Ron,
This is some pretty crude calculation and I'm no expert but makes sense to me. Keep in mind that the max stimulation rate is 3500 times per second that the signal is sent to the internal processor to provide individual electrode stimulation. So if you break this down per electrode, it is roughly 160 stimulations per second per electrode. At 900 speed, it is roughly 40 stimulations per second per electrode. This is slower than TV images change which I believe is 56 times per second. The external processor has to send the electrode stimulation signal, and electrode stimulation intensity, power through the coil through expanding and colapsing magnetic fields and implant ID information. The expanding and colapsing magnetic fields are probalby similar to a spark plug coil to provide power.
This may seam like a lot of stuff to keep track of but keep in mind the speed of a computer processor is extremely fast. Much faster than 3500 times per second and probably still much faster than 10 times that speed.
To think about this, a cars computer can calculate the spark advance on an engine running at max RPM lets say 9000 RPM. The computer knows exactly where the crank shaft is in revolution down to the degree so it can send the spark at the right time before top dead center. So at 9000 RPM, that is 54000 degrees per second. During this time, the computer samples air temperature, manifold pressure, throttle position, and a bunch of other sensors to make the fuel injectors spray the right amount of fuel and calculates when to send the spark to the cylinder so it fires right. The ECM is pretty busy but it still has to wait for things to happen because it processes so fast.
In keeping all this in mind, the internal processor has a lot of data that must match in order to work correctly. This equates to protection to prevent unnecessary stimulation of the electrodes.
I have bilateral CIs and one processor has implant ID turned on and the other does not. When I place the processor that has implant ID on, it will NOT work on the wrong side. The processor that has implant ID turned off, it will work on both sides. When it is on the wrong side, the stimulation is not right due to C and T levels being unique to each ear. The result is a stimulation that is not right and is to loud. It is not uncomfortably loud but it is loud and voices don't sound right. Interesting though, I can still understand speech.
Anyway, sorry to ramble but very interesting to think about.
BTW, there are times I hear faint popping when my implants are off. I do not have any idea what this is from. I am quite sure it is not electrical discharge through the electrodes but I think it may be instead air pressure equalizing through the eustation tube which may move the cochlea a little since I hear it normally when I have a cold.
I am still fascinated that these CIs work at all and to me, what is more amaizing is that they work so well. As I have said before, what I hear with CIs is so closely the same as I use to hear before loosing my hearing and before I ever wore hearing aids.
