sorry for the crap photo quality, i just wanna share my trial repairing my damaged knock sensor that been bugging me for quite a long time..i cant find one for an AFM 4agze unit as other toyota types are not working for me so i decided to see what really happened with my hidden knock sensor under the intake manifold..first of all i got this code 52 from diagnostic test and that confirmed my car been feeling sluggish and no power and high fc due to the engine went into 'limp mode'..then a peek under the intake manifold confirmed my knock sensor damaged badly..
so decided to remove the remaining part of the knock sensor (KS). needed to dismantle a few parts. first, the AFM unit, then the piping going to the intercooler and throttle body, ABV, inlet piping to the supercharger and finally the supercharger itself..i thought it was a difficult thing but it was straight forward. to remove the SC from the engine i need to remove the radiator too. to remove the SC need to release the tensioner with size 12mm socket until the belt can come off. later remove the long bolt and nut attaching the SC to the mounting bracket..wiggle wiggle a bit and it will come off..
as we can see the screw hole attaching the throttle body to the intake manifold didn't align due to the taller 7A block.
finally i able to access the KS other half.
to remove it we need to use 27mm long socket.
sorry again for the crap phone camera quality but i prepared it for reattachment of the open piezoelement wires (2 of them) that will be connected onto the terminal at one point.
here we can see temporarily i attached both decapitated KS together after re soldered both wires as mentioned above. after that the terminal were inserted into the cavity at the piezoelement (one hole in between the two wires). next we will test the KS using an Oscilloscope. connect the channel 1 probe to the signal out terminal and the ground to the KS body.
set the scope accordingly..
Test began by tapping the front face of the knock sensor (the surface attached/contacted to the engine block) using anything metal or hard so that the piezoelement/mic/crystal could catch the vibration. we can see the waveform generated by the KS shown in the scope. I did a comparison of the waveform to a good one which was taken from this site
Knock Sensor automotive waveform captured using a PicoScope automotive oscilloscope
so seems like the waveform from my KS exactly as the good one from the picoauto site and all i can say i was so happy..partially..hehe..my KS is alive again..yay!
later after confirming the KS is alive, i used the epoxy gum to attached the broken KS permanently and let it dry and retest again and seems the results are good.
but i am still halfway..i need to test it on the engine and maybe it can work or maybe no..because KS is a highly sensitive component, a slight modification or alteration might alter the signal out of it..if the signals coming out are out of tolerance the ECU might reject it and still throw out code 52. so i hope the signals are ok and my ECU doesn't hate it...i hate to see that f'ing code again..It worth a try for me as i can know more about my engine..and even if it can't eliminate the problem, i am still partially happy coz i did successfully repaired my KS..to be continued...
so decided to remove the remaining part of the knock sensor (KS). needed to dismantle a few parts. first, the AFM unit, then the piping going to the intercooler and throttle body, ABV, inlet piping to the supercharger and finally the supercharger itself..i thought it was a difficult thing but it was straight forward. to remove the SC from the engine i need to remove the radiator too. to remove the SC need to release the tensioner with size 12mm socket until the belt can come off. later remove the long bolt and nut attaching the SC to the mounting bracket..wiggle wiggle a bit and it will come off..
as we can see the screw hole attaching the throttle body to the intake manifold didn't align due to the taller 7A block.
finally i able to access the KS other half.
to remove it we need to use 27mm long socket.
sorry again for the crap phone camera quality but i prepared it for reattachment of the open piezoelement wires (2 of them) that will be connected onto the terminal at one point.
here we can see temporarily i attached both decapitated KS together after re soldered both wires as mentioned above. after that the terminal were inserted into the cavity at the piezoelement (one hole in between the two wires). next we will test the KS using an Oscilloscope. connect the channel 1 probe to the signal out terminal and the ground to the KS body.
set the scope accordingly..
Test began by tapping the front face of the knock sensor (the surface attached/contacted to the engine block) using anything metal or hard so that the piezoelement/mic/crystal could catch the vibration. we can see the waveform generated by the KS shown in the scope. I did a comparison of the waveform to a good one which was taken from this site
Knock Sensor automotive waveform captured using a PicoScope automotive oscilloscope
so seems like the waveform from my KS exactly as the good one from the picoauto site and all i can say i was so happy..partially..hehe..my KS is alive again..yay!
later after confirming the KS is alive, i used the epoxy gum to attached the broken KS permanently and let it dry and retest again and seems the results are good.
but i am still halfway..i need to test it on the engine and maybe it can work or maybe no..because KS is a highly sensitive component, a slight modification or alteration might alter the signal out of it..if the signals coming out are out of tolerance the ECU might reject it and still throw out code 52. so i hope the signals are ok and my ECU doesn't hate it...i hate to see that f'ing code again..It worth a try for me as i can know more about my engine..and even if it can't eliminate the problem, i am still partially happy coz i did successfully repaired my KS..to be continued...
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