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#1
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clearitself & not return?
The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1
oxygen sensor being slow to respond (one was pending, the other thrown). She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the oxygen sensors have never been replaced prior. Clearly the sensors are due - but the question is WHY/HOW would clearing the P0133 O2 bank1 sensor1 code cause it NOT to come back? Is it normal for the OBDII system to be this flaky? |
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#2
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clear itself & not return?
Joe Mastroianni > wrote in :
> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 > oxygen sensor being slow to respond (one was pending, the other thrown). > > She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the > oxygen sensors have never been replaced prior. > > Clearly the sensors are due - but the question is WHY/HOW would clearing > the P0133 O2 bank1 sensor1 code cause it NOT to come back? > > Is it normal for the OBDII system to be this flaky? > > not real unusual, it will prob come back eventually as the 02 sensor gets flakier. KB |
#3
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clear itself & not return?
On Tue, 12 Feb 2013 20:53:57 +0000 (UTC), Kevin Bottorff
> wrote: >Joe Mastroianni > wrote in : > >> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 >> oxygen sensor being slow to respond (one was pending, the other thrown). >> >> She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the >> oxygen sensors have never been replaced prior. >> >> Clearly the sensors are due - but the question is WHY/HOW would clearing >> the P0133 O2 bank1 sensor1 code cause it NOT to come back? >> >> Is it normal for the OBDII system to be this flaky? >> >> > > not real unusual, it will prob come back eventually as the 02 sensor gets >flakier. KB I've seen it with O2 sensor codes, EGR codes, and misfire codes. As you say, they come back again if you don't fix the underlying problem. Just a matter of time and circumstance. My Lumina 3100 throws an EGR code once a year when I take my vacation trip. Usually in mountainous territory, but sometimes when I push the engine at high speed. |
#4
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clearitself & not return?
On Feb 12, 2:04*pm, Joe Mastroianni > wrote:
> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 > oxygen sensor being slow to respond (one was pending, the other thrown). > > She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the > oxygen sensors have never been replaced prior. > > Clearly the sensors are due - but the question is WHY/HOW would clearing > the P0133 O2 bank1 sensor1 code cause it NOT to come back? > > Is it normal for the OBDII system to be this flaky? It isn't that the OBDII system is flaky, it just saw something that wasn't possda be. Clearing the codes does just that, clears them for the time being. If the sensor wasn't working at all, the code would have came back right away. Since it didn't, then at some point in time, the sensor was "out of it parameters." You can take a scan tool and watch them work. If there is a problem, the code will reset after 10 or so "drive cycles," might not come back for awhile or even at all. It/they are probably getting bad so it wouldn't hurt to replace them. |
#5
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clearitself & not return?
On 02/12/2013 04:02 PM, Vic Smith wrote:
> On Tue, 12 Feb 2013 20:53:57 +0000 (UTC), Kevin Bottorff > > wrote: > >> Joe Mastroianni > wrote in : >> >>> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 >>> oxygen sensor being slow to respond (one was pending, the other thrown). >>> >>> She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the >>> oxygen sensors have never been replaced prior. >>> >>> Clearly the sensors are due - but the question is WHY/HOW would clearing >>> the P0133 O2 bank1 sensor1 code cause it NOT to come back? >>> >>> Is it normal for the OBDII system to be this flaky? >>> >>> >> >> not real unusual, it will prob come back eventually as the 02 sensor gets >> flakier. KB > > I've seen it with O2 sensor codes, EGR codes, and misfire codes. > As you say, they come back again if you don't fix the underlying > problem. Just a matter of time and circumstance. > My Lumina 3100 throws an EGR code once a year when I take my vacation > trip. Usually in mountainous territory, but sometimes when I push the > engine at high speed. > some engine computers don't seem to be programmed for mountain descents with engine braking. a prolonged engine braked descent will trip a sensor code on an older honda pretty much every time. -- fact check required |
#6
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clear itself & not return?
In article >,
Joe Mastroianni > wrote: > The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 > oxygen sensor being slow to respond (one was pending, the other thrown). > > She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the > oxygen sensors have never been replaced prior. > > Clearly the sensors are due - but the question is WHY/HOW would clearing > the P0133 O2 bank1 sensor1 code cause it NOT to come back? > > Is it normal for the OBDII system to be this flaky? Every time your engine coughs up oil or soot it slows the sensor down by covering parts of it. Run the engine hard and it clears up a little. Changing it now will probably avoid some hassles. A slow sensor can cause the car to cycle between lean and rich every time the gas pedal is moved. It makes the car lurch, lag, and generally feel unresponsive. Those rich to lean cycles will age the catalytic converter more quickly. The one exception to all of this is a temporary oxygen sensor failure after an oil change. That means the shop made a big miss and oil fouled the sensor's outside vent. -- I will not see posts from Google because I must filter them as spam |
#7
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clearitself & not return?
On 02/12/2013 10:32 PM, Kevin McMurtrie wrote:
> In article >, > Joe Mastroianni > wrote: > >> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 >> oxygen sensor being slow to respond (one was pending, the other thrown). >> >> She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the >> oxygen sensors have never been replaced prior. >> >> Clearly the sensors are due - but the question is WHY/HOW would clearing >> the P0133 O2 bank1 sensor1 code cause it NOT to come back? >> >> Is it normal for the OBDII system to be this flaky? > > Every time your engine coughs up oil or soot it slows the sensor down by > covering parts of it. Run the engine hard and it clears up a little. > > Changing it now will probably avoid some hassles. A slow sensor can > cause the car to cycle between lean and rich every time the gas pedal is > moved. um, it's constantly cycling anyway as part of normal operations - to determine the fuel/air bias to achieve stoichiometry. it's got nothing to do with the pedal being moved. > It makes the car lurch, lag, and generally feel unresponsive. > Those rich to lean cycles will age the catalytic converter more quickly. that's often a sensor temperature problem. cold sensors don't respond quickly so the engine defaults to its "safe" ratio. that gives poor performance. > > The one exception to all of this is a temporary oxygen sensor failure > after an oil change. That means the shop made a big miss and oil fouled > the sensor's outside vent. it's not exactly a "vent". and it's almost impossible to "foul" in practice because it relies on solid state diffusion, not air flow. the diffusion process takes a long time and a thin layer of oil isn't much of a diffusion barrier, especially not at elevated temperatures. -- fact check required |
#8
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clear itself & not return?
In article >, jim beam >
wrote: > On 02/12/2013 10:32 PM, Kevin McMurtrie wrote: > > In article >, > > Joe Mastroianni > wrote: > > > >> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 > >> oxygen sensor being slow to respond (one was pending, the other thrown). > >> > >> She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the > >> oxygen sensors have never been replaced prior. > >> > >> Clearly the sensors are due - but the question is WHY/HOW would clearing > >> the P0133 O2 bank1 sensor1 code cause it NOT to come back? > >> > >> Is it normal for the OBDII system to be this flaky? > > > > Every time your engine coughs up oil or soot it slows the sensor down by > > covering parts of it. Run the engine hard and it clears up a little. > > > > Changing it now will probably avoid some hassles. A slow sensor can > > cause the car to cycle between lean and rich every time the gas pedal is > > moved. > > um, it's constantly cycling anyway as part of normal operations - to > determine the fuel/air bias to achieve stoichiometry. it's got nothing > to do with the pedal being moved. > > > > It makes the car lurch, lag, and generally feel unresponsive. > > Those rich to lean cycles will age the catalytic converter more quickly. > > that's often a sensor temperature problem. cold sensors don't respond > quickly so the engine defaults to its "safe" ratio. that gives poor > performance. > > > > > > The one exception to all of this is a temporary oxygen sensor failure > > after an oil change. That means the shop made a big miss and oil fouled > > the sensor's outside vent. > > it's not exactly a "vent". and it's almost impossible to "foul" in > practice because it relies on solid state diffusion, not air flow. the > diffusion process takes a long time and a thin layer of oil isn't much > of a diffusion barrier, especially not at elevated temperatures. Yes, it's a diffusion through very tiny gaps, filters, or holes in the back side of the case. It might even vent into the cable sheeth. It still temporarily malfunctions when oil burns off of it. Oil smoke and hot soot does a fine job of consuming oxygen. Also, the ECU has compensation for a certain O2 sensor delay. When it's slower than that due to failure, the negative feedback loop becomes a positive feedback loop for certain frequencies. It causes a bouncing or lurching feel when moving the gas pedal. -- I will not see posts from Google because I must filter them as spam |
#9
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clearitself & not return?
On 02/17/2013 04:34 AM, Kevin McMurtrie wrote:
> In article >, jim beam > > wrote: > >> On 02/12/2013 10:32 PM, Kevin McMurtrie wrote: >>> In article >, >>> Joe Mastroianni > wrote: >>> >>>> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 >>>> oxygen sensor being slow to respond (one was pending, the other thrown). >>>> >>>> She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the >>>> oxygen sensors have never been replaced prior. >>>> >>>> Clearly the sensors are due - but the question is WHY/HOW would clearing >>>> the P0133 O2 bank1 sensor1 code cause it NOT to come back? >>>> >>>> Is it normal for the OBDII system to be this flaky? >>> >>> Every time your engine coughs up oil or soot it slows the sensor down by >>> covering parts of it. Run the engine hard and it clears up a little. >>> >>> Changing it now will probably avoid some hassles. A slow sensor can >>> cause the car to cycle between lean and rich every time the gas pedal is >>> moved. >> >> um, it's constantly cycling anyway as part of normal operations - to >> determine the fuel/air bias to achieve stoichiometry. it's got nothing >> to do with the pedal being moved. >> >> >>> It makes the car lurch, lag, and generally feel unresponsive. >>> Those rich to lean cycles will age the catalytic converter more quickly. >> >> that's often a sensor temperature problem. cold sensors don't respond >> quickly so the engine defaults to its "safe" ratio. that gives poor >> performance. >> >> >>> >>> The one exception to all of this is a temporary oxygen sensor failure >>> after an oil change. That means the shop made a big miss and oil fouled >>> the sensor's outside vent. >> >> it's not exactly a "vent". and it's almost impossible to "foul" in >> practice because it relies on solid state diffusion, not air flow. the >> diffusion process takes a long time and a thin layer of oil isn't much >> of a diffusion barrier, especially not at elevated temperatures. > > Yes, it's a diffusion through very tiny gaps, filters, or holes in the > back side of the case. It might even vent into the cable sheeth. unless you have some weird sensor from some fringe manufacturer, it /does/ "vent" into the cable sheath and nowhere else. air "flow" is measured in molecules - it's absolutely tiny. > It > still temporarily malfunctions when oil burns off of it. Oil smoke and > hot soot does a fine job of consuming oxygen. i think you have bigger problems if you've burned off the sheath. > > Also, the ECU has compensation for a certain O2 sensor delay. When it's > slower than that due to failure, the negative feedback loop becomes a > positive feedback loop for certain frequencies. It causes a bouncing or > lurching feel when moving the gas pedal. it doesn't have "negative" or "positive" feedback, it has open and closed loop. if the loop is closed, the computer is able to read a signal from the sensor and uses it to measure stoichiometry by swinging the injection between rich and lean and observing the resultant sensor voltage. it doesn't even try to go into closed loop until the engine has reached a certain temperature. when it reaches that temperature, it will try closing the loop based on it's internal map, plus the last known correction factors. if the sensor isn't responding quickly enough, the computer ignores readings and stays in open loop [and typically sets a trouble code]. some fuel injected cars rely solely on their map and have no feedback loop at all. bottom line, if you're experiencing lurching, you probably have another issue that's causing it. -- fact check required |
#10
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Is it "normal" for a P0133 (forward oxygen sensor) DTC to clear itself & not return?
In article >, jim beam >
wrote: > On 02/17/2013 04:34 AM, Kevin McMurtrie wrote: > > In article >, jim beam > > > wrote: > > > >> On 02/12/2013 10:32 PM, Kevin McMurtrie wrote: > >>> In article >, > >>> Joe Mastroianni > wrote: > >>> > >>>> The wife got the SES/CEL and two DTCs, both of which were P0133 bank 1 > >>>> oxygen sensor being slow to respond (one was pending, the other thrown). > >>>> > >>>> She has 135K original miles on this 4cyl 3RZ-FE engine, so I know the > >>>> oxygen sensors have never been replaced prior. > >>>> > >>>> Clearly the sensors are due - but the question is WHY/HOW would clearing > >>>> the P0133 O2 bank1 sensor1 code cause it NOT to come back? > >>>> > >>>> Is it normal for the OBDII system to be this flaky? > >>> > >>> Every time your engine coughs up oil or soot it slows the sensor down by > >>> covering parts of it. Run the engine hard and it clears up a little. > >>> > >>> Changing it now will probably avoid some hassles. A slow sensor can > >>> cause the car to cycle between lean and rich every time the gas pedal is > >>> moved. > >> > >> um, it's constantly cycling anyway as part of normal operations - to > >> determine the fuel/air bias to achieve stoichiometry. it's got nothing > >> to do with the pedal being moved. > >> > >> > >>> It makes the car lurch, lag, and generally feel unresponsive. > >>> Those rich to lean cycles will age the catalytic converter more quickly. > >> > >> that's often a sensor temperature problem. cold sensors don't respond > >> quickly so the engine defaults to its "safe" ratio. that gives poor > >> performance. > >> > >> > >>> > >>> The one exception to all of this is a temporary oxygen sensor failure > >>> after an oil change. That means the shop made a big miss and oil fouled > >>> the sensor's outside vent. > >> > >> it's not exactly a "vent". and it's almost impossible to "foul" in > >> practice because it relies on solid state diffusion, not air flow. the > >> diffusion process takes a long time and a thin layer of oil isn't much > >> of a diffusion barrier, especially not at elevated temperatures. > > > > Yes, it's a diffusion through very tiny gaps, filters, or holes in the > > back side of the case. It might even vent into the cable sheeth. > > unless you have some weird sensor from some fringe manufacturer, it > /does/ "vent" into the cable sheath and nowhere else. air "flow" is > measured in molecules - it's absolutely tiny. > > > > It > > still temporarily malfunctions when oil burns off of it. Oil smoke and > > hot soot does a fine job of consuming oxygen. > > i think you have bigger problems if you've burned off the sheath. > > > > > > Also, the ECU has compensation for a certain O2 sensor delay. When it's > > slower than that due to failure, the negative feedback loop becomes a > > positive feedback loop for certain frequencies. It causes a bouncing or > > lurching feel when moving the gas pedal. > > it doesn't have "negative" or "positive" feedback, it has open and > closed loop. if the loop is closed, the computer is able to read a > signal from the sensor and uses it to measure stoichiometry by swinging > the injection between rich and lean and observing the resultant sensor > voltage. it doesn't even try to go into closed loop until the engine > has reached a certain temperature. when it reaches that temperature, it > will try closing the loop based on it's internal map, plus the last > known correction factors. if the sensor isn't responding quickly > enough, the computer ignores readings and stays in open loop [and > typically sets a trouble code]. some fuel injected cars rely solely on > their map and have no feedback loop at all. > > bottom line, if you're experiencing lurching, you probably have another > issue that's causing it. Closed loop is another term for negative feedback. Delayed negative feedback is positive feedback for certain frequencies. Stable closed loops are programmed to compensate for a specific delay in the system. A large change in delay (shorter or longer) will cause positive feedback (overshoot, ringing, or full oscillation). For an example of delayed negative feedback, try balancing a very long stick vertically on the open palm of your hand. Until you learn to compensate for delayed visual feedback, you make rapid back and forth motions that become larger and larger until the stick falls. -- I will not see posts from Google because I must filter them as spam |
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