si5324: added siphaser
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@ -271,3 +271,75 @@ pub fn select_input(i2c: &mut I2c, input: Input, timer: GlobalTimer) -> Result<(
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monitor_lock(i2c, timer)?;
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monitor_lock(i2c, timer)?;
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Ok(())
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Ok(())
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}
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}
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#[cfg(has_siphaser)]
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pub mod siphaser {
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use super::*;
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use pl::csr;
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pub fn select_recovered_clock(i2c: &mut I2c, rc: bool, timer: GlobalTimer) -> Result<()> {
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write(i2c, 3, (read(3)? & 0xdf) | (1 << 5))?; // DHOLD=1
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unsafe {
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csr::siphaser::switch_clocks_write(if rc { 1 } else { 0 });
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}
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write(i2c, 3, (read(3)? & 0xdf) | (0 << 5))?; // DHOLD=0
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monitor_lock(timer)?;
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Ok(())
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}
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fn phase_shift(direction: u8, timer: GlobalTimer) {
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unsafe {
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csr::siphaser::phase_shift_write(direction);
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while csr::siphaser::phase_shift_done_read() == 0 {}
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}
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// wait for the Si5324 loop to stabilize
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timer.delay_us(500);
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}
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fn has_error(timer: GlobalTimer) -> bool {
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unsafe {
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csr::siphaser::error_write(1);
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}
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timer.delay_us(5_000);
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unsafe {
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csr::siphaser::error_read() != 0
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}
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}
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fn find_edge(target: bool, timer: GlobalTimer) -> Result<u32> {
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let mut nshifts = 0;
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let mut previous = has_error(timer);
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loop {
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phase_shift(1, timer);
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nshifts += 1;
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let current = has_error(timer);
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if previous != target && current == target {
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return Ok(nshifts);
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}
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if nshifts > 5000 {
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return Err("failed to find timing error edge");
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}
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previous = current;
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}
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}
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pub fn calibrate_skew(timer: GlobalTimer) -> Result<()> {
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let jitter_margin = 32;
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let lead = find_edge(false, timer)?;
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for _ in 0..jitter_margin {
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phase_shift(1, timer);
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}
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let width = find_edge(true, timer)? + jitter_margin;
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// width is 360 degrees (one full rotation of the phase between s/h limits) minus jitter
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info!("calibration successful, lead: {}, width: {} ({}deg)", lead, width, width*360/(56*8));
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// Apply reverse phase shift for half the width to get into the
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// middle of the working region.
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for _ in 0..width/2 {
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phase_shift(0, timer);
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}
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Ok(())
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}
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}
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