> The chip reads the temperature sensor and adjusts the oscillator
frequency
in the same size steps
Darn.
So no micro-stepless adjusting using external temperature regulation?
Or would you have some, until it reached the threshold to step to the
next adjustment?
On 30/12/2019 10:20 AM, Jim Harman wrote:
The DS3231 trim register sensitivity is speced at 0.1 ppm per count typ at
25 C. The trim range is +/- 127 counts so the fastest you can slew the pps
pulse is about 12.7 ppm or about +/- 1.1 sec per day if my calculations are
correct.
The chip reads the temperature sensor and adjusts the oscillator frequency
in the same size steps so it is effectively a digital TCXO. The resolution
of the temperature sensor readout is 0.25 C so stabilizing the chip
temperature using that sensor would probably help the overall stability,
especially at extreme ambient temperatures.
I have thought about making a GPSDO using a DS3231 as a digitally
controlled oscillator, with the control based on the time difference
between the GPS and DS3231 pps times, but that is still on the "to-do" list.
On Mon, Dec 30, 2019 at 6:09 AM MLewis <[email protected]> wrote:
I was watching the PPS LED on my M8T board vs. the LED I put on the RTC
DS3231's SQW output enabled for 1 Hz for a PPS. As expected they're not
aligned, and the drift of that misalignment shows they're obviously not
at the same frequency.
It got me wondering. Between the DS3231's Aging Trim, insulating and
perhaps a heater for some temperature control, does anyone know if the
DS3231's PPS could be synced and stabilized into a reasonable PPS source
through an opto-isolator?
Might a fibre-optic line be useful as a transmission cable, gapping two
LEDs functioning as an opto-isolator, thereby providing both isolation
and high-speed coupling for the PPS to the device that wants to read the
PPS?
I don't know if the onboard temperature sensor is precise/stable enough
to be useful for maintaining a stable temperature with a heater. It's
accuracy is listed as +/- 3 C, but that doesn't speak to the stability
of the temperature it reports.
The SQW output can be set to 1 Hz, 1.025 kHz, 4.096 kHz or 8.192 kHz.
It also has a 32 kHz output pin. I don't know if that's actually 32 kHz
or 2^15 = 32,768 Hz.
Ah, there it is. "outputs a 32.768kHz square-wave signal".
Has anyone done this, or does it seem like it may be worthwhile?
Thanks,
Michael
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