[−][src]Type Definition lpc55s6x_pac::usb0::intstat::R

type R = R<u32, INTSTAT>;

Reader of register INTSTAT

Methods

`impl R`[src]

`pub fn ep0out(&self) -> EP0OUT_R`[src]

Bit 0 - Interrupt status register bit for the Control EP0 OUT direction. This bit will be set if NBytes transitions to zero or the skip bit is set by software or a SETUP packet is successfully received for the control EP0. If the IntOnNAK_CO is set, this bit will also be set when a NAK is transmitted for the Control EP0 OUT direction. Software can clear this bit by writing a one to it.

`pub fn ep0in(&self) -> EP0IN_R`[src]

Bit 1 - Interrupt status register bit for the Control EP0 IN direction. This bit will be set if NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_CI is set, this bit will also be set when a NAK is transmitted for the Control EP0 IN direction. Software can clear this bit by writing a one to it.

`pub fn ep1out(&self) -> EP1OUT_R`[src]

Bit 2 - Interrupt status register bit for the EP1 OUT direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AO is set, this bit will also be set when a NAK is transmitted for the EP1 OUT direction. Software can clear this bit by writing a one to it.

`pub fn ep1in(&self) -> EP1IN_R`[src]

Bit 3 - Interrupt status register bit for the EP1 IN direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AI is set, this bit will also be set when a NAK is transmitted for the EP1 IN direction. Software can clear this bit by writing a one to it.

`pub fn ep2out(&self) -> EP2OUT_R`[src]

Bit 4 - Interrupt status register bit for the EP2 OUT direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AO is set, this bit will also be set when a NAK is transmitted for the EP2 OUT direction. Software can clear this bit by writing a one to it.

`pub fn ep2in(&self) -> EP2IN_R`[src]

Bit 5 - Interrupt status register bit for the EP2 IN direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AI is set, this bit will also be set when a NAK is transmitted for the EP2 IN direction. Software can clear this bit by writing a one to it.

`pub fn ep3out(&self) -> EP3OUT_R`[src]

Bit 6 - Interrupt status register bit for the EP3 OUT direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AO is set, this bit will also be set when a NAK is transmitted for the EP3 OUT direction. Software can clear this bit by writing a one to it.

`pub fn ep3in(&self) -> EP3IN_R`[src]

Bit 7 - Interrupt status register bit for the EP3 IN direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AI is set, this bit will also be set when a NAK is transmitted for the EP3 IN direction. Software can clear this bit by writing a one to it.

`pub fn ep4out(&self) -> EP4OUT_R`[src]

Bit 8 - Interrupt status register bit for the EP4 OUT direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AO is set, this bit will also be set when a NAK is transmitted for the EP4 OUT direction. Software can clear this bit by writing a one to it.

`pub fn ep4in(&self) -> EP4IN_R`[src]

Bit 9 - Interrupt status register bit for the EP4 IN direction. This bit will be set if the corresponding Active bit is cleared by HW. This is done in case the programmed NBytes transitions to zero or the skip bit is set by software. If the IntOnNAK_AI is set, this bit will also be set when a NAK is transmitted for the EP4 IN direction. Software can clear this bit by writing a one to it.

`pub fn frame_int(&self) -> FRAME_INT_R`[src]

Bit 30 - Frame interrupt. This bit is set to one every millisecond when the VbusDebounced bit and the DCON bit are set. This bit can be used by software when handling isochronous endpoints. Software can clear this bit by writing a one to it.

`pub fn dev_int(&self) -> DEV_INT_R`[src]

Bit 31 - Device status interrupt. This bit is set by HW when one of the bits in the Device Status Change register are set. Software can clear this bit by writing a one to it.

[−][src]Type Definition lpc55s6x_pac::usb0::intstat::R

Methods

impl R[src]

pub fn ep0out(&self) -> EP0OUT_R[src]

pub fn ep0in(&self) -> EP0IN_R[src]

pub fn ep1out(&self) -> EP1OUT_R[src]

pub fn ep1in(&self) -> EP1IN_R[src]

pub fn ep2out(&self) -> EP2OUT_R[src]

pub fn ep2in(&self) -> EP2IN_R[src]

pub fn ep3out(&self) -> EP3OUT_R[src]

pub fn ep3in(&self) -> EP3IN_R[src]

pub fn ep4out(&self) -> EP4OUT_R[src]

pub fn ep4in(&self) -> EP4IN_R[src]

pub fn frame_int(&self) -> FRAME_INT_R[src]

pub fn dev_int(&self) -> DEV_INT_R[src]