22.6.3.5 Event Input Actions

The event input actions are available only on the least significant DMA channels. For more details on channels with event input support (see Event System (EVSYS) from Related Links).

Before using event input actions, the event controller must be configured first according to the following table, and the Channel Event Input Enable bit in the Channel Event Control register (CHEVCTRL.EVIE) must be written to ‘1’. See Events from Related Links.

Table 22-1. Event Input Action
ActionCHEVCTRL.EVACTCHCTRLA.TRIGSRC
NoneNOACT
Normal TransferTRIGDISABLE
Conditional Transfer on StrobeTRIGAny peripheral
Conditional TransferCTRIG
Conditional Block TransferCBLOCK
Channel SuspendSUSPEND
Channel ResumeRESUME
Skip Next Block SuspendSSKIP
Increase priority INCPRI

Normal Transfer

The event input is used to trigger a beat or burst transfer on peripherals.

The event is acknowledged as soon as the event is received. When received, both the Channel Pending status bit in the Channel Status register (CHSTATUS.PEND) and the corresponding Channel n bit in the Pending Channels register (PENDCH.PENDCHn) are set. If the event is received while the channel is pending, the event trigger is lost.

The following figure shows an example where beat transfers are enabled by internal events.

Figure 22-12. Burst Event Trigger Action

Conditional Transfer on Strobe

The event input is used to trigger a transfer on peripherals with pending transfer requests. This event action is intended to be used with peripheral triggers, for example, for timed communication protocols or periodic transfers between peripherals: only when the peripheral trigger coincides with the occurrence of a (possibly cyclic) event the transfer is issued.

The event is acknowledged as soon as the event is received. The peripheral trigger request is stored internally when the previous trigger action is completed (in other words, the channel is not pending) and when an active event is received. If the peripheral trigger is active, the DMA waits for an event before the peripheral trigger is internally registered. When both event and peripheral transfer trigger are active, both CHSTATUS.PEND and PENDCH.PENDCHn are set. A software trigger will now trigger a transfer.

The following figure shows an example where the peripheral beat transfer is started by a conditional strobe event action.

Figure 22-13. Periodic Event with Burst Peripheral Triggers

Conditional Transfer

The event input is used to trigger a conditional transfer on peripherals with pending transfer requests. As example, this type of event can be used for peripheral-to-peripheral transfers, where one peripheral is the source of event and the second peripheral is the source of the trigger.

Each peripheral trigger is stored internally when the event is received. When the peripheral trigger is stored internally, the Channel Pending status bit is set (CHSTATUS.PEND), the respective Pending Channel n Bit in the Pending Channels register is set (PENDCH.PENDCHn), and the event is acknowledged. A software trigger will now trigger a transfer.

The following figure shows an example where conditional event is enabled with peripheral beat trigger requests.

Figure 22-14. Conditional Event with Burst Peripheral Triggers

Conditional Block Transfer

The event input is used to trigger a conditional block transfer on peripherals.

Before starting transfers within a block, an event must be received. When received, the event is acknowledged when the block transfer is completed. A software trigger will trigger a transfer.

The following figure shows an example where conditional event block transfer is started with peripheral beat trigger requests.

Figure 22-15. Conditional Block Transfer with Burst Peripheral Triggers

Channel Suspend

The event input is used to suspend an ongoing channel operation. The event is acknowledged when the current AHB access is completed. For more details on Channel Suspend (see Channel Suspend from Related Links).

Channel Resume

The event input is used to resume a suspended channel operation. The event is acknowledged as soon as the event is received and the Channel Suspend Interrupt Flag (CHINTFLAG.SUSP) is cleared. See Channel Suspend from Related Links.

Skip Next Block Suspend

This event can be used to skip the next block suspend action. If the channel is suspended before the event rises, the channel operation is resumed and the event is acknowledged. If the event rises before a suspend block action is detected, the event is kept until the next block suspend detection. When the block transfer is completed, the channel continues the operation (not suspended) and the event is acknowledged.

Increase priority

This event can be used to increase a channel priority and to request higher quality of service (QOS), when critical transfers must be done. When the event is detected, the channel will have the highest priority and the output Quality of Service value is internally forced to the maximum value. The event is acknowledged when the trigger action execution is completed. When acknowledged, the channel will recover its initial priority level and quality of service settings.