Tweet
Because I'm an electronics tech with a curious mind I had to do a little investigating with my coils. This is what I've found.
The Rx portion of the coils is on pins 1&2.
The TX portion is pins 4&5.
You can see the pin numbers if you use a magnifying glass.
The resistance and inductance of the coils are as follows:
Eclipse 5.3
RX= 30.8 ohms 14mH 40 Rings
TX=3.3 ohms 561uH 19 Rings
Eclipse 4x6
RX=50.9 ohms 15.6 mH 29 Rings
TX=3.3 ohms 545uH 17 Rings
Eclipse DD 6x10
RX=55.2 Ohms 14.0 mH 31 Rings
TX=3.4 ohms 550uH 19 Rings
D2 Stock Coil
Rx=44.1 Omhs 13.73 mH 32 Rings
TX=3.3 Ohms 550uH 21 Rings
The rings is a "Q" test of the coils and is an indicator of shorted turns.
As you can see the TX and RX of all the coils is similar both for resistance and inductance.
I was able to measure the inductance and "Q" with a Sencore LC103 test set I own.
This info should help anyone if they believe they have any coil problems.
I'm assuming all my coils are good and from these results I think I can safely make this assumption.
The Rx portion of the coils is on pins 1&2.
The TX portion is pins 4&5.
You can see the pin numbers if you use a magnifying glass.
The resistance and inductance of the coils are as follows:
Eclipse 5.3
RX= 30.8 ohms 14mH 40 Rings
TX=3.3 ohms 561uH 19 Rings
Eclipse 4x6
RX=50.9 ohms 15.6 mH 29 Rings
TX=3.3 ohms 545uH 17 Rings
Eclipse DD 6x10
RX=55.2 Ohms 14.0 mH 31 Rings
TX=3.4 ohms 550uH 19 Rings
D2 Stock Coil
Rx=44.1 Omhs 13.73 mH 32 Rings
TX=3.3 Ohms 550uH 21 Rings
The rings is a "Q" test of the coils and is an indicator of shorted turns.
As you can see the TX and RX of all the coils is similar both for resistance and inductance.
I was able to measure the inductance and "Q" with a Sencore LC103 test set I own.
This info should help anyone if they believe they have any coil problems.
I'm assuming all my coils are good and from these results I think I can safely make this assumption.
Comment