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Re: BIG Problem - HELP
Michael Pardee wrote:
> "Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message > news:JttRd.5746$Go4.466609@twister.southeast.rr.co m... > >>Hello everyone, >> >>As most of you probably know by now, I have a 1990 Honda Civic LX; 1.5L >>DPFI 5-speed. I'm having a HUGE problem with it now and need help from >>the experts. ;-) Here's the problem in a nutshell: >> >>After running at a 2,000RPM idle for about 15 seconds: (high RPM idle >>mentioned below) >> >>Check-Engine light comes on, throws code 16 (fuel injector circuit) >>Engine will not rev higher than 3500RPMs, if you try to, when the tach >>reaches that level, the engine will "stumble" at that point, just as if >>you have let off the gas. So, if you hold the gas pedal steady, the tach >>will jump back and forth between 3,000 and 3,500 RPMs. (Based on the >>sound of the engine RPMs speeding up and slowing down during this >>fluctuation, I'm sure the tach reading is correct) >> >>Engine falters and backfires severly during acceleration. >> >>Prior to this problem, for the last couple of days I noticed a >>scratchy-sounding noise coming from under the hood. This morning, my >>engine stumbled hard, almost to the point of shutting off, the noise >>stopped, and the problem started. :-( >> >>I talked to 2 mechanics and they said to replace the throttle body because >>it sounded like the throttle angle sensor was bad. Well, I took their >>advice, and did so. (Luckily, I did it myself..wasn't too hard to do >>either) ;-) Now, I still have the same problem, along with the idle >>fluctuating between 1,800 and 2,000RPMs. I checked the idle adjusting >>screw, and it is all the way out, so that's not causing the high idle >>speed. I know I could have another bad throttle body, as the one I got is >>a used one, but this does seem to be an electrical problem, and not a >>mechanical one. >> >>Does anyone have any ideas? Nobody around here seems to know. :-( >> >>Thanks in advance! >> >>Jonathan > > > My son, Rob, has a suggestion. Possibly a defect that has caused the > ignition timing to become very far advanced. That will explain the runaway > idle and the 3500 RPM behavior (particularly the backfire out the intake), > and in turn the code. Best of all it is easy to check - if you see more than > about 30 degree BTDC when you try to rev it, you're on the trail. > > Mike How do you tell what the "degrees" are, and what does BTDC mean? (Sorry, I am a novice at this. I have enough mechanical inclination to change parts, but I'm still new to all the technical specifics, acronyms, and jargon) Do you suppose my timing belt could have been making the scratching noise? Like I said, the instant the problem started was when the noise stopped. (I still haven't heard the noise again since this crap happened) Thanx for your input. Jonathan |
Re: BIG Problem - HELP
Michael Pardee wrote:
> "Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message > news:JttRd.5746$Go4.466609@twister.southeast.rr.co m... > >>Hello everyone, >> >>As most of you probably know by now, I have a 1990 Honda Civic LX; 1.5L >>DPFI 5-speed. I'm having a HUGE problem with it now and need help from >>the experts. ;-) Here's the problem in a nutshell: >> >>After running at a 2,000RPM idle for about 15 seconds: (high RPM idle >>mentioned below) >> >>Check-Engine light comes on, throws code 16 (fuel injector circuit) >>Engine will not rev higher than 3500RPMs, if you try to, when the tach >>reaches that level, the engine will "stumble" at that point, just as if >>you have let off the gas. So, if you hold the gas pedal steady, the tach >>will jump back and forth between 3,000 and 3,500 RPMs. (Based on the >>sound of the engine RPMs speeding up and slowing down during this >>fluctuation, I'm sure the tach reading is correct) >> >>Engine falters and backfires severly during acceleration. >> >>Prior to this problem, for the last couple of days I noticed a >>scratchy-sounding noise coming from under the hood. This morning, my >>engine stumbled hard, almost to the point of shutting off, the noise >>stopped, and the problem started. :-( >> >>I talked to 2 mechanics and they said to replace the throttle body because >>it sounded like the throttle angle sensor was bad. Well, I took their >>advice, and did so. (Luckily, I did it myself..wasn't too hard to do >>either) ;-) Now, I still have the same problem, along with the idle >>fluctuating between 1,800 and 2,000RPMs. I checked the idle adjusting >>screw, and it is all the way out, so that's not causing the high idle >>speed. I know I could have another bad throttle body, as the one I got is >>a used one, but this does seem to be an electrical problem, and not a >>mechanical one. >> >>Does anyone have any ideas? Nobody around here seems to know. :-( >> >>Thanks in advance! >> >>Jonathan > > > My son, Rob, has a suggestion. Possibly a defect that has caused the > ignition timing to become very far advanced. That will explain the runaway > idle and the 3500 RPM behavior (particularly the backfire out the intake), > and in turn the code. Best of all it is easy to check - if you see more than > about 30 degree BTDC when you try to rev it, you're on the trail. > > Mike How do you tell what the "degrees" are, and what does BTDC mean? (Sorry, I am a novice at this. I have enough mechanical inclination to change parts, but I'm still new to all the technical specifics, acronyms, and jargon) Do you suppose my timing belt could have been making the scratching noise? Like I said, the instant the problem started was when the noise stopped. (I still haven't heard the noise again since this crap happened) Thanx for your input. Jonathan |
Re: BIG Problem - HELP
"Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message
news:5QyRd.2357$Yf5.547166@twister.southeast.rr.co m... > Michael Pardee wrote: >> "Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message >> news:JttRd.5746$Go4.466609@twister.southeast.rr.co m... >> >>>Hello everyone, >>> >>>As most of you probably know by now, I have a 1990 Honda Civic LX; 1.5L >>>DPFI 5-speed. I'm having a HUGE problem with it now and need help from >>>the experts. ;-) Here's the problem in a nutshell: >>> >>>After running at a 2,000RPM idle for about 15 seconds: (high RPM idle >>>mentioned below) >>> >>>Check-Engine light comes on, throws code 16 (fuel injector circuit) >>>Engine will not rev higher than 3500RPMs, if you try to, when the tach >>>reaches that level, the engine will "stumble" at that point, just as if >>>you have let off the gas. So, if you hold the gas pedal steady, the tach >>>will jump back and forth between 3,000 and 3,500 RPMs. (Based on the >>>sound of the engine RPMs speeding up and slowing down during this >>>fluctuation, I'm sure the tach reading is correct) >>> >>>Engine falters and backfires severly during acceleration. >>> >>>Prior to this problem, for the last couple of days I noticed a >>>scratchy-sounding noise coming from under the hood. This morning, my >>>engine stumbled hard, almost to the point of shutting off, the noise >>>stopped, and the problem started. :-( >>> >>>I talked to 2 mechanics and they said to replace the throttle body >>>because it sounded like the throttle angle sensor was bad. Well, I took >>>their advice, and did so. (Luckily, I did it myself..wasn't too hard to >>>do either) ;-) Now, I still have the same problem, along with the idle >>>fluctuating between 1,800 and 2,000RPMs. I checked the idle adjusting >>>screw, and it is all the way out, so that's not causing the high idle >>>speed. I know I could have another bad throttle body, as the one I got >>>is a used one, but this does seem to be an electrical problem, and not a >>>mechanical one. >>> >>>Does anyone have any ideas? Nobody around here seems to know. :-( >>> >>>Thanks in advance! >>> >>>Jonathan >> >> >> My son, Rob, has a suggestion. Possibly a defect that has caused the >> ignition timing to become very far advanced. That will explain the >> runaway idle and the 3500 RPM behavior (particularly the backfire out the >> intake), and in turn the code. Best of all it is easy to check - if you >> see more than about 30 degree BTDC when you try to rev it, you're on the >> trail. >> >> Mike > > How do you tell what the "degrees" are, and what does BTDC mean? (Sorry, I > am a novice at this. I have enough mechanical inclination to change > parts, but I'm still new to all the technical specifics, acronyms, and > jargon) Do you suppose my timing belt could have been making the > scratching noise? Like I said, the instant the problem started was when > the noise stopped. (I still haven't heard the noise again since this crap > happened) Thanx for your input. > > Jonathan Sorry - didn't mean to use jargon. The ignition timing is measured in degrees from Top Dead Center on the #1 cylinder by connecting a timing light to the spark plug wire for the #1 cylinder (normally the one closest to the front of the engine - the end with the timing belt and alternator belt, etc.). The edge of the pulley on the crank has marks that are compared with a reference mark or pointer on the timing belt cover when the timing light flashes. Although the markings are often hard to see and vague in meaning, for these purposes we only need to be sure the reference mark or pointer points within, say, 1/4 inch of at least one of the marks when it is idling and doesn't run way out of sight when the engine is revved. The ignition timing normally advances with higher engine speed to allow the fuel time to burn, but going to more than about 30 degrees Before Top Dead Center (BTDC) means the ignition can actually occur before the intake valves close. If that happens, the engine will backfire out the intake... and that's what makes this interesting. (Note - I don't know if your 1.5L is single or dual overhead cam.) The valve timing will be related to the ignition timing, but can be checked without special test equipment. If you remove the top part of the timing belt cover (not terribly hard in most cases) you will be able to see the cogs for the cam(s). By turning the engine *counterclockwise* (never clockwise - if it overshoots more than a little bit go around again) until the timing marks I mentioned in the previous paragraph roughly line up and the compression you feel suddenly stops resisting and starts to help you, you can carefully stop the engine where it just balances between wanting to turn CW and CCW. This is TDC (Top Dead Center). It can be more accurately determined by taking the #1 spark plug out and feeling the top of the piston with a long screwdriver as it reaches the peak, but you won't have the feel of compression with the plug out. With the engine in exactly that position, look at the cam cog(s). There will be a dot forged into the cog(s) that should be lined up with a matching dot on the engine block. If one or both (if dual cam) cogs is off by a tooth or more, that's your problem. I hope that isn't the case since that failure, while common if the timing belt hasn't been changed on schedule, usually causes serious damage to the valves. I'm not expecting that to be your problem, since the mechanics of the failure (cams tend to fall behind the crank timing, not jump ahead) normally cause the timing to be later and the engine won't start or idle. But it is a relatively easy thing to verify. BTW - there is no gasket for the timing belt cover - there isn't supposed to be oil in there. Mike |
Re: BIG Problem - HELP
"Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message
news:5QyRd.2357$Yf5.547166@twister.southeast.rr.co m... > Michael Pardee wrote: >> "Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message >> news:JttRd.5746$Go4.466609@twister.southeast.rr.co m... >> >>>Hello everyone, >>> >>>As most of you probably know by now, I have a 1990 Honda Civic LX; 1.5L >>>DPFI 5-speed. I'm having a HUGE problem with it now and need help from >>>the experts. ;-) Here's the problem in a nutshell: >>> >>>After running at a 2,000RPM idle for about 15 seconds: (high RPM idle >>>mentioned below) >>> >>>Check-Engine light comes on, throws code 16 (fuel injector circuit) >>>Engine will not rev higher than 3500RPMs, if you try to, when the tach >>>reaches that level, the engine will "stumble" at that point, just as if >>>you have let off the gas. So, if you hold the gas pedal steady, the tach >>>will jump back and forth between 3,000 and 3,500 RPMs. (Based on the >>>sound of the engine RPMs speeding up and slowing down during this >>>fluctuation, I'm sure the tach reading is correct) >>> >>>Engine falters and backfires severly during acceleration. >>> >>>Prior to this problem, for the last couple of days I noticed a >>>scratchy-sounding noise coming from under the hood. This morning, my >>>engine stumbled hard, almost to the point of shutting off, the noise >>>stopped, and the problem started. :-( >>> >>>I talked to 2 mechanics and they said to replace the throttle body >>>because it sounded like the throttle angle sensor was bad. Well, I took >>>their advice, and did so. (Luckily, I did it myself..wasn't too hard to >>>do either) ;-) Now, I still have the same problem, along with the idle >>>fluctuating between 1,800 and 2,000RPMs. I checked the idle adjusting >>>screw, and it is all the way out, so that's not causing the high idle >>>speed. I know I could have another bad throttle body, as the one I got >>>is a used one, but this does seem to be an electrical problem, and not a >>>mechanical one. >>> >>>Does anyone have any ideas? Nobody around here seems to know. :-( >>> >>>Thanks in advance! >>> >>>Jonathan >> >> >> My son, Rob, has a suggestion. Possibly a defect that has caused the >> ignition timing to become very far advanced. That will explain the >> runaway idle and the 3500 RPM behavior (particularly the backfire out the >> intake), and in turn the code. Best of all it is easy to check - if you >> see more than about 30 degree BTDC when you try to rev it, you're on the >> trail. >> >> Mike > > How do you tell what the "degrees" are, and what does BTDC mean? (Sorry, I > am a novice at this. I have enough mechanical inclination to change > parts, but I'm still new to all the technical specifics, acronyms, and > jargon) Do you suppose my timing belt could have been making the > scratching noise? Like I said, the instant the problem started was when > the noise stopped. (I still haven't heard the noise again since this crap > happened) Thanx for your input. > > Jonathan Sorry - didn't mean to use jargon. The ignition timing is measured in degrees from Top Dead Center on the #1 cylinder by connecting a timing light to the spark plug wire for the #1 cylinder (normally the one closest to the front of the engine - the end with the timing belt and alternator belt, etc.). The edge of the pulley on the crank has marks that are compared with a reference mark or pointer on the timing belt cover when the timing light flashes. Although the markings are often hard to see and vague in meaning, for these purposes we only need to be sure the reference mark or pointer points within, say, 1/4 inch of at least one of the marks when it is idling and doesn't run way out of sight when the engine is revved. The ignition timing normally advances with higher engine speed to allow the fuel time to burn, but going to more than about 30 degrees Before Top Dead Center (BTDC) means the ignition can actually occur before the intake valves close. If that happens, the engine will backfire out the intake... and that's what makes this interesting. (Note - I don't know if your 1.5L is single or dual overhead cam.) The valve timing will be related to the ignition timing, but can be checked without special test equipment. If you remove the top part of the timing belt cover (not terribly hard in most cases) you will be able to see the cogs for the cam(s). By turning the engine *counterclockwise* (never clockwise - if it overshoots more than a little bit go around again) until the timing marks I mentioned in the previous paragraph roughly line up and the compression you feel suddenly stops resisting and starts to help you, you can carefully stop the engine where it just balances between wanting to turn CW and CCW. This is TDC (Top Dead Center). It can be more accurately determined by taking the #1 spark plug out and feeling the top of the piston with a long screwdriver as it reaches the peak, but you won't have the feel of compression with the plug out. With the engine in exactly that position, look at the cam cog(s). There will be a dot forged into the cog(s) that should be lined up with a matching dot on the engine block. If one or both (if dual cam) cogs is off by a tooth or more, that's your problem. I hope that isn't the case since that failure, while common if the timing belt hasn't been changed on schedule, usually causes serious damage to the valves. I'm not expecting that to be your problem, since the mechanics of the failure (cams tend to fall behind the crank timing, not jump ahead) normally cause the timing to be later and the engine won't start or idle. But it is a relatively easy thing to verify. BTW - there is no gasket for the timing belt cover - there isn't supposed to be oil in there. Mike |
Re: BIG Problem - HELP
<snip>
> Sorry - didn't mean to use jargon. The ignition timing is measured in > degrees from Top Dead Center on the #1 cylinder by connecting a timing light > to the spark plug wire for the #1 cylinder (normally the one closest to the > front of the engine - the end with the timing belt and alternator belt, > etc.). The edge of the pulley on the crank has marks that are compared with > a reference mark or pointer on the timing belt cover when the timing light > flashes. Although the markings are often hard to see and vague in meaning, > for these purposes we only need to be sure the reference mark or pointer > points within, say, 1/4 inch of at least one of the marks when it is idling > and doesn't run way out of sight when the engine is revved. The ignition > timing normally advances with higher engine speed to allow the fuel time to > burn, but going to more than about 30 degrees Before Top Dead Center (BTDC) > means the ignition can actually occur before the intake valves close. If > that happens, the engine will backfire out the intake... and that's what > makes this interesting. > > (Note - I don't know if your 1.5L is single or dual overhead cam.) The valve > timing will be related to the ignition timing, but can be checked without > special test equipment. If you remove the top part of the timing belt cover > (not terribly hard in most cases) you will be able to see the cogs for the > cam(s). By turning the engine *counterclockwise* (never clockwise - if it > overshoots more than a little bit go around again) until the timing marks I > mentioned in the previous paragraph roughly line up and the compression you > feel suddenly stops resisting and starts to help you, you can carefully stop > the engine where it just balances between wanting to turn CW and CCW. This > is TDC (Top Dead Center). It can be more accurately determined by taking the > #1 spark plug out and feeling the top of the piston with a long screwdriver > as it reaches the peak, but you won't have the feel of compression with the > plug out. With the engine in exactly that position, look at the cam cog(s). > There will be a dot forged into the cog(s) that should be lined up with a > matching dot on the engine block. If one or both (if dual cam) cogs is off > by a tooth or more, that's your problem. I hope that isn't the case since > that failure, while common if the timing belt hasn't been changed on > schedule, usually causes serious damage to the valves. I'm not expecting > that to be your problem, since the mechanics of the failure (cams tend to > fall behind the crank timing, not jump ahead) normally cause the timing to > be later and the engine won't start or idle. But it is a relatively easy > thing to verify. > > BTW - there is no gasket for the timing belt cover - there isn't supposed to > be oil in there. > > Mike Thanx for the info. I'm still at a loss for what the problem is. I'm 99.5% sure it's electrical. Something with a sensor of some sort, I suppose. I know I don't have a vacuum leak as mentioned before, because vacuum leaks don't develop based on the start and stop of a scratching noise, and vacuum leaks don't cause the ECU to throw an error-code 16. When it starts, it definitely doesn't run right to begin with, and it takes about 15-30 seconds for the check-engine light to come on. I wish the 1990 Civic had a port to hook up to the ECU to take readings of all the variables that the ECU measures during engine operation. Correct me if I'm wrong, but this is how the ECU operates: The ECU has a look-up table programmed into its ROM chip with a valid (or optimal) range for each variable. When one of these variables goes higher or lower than the value or range specified in the ROM chip, the check-engine light comes on, and depending on which variables are exceeded, or under-shot, the LED blinks a certain number of times. Of course, the number of blinks corresponds to the assigned category or sensor failure, as defined in the ROM chip. (i.e. Category (error code) 1 = Oxygen content; optimal range of resistance is 1-4 Ohms; if Ohm level goes less than 1 or higher than 4, check engine light comes on, and the ECU's LED blinks once) Sorry for rambling there... But, with all that computer logic in mind, if there is something mechanically wrong with my car, then whatever the problem happens to be is what is triggering the ECU error. However, since the check engine light appears within 15-30 seconds, that's hardly enough time to diagnose a mechanical problem that is causing an "extra" electrical/ECU problem. *sigh* Anyway, thanks again for your attempts to help me out. I appreciate it. Jonathan P.S. I'll probably have to take my car to a dealership to get this problem fixed. I'm going to talk to a few more "Honda-specfic" mechanics before taking it to a deaker though...not looking forward to paying out the yin-yang. |
Re: BIG Problem - HELP
<snip>
> Sorry - didn't mean to use jargon. The ignition timing is measured in > degrees from Top Dead Center on the #1 cylinder by connecting a timing light > to the spark plug wire for the #1 cylinder (normally the one closest to the > front of the engine - the end with the timing belt and alternator belt, > etc.). The edge of the pulley on the crank has marks that are compared with > a reference mark or pointer on the timing belt cover when the timing light > flashes. Although the markings are often hard to see and vague in meaning, > for these purposes we only need to be sure the reference mark or pointer > points within, say, 1/4 inch of at least one of the marks when it is idling > and doesn't run way out of sight when the engine is revved. The ignition > timing normally advances with higher engine speed to allow the fuel time to > burn, but going to more than about 30 degrees Before Top Dead Center (BTDC) > means the ignition can actually occur before the intake valves close. If > that happens, the engine will backfire out the intake... and that's what > makes this interesting. > > (Note - I don't know if your 1.5L is single or dual overhead cam.) The valve > timing will be related to the ignition timing, but can be checked without > special test equipment. If you remove the top part of the timing belt cover > (not terribly hard in most cases) you will be able to see the cogs for the > cam(s). By turning the engine *counterclockwise* (never clockwise - if it > overshoots more than a little bit go around again) until the timing marks I > mentioned in the previous paragraph roughly line up and the compression you > feel suddenly stops resisting and starts to help you, you can carefully stop > the engine where it just balances between wanting to turn CW and CCW. This > is TDC (Top Dead Center). It can be more accurately determined by taking the > #1 spark plug out and feeling the top of the piston with a long screwdriver > as it reaches the peak, but you won't have the feel of compression with the > plug out. With the engine in exactly that position, look at the cam cog(s). > There will be a dot forged into the cog(s) that should be lined up with a > matching dot on the engine block. If one or both (if dual cam) cogs is off > by a tooth or more, that's your problem. I hope that isn't the case since > that failure, while common if the timing belt hasn't been changed on > schedule, usually causes serious damage to the valves. I'm not expecting > that to be your problem, since the mechanics of the failure (cams tend to > fall behind the crank timing, not jump ahead) normally cause the timing to > be later and the engine won't start or idle. But it is a relatively easy > thing to verify. > > BTW - there is no gasket for the timing belt cover - there isn't supposed to > be oil in there. > > Mike Thanx for the info. I'm still at a loss for what the problem is. I'm 99.5% sure it's electrical. Something with a sensor of some sort, I suppose. I know I don't have a vacuum leak as mentioned before, because vacuum leaks don't develop based on the start and stop of a scratching noise, and vacuum leaks don't cause the ECU to throw an error-code 16. When it starts, it definitely doesn't run right to begin with, and it takes about 15-30 seconds for the check-engine light to come on. I wish the 1990 Civic had a port to hook up to the ECU to take readings of all the variables that the ECU measures during engine operation. Correct me if I'm wrong, but this is how the ECU operates: The ECU has a look-up table programmed into its ROM chip with a valid (or optimal) range for each variable. When one of these variables goes higher or lower than the value or range specified in the ROM chip, the check-engine light comes on, and depending on which variables are exceeded, or under-shot, the LED blinks a certain number of times. Of course, the number of blinks corresponds to the assigned category or sensor failure, as defined in the ROM chip. (i.e. Category (error code) 1 = Oxygen content; optimal range of resistance is 1-4 Ohms; if Ohm level goes less than 1 or higher than 4, check engine light comes on, and the ECU's LED blinks once) Sorry for rambling there... But, with all that computer logic in mind, if there is something mechanically wrong with my car, then whatever the problem happens to be is what is triggering the ECU error. However, since the check engine light appears within 15-30 seconds, that's hardly enough time to diagnose a mechanical problem that is causing an "extra" electrical/ECU problem. *sigh* Anyway, thanks again for your attempts to help me out. I appreciate it. Jonathan P.S. I'll probably have to take my car to a dealership to get this problem fixed. I'm going to talk to a few more "Honda-specfic" mechanics before taking it to a deaker though...not looking forward to paying out the yin-yang. |
Re: BIG Problem - HELP
"Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message news:421807FA.3030809@carolina.rr.com... > <snip> > Thanx for the info. I'm still at a loss for what the problem is. I'm > 99.5% sure it's electrical. Something with a sensor of some sort, I > suppose. I know I don't have a vacuum leak as mentioned before, because > vacuum leaks don't develop based on the start and stop of a scratching > noise, and vacuum leaks don't cause the ECU to throw an error-code 16. > When it starts, it definitely doesn't run right to begin with, and it > takes about 15-30 seconds for the check-engine light to come on. I wish > the 1990 Civic had a port to hook up to the ECU to take readings of all > the variables that the ECU measures during engine operation. Correct me > if I'm wrong, but this is how the ECU operates: The ECU has a look-up > table programmed into its ROM chip with a valid (or optimal) range for > each variable. When one of these variables goes higher or lower than the > value or range specified in the ROM chip, the check-engine light comes on, > and depending on which variables are exceeded, or under-shot, the LED > blinks a certain number of times. Of course, the number of blinks > corresponds to the assigned category or sensor failure, as defined in the > ROM chip. (i.e. Category (error code) 1 = Oxygen content; optimal range > of resistance is 1-4 Ohms; if Ohm level goes less than 1 or higher than 4, > check engine light comes on, and the ECU's LED blinks once) > > Sorry for rambling there... But, with all that computer logic in mind, if > there is something mechanically wrong with my car, then whatever the > problem happens to be is what is triggering the ECU error. However, since > the check engine light appears within 15-30 seconds, that's hardly enough > time to diagnose a mechanical problem that is causing an "extra" > electrical/ECU problem. *sigh* > That's pretty much how it works. Some of the measurements are indirect, though, like inability to focus on a correct mixture is probably responsible for the error code 16. The ECU says it can't control the injectors when it may mean it can't control the fuel being injected in proportion to the air being inhaled. (The Taurus with throttle body injection turned on the "check engine" light because the injector seal was leaking and dripping gas into the intake.) The delay would be about right for that error, since the ECU has to try to gain control before it says it can't. Some codes are no-brainers for the ECU and come on immediately, like loss of continuity on a sensor that should only vary in resistance. Others can take hours to set, like the "evaporation system" codes produced by a loose gas cap. Probably not a bad idea to take this to the experts. The set of symptoms is a bit of a head-scratcher. Good luck! Mike |
Re: BIG Problem - HELP
"Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message news:421807FA.3030809@carolina.rr.com... > <snip> > Thanx for the info. I'm still at a loss for what the problem is. I'm > 99.5% sure it's electrical. Something with a sensor of some sort, I > suppose. I know I don't have a vacuum leak as mentioned before, because > vacuum leaks don't develop based on the start and stop of a scratching > noise, and vacuum leaks don't cause the ECU to throw an error-code 16. > When it starts, it definitely doesn't run right to begin with, and it > takes about 15-30 seconds for the check-engine light to come on. I wish > the 1990 Civic had a port to hook up to the ECU to take readings of all > the variables that the ECU measures during engine operation. Correct me > if I'm wrong, but this is how the ECU operates: The ECU has a look-up > table programmed into its ROM chip with a valid (or optimal) range for > each variable. When one of these variables goes higher or lower than the > value or range specified in the ROM chip, the check-engine light comes on, > and depending on which variables are exceeded, or under-shot, the LED > blinks a certain number of times. Of course, the number of blinks > corresponds to the assigned category or sensor failure, as defined in the > ROM chip. (i.e. Category (error code) 1 = Oxygen content; optimal range > of resistance is 1-4 Ohms; if Ohm level goes less than 1 or higher than 4, > check engine light comes on, and the ECU's LED blinks once) > > Sorry for rambling there... But, with all that computer logic in mind, if > there is something mechanically wrong with my car, then whatever the > problem happens to be is what is triggering the ECU error. However, since > the check engine light appears within 15-30 seconds, that's hardly enough > time to diagnose a mechanical problem that is causing an "extra" > electrical/ECU problem. *sigh* > That's pretty much how it works. Some of the measurements are indirect, though, like inability to focus on a correct mixture is probably responsible for the error code 16. The ECU says it can't control the injectors when it may mean it can't control the fuel being injected in proportion to the air being inhaled. (The Taurus with throttle body injection turned on the "check engine" light because the injector seal was leaking and dripping gas into the intake.) The delay would be about right for that error, since the ECU has to try to gain control before it says it can't. Some codes are no-brainers for the ECU and come on immediately, like loss of continuity on a sensor that should only vary in resistance. Others can take hours to set, like the "evaporation system" codes produced by a loose gas cap. Probably not a bad idea to take this to the experts. The set of symptoms is a bit of a head-scratcher. Good luck! Mike |
Re: BIG Problem - HELP
Michael Pardee wrote:
> "Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message > news:421807FA.3030809@carolina.rr.com... > >><snip> >>Thanx for the info. I'm still at a loss for what the problem is. I'm >>99.5% sure it's electrical. Something with a sensor of some sort, I >>suppose. I know I don't have a vacuum leak as mentioned before, because >>vacuum leaks don't develop based on the start and stop of a scratching >>noise, and vacuum leaks don't cause the ECU to throw an error-code 16. >>When it starts, it definitely doesn't run right to begin with, and it >>takes about 15-30 seconds for the check-engine light to come on. I wish >>the 1990 Civic had a port to hook up to the ECU to take readings of all >>the variables that the ECU measures during engine operation. Correct me >>if I'm wrong, but this is how the ECU operates: The ECU has a look-up >>table programmed into its ROM chip with a valid (or optimal) range for >>each variable. When one of these variables goes higher or lower than the >>value or range specified in the ROM chip, the check-engine light comes on, >>and depending on which variables are exceeded, or under-shot, the LED >>blinks a certain number of times. Of course, the number of blinks >>corresponds to the assigned category or sensor failure, as defined in the >>ROM chip. (i.e. Category (error code) 1 = Oxygen content; optimal range >>of resistance is 1-4 Ohms; if Ohm level goes less than 1 or higher than 4, >>check engine light comes on, and the ECU's LED blinks once) >> >>Sorry for rambling there... But, with all that computer logic in mind, if >>there is something mechanically wrong with my car, then whatever the >>problem happens to be is what is triggering the ECU error. However, since >>the check engine light appears within 15-30 seconds, that's hardly enough >>time to diagnose a mechanical problem that is causing an "extra" >>electrical/ECU problem. *sigh* >> > > That's pretty much how it works. Some of the measurements are indirect, > though, like inability to focus on a correct mixture is probably responsible > for the error code 16. The ECU says it can't control the injectors when it > may mean it can't control the fuel being injected in proportion to the air > being inhaled. (The Taurus with throttle body injection turned on the "check > engine" light because the injector seal was leaking and dripping gas into > the intake.) The delay would be about right for that error, since the ECU > has to try to gain control before it says it can't. Some codes are > no-brainers for the ECU and come on immediately, like loss of continuity on > a sensor that should only vary in resistance. Others can take hours to set, > like the "evaporation system" codes produced by a loose gas cap. > > Probably not a bad idea to take this to the experts. The set of symptoms is > a bit of a head-scratcher. Good luck! > > Mike I started my car today, the check engine light didn't come on, but when I revved the engine, it backfired really bad, and almost cut off. I'm wondering if the idea about the timing belt slipping a tooth is the case. Isn't it true that "bad timing" is what causes backfiring? Jonathan |
Re: BIG Problem - HELP
Michael Pardee wrote:
> "Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message > news:421807FA.3030809@carolina.rr.com... > >><snip> >>Thanx for the info. I'm still at a loss for what the problem is. I'm >>99.5% sure it's electrical. Something with a sensor of some sort, I >>suppose. I know I don't have a vacuum leak as mentioned before, because >>vacuum leaks don't develop based on the start and stop of a scratching >>noise, and vacuum leaks don't cause the ECU to throw an error-code 16. >>When it starts, it definitely doesn't run right to begin with, and it >>takes about 15-30 seconds for the check-engine light to come on. I wish >>the 1990 Civic had a port to hook up to the ECU to take readings of all >>the variables that the ECU measures during engine operation. Correct me >>if I'm wrong, but this is how the ECU operates: The ECU has a look-up >>table programmed into its ROM chip with a valid (or optimal) range for >>each variable. When one of these variables goes higher or lower than the >>value or range specified in the ROM chip, the check-engine light comes on, >>and depending on which variables are exceeded, or under-shot, the LED >>blinks a certain number of times. Of course, the number of blinks >>corresponds to the assigned category or sensor failure, as defined in the >>ROM chip. (i.e. Category (error code) 1 = Oxygen content; optimal range >>of resistance is 1-4 Ohms; if Ohm level goes less than 1 or higher than 4, >>check engine light comes on, and the ECU's LED blinks once) >> >>Sorry for rambling there... But, with all that computer logic in mind, if >>there is something mechanically wrong with my car, then whatever the >>problem happens to be is what is triggering the ECU error. However, since >>the check engine light appears within 15-30 seconds, that's hardly enough >>time to diagnose a mechanical problem that is causing an "extra" >>electrical/ECU problem. *sigh* >> > > That's pretty much how it works. Some of the measurements are indirect, > though, like inability to focus on a correct mixture is probably responsible > for the error code 16. The ECU says it can't control the injectors when it > may mean it can't control the fuel being injected in proportion to the air > being inhaled. (The Taurus with throttle body injection turned on the "check > engine" light because the injector seal was leaking and dripping gas into > the intake.) The delay would be about right for that error, since the ECU > has to try to gain control before it says it can't. Some codes are > no-brainers for the ECU and come on immediately, like loss of continuity on > a sensor that should only vary in resistance. Others can take hours to set, > like the "evaporation system" codes produced by a loose gas cap. > > Probably not a bad idea to take this to the experts. The set of symptoms is > a bit of a head-scratcher. Good luck! > > Mike I started my car today, the check engine light didn't come on, but when I revved the engine, it backfired really bad, and almost cut off. I'm wondering if the idea about the timing belt slipping a tooth is the case. Isn't it true that "bad timing" is what causes backfiring? Jonathan |
Re: BIG Problem - HELP
"Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message
news:LV6Sd.10476$Go4.1086743@twister.southeast.rr. com... > I started my car today, the check engine light didn't come on, but when I > revved the engine, it backfired really bad, and almost cut off. I'm > wondering if the idea about the timing belt slipping a tooth is the case. > Isn't it true that "bad timing" is what causes backfiring? > > Jonathan To be more precise, backfiring out the intake is always (I think) caused by a timing problem. The cylinder has to fire before the intake valves close to cause that. Remember the timing is twofold - ignition and valve. Both have to agree with the crank position. The distributor is driven by the camshaft, so the ignition timing should be following the cam timing. If not, something is wrong in that area. I haven't heard of it in Hondas (probably because I don't get around enough), but way back when I drove a Dodge that behaved pretty much the way you describe except the idle was only lumpy. It could reach 40 mph downhill. The problem turned out to be the metal gear on the distributor that engaged the cam - a couple of teeth had broken off. Just a thought, although it may be worth unfastening the distributor cap and trying gently to turn the rotor with your fingers. It should either be steady, or may turn a bit in one direction and spring back if the distributor has mechanical advance in it - I don't think many modern distributors do that any more... do they? Anyway, if the rotor is happy to sit in more than one position, that is not good. Mike |
Re: BIG Problem - HELP
"Jonathan Upright" <qaesar1@carolina.rr.com> wrote in message
news:LV6Sd.10476$Go4.1086743@twister.southeast.rr. com... > I started my car today, the check engine light didn't come on, but when I > revved the engine, it backfired really bad, and almost cut off. I'm > wondering if the idea about the timing belt slipping a tooth is the case. > Isn't it true that "bad timing" is what causes backfiring? > > Jonathan To be more precise, backfiring out the intake is always (I think) caused by a timing problem. The cylinder has to fire before the intake valves close to cause that. Remember the timing is twofold - ignition and valve. Both have to agree with the crank position. The distributor is driven by the camshaft, so the ignition timing should be following the cam timing. If not, something is wrong in that area. I haven't heard of it in Hondas (probably because I don't get around enough), but way back when I drove a Dodge that behaved pretty much the way you describe except the idle was only lumpy. It could reach 40 mph downhill. The problem turned out to be the metal gear on the distributor that engaged the cam - a couple of teeth had broken off. Just a thought, although it may be worth unfastening the distributor cap and trying gently to turn the rotor with your fingers. It should either be steady, or may turn a bit in one direction and spring back if the distributor has mechanical advance in it - I don't think many modern distributors do that any more... do they? Anyway, if the rotor is happy to sit in more than one position, that is not good. Mike |
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