mirror of
https://github.com/italicsjenga/rp-hal-boards.git
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258 lines
6.6 KiB
Rust
258 lines
6.6 KiB
Rust
//! Phase-Locked Loops (PLL)
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// See [Chapter 2 Section 18](https://datasheets.raspberrypi.org/rp2040/rp2040_datasheet.pdf) for more details
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use core::{
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convert::{
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Infallible,
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TryFrom,
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TryInto
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},
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marker::PhantomData,
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ops::{
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RangeInclusive,
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Range,
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Deref
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}
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};
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use embedded_time::{
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fixed_point::FixedPoint,
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rate::{
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Hertz,
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Generic,
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Rate
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}
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};
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use nb::Error::WouldBlock;
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/// State of the PLL
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pub trait State {}
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/// PLL is disabled.
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pub struct Disabled;
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/// PLL is configured, started and locking into its designated frequency.
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pub struct Locking {
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post_div1: u8,
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post_div2: u8
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}
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/// PLL is locked : it delivers a steady frequency.
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pub struct Locked;
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impl State for Disabled {}
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impl State for Locked {}
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impl State for Locking {}
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/// Trait to handle both underlying devices from the PAC (PLL_SYS & PLL_USB)
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pub trait PhaseLockedLoopDevice: Deref<Target = rp2040_pac::pll_sys::RegisterBlock> {}
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impl PhaseLockedLoopDevice for rp2040_pac::PLL_SYS {}
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impl PhaseLockedLoopDevice for rp2040_pac::PLL_USB {}
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/// A PLL.
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pub struct PhaseLockedLoop<S: State, D: PhaseLockedLoopDevice> {
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device: D,
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state: S
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}
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impl<S: State, D: PhaseLockedLoopDevice> PhaseLockedLoop<S, D> {
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fn transition<To: State>(self, state: To) -> PhaseLockedLoop<To, D> {
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PhaseLockedLoop {
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device: self.device,
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state: state
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}
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}
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/// Releases the underlying device.
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pub fn free(self) -> D{
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self.device
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}
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}
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/// Error type for the PLL module.
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/// See Chapter 2, Section 18 §2 for details on constraints triggering these errors.
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pub enum Error {
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/// Proposed VCO frequency is out of range.
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VCOFreqOutOfRange,
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/// Feedback Divider value is out of range.
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FBDIVOutOfRange,
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/// Post Divider value is out of range.
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PostDivOutOfRage,
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/// Reference Frequency is out of range.
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RefFreqOutOfRange,
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/// Bad argument : overflows, bad conversion, ...
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BadArgument
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}
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/// Parameters for a PLL.
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pub struct PLLConfig<R: Rate> {
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/// Voltage Controlled Oscillator frequency.
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pub vco_freq: R,
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/// Reference divider
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pub refdiv: u8,
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/// Post Divider 1
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pub post_div1: u8,
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/// Post Divider 2
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pub post_div2: u8
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}
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/// Common configs for the two PLLs. Both assume the XOSC is cadenced at 12MHz !
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/// See Chapter 2, Section 18, §2
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pub mod common_configs {
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use super::PLLConfig;
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use embedded_time::rate::Megahertz;
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/// Default, nominal configuration for PLL_SYS
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pub const PLL_SYS_125MHZ: PLLConfig<Megahertz> = PLLConfig {
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vco_freq: Megahertz(1500),
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refdiv: 1,
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post_div1: 6,
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post_div2: 2
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};
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/// Default, nominal configuration for PLL_USB.
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pub const PLL_USB_48MHZ: PLLConfig<Megahertz> = PLLConfig {
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vco_freq: Megahertz(480),
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refdiv: 1,
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post_div1: 5,
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post_div2: 2
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};
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}
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impl<D: PhaseLockedLoopDevice> PhaseLockedLoop<Disabled, D> {
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/// Instantiates a new Phase-Locked-Loop device.
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pub fn new(dev: D) -> PhaseLockedLoop<Disabled, D> {
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PhaseLockedLoop {
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state: Disabled,
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device: dev,
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}
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}
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/// Configures and starts the PLL : it switches to Locking state.
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pub fn initialize<R: Rate>(self, xosc_frequency: Generic<u32>, config: PLLConfig<R>) -> Result<PhaseLockedLoop<Locking, D>, Error> where R: Into<Hertz<u64>>{
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const VCO_FREQ_RANGE: RangeInclusive<Hertz<u32>> = Hertz(400_000_000)..=Hertz(1600_000_000);
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const POSTDIV_RANGE: Range<u8> = 1..7;
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const FBDIV_RANGE: Range<u16> = 16..320;
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//First we convert our rate to Hertz<u64> as all other rates can be converted to that.
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let vco_freq: Hertz<u64> = config.vco_freq.into();
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//Then we try to downscale to u32.
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let vco_freq: Hertz<u32> = vco_freq.try_into().map_err(|_| Error::BadArgument)?;
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if !VCO_FREQ_RANGE.contains(&vco_freq) {
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return Err(Error::VCOFreqOutOfRange)
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}
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if !POSTDIV_RANGE.contains(&config.post_div2) || !POSTDIV_RANGE.contains(&config.post_div2) {
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return Err(Error::PostDivOutOfRage)
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}
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let ref_freq_range: Range<Hertz<u32>> = Hertz(5_000_000)..vco_freq.div(16);
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// Turn off PLL in case it is already running
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self.device.pwr.reset();
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self.device.fbdiv_int.reset();
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let ref_freq_hz = Hertz::<u32>::try_from(xosc_frequency).
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map_err(|_| Error::BadArgument)?.
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checked_div(&(config.refdiv as u32)).
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ok_or(Error::BadArgument)?;
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if !ref_freq_range.contains(&ref_freq_hz) {
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return Err(Error::RefFreqOutOfRange)
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}
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self.device.cs.write(|w| unsafe {
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w.refdiv().bits(config.refdiv);
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w
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});
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let fbdiv = vco_freq.checked_div(ref_freq_hz.integer()).
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ok_or(Error::BadArgument)?;
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let fbdiv: u16 = (*fbdiv.integer()).try_into().map_err(|_| Error::BadArgument)?;
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if !FBDIV_RANGE.contains(&fbdiv) {
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return Err(Error::FBDIVOutOfRange)
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}
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self.device.fbdiv_int.write(|w| unsafe {
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w.fbdiv_int().bits(fbdiv);
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w
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});
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// Turn on self.device
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self.device.pwr.write(|w| unsafe {
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//w.pd().clear_bit();
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//w.vcopd().clear_bit();
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w.bits(0);
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w
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});
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let post_div1 = config.post_div1;
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let post_div2 = config.post_div2;
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Ok(self.transition(Locking {
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post_div1, post_div2
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}))
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}
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}
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/// A token that's given when the PLL is properly locked, so we can safely transition to the next state.
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pub struct LockedPLLToken<D> {
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_private: PhantomData<D>
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}
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impl<D: PhaseLockedLoopDevice> PhaseLockedLoop<Locking, D> {
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/// Awaits locking of the PLL.
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pub fn await_lock(&self) -> nb::Result<LockedPLLToken<D>, Infallible> {
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if self.device.cs.read().lock().bit_is_clear() {
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return Err(WouldBlock);
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}
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Ok(LockedPLLToken {
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_private: PhantomData
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})
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}
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/// Exchanges a token for a Locked PLL.
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pub fn get_locked(self, _token: LockedPLLToken<D>) -> PhaseLockedLoop<Locked, D> {
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// Set up post dividers
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self.device.prim.write(|w| unsafe {
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w.postdiv1().bits(self.state.post_div1);
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w.postdiv2().bits(self.state.post_div2);
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w
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});
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// Turn on post divider
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self.device.pwr.write(|w| unsafe {
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//w.postdivpd().clear_bit();
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w.bits(0);
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w
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});
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self.transition(Locked)
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}
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}
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