Difference between revisions of "Engine: Oxygen Sensors (O2)"
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An '''oxygen sensor''' (also known as an '''O2 sensor''' or '''lambda sensor''') is an electronic device that samples the gasses passed through the exhaust system in order to determine, in real time, if the air-fuel ratio of the engine is rich or lean. The sensors' purpose is to provide readings that will help the engine run efficiently and to produce as few emissions as possible. | An '''oxygen sensor''' (also known as an '''O2 sensor''' or '''lambda sensor''') is an electronic device that samples the gasses passed through the exhaust system in order to determine, in real time, if the air-fuel ratio of the engine is rich or lean. The sensors' purpose is to provide readings that will help the engine run efficiently and to produce as few emissions as possible. | ||
− | The optimal air/fuel ratio that [[Mitsubishi_3000GT/Dodge_Stealth|Mitsubishi 3000GT]]/[[Mitsubishi_GTO|GTO]] and [[Mitsubishi_3000GT/Dodge_Stealth|Dodge Stealth]]'s on regular gas aim for is 14.7:1. This is what is known as the stoichiometric mixture ( | + | The optimal air/fuel ratio that [[Mitsubishi_3000GT/Dodge_Stealth|Mitsubishi 3000GT]]/[[Mitsubishi_GTO|GTO]] and [[Mitsubishi_3000GT/Dodge_Stealth|Dodge Stealth]]'s on regular gas aim for is 14.7:1. This is what is known as the stoichiometric mixture (depicted as 'Stoich' on most air/fuel gauges). These gauges generally consider the range of 13.0:1 to 17.0:1 to be 'Stoich', while anything below 13.0:1 is rich, and anything above 17.0:1 is considered lean. |
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As the engine's RPM increases slowly, the cycling rate of the voltage will also become more rapid. However, if the engine RPM increases rapidly (while the car is stationary or while it is accelerating), the O2 sensors' voltage will indicate a rich condition (with a voltage around 0.8 or so). When the throttle is closed rapidly, the O2 sensors' voltage will show lean (voltage at or near 0.0) because the fuel injectors are being shut off by the ECU. At low-load cruising and light accelerating, the voltage should cycle between low and high. | As the engine's RPM increases slowly, the cycling rate of the voltage will also become more rapid. However, if the engine RPM increases rapidly (while the car is stationary or while it is accelerating), the O2 sensors' voltage will indicate a rich condition (with a voltage around 0.8 or so). When the throttle is closed rapidly, the O2 sensors' voltage will show lean (voltage at or near 0.0) because the fuel injectors are being shut off by the ECU. At low-load cruising and light accelerating, the voltage should cycle between low and high. | ||
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+ | == Related Articles == | ||
+ | * [[Exhaust:_Gut_Precats|How to Access the Oxygen Sensors while Gutting the Precats]] | ||
+ | * [[Tuning:_Install_Wideband_Oxygen_Sensor_(O2)|How to Install a Wideband Oxygen Sensor (O2)]] | ||
+ | * [[Tuning:_Install_AEM_Duel_Wideband_UEGO_O2_Sensors|How to Install a AEM Wideband UEGO Oxygen Sensr (O2)]] |
Latest revision as of 20:27, February 8, 2013
An oxygen sensor (also known as an O2 sensor or lambda sensor) is an electronic device that samples the gasses passed through the exhaust system in order to determine, in real time, if the air-fuel ratio of the engine is rich or lean. The sensors' purpose is to provide readings that will help the engine run efficiently and to produce as few emissions as possible.
The optimal air/fuel ratio that Mitsubishi 3000GT/GTO and Dodge Stealth's on regular gas aim for is 14.7:1. This is what is known as the stoichiometric mixture (depicted as 'Stoich' on most air/fuel gauges). These gauges generally consider the range of 13.0:1 to 17.0:1 to be 'Stoich', while anything below 13.0:1 is rich, and anything above 17.0:1 is considered lean.
Mitsubishi 3000GT/GTO and Dodge Stealth O2 Sensor Locations[edit]
The primary O2 sensors are located after the turbos (if applicable) and before the pre-cats, while the secondary sensors are located after the pre-cats.
As detailed in the diagram to the left, the Mitsubishi 3000GT/GTO and Dodge Stealth can have up to four oxygen sensors, depending on the year, model and if it is a California-spec or Federal-spec car.
Mitsubishi 3000GT VR4 and Dodge Stealth RT/TT (Twin-Turbo DOHC)[edit]
- 1991-1993
For the twin turbo 3000GT/Stealth's produced between 1991 and 1993, there are only two oxygen sensors. These are the 'primary' O2 sensors, and are located just after the turbos and before the pre-cats. - 1994-1995
It's been reported that some, but not all, twin turbo 3000GT/Stealth's produced between 1994 and 1995 still only had two oxygen sensors. Some VR4's and RT/TT's started to receive all four oxygen sensors around this time. - 1996+
All twin turbo 3000GT/Stealth's produced during and after 1996 had four oxygen sensors.
Mitsubishi 3000GT Base/SL and Dodge Stealth ES/RT (Non-Turbo DOHC)[edit]
- 1991-1993
For the non-turbo 3000GT/Stealth's produced between 1991 and 1993, there is only one oxygen sensor. - 1994-1995
Federal-spec non-turbo 3000GT/Stealth's produced before 1995 should still have one oxygen sensor. California-spec and some other 3S's produced during these years will have four oxygen sensors. - 1996+
All non-turbo 3000GT/Stealth's produced during and after 1996 had four oxygen sensors.
Understanding the O2 Sensors' Voltage[edit]
When testing the voltage from an oxygen sensor, you can expect readings between 0.0 and 1.0. On the low end, 0.0 is a lean reading, while 1.0 is a rich reading.
Cold Start-Up Readings[edit]
During a cold engine start-up, the oxygen sensor output will show rich (voltage near 1.0). It will then likely transition to lean (voltage near 0.0) and slowly move toward the rich end again.
Warm Readings[edit]
As the engine warms, usually when the coolant temp rises above 168° F, the voltage will quickly start to cycle (low to high to low to high, etc.). This is absolutely normal, as the ECU is reading the oxygen sensor's voltage in a closed-loop feedback and adjusting the pulse of the fuel injectors in an attempt to achieve the ideal 14.7:1 air/fuel ratio. It achieves this by increasing and decreasing the pulse as needed.
As the engine's RPM increases slowly, the cycling rate of the voltage will also become more rapid. However, if the engine RPM increases rapidly (while the car is stationary or while it is accelerating), the O2 sensors' voltage will indicate a rich condition (with a voltage around 0.8 or so). When the throttle is closed rapidly, the O2 sensors' voltage will show lean (voltage at or near 0.0) because the fuel injectors are being shut off by the ECU. At low-load cruising and light accelerating, the voltage should cycle between low and high.