Ads
related to: toyota corolla bad oxygen sensor cause a misfire on engine
Search results
Results From The WOW.Com Content Network
The heart of the Mitsubishi's MVV system is the linear air–fuel ratio exhaust gas oxygen sensor. Compared with standard oxygen sensors, which essentially are on-off switches set to a single air/fuel ratio, the lean oxygen sensor is more of a measurement device covering the air/fuel ratio range from about 15:1 to 26:1. [19]
A check engine light or malfunction indicator lamp (MIL), is a tell-tale that a computerized engine-management system uses to indicate a malfunction or problem with the vehicle ranging from minor (such as a loose gas cap) to serious (worn spark plugs, engine problems or a faulty oil valve, etc.).
These tin finishes can produce conductive tin whiskers capable of creating unintended electrical failures such as short circuits. The use of tin finish in Toyota's APPS is therefore a cause for concern. [15] Similarly in 2013, materials used in an automotive engine control unit (ECU) from a 2008 Toyota Tundra truck were analyzed.
A bad crank position sensor can worsen the way the engine idles, or the acceleration behaviour. If the engine is revved up with a bad or faulty sensor, it may cause misfiring, motor vibration or backfires. Acceleration might be hesitant, and abnormal shaking during engine idle might occur. In the worst case, the car may not start.
The recall concerns a steering problem caused by the misalignment of the inner and outer rings of the crankshaft pulley, which could cause noise or the Check Engine light to illuminate; if this problem is not corrected, the power steering belt can fall off the pulley, which can cause a sudden loss of power assist.
The Corolla E90 was the sixth generation of cars sold by Toyota under the Corolla nameplate, introduced in 1987 for the 1988 model year. It was the last generation of Corolla to be classified as a subcompact car and the first to be exclusively front-wheel drive or all-wheel drive ; [ 3 ] the performance option of rear-wheel drive was dropped.
A new 1.8 L (1,770 cc; 108 cu in) 3T engine was optional to some markets, while parts of the world retained the old 4K. The most notable inline-four engine advancement came in 1979 and 1983, however, as Toyota began offering the 1.5 L (1,452 cc; 89 cu in) 3A-U and 1.6 L (1,587 cc; 97 cu in) 4A-C engines respectively.
This system works very well in getting rid of crankcase vapors which are harmful to the engine. As per the earlier engines, the road draught tube system also created pollution and objectionable odors. [1] The draught tube could become clogged with snow or ice, in which case crankcase pressure would build and cause oil leaks and gasket failure. [2]