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Recently I have read a thread on testing the TCI. I want to post the readings from my test following the test procedure outlined in the Yamaha Manual “XS 1100 Models 1978-1980 Service Manual.”
Battery voltage before test = 12.68 Switch off
Battery voltage before test = 12.05 Switch on
Battery voltage before test = 12.45 Switch off
4 - Prong Connector:
White/Red to White/Green:
No 1 pick-up coil = 750 ohms Book says 720 ohms +/- 20%
Yellow/Green to Yellow/Red:
No 2 pick-up coil = 753 ohms Book says 720 +/- 20%
TCI unit voltage checks
With all components connected
Switch on
Gray to ground =11.30v Book says 12v
White/Red to ground. = 11.11v Book say 12v
Black/White to ground. = 6.15v Book says 6.0v
Orange to ground. = 11.12v Book says 12v
Red/White to ground. = 11.13 Book says 12v
Battery voltage after test = 12.05 Switch on
Battery voltage after test = 12.42 Switch off
Battery voltage after test = 12.58 Switch off 5 min. later
Started Bike
Battery voltage = 13.20 with full choke
Battery voltage = 13.25 with half choke
Battery voltage = 12.09 after 5min with no choke
Couple of things to remember:
Batteries on our bikes are starting batteries; therefore they have very thin plates, and deliver their full load for just a few minutes and then charge back up with sufficient supply and regulation.
When you switch on the key, you have a large resistive load slurping up that amps/voltage satisfying Ohms Law, therefore the battery voltage drops and continues to drop as long as the key is on, and over time without the key on, parasitic drain will drop the voltage.
Lead Acid batteries have a voltage level fully charged of 2.2 volts per cell. 6 cells times 2.2 volts = 13.2 volts
A depleted battery has a voltage of 1.75 volts per cell. 6 times 1.75 = 10.50 volts. What this means is the operating voltage of a lead acid battery is between 10.50 volts and 13.2 volts. If you allow the battery voltage to fall further than 20% below this operating voltage, sulphation takes place. This is where a layer of lead sulphate forms on the plates blocking replenishment of the voltage.
In order to charge a battery, the supply voltage has to be greater than the operating voltage, but not too great as to cause boiling of the liquid and undue heat.
Note that the “Book” says if the tests do not meet the specifications, replace the TCI. That is of course subject to “common sense” as what your battery voltage was to begin with and if your meter is accurate and the difference between the readings of each leg. My TCI is working sufficiently.
Battery voltage before test = 12.68 Switch off
Battery voltage before test = 12.05 Switch on
Battery voltage before test = 12.45 Switch off
4 - Prong Connector:
White/Red to White/Green:
No 1 pick-up coil = 750 ohms Book says 720 ohms +/- 20%
Yellow/Green to Yellow/Red:
No 2 pick-up coil = 753 ohms Book says 720 +/- 20%
TCI unit voltage checks
With all components connected
Switch on
Gray to ground =11.30v Book says 12v
White/Red to ground. = 11.11v Book say 12v
Black/White to ground. = 6.15v Book says 6.0v
Orange to ground. = 11.12v Book says 12v
Red/White to ground. = 11.13 Book says 12v
Battery voltage after test = 12.05 Switch on
Battery voltage after test = 12.42 Switch off
Battery voltage after test = 12.58 Switch off 5 min. later
Started Bike
Battery voltage = 13.20 with full choke
Battery voltage = 13.25 with half choke
Battery voltage = 12.09 after 5min with no choke
Couple of things to remember:
Batteries on our bikes are starting batteries; therefore they have very thin plates, and deliver their full load for just a few minutes and then charge back up with sufficient supply and regulation.
When you switch on the key, you have a large resistive load slurping up that amps/voltage satisfying Ohms Law, therefore the battery voltage drops and continues to drop as long as the key is on, and over time without the key on, parasitic drain will drop the voltage.
Lead Acid batteries have a voltage level fully charged of 2.2 volts per cell. 6 cells times 2.2 volts = 13.2 volts
A depleted battery has a voltage of 1.75 volts per cell. 6 times 1.75 = 10.50 volts. What this means is the operating voltage of a lead acid battery is between 10.50 volts and 13.2 volts. If you allow the battery voltage to fall further than 20% below this operating voltage, sulphation takes place. This is where a layer of lead sulphate forms on the plates blocking replenishment of the voltage.
In order to charge a battery, the supply voltage has to be greater than the operating voltage, but not too great as to cause boiling of the liquid and undue heat.
Note that the “Book” says if the tests do not meet the specifications, replace the TCI. That is of course subject to “common sense” as what your battery voltage was to begin with and if your meter is accurate and the difference between the readings of each leg. My TCI is working sufficiently.
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