaks that cumulatively are greater than or equal to a leak caused by a 0.040 inch and 0.020 inch diameter orifice.
7) AIR CONDITIONING SYSTEM MONITORING
The A/C system monitoring is a self-test strategy within the ECM or PCM that monitors malfunction of all A/C system component at A/C ON.
8) COMPREHENSIVE COMPONENTS MONITORING
The comprehensive components monitoring is a self-test strategy within the ECM or PCM that detects fault of any electronic powertrain components or system that provides input to the ECM or PCM and is not exclusively an input to any other OBD-II monitor.
Scheme 51
Scheme 52
Scheme 53
Scheme 54
Scheme 55
[THROTTLE POSITION SENSOR]
| Throttle Angle(° ) | Output Voltage(V) [Vref = 5.0V] | |
|---|---|---|
| TPS1 | TPS2 | |
| 0° | 0V | 5.0V |
| 10° | 0.5V | 4.5V |
| 20° | 0.9V | 4.1V |
| 30° | 1.4V | 3.6V |
| 40° | 1.8V | 3.2V |
| 50° | 2.3V | 2.7V |
| 60° | 2.7V | 2.3V |
| 70° | 3.2V | 1.8V |
| 80° | 3.6V | 1.4V |
| 90° | 4.1V | 0.9V |
| 100° | 4.5V | 0.5V |
| 110° | 5.0V | 0V |
THROTTLE POSITION SENSOR SPECIFICATION
| Item | Sensor Resistance |
|---|---|
| TPS1 | 4.0 ~ 6.0kohms at 20°C (68°F) |
| TPS2 | 2.72 ~ 4.08kohms at 20°C (68°F) |
SENSOR RESISTANCE SPECIFICATION
Scheme 56
[ETC MOTOR]
| Item | Sensor Resistance |
|---|---|
| Coil Resistance (ohms) | 1.275 ~ 1.725ohms at 20 °C (68° F) |
ETC MOTOR RESISTANCE SPECIFICATION
Scheme 57
FAIL-SAFE MODE
| Mode | Description | Symptom | Possible Cause |
|---|---|---|---|
| MODE 1 | FORCED ENGINE SHUTDOWN | Engine stop | ETC system can't proceed reliable algorithm procedure Fatal PCM internal programming error Faulty intake system or throttle body |
| MODE 2 | FORCED IDLE & POWER MANAGEMENT | Forced idle state controlled by fuel quantity regulation and ignition timing adjustment | ETC system can't control engine power via throttle device Disabled throttle control or broken throttle position information |
| MODE 3 | FORCED IDLE | Forced idle state and no response for accelerator activation | No information about the accelerator position Malfuctioning APS 1 and 2, faulty A/D converter or internal controller |
| MODE 4 | LIMIT PERFORMANCE & POWER MANAGEMENT | Engine power is determined by accelerator position and idle power requirement (Limited vehicle running) | ETC system can't securely control engine power |
| MODE 5 | LIMIT PERFORMANCE | Engine power varies with accelerator position, but driver perceives lack of engine power. MIL ON (Normal vehicle running) | Not reliable accelerator position signal or bad maximum power generation Faulty APS, ignition voltage or internal controller |
| MODE 6 | NORMAL | Normal |
FAIL-SAFE MODE CHART
[BANK AND ITS COLOR]
| Bank | Component side | Harness side |
|---|---|---|
| Bank 1 (RH) | Grey | Grey |
| Bank 2 (LH) | Black | Black |
HARNESS CONNECTOR COLORS REFERENCE CHART
CONNECTOR [C01-1]
| Pin No. | Description | Connected to |
|---|---|---|
| 1 | 2nd CAN [High] | Multi-Purpose Check Connector |
| 2 | 2nd CAN [Low] | Multi-Purpose Check Connector |
| 3 | For Autotransaxle Control | |
| 4 | For Autotransaxle Control | |
| 5 | For Autotransaxle Control | |
| 6 | For Autotransaxle Control | |
| 7 | For Autotransaxle Control | |
| 8 | For Autotransaxle Control | |
| 9 | For Autotransaxle Control | |
| 10 | Power Steering Switch signal input | Power Steering Switch |
| 11 | ||
| 12 | ||
| 13 | ||
| 14 | ||
| 15 | Alternator load signal input | Alternator |
| 16 | Cruise Switch ground | Cruise Switch |
| 17 | Fuel Tank Pressuer Sensor ground | Fuel Tank Pressuer Sensor (FTPS) |
| 18 | Air conditioner switch "ON" signal input | Air Conditioner Control Module |
| 19 | ||
| 20 | For Autotransaxle Control | |
| 21 | Brake switch signal input | Brake Switch |
| 22 | ||
| 23 | Brake lamp signal input | Brake Lamp |
| 24 | ||
| 25 | Cruise Switch signal input | Cruise Switch |
| 26 | Air conditioner blower switch signal input | Air Conditioner Control Module |
| 27 | Diagnostic Data Line (K-Line) | Data Link Connector (DLC), Multi-Purpose Check Connector |
| 28 | Fuel Tank Pressuer Sensor signal input | Fuel Tank Pressuer Sensor (FTPS) |
| 29 | Fuel level signal input | Fuel Level Sensor (FLS) |
| 30 | ||
| 31 | ||
| 32 | A/C Pressure Transducer signal input | A/C Pressure Transducer (APT) |
| 33 | Sensor ground | A/C Pressure Transducer (APT) |
| 34 | ||
| 35 | ||
| 36 | ||
| 37 | Canister Close Valve (CCV) control output | Canister Close Valve (CCV) |
| 38 | Battery voltage supply after main relay | Main Relay |
| 39 | Battery voltage supply after main relay | Main Relay |
| 40 | Battery voltage supply after main relay | Main Relay |
| 41 | CAN [High] | ABS Control Module, ESC Control Module |
| 42 | CAN [Low] | ABS Control Module, ESC Control Module |
| 43 | Main Relay control output | Main Relay |
| 44 | Intake Air Temperature Sensor signal input | Intake Air Temperature Sensor (IATS) |
| 45 | Immobilizer communication line | Immobilizer |
| 46 | ||
| 47 | Mass Air Flow Sensor signal input | Mass Air Flow Sensor (MAFS) |
| 48 | Accelerator Position Sensor #2 ground | Accelerator Position Sensor (APS) #2 |
| 49 | Accelerator Position Sensor #2 signal input | Accelerator Position Sensor (APS) #2 |
| 50 | For Autotransaxle Control | |
| 51 | Cruise "SET" lamp control output | Cruise "SET" Lamp (Cluster) |
| 52 | Vehicle speed signal input | ABS/ESC Control Module |
| 53 | Intake Air Temperature Sensor ground | Intake Air Temperature Sensor (IATS) |
| 54 | Accelerator Position Sensor #1 signal input | Accelerator Position Sensor (APS) #1 |
| 55 | Accelerator Position Sensor #1 ground | Accelerator Position Sensor (APS) #1 |
| 56 | Fuel Tank Pressure Sensor power supply | Fuel Tank Pressure Sensor (FTPS) |
| 57 | Accelerator Position Sensor #2 power supply | Accelerator Position Sensor (APS) #2 |
| 58 | Sensor Power Supply (+5V) | A/C Pressure Transducer (APT) |
| 59 | Accelerator Position Sensor #1 power supply | Accelerator Position Sensor (APS) #1 |
| 60 | For Autotransaxle Control | |
| 61 | Engine speed signal output | Cluster (Tachometer) |
| 62 | Fuel consumption signal output | Trip Computer |
| 63 | Malfunction Indicator Lamp (MIL) control output | Cluster (Malfunction Indicator Lamp) |
| 64 | Air Conditioner Compressor Relay control output | Air Conditioner Compressor Relay |
| 65 | ||
| 66 | Cooling Fan control output (PWM) | Cooling Fan Control Module |
| 67 | ||
| 68 | ||
| 69 | Cruise "MAIN" lamp control output | Cruise "MAIN" Lamp (Cluster) |
| 70 | Fuel Pump Relay control output | Fuel Pump Relay |
| 71 | Variable Intake Solenoid Valve control output | Variable Intake Solenoid (VIS) Valve |
| 72 | Immobilizer lamp control output | Immobilizer Lamp |
| 73 | For Autotransaxle Control | |
| 74 | ||
| 75 | ||
| 76 | ||
| 77 | ||
| 78 | Purge Control Solenoid Valve control output | Purge Control Solenoid Valve (PCSV) |
| 79 | ||
| 80 |
PCM CONNECTOR TERMINAL REFERENCE - C201-1
CONNECTOR [C01-2]
| Pin No. | Description | Connected to |
|---|---|---|
| 1 | ETC Motor [-] control output | ETC Motor (in ETC Module) |
| 2 | ETC Motor [+] control output | ETC Motor (in ETC Module) |
| 3 | For Autotransaxle Control | |
| 4 | CVVT Oil Temperature Sensor signal input | CVVT Oil Temperature Sensor (OTS) |
| 5 | ||
| 6 | For Autotransaxle Control | |
| 7 | Engine Coolant Temperature Sensor signal input | Engine Coolant Temperature Sensor (ECTS) |
| 8 | Manifold Absolute Pressure Sensor signal input | Manifold Absolute Pressure Sensor (MAPS) |
| 9 | For Autotransaxle Control | |
| 10 | For Autotransaxle Control | |
| 11 | Manifold Absolute Pressure Sensor power supply | Manifold Absolute Pressure Sensor (MAPS) |
| 12 | Battery voltage supply after ignition switch | Ignition Switch |
| 13 | Throttle Position Sensor #2 power supply | Throttle Position Sensor (TPS) #2 |
| 14 | Throttle Position Sensor #1 ground | Throttle Position Sensor (TPS) #1 |
| 15 | Camshaft Position Sensor [Bank 2] power supply | Camshaft Position Sensor (CMPS) [Bank 2] |
| 16 | Throttle Position Sensor #1 power supply | Throttle Position Sensor (TPS) #1 |
| 17 | Camshaft Position Sensor [Bank 2] ground | Camshaft Position Sensor (CMPS) [Bank 2] |
| 18 | Camshaft Position Sensor [Bank 1] ground | Camshaft Position Sensor (CMPS) [Bank 1] |
| 19 | Ignition Coil (Cylinder #6) control output | Ignition Coil (Cylinder #6) |
| 20 | ||
| 21 | Crankshaft Position Sensor [High] signal input | Crankshaft Position Sensor (CKPS) |
| 22 | For Autotransaxle Control | |
| 23 | Sensor Shield | Crankshaft Position Sensor (CKPS), Knock Sensor (KS) #1, 2 |
| 24 | Camshaft Position Sensor [Bank 2] signal input | Camshaft Position Sensor (CMPS) [Bank 2] |
| 25 | Camshaft Position Sensor [Bank 1] signal input | Camshaft Position Sensor (CMPS) [Bank 1] |
| 26 | ||
| 27 | ||
| 28 | Heated Oxygen Sensor [Bank 2 / Sensor 1] ground | HO2S (B2/S1) |
| 29 | Heated Oxygen Sensor [Bank 2 / Sensor 2] ground | HO2S (B2/S2) |
| 30 | Heated Oxygen Sensor [Bank 1 / Sensor 1] ground | HO2S (B1/S1) |
| 31 | Heated Oxygen Sensor [Bank 1 / Sensor 2] ground | HO2S (B1/S2) |
| 32 | Camshaft Position Sensor [Bank 1] power supply | Camshaft Position Sensor (CMPS) [Bank 1] |
| 33 | Engine Coolant Temperature Sensor ground | Engine Coolant Temperature Sensor (ECTS) |
| 34 | Sensor ground | Manifold Absolute Pressure Sensor (MAPS), CVVT Oil Temperature Sensor (OTS) |
| 35 | Power ground | Chassis Ground |
| 36 | Power ground | Chassis Ground |
| 37 | Power ground | Chassis Ground |
| 38 | Power ground | Chassis Ground |
| 39 | Power ground | Chassis Ground |
| 40 | Ignition Coil (Cylinder #4) control output | Ignition Coil (Cylinder #4) |
| 41 | Crankshaft Position Sensor [Low] signal input | Crankshaft Position Sensor (CKPS) |
| 42 | For Autotransaxle Control | |
| 43 | For Autotransaxle Control | |
| 44 | For Autotransaxle Control | |
| 45 | For Autotransaxle Control | |
| 46 | ||
| 47 | ||
| 48 | Throttle Position Sensor #1 signal input | Throttle Position Sensor (TPS) #1 |
| 49 | Heated Oxygen Sensor [Bank 1 / Sensor 1] signal input | HO2S (B1/S1) |
| 50 | Heated Oxygen Sensor [Bank 1 / Sensor 2] signal input | HO2S (B1/S2) |
| 51 | Heated Oxygen Sensor [Bank 2 / Sensor 1] signal input | HO2S (B2/S1) |
| 52 | Heated Oxygen Sensor [Bank 2 / Sensor 2] signal input | HO2S (B2/S2) |
| 53 | Knock Sensor (KS) #2 [High] signal input | Knock Sensor (KS) #2 [High] |
| 54 | Knock Sensor (KS) #2 [Low] signal input | Knock Sensor (KS) #2 [Low] |
| 55 | Knock Sensor (KS) #1 [Low] signal input | Knock Sensor (KS) #1 [Low] |
| 56 | Knock Sensor (KS) #1 [High] signal input | Knock Sensor (KS) #1 [High] |
| 57 | Throttle Position Sensor #2 signal input | Throttle Position Sensor (TPS) #2 |
| 58 | Throttle Position Sensor #2 ground | Throttle Position Sensor (TPS) #2 |
| 59 | For Autotransaxle Control | |
| 60 | Ignition Coil (Cylinder #2) control output | Ignition Coil (Cylinder #2) |
| 61 | CVVT Oil Control Valve [Bank 2] control output | CVVT Oil Control Valve (OCV) [Bank 2] |
| 62 | CVVT Oil Control Valve [Bank 1] control output | CVVT Oil Control Valve (OCV) [Bank 1] |
| 63 | Injector (Cylinder #2) control output | Injector (Cylinder #2) |
| 64 | Injector (Cylinder #3) control output | Injector (Cylinder #3) |
| 65 | ||
| 66 | ||
| 67 | Heated Oxygen Sensor [Bank 2 / Sensor 1] Heater control output | HO2S (B2/S1) |
| 68 | Injector (Cylinder #4) control output | Injector (Cylinder #4) |
| 69 | Injector (Cylinder #5) control output | Injector (Cylinder #5) |
| 70 | Heated Oxygen Sensor [Bank 1 / Sensor 1] Heater control output | HO2S (B1/S1) |
| 71 | Injector (Cylinder #6) control output | Injector (Cylinder #6) |
| 72 | Injector (Cylinder #1) control output | Injector (Cylinder #1) |
| 73 | Heated Oxygen Sensor [Bank 2 / Sensor 2] Heater control output | HO2S (B2/S2) |
| 74 | Heated Oxygen Sensor [Bank 1 / Sensor 2] Heater control output | HO2S (B1/S2) |
| 75 | For Autotransaxle Control | |
| 76 | Battery Power | Battery |
| 77 | Ignition Coil (Cylinder #3) control output | Ignition Coil (Cylinder #3) |
| 78 | Ignition Coil (Cylinder #5) control output | Ignition Coil (Cylinder #5) |
| 79 | Ignition Coil (Cylinder #1) control output | Ignition Coil (Cylinder #1) |
| 80 |
CONNECTOR TERMINAL REFERENCE - C01-2
| Pin No. | Description | Condition | Type | Level | Test Result |
|---|---|---|---|---|---|
| 1 | 2nd CAN [High] | Idle | DC | 2.0 ~ 3.0V | 2.5V |
| 2 | 2nd CAN [Low] | Idle | 2.0 ~ 3.0V | 2.5V | |
| 3 | For Autotransaxle Control | ||||
| 4 | For Autotransaxle Control | ||||
| 5 | For Autotransaxle Control | ||||
| 6 | For Autotransaxle Control | ||||
| 7 | For Autotransaxle Control | ||||
| 8 | For Autotransaxle Control | ||||
| 9 | For Autotransaxle Control | ||||
| 10 | Power Steering Switch signal input | ||||
| 11 | |||||
| 12 | |||||
| 13 | |||||
| 14 | |||||
| 15 | Alternator load signal input | Idle | PULSE | High: Battery Voltage | 13.6V |
| Low: Max. 1.5V | 0V | ||||
| 140 ~ 190Hz | 160Hz | ||||
| 16 | Cruise Switch ground | ||||
| 17 | Fuel Tank Pressure Sensor ground | Idle | DC | Max. 50mV | 30mV |
| 18 | Air conditioner switch "ON" signal input | A/CON Relay OFF | DC | Battery Voltage | 9.1V |
| A/CON Relay ON | Max. 1.0V | 0.1V | |||
| 19 | |||||
| 20 | For Autotransaxle Control | ||||
| 21 | Brake switch signal input | Brake pedal releasing | DC | Battery Voltage | 12.7V |
| Brake pedal pressing | Max. 0.5V | 0.03V | |||
| 22 | |||||
| 23 | Brake lamp signal input | Brake pedal releasing | DC | Max. 0.5V | 0V |
| Brake pedal pressing | Battery Voltage | 13.0V | |||
| 24 | |||||
| 25 | Cruise Switch signal input | ||||
| 26 | Air conditioner blower switch signal input | A/CON OFF | DC | Max. 1.0V | 0V |
| A/CON ON | Battery Voltage | 11.9V | |||
| 27 | Diagnostic Data Line (K-Line) | When transmitting | PULSE | High: Min. Vbatt * 80% | 11.3V |
| Low: Max. Vbatt * 20% | 0.14V | ||||
| When receiving | High: Min. Vbatt * 70% | 11.3V | |||
| Low: Max. Vbatt * 30% | 0.32V | ||||
| 28 | Fuel Tank Pressure Sensor signal input | ||||
| 29 | Fuel level signal input | ||||
| 30 | |||||
| 31 | |||||
| 32 | A/C Pressure Transducer signal input | A/CON OFF | DC | 0 ~ 5.0V | |
| A/CON ON | 1.85 ~ 2.2V | ||||
| 33 | Sensor ground | Idle | DC | Max. 50mV | 40mV |
| 34 | |||||
| 35 | |||||
| 36 | |||||
| 37 | Canister Close Valve Control output | ||||
| 38 | Battery voltage supply after main relay | IG OFF | DC | Max. 1.0V | 0V |
| IG ON | Battery Voltage | 12.1V | |||
| 39 | Battery voltage supply after main relay | IG OFF | DC | Max. 1.0V | 0V |
| IG ON | Battery Voltage | 12.1V | |||
| 40 | Battery voltage supply after main relay | IG OFF | DC | Max. 1.0V | 0V |
| IG ON | Battery Voltage | 12.1V | |||
| 41 | CAN [High] | RECESSIVE | PULSE | 2.0 ~ 3.0V | 3.85V |
| DOMINANT | 2.75 ~ 4.5V | 2.5V | |||
| 42 | CAN [Low] | RECESSIVE | PULSE | 2.0 ~ 3.0V | 2.55V |
| DOMINANT | 2.75 ~ 4.5V | 1.34V | |||
| 43 | Main Relay control output | Relay ON | DC | Battery Voltage | 12.3V |
| Relay OFF | Max. 1.0V | 0.87V | |||
| 44 | Intake Air Temperature Sensor signal input | Idle | Analog | 0 ~ 5.0V | 1.86V |
| 45 | Immobilizer communication line | ||||
| 46 | |||||
| 47 | Mass Air Flow Sensor signal input | Idle | PULSE | High: Vref | 5.04V |
| Low: Max. 0.5V | 0.27V | ||||
| Idle: 3.0KHz | |||||
| 3,000 rpm | High: Vref | 5.04V | |||
| Low: Max. 0.5V | 0.27V | ||||
| 3000rpm: 4.5 kHz | |||||
| 48 | Accelerator Position Sensor #2 ground | Idle | DC | Max. 50mV | 35mV |
| 49 | Accelerator Position Sensor #2 signal input | C.T | Analog | 0.3 ~ 0.9V | 0.4V |
| W.O.T | 1.5 ~ 3.0V | 2.1V | |||
| 50 | For Autotransaxle Control | ||||
| 51 | Cruise "SET" lamp control output | ||||
| 52 | Vehicle speed signal input | Vehicle running | PULSE | High: Min. 5.0V | 12.6V |
| Low: Max. 1.0V | 0.2V | ||||
| 53 | Intake Air Temperature Sensor ground | Idle | DC | DC Max. 50mV | 34mV |
| 54 | Accelerator Position Sensor #1 signal input | C.T | Analog | 0.3 ~ 0.9V | 0.77V |
| W.O.T | 4.0 ~ 4.8V | 4.23V | |||
| 55 | Accelerator Position Sensor #1 ground | Idle | DC | DC Max. 50mV | 36mV |
| 56 | Fuel Tank Pressure Sensor power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.01V | |||
| 57 | Accelerator Position Sensor #2 power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.08V | |||
| 58 | Sensor Power Supply (+5V) | IG OFF | Max. 0.5V | 0V | |
| IG ON | 4.9 ~ 5.1V | 5.08V | |||
| 59 | Accelerator Position Sensor #1 power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.08V | |||
| 60 | For Autotransaxle Control | ||||
| 61 | Engine speed signal output | Idle | PULSE | High: Battery Voltage | 13.0V |
| Low: Max. 0.5V | 0V | ||||
| 20~26Hz | 35Hz | ||||
| 62 | Fuel consumption signal output | Idle | PULSE | High: Battery Voltage or Vref | 12.8V |
| Low: Max. 0.5V | 0V | ||||
| 63 | Malfunction Indicator Lamp (MIL) control output | MIL OFF | DC | High: Battery Voltage | 4.24V |
| MIL ON | Low: Max. 2.0V | 0V | |||
| 64 | Air Conditioner Compressor Relay control output | A/CON OFF | DC | Battery Voltage | 13.0V |
| A/CON ON | Max. 1.0V | 0.14V | |||
| 65 | |||||
| 66 | Cooling Fan control output (PWM) | A/CON ON | PULSE | High: Vref | 12.3V |
| Low: 0 ~ 0.5 V | 0V | ||||
| 300Hz | |||||
| 67 | |||||
| 68 | |||||
| 69 | Cruise "CRUISE" lamp control output | ||||
| 70 | Fuel Pump Relay control output | Relay OFF | DC | Battery Voltage | 12.5V |
| Relay ON | Max. 1.0V | 0.09V | |||
| 71 | Variable Intake Solenoid Valve control output | Active | DC | Max. 1.0V | 0.1V |
| Inactive | Battery Voltage | 12.4V | |||
| 72 | Immobilizer lamp control output | ||||
| 73 | For Autotransaxle Control | ||||
| 74 | |||||
| 75 | |||||
| 76 | |||||
| 77 | |||||
| 78 | Purge Control Solenoid Valve control output | Inactive Active | PULSE | High: Battery Voltage | 13.2V |
| Low: Max. 1.0V | 0.08V | ||||
| 16Hz | |||||
| 79 | |||||
| 80 |
CONNECTOR TERMINAL INPUT/OUTPUT SIGNAL REFERENCE - C201-1
| Pin No. | Description | Condition | Type | Level | Test Result |
|---|---|---|---|---|---|
| 1 | ETC Motor [-] control output | Idle | PULSE | High: Battery Voltage | 13.3V |
| Low: Max. 1.0V | 0.3V | ||||
| 3.14KHz | |||||
| 2 | ETC Motor [+] control output | Idle | PULSE | High: Battery Voltage | 13.3V |
| Low: Max. 1.0V | 0.4V | ||||
| 3.14KHz | |||||
| 3 | For Autotransaxle Control | ||||
| 4 | CVVT Oil Temperature Sensor signal input | Idle | Analog | 0.5 ~ 4.5V | 1.68V |
| 5 | |||||
| 6 | For Autotransaxle Control | ||||
| 7 | Engine Coolant Temperature Sensor signal input | Idle | Analog | 0.5 ~ 4.5V | 0.47V |
| 8 | Manifold Absolute Pressure Sensor signal input | IG ON | Analog | 3.9 ~ 4.1V | 4.01V |
| Idle | 0.8 ~ 1.6V | 1.59V | |||
| 9 | For Autotransaxle Control | ||||
| 10 | For Autotransaxle Control | ||||
| 11 | Manifold Absolute Pressure Sensor power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.08V | |||
| 12 | Battery voltage supply after ignition switch | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | Battery Voltage | 12.2V | |||
| 13 | Throttle Position Sensor #2 power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.05V | |||
| 14 | Throttle Position Sensor #1 ground | Idle | DC | Max. 50mV | 30mV |
| 15 | Camshaft Position Sensor [Bank 2] power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.06V | |||
| 16 | Throttle Position Sensor #1 power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.06V | |||
| 17 | Camshaft Position Sensor [Bank 2] ground | Idle | DC | Max. 50mV | 30mV |
| 18 | Camshaft Position Sensor [Bank 1] ground | Idle | DC | Max. 50mV | 30mV |
| 19 | Ignition Coil (Cylinder #6) control output | Idle | PULSE | 1st: 300 ~ 400V | 272V |
| ON: Max. 2V | 1.2V | ||||
| 5.8Hz | |||||
| 20 | |||||
| 21 | Crankshaft Position Sensor [High] signal input | Idle | Sine Wave | Vp_p: Min. 1.0V | 8V |
| 700Hz | |||||
| 22 | For Autotransaxle Control | ||||
| 23 | Sensor Shield | Idle | DC | Max. 50mV | 32mV |
| 24 | Camshaft Position Sensor [Bank 2] signal input | Idle | PULSE | High: Vref | 5.08V |
| Low: Max. 0.5V | 0.06V | ||||
| 40Hz | |||||
| 25 | Camshaft Position Sensor [Bank 1] signal input | Idle | PULSE | High: Vref | 5.08V |
| Low: Max. 0.5V | 0.06V | ||||
| 40Hz | |||||
| 26 | |||||
| 27 | |||||
| 28 | Heated Oxygen Sensor [Bank 2 / Sensor 1] ground | Idle | DC | Max. 50mV | 27mV |
| 29 | Heated Oxygen Sensor [Bank 2 / Sensor 2] ground | Idle | DC | Max. 50mV | 27mV |
| 30 | Heated Oxygen Sensor [Bank 1 / Sensor 1] ground | Idle | DC | Max. 50mV | 26V |
| 31 | Heated Oxygen Sensor [Bank 1 / Sensor 2] ground | Idle | DC | Max. 50mV | 27mV |
| 32 | Camshaft Position Sensor [Bank 1] power supply | IG OFF | DC | Max. 0.5V | 0V |
| IG ON | 4.9 ~ 5.1V | 5.06V | |||
| 33 | Engine Coolant Temperature Sensor ground | Idle | DC | Max. 50mV | 13mV |
| 34 | Sensor ground | Idle | DC | Max. 50mV | 13mV |
| 35 | Power ground | Idle | DC | Max. 50mV | 0mV |
| 36 | Power ground | Idle | DC | Max. 50mV | 0mV |
| 37 | Power ground | Idle | DC | Max. 50mV | 0mV |
| 38 | Power ground | Idle | DC | Max. 50mV | 2mV |
| 39 | Power ground | Idle | DC | Max. 50mV | 2mV |
| 40 | Ignition Coil (Cylinder #4) control output | Idle | PULSE | 1st: 300~400V | 263V |
| ON: Max. 2V | 1.4V | ||||
| 5.8Hz | |||||
| 41 | Crankshaft Position Sensor [Low] signal input | Idle | Sine Wave | Vp_p: Min.1.0V | 8V |
| 700Hz | |||||
| 42 | For Autotransaxle Control | ||||
| 43 | For Autotransaxle Control | ||||
| 44 | For Autotransaxle Control | ||||
| 45 | For Autotransaxle Control | ||||
| 46 | |||||
| 47 | |||||
| 48 | Throttle Position Sensor #1 signal input | C.T | Analog | 0.25 ~ 0.9V | |
| W.O.T | Min. 4.0V | ||||
| 49 | Heated Oxygen Sensor [Bank 1 / Sensor 1] signal input | Engine Running | DC | Rich: 0.6 ~ 1.0V | 0.95V |
| Lean: 0 ~ 0.4V | 0.13V | ||||
| 50 | Heated Oxygen Sensor [Bank 1 / Sensor 2] signal input | Engine Running | DC | Rich: 0.6 ~ 1.0V | 0.88V |
| Lean: 0 ~ 0.4V | 0.21V | ||||
| 51 | Heated Oxygen Sensor [Bank 2 / Sensor 1] signal input | Engine Running | DC | Rich: 0.6 ~ 1.0V | 0.91V |
| Lean: 0 ~ 0.4V | 0.18V | ||||
| 52 | Heated Oxygen Sensor [Bank 2 / Sensor 2] signal input | Engine Running | DC | Rich: 0.6 ~ 1.0V | 0.89V |
| Lean: 0 ~ 0.4V | 0.22V | ||||
| 53 | Knock Sensor (KS) #2 [High] signal input | Knocking | Variable Frequency | 0.3 ~ 0.3 V | 1.7V |
| Normal | 0 V | ||||
| 54 | Knock Sensor (KS) #2 [Low] signal input | Knocking | Variable Frequency | 0.3 ~ 0.3 V | 1.7V |
| Normal | 0 V | ||||
| 55 | Knock Sensor (KS) #1 [Low] signal input | Knocking | Variable Frequency | 0.3 ~ 0.3 V | 1.7V |
| Normal | 0 V | ||||
| 56 | Knock Sensor (KS) #1 [High] signal input | Knocking | Variable Frequency | 0.3 ~ 0.3 V | 1.7V |
| Normal | 0 V | ||||
| 57 | Throttle Position Sensor #2 signal input | C.T | Analog | Min. 4.0V | |
| W.O.T | 0.25 ~ 0.9V | ||||
| 58 | Throttle Position Sensor #2 ground | Idle | DC | Max. 50mV | 17mV |
| 59 | For Autotransaxle Control | ||||
| 60 | Ignition Coil (Cylinder #2) control output | Idle | PULSE | 1st: 300~400V | 266V |
| ON: Max. 2V | 1.3V | ||||
| 5.8Hz | |||||
| 61 | CVVT Oil Control Valve [Bank 2] control output | Idle | PULSE | Battery Voltage | 14.5V |
| Max. 1.0V | 0.1V | ||||
| Duty variance when operating the accelerator | 128Hz | ||||
| 62 | CVVT Oil Control Valve [Bank 1] control output | Idle | PULSE | Battery Voltage | 14.3V |
| Max. 1.0V | 0.1V | ||||
| Duty variance when operating the accelerator | 128Hz | ||||
| 63 | Injector (Cylinder #2) control output | Idle | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.13V | ||||
| Vpeak: Max. 80V | 57.5V | ||||
| 5.8Hz | |||||
| 64 | Injector (Cylinder #3) control output | Idle | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.13V | ||||
| Vpeak: Max. 80V | 56.8V | ||||
| 5.8Hz | |||||
| 65 | |||||
| 66 | |||||
| 67 | Heated Oxygen Sensor [Bank 2 / Sensor 1] Heater control output | Engine Running | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.17V | ||||
| 16Hz | |||||
| 68 | Injector (Cylinder #4) control output | Idle | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.13V | ||||
| Vpeak: Max. 80V | 56.8V | ||||
| 5.8Hz | |||||
| 69 | Injector (Cylinder #5) control output | Idle | PULSE | High: Battery Voltage | 13.7V |
| Low: Max. 1.0V | 0.13V | ||||
| Vpeak: Max. 80V | 56.8V | ||||
| 5.8Hz | |||||
| 70 | Heated Oxygen Sensor [Bank 1 / Sensor 1] Heater control output | Engine Running | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.17V | ||||
| 16Hz | |||||
| 71 | Injector (Cylinder #6) control output | Idle | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.13V | ||||
| Vpeak: Max. 80V | 56.8V | ||||
| 5.8Hz | |||||
| 72 | Injector (Cylinder #1) control output | Idle | PULSE | High: Battery Voltage | 13.8V |
| Low: Max. 1.0V | 0.13V | ||||
| Vpeak: Max. 80V | 56.8V | ||||
| 5.8Hz | |||||
| 73 | Heated Oxygen Sensor [Bank 2 / Sensor 2] Heater control output | Engine Running | PULSE | High: Battery Voltage | 13.9V |
| Low: Max. 1.0V | 0.19V | ||||
| 16Hz | |||||
| 74 | Heated Oxygen Sensor [Bank 1 / Sensor 2] Heater control output | Engine Running | PULSE | High: Battery Voltage | 13.9V |
| Low: Max. 1.0V | 0.18V | ||||
| 16Hz | |||||
| 75 | For Autotransaxle Control | ||||
| 76 | Battery Power | Always | DC | Battery Voltage | 13.0V |
| 77 | Ignition Coil (Cylinder #3) control output | Idle | PULSE | 1st: 300~400V | 266V |
| ON: Max. 2V | 1.4V | ||||
| 5.8Hz | |||||
| 78 | Ignition Coil (Cylinder #5) control output | Idle | PULSE | 1st: 300~400V | 267V |
| ON: Max. 2V | 1.4V | ||||
| 5.8Hz | |||||
| 79 | Ignition Coil (Cylinder #1) control output | Idle | PULSE | 1st: 300~400V | 268V |
| ON: Max. 2V | 1.4V | ||||
| 5.8Hz | |||||
| 80 |
CONNECTOR TERMINAL INPUT/OUTPUT SIGNAL REFERENCE - C01-2
Scheme 58
Scheme 59
Scheme 60
Scheme 61
VIN PROGRAMMING PROCEDURE
VIN (Vehicle Identification Number) is a number that has the vehicle's information (Maker, Vehicle Type, Vehicle Line/Series, Body Type, Engine Type, Transmission Type, Model Year, Plant Location and so forth. For more information, please refer to GENERAL INFORMATION ). When replacing an ECM, the VIN must be programmed in the ECM. If there is no VIN in ECM memory, the fault code (DTC P0630) is set.
| CAUTION | The programmed VIN cannot be changed. When writing the VIN, confirm the VIN carefully |
Scheme 62
Scheme 63
Scheme 64
Scheme 65
Scheme 66
- Select "Vehicle" and "Engine" (For example, SEDONA 3.5L V6).
- Select "VIN WRITING".
- Check the ECM status. NOTE: VIRGIN: VIN is not programmed LEARNT: VIN has been already programmed Is the ECM status "VIRGIN"? YES Go to next step 4. NO END
- Write the VIN with cursor, function and number keys. WARNING: Before pressing the "ENTER" key, confirm the VIN again because the programmed VIN cannot be changed.
- After verifying the written VIN, press the "ENTER" key.
- Turn the ignition switch OFF, and then turn ON.
- Verify the programmed VIN in the ECM memory.