NV236 TCCM Voltage on Motor Feed Pins
#11
The resistance I spoke of in the windings was across the red & black wires, not to ground. You are looking for an increase after a load was applied implying that the windings "opened up" when loaded. 1.6MOhm by itself doesn't sound out of the ordinary for a coil resistance.
I'd like to see the resistance to ground lower than 300 Ohms, but that isn't outside the realm of possibility.
Think of the rotation of the sector shaft this way, but don't take the direction of rotation literally, this is just an example. All the way counter clock wise is 4HI (fully engaged front output with 50/50 torque split). Somewhere in the middle is 2HI. All the way clock wise is 4LO. Auto4wd operates between 4HI & 2HI to apply enough torque to the front axle in order to equalize the prop shaft speed sensor inputs to the TCCM. Once slip in the rear axle is observed, the TCCM will dial up the torque transferred to the front axle until the speed sensor inputs equalize, then dial it back. Whenever a change in encoder position is requested, the encoder brake will unlock. Once the desired position has been obtained, the brake will lock.
I'd like to see the resistance to ground lower than 300 Ohms, but that isn't outside the realm of possibility.
Think of the rotation of the sector shaft this way, but don't take the direction of rotation literally, this is just an example. All the way counter clock wise is 4HI (fully engaged front output with 50/50 torque split). Somewhere in the middle is 2HI. All the way clock wise is 4LO. Auto4wd operates between 4HI & 2HI to apply enough torque to the front axle in order to equalize the prop shaft speed sensor inputs to the TCCM. Once slip in the rear axle is observed, the TCCM will dial up the torque transferred to the front axle until the speed sensor inputs equalize, then dial it back. Whenever a change in encoder position is requested, the encoder brake will unlock. Once the desired position has been obtained, the brake will lock.
#12
Ok for auto4wd, that's how I thought it worked at first, but somewhere I became confused with your explanation of it ..
As fot the coil, are you sure that without power applied it would show in MegaOhms? If I take any DC motor I have it measures resistance in the ohms range always.. If the coil resistance was in the MegaOhms, it would have micro amps to work with and this wouldn't make the motor turn at all.. Unless you tell me there's a switch that connects the coils of the motor winding, but I don't see this as being the case..
Btw, I'm not trying to argue with you, I just want to understand.. :P
As fot the coil, are you sure that without power applied it would show in MegaOhms? If I take any DC motor I have it measures resistance in the ohms range always.. If the coil resistance was in the MegaOhms, it would have micro amps to work with and this wouldn't make the motor turn at all.. Unless you tell me there's a switch that connects the coils of the motor winding, but I don't see this as being the case..
Btw, I'm not trying to argue with you, I just want to understand.. :P
Last edited by postal0dude; 05-22-2012 at 09:42 PM.
#14
Hmm.. because I'm not even sure if you can use a multimeter (in resistance mode) on a live circuit, I thought the multimeter was sending it's own current in the circuit to measure resistance and applying voltage externally would confuse the multimeter ..
However, I'm not sure.. I'll tell you what my multimeter reads on the new encoder..
Thanks for the help btw, really appreciated!
However, I'm not sure.. I'll tell you what my multimeter reads on the new encoder..
Thanks for the help btw, really appreciated!
Thread
Thread Starter
Forum
Replies
Last Post
postal0dude
2nd Generation S-series (1995-2005) Tech
1
05-13-2012 07:30 PM
Tinted
2nd Generation S-series (1995-2005) Tech
3
11-29-2011 02:06 PM