DI60 DI5DI03 DTC P0300 Random/Multiple Cylinder Misfire Detected DTC P0301 Cylinder 1 Misfire Detected DTC P0302 Cylinder 2 Misfire Detected DTC P0303 Cylinder 3 Misfire Detected DTC P0304 Cylinder 4 Misfire Detected DTC P0305 Cylinder 5 Misfire Detected DTC P0306 Cylinder 6 Misfire Detected DTC P0307 Cylinder 7 Misfire Detected DTC P0308 Cylinder 8 Misfire Detected CIRCUIT DESCRIPTION Misfire: The ECM uses the crankshaft position sensor and camshaft position sensor to monitor changes in the crankshaft rotation for each cylinder. The ECM counts the number of times the engine speed change rate indicates that misfire has occurred. And when the misfire rate equals or exceeds the count indicating that the engine condition has deteriorated, the MIL lights up. If the misfire rate is high enough and the driving conditions will cause catalyst overheating, the MIL blinks when misfiring occurs.
DI61 DTC No. DTC Detecting Condition Trouble Area P0300 P0301 P0302 P0303 P0304 P0305 P0306 P0307 P0308 Misfiring of random cylinders is detected during any particular 200 or 1,000 revolutions 1 trip detection logic: MIL to brink 2 trip detection logic: MIL to light up For any particular 200 revolutions of engine, misfiring is detected which can cause catalyst overheating (This causes MIL to blink) For any particular 1,000 revolutions of the engine, misfiring is detected which causes a deterioration in emissions (2 trip detection logic) Ignition system Injector Fuel line pressure EGR Compression pressure Valve clearance not to specification Valve timing Mass air flow meter Engine coolant temp. sensor HINT: When codes for a misfiring cylinder is recorded repeatedly but no random misfire code is recorded, it indicates that the misfires were detected and recorded at different times. WIRI DIAGRAM 7 6 BR ECM AM2 Battery BW 12 EB1 BW 11 9 BL IG Switch 6 10 1G 1L BR Instrument Panel J/B 13 II1 BR Injector No.1 10 BR 2 1 Y BR 2 No.2 9 1 B BR 2 No.3 8 1 L BR 2 No.4 7 1 R BR 2 No.5 6 1 G BR 2 No.6 5 1 RL BR 2 No.7 16 1 W BR 2 No.8 15 1BW WB 34 WB 33 #10 #20 #30 #40 #50 #60 #70 #80 E01 E02 ED A00917
DI62 Reference INSPECTION USI OSCILLOSCOPE INJECTOR SIGNAL WAVEFORM With engine idling, measure between terminals #10 #80 and E01 of ECM. HINT: Correct waveform is as shown. 10V/ Division 10V/ Division (Magnification) GND GND FI6588 FI6538 100 m sec./division (Idling) Injection duration 1 m sec./division (Idling) A00064 INSPECTION PROCEDURE 1 Check spark plug and spark of misfiring cylinder. (a) Remove hightension cord (See page IG13). (b) Remove spark plug. (a) Check the carbon deposits on electrode. (b) Check electrode gap. (1) No large carbon deposit present. Not wet with gasoline or oil. (2) Electrode gap: 0.8 mm (0.031 in.). Disconnect high tension cord (from ignition coil) from distributor cap and hold end about 12.5 mm (1/2 ) from ground, see if spark occurs while the engine is being cranked. NOTICE: To prevent excessive fuel being injected from the injectors during this test, don t crank engine for more than 1 2 seconds at a time. A00800 Replace or check ignition system (See page IG1).
DI63 2 Check voltage of ECM terminal for injector of failed cylinder. #10 #70 #80 ON #20 #30 #40 #50 #60 (a) Remove instrument panel under cover. (b) Turn ignition switch ON. Measure voltage between applicable terminal of ECM and body ground. Voltage: 9 14 V A00801 Go to step 4. 3 Check injector of misfiring cylinder. Disconnect injector connector (See page SF22). Measure resistance of injector. Resistance: 13.4 14.2 Ω at 20 C (68 F) S00784 Replace injector (See page SF19). Check for open and short in harness and connector between injector and ECM (See page IN28).
DI64 4 Check fuel pressure (See page SF5). Check and repair fuel pump, pressure regulator, fuel pipe line and filter (See page SF1). 5 Check injector injection (See page SF1). Replace injector (See page SF19). 6 Check EGR system (See page SF71). Repair EGR system. 7 Check mass air flow meter and engine coolant temp. sensor (See page DI24, DI33). Repair or replace. Check the compression pressure (See page EM3), valve clearance (See page EM4) and valve timing (See page EM25).