On a normal rectifier or switching diode the line means block current and on schematics it means block current and the arrow means current to pass this direct6ion.
On zener diodes this is the same thing but the zener has a breakdown voltage that allows current to pass the block line at a set zener voltage.
Resistor 6v zenerGND------WW------>Z---- +12
^6V+^ <<< current.
The voltage past this zener drops by the zener voltage, so between the arrow side of the diode and negative it will read 6v drop over the resistor.
They work like a simple regulator in some configurations. So this zener diode works opposite to the way normal diode work and a lot of apps it is faced the opposite with the arrow facing the opposite direction to the current..
You got the diode right as this picture comes from the CA website.
As you can see the diode points to th pad.
No signal is sent to the motor controller via the th pad, nothing can get past that diode from the CA so its just a variable shunt controlled by the speed data comming in from the tacho..
In most setups, the user typically has a throttle signal that varies from close to 0 or 1V when it is off, up to 4-5 V when the throttle is fully engaged. For proper operation of the Cycle Analyst limitting features, the signal for the motor controller should be the lower of these two voltages. An easy way to achieve this without even opening the controller is with a diode and current limiting resistor on the throttle line as shown in the following schematic:
The explaination to this is terrible, what two voltages. The lower of the two voltages 4v and 5v or does he mean 4v and 0v outright. What?
the output line was modified to include a 1k resistor (R6) to protect the silicone. This however means that the Over-Ride line can only source or sink small currents, and if more than a mA needs to be drawn from the output, then resistor R6 should either be reduced in value to a couple hundred ohms, or possibly shorted out entirely.
Man this needs to be rewritten. Outputs to what, from where? My handle on this means the throttle output. But now we need to supply more than ma to where? The sink or the controller. Again I suggest it cant sink more than a ma through r6, so it means that the output of the throttle may need less resistance to sink more current away from the controller throttle input.
Not very well explained at all.
R6 is our holy grail IMO.
States that voltages under 4v need not the resistor or the diode. Maybe the resistor will pass but the diode is there to drop the 5v output to 4.2v and resistor to 4v. The work need to be focussed more on the r6 resistor.
In this case you need no diode or resistor as the GM throttle outputs to 3.8v and any resistance to the TH pad should return incorrect values with the diode..
It works by the way of when the speed hits the set point the th pad can sink the current from the the throttle output in to an op amp that can shunt any current from the throttle signal to the contoller until speed limiting is achieved.
What needs to be known is the amount of current that comes from the throttle to the controller and how much needs to be sunk into the CA for this to work.
The voltages are all well and fine but if the sink is too much, the voltage setting will mean nothing and die when the throttle overide kicks in and sinks the volts way below the ITermMin and slow the bike to a stop instead of limiting it.
Or if the sink is not enough then then speed limiting will be uneffective. The advanced settings can allow some room to play by over or under stating intermmin but the importance is to get the sink close enough to use this feature reliably and to its full potential.
I just may have to get my amp meter out again and sort this out properly.
