well, question is: do you want/need full sinewave with many samples in constant pattern ?
then, as ...Jan and others explained, not possible.
if you can be ok with an little "noisy" pattern, then DDS is the solution.
because 32bit cpu here, lets take a 32bit dds -> and for good THD, 1024 elements 12 bit (data) value lookup table.
so we calculate a 32bit "phase-accu" , using top 10bits for the lookup table.
and we try calculation at 600kHz , = "sampling frequ." . (if we (cpu) can faster...good. we will see..)
the loop is simple:
// preset array with 1024 sinus values, one full 2pi wave
uint16_t sinval[1024];
uint32_t phase_sum, phase_speed;
phase_speed = 213909504; // for 29,882 KHz at 600k sampling
while(1 ...loop) // - or better : do in timer INT , called at 600kHz
{
phase_sum += phase_speed; // sum just rolls over...for next sine wave :)
DAC1->DHR12R1 = sinval[phase_sum>>22]; // DAC1->DHR12R1 = mod. -> dac write register
}
so resolution is about 0,00011 Hz . (average....and need low pass filter, maybe 40kHz , 12dB/Oct. )
"program" is just to show the way, not without possible error...
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