The questions I asked him and all of his responses.
They requested that the driver have memory, for example if the laser were to be turned off and on within 3 seconds, then the mode changes, but if it is longer then 3 seconds then the mode stays the same as the when it was most recently turn off.
We are planning to use a tiny microcontroller so that should be possible.
The size you listed is a problem, I need it to be under 20mm x 20mm and potentially even smaller. I need this thing tiny, the one I am using now is 9mm x 12mm.
The power rating at 4.5V/1.6A works out to be 7.2W which is substantial. Plus we will be using a microcontroller for a single button operation. The dimensions which we gave are just an estimate. After actual board is laid down, we will know the size.
I wanted to clarify that the driver is a constant current driver and not a constant voltage driver?
It is a constant current driver & the current will be well regulated irrespective of the battery voltage dropping on discharge. It is expected to work upto 3V.
Also, if I were to only use the positive input on the driver and connect the negative of the laser and the negative of the battery can it default to high? If not that is ok, it would just help me.
The battery negative & laser negative are the same. The circuit input positive needs to be connected to battery positive & the laser anode to circuit output positive.
Will it have a potentiometer? I didn't think it was necessary but my buyers would like one.
It will not have a potentiometer. If space is not a constraint, we can add a small preset for minor current adjustment, of the order of +/- 20mA
What will be the minimum input discharge amperage of the battery?
The driver is expected to deliver an efficiency of about 90%. Therefore at 4.5V/1600mA load & Li-Ion battery at almost 3V the worst case current from battery will be about 2.66A. We have some design issues at this end.
