Struct stm32_metapac::syscfg::regs::Pmcr

#[repr(transparent)]
pub struct Pmcr(pub u32);

SBS product mode and configuration register.

Tuple Fields

0: u32

Implementations

impl Pmcr

pub const fn fmplus_pb6(&self) -> bool

Fast-mode Plus on PB(6).

pub fn set_fmplus_pb6(&mut self, val: bool)

Fast-mode Plus on PB(6).

pub const fn fmplus_pb7(&self) -> bool

Fast-mode Plus on PB(7).

pub fn set_fmplus_pb7(&mut self, val: bool)

Fast-mode Plus on PB(7).

pub const fn fmplus_pb8(&self) -> bool

Fast-mode Plus on PB(8).

pub fn set_fmplus_pb8(&mut self, val: bool)

Fast-mode Plus on PB(8).

pub const fn fmplus_pb9(&self) -> bool

Fast-mode Plus on PB(9).

pub fn set_fmplus_pb9(&mut self, val: bool)

Fast-mode Plus on PB(9).

pub const fn boosten(&self) -> bool

booster enable Set this bit to reduce the THD of the analog switches when the supply voltage is below 2.7 V. guaranteeing the same performance as with the full voltage range. To avoid current consumption due to booster activation when V_DDA < 2.7 V and V_DD > 2.7 V, V_DD can be selected as supply voltage for analog switches by setting BOOSTVDDSEL bit in SBS_PMCR. In this case, the BOOSTEN bit must be cleared to avoid unwanted power consumption.

pub fn set_boosten(&mut self, val: bool)

booster enable Set this bit to reduce the THD of the analog switches when the supply voltage is below 2.7 V. guaranteeing the same performance as with the full voltage range. To avoid current consumption due to booster activation when V_DDA < 2.7 V and V_DD > 2.7 V, V_DD can be selected as supply voltage for analog switches by setting BOOSTVDDSEL bit in SBS_PMCR. In this case, the BOOSTEN bit must be cleared to avoid unwanted power consumption.

pub const fn boostvddsel(&self) -> bool

booster V_DD selection This bit selects the analog switch supply voltage, between V_DD, V_DDA and booster. To avoid current consumption due to booster activation when V_DDA < 2.7 V and V_DD > 2.7 V, V_DD can be selected as supply voltage for analog switches. In this case, the BOOSTEN bit must be cleared to avoid unwanted power consumption. When both V_{DD and} V_DDA are below 2.7 V, the booster is still needed to obtain full AC performances from the I/O analog switches.

pub fn set_boostvddsel(&mut self, val: bool)

booster V_DD selection This bit selects the analog switch supply voltage, between V_DD, V_DDA and booster. To avoid current consumption due to booster activation when V_DDA < 2.7 V and V_DD > 2.7 V, V_DD can be selected as supply voltage for analog switches. In this case, the BOOSTEN bit must be cleared to avoid unwanted power consumption. When both V_{DD and} V_DDA are below 2.7 V, the booster is still needed to obtain full AC performances from the I/O analog switches.

pub const fn eth_sel_phy(&self) -> EthSelPhy

Ethernet PHY interface selection.

pub fn set_eth_sel_phy(&mut self, val: EthSelPhy)

Ethernet PHY interface selection.

pub const fn axiram_ws(&self) -> AxiramWs

AXIRAM wait state Set this bit to add one wait state to all AXIRAMs when ECC = 0. When ECC = 1 there is one wait state by default.

pub fn set_axiram_ws(&mut self, val: AxiramWs)

AXIRAM wait state Set this bit to add one wait state to all AXIRAMs when ECC = 0. When ECC = 1 there is one wait state by default.

Trait Implementations

impl Clone for Pmcr

fn clone(&self) -> Pmcr

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Default for Pmcr

fn default() -> Pmcr

Returns the “default value” for a type.

impl PartialEq for Pmcr

fn eq(&self, other: &Pmcr) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl Copy for Pmcr

impl Eq for Pmcr

impl StructuralPartialEq for Pmcr