Datasheet
4−18
Table 4−16. Interrupt Event Register Description (Continued)
BIT FIELD NAME TYPE DESCRIPTION
22 cycleLost RSCU A lost cycle is indicated when no cycle_start packet is sent or received between two successive
cycleSynch events. A lost cycle can be predicted when a cycle_start packet does not immediately
follow the first subaction gap after the cycleSynch event or if an arbitration reset gap is detected after
a cycleSynch event without an intervening cycle start. Bit 22 may be set either when a lost cycle
occurs or when logic predicts that one will occur.
21 cycle64Seconds RSCU Indicates that the 7
th
bit of the cycle second counter has changed.
20 cycleSynch RSCU Indicates that a new isochronous cycle has started. Bit 20 is set to 1 when the low-order bit of the
cycle count toggles.
19 phy RSCU Indicates that the PHY device requests an interrupt through a status transfer.
18 regAccessFail RSCU Indicates that a TSB82AA2B register access has failed due to a missing SCLK clock signal from the
PHY device. When a register access fails, bit 18 is set to 1 before the next register access.
17 busReset RSCU Indicates that the PHY device has entered bus reset mode.
16 selfIDcomplete RSCU A self-ID packet stream has been received. It is generated at the end of the bus initialization process.
Bit 16 is turned off simultaneously when bit 17 (busReset) is turned on.
15 selfIDcomplete2 RSCU Secondary indication of the end of a self-ID packet stream. Bit 15 is set to 1 by the TSB82AA2B device
when it sets bit 16 (selfIDcomplete), and retains its state, independent of bit 17 (busReset).
14−10 RSVD R Reserved. Bits 14−10 return 0s when read.
9 lockRespErr RSCU Indicates that the TSB82AA2B device sent a lock response for a lock request to a serial bus register,
but did not receive an ack_complete
8 postedWriteErr RSCU Indicates that a host bus error occurred while the TSB82AA2B device was trying to write a 1394 write
request, which had already been given an ack_complete, into system memory
7 isochRx RU Isochronous receive DMA interrupt. Indicates that one or more isochronous receive contexts have
generated an interrupt. This is not a latched event; it is the logical OR of all bits in the isochronous
receive interrupt event register at OHCI offset A0h/A4h (see Section 4.25, Isochronous Receive
Interrupt Event Register) and isochronous receive interrupt mask register at OHCI offset A8h/ACh
(see Section 4.26, Isochronous Receive Interrupt Mask Register). The isochronous receive interrupt
event register indicates which contexts have been interrupted.
6 isochTx RU Isochronous transmit DMA interrupt. Indicates that one or more isochronous transmit contexts have
generated an interrupt. This is not a latched event; it is the logical OR of all bits in the isochronous
transmit interrupt event register at OHCI offset 90h/94h (see Section 4.23, Isochronous Transmit
Interrupt Event Register) and isochronous transmit interrupt mask register at OHCI offset 98h/9Ch
(see Section 4.24, Isochronous Transmit Interrupt Mask Register). The isochronous transmit
interrupt event register indicates which contexts have been interrupted.
5 RSPkt RSCU Indicates that a packet was sent to an asynchronous receive response context buffer and the
descriptor’s xferStatus and resCount fields have been updated
4 RQPkt RSCU Indicates that a packet was sent to an asynchronous receive request context buffer and the
descriptor’s xferStatus and resCount fields have been updated
3 ARRS RSCU Asynchronous receive response DMA interrupt. Bit 3 is conditionally set to 1 upon completion of an
ARRS DMA context command descriptor.
2 ARRQ RSCU Asynchronous receive request DMA interrupt. Bit 2 is conditionally set to 1 upon completion of an
ARRQ DMA context command descriptor.
1 respTxComplete RSCU Asynchronous response transmit DMA interrupt. Bit 1 is conditionally set to upon completion of an
ATRS DMA command.
0 reqTxComplete RSCU Asynchronous request transmit DMA interrupt. Bit 0 is conditionally set to 1 upon completion of an
ATRQ DMA command.