lockin: compute reference period from the closest 2 timestamps to the ADC sample

This commit is contained in:
Matt Huszagh 2020-11-30 11:37:59 -08:00
parent 277a5d2d81
commit 0cca4589fd

View File

@ -156,8 +156,8 @@ impl Lockin {
adc_samples: &[i16],
timestamps: &[u16],
) -> Result<[Complex<f32>; ADC_SAMPLE_BUFFER_SIZE], &str> {
// update old timestamps for new ADC batch
let sample_period = self.sample_period as i32;
// update old timestamps for new ADC batch
self.timestamps.iter_mut().for_each(|t| match *t {
Some(timestamp) => {
// Existing timestamps have aged by one ADC batch
@ -169,32 +169,66 @@ impl Lockin {
None => (),
});
// record new timestamps
timestamps
.iter()
.take(timestamps.len())
.rev()
.take(2)
.rev()
.for_each(|t| self.timestamps.push(Some(*t as i32)));
// return prematurely if there aren't enough timestamps for
// processing
if self.timestamps.iter().filter(|t| t.is_some()).count() < 2 {
let old_timestamp_count =
self.timestamps.iter().filter(|t| t.is_some()).count();
if old_timestamp_count + timestamps.len() < 2 {
return Err("insufficient timestamps");
}
// compute ADC sample phases, sines/cosines and demodulate
let reference_period =
self.timestamps[0].unwrap() - self.timestamps[1].unwrap();
let mut signal = [(0., 0.); ADC_SAMPLE_BUFFER_SIZE];
// if we have not yet recorded any timestamps, the first
// reference period must be computed from the first and
// second timestamps in the array
let mut timestamp_index: usize =
if old_timestamp_count == 0 { 1 } else { 0 };
// compute ADC sample phases, sines/cosines and demodulate
signal
.iter_mut()
.zip(adc_samples.iter())
.enumerate()
.for_each(|(n, (s, sample))| {
let integer_phase: i32 = (n as i32 * self.sample_period as i32
- self.timestamps[0].unwrap())
.for_each(|(i, (s, sample))| {
let adc_sample_count = i as i32 * sample_period;
// index of the closest timestamp that occurred after
// the current ADC sample
let closest_timestamp_after_index: i32 = if timestamps.len() > 0
{
// Linear search is fast because both the timestamps
// and ADC sample counts are sorted. Because of this,
// we only need to check timestamps that were also
// greater than the last ADC sample count.
while timestamp_index < timestamps.len() - 1
&& (timestamps[timestamp_index] as i32)
< adc_sample_count
{
timestamp_index += 1;
}
timestamp_index as i32
} else {
-1
};
// closest timestamp that occurred before to the
// current ADC sample
let closest_timestamp_before: i32;
let reference_period = if closest_timestamp_after_index < 0 {
closest_timestamp_before = self.timestamps[0].unwrap();
closest_timestamp_before - self.timestamps[1].unwrap()
} else if closest_timestamp_after_index == 0 {
closest_timestamp_before = self.timestamps[0].unwrap();
timestamps[0] as i32 - closest_timestamp_before
} else {
closest_timestamp_before = timestamps
[(closest_timestamp_after_index - 1) as usize]
as i32;
timestamps[closest_timestamp_after_index as usize] as i32
- closest_timestamp_before
};
let integer_phase: i32 = (adc_sample_count
- closest_timestamp_before)
* self.harmonic as i32;
let phase = self.phase_offset
+ 2. * PI * integer_phase as f32 / reference_period as f32;
@ -204,6 +238,16 @@ impl Lockin {
s.1 = cosine * sample;
});
// record new timestamps
let start_index: usize = if timestamps.len() < 2 {
0
} else {
timestamps.len() - 2
};
timestamps[start_index..]
.iter()
.for_each(|t| self.timestamps.push(Some(*t as i32)));
Ok(signal)
}