If you use the KSK-1A35-1520 then you can expect a service life time of straight running time of avg. 100,000,000 operations which at 5,000 RPM is:
For 4 stroke only using the cam is half the below calcs, except the life time is double.
For 2 stroke:
5,000 / 60 = 83.34 per second or 0.08334ms.
5,000 RPM = 5,000 per minute.
5,000 x 60 = 300,000 per hour.
300,000 x 24 = 7,200,000 per day.
or
100,000,000 rated cycles / 7,200,000 = 13.89 days before it will fail, not bad.
My biggest concern is it can only handle 20G of shock before it opens erratically which, is about you flicking it good with your finger nail. My other concerns is the rating to open and close is kind of strong.
Also:
"Mechanical shock as the result of dropping the reed sensor typically from a distance of greater than 12” may change it’s magnetic sensitivity and/or destroy the sensor." ( from datasheet) I assume this would also include a cylinder firing or worse engine knock.
Operate and release times are good.
"Operating Time (max.)Incl. Bounce; Measured with w/ Nominal Voltage 0.5ms." Ah yes the dreaded switch bounce, not good.
"Release Time (max.)Measured with no Coil Excitation 0.1ms." Can't directly drive a coil, well it could but the release time would slow down. 0.1ms is really good but, it should be consistent.
I'm not against using a reed switch for they have a place. But if I have to use a magnet I would go with a Hall-Effect. The circuitry required is almost the same with the 2 but, the Hall out performs the reed. Then there is still the need to control the dwell. As far as switching a total time of 0.6 and a coil charge time of say 3ms and discharge time of 2ms still is good for 10,000 RPM so it comes down to life expectancy and degradation. Oh the reed switch must be mounted correctly to operate within the stated parameters.
Just my 2 cents worth.
Ray
