Hi The I2C clock rate is going to matter a bit in terms of what you can achieve. Since the device is targeted at low power, the max practical baud rate may not be very high. I2C can have a lot of wait in it ... There are a lot of registers dumped after each “reception attempt”.
There also is the basic question of how the IRQ flag relates to the time the chip “sees”. If it’s actually WWVB time sync’d then that’s a useful thing. None of this is likely to be an issue in a wall clock. If they can run at a “tens of ms” sort of level that’s more than good enough. We really want to get to microseconds don’t we :) Bob > On Dec 4, 2018, at 11:25 AM, Majdi S. Abbas <[email protected]> wrote: > > $69 CAD is roughly $50 USD. > > Expensive for what it is but easier to work with than gutting a working clock > and no more expensive. > > I ordered one. Curious to see what sort of precision we can get from an i2c > interface. > > If nothing else I suppose I can toss a six digit i2c 7 segment module at it > and roll my own WWVB desk clock. > > —msa > >> On Dec 4, 2018, at 07:50, paul swed <[email protected]> wrote: >> >> I assume thats exactly the case. I also thought it was pretty high. >> The actual clocks are about $50 or less I believe. So the board seems a bit >> off. >> Regards >> Paul >> WB8TSL >> _______________________________________________ time-nuts mailing list -- [email protected] To unsubscribe, go to http://lists.febo.com/mailman/listinfo/time-nuts_lists.febo.com and follow the instructions there.
