Preliminary
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Protocol Description(s)
20.3.1.2.1.2 Bulk IN Operation: Peripheral Mode
When data is to be transferred over a Bulk IN pipe, a data packet needs to be loaded into the FIFO and
the PERI_TXCSR register written to set the TXPKTRDY bit (bit 0). When the packet has been sent, the
TXPKTRDY bit will be cleared by the USB controller and an interrupt generated to signify to the
user/application that the next packet can be loaded into the FIFO. If double packet buffering is enabled,
then after the first packet has been loaded and the TXPKTRDY bit set, the TXPKTRDY bit will
immediately be cleared (will not wait for the loaded first packet to be driven out) by the USB controller
and an interrupt generated so that a second packet can be loaded into the FIFO. The software should
operate in the same way, loading a packet when it receives an interrupt, regardless of whether double
packet buffering is enabled or not.
In the general case, the packet size must not exceed the size specified by the lower 11 bits of the
TXMAXP register. This part of the register defines the payload (packet size) for transfers over the USB
and is required by the USB Specification to be either 8, 16, 32, 64 (Full-Speed or High-Speed) or 512
bytes (High-Speed only).
The host may determine that all the data for a transfer has been sent by knowing the total amount of
data that is expected. Alternatively it may infer that all the data has been sent when it receives a packet
which is smaller than the maximum packet size configuration for that particular endpoint
(TXMAXP[10-0]). In the latter case, if the total size of the data block is a multiple of this payload, it will
be necessary for the function to send a null packet after all the data has been sent. This is done by
setting TXPKTRDY when the next interrupt is received, without loading any data into the FIFO.
If large blocks of data are being transferred, then the overhead of calling an interrupt service routine to
load each packet can be avoided by using the CPPI DMA. A separate section detailing the use of the
DMA is discussed within a latter section. Suffix is to say that the PERI_TXCSR (DMAEN and
DMAMODE) bit fields need to be set and the PERI_TXCSR[AUTOSET] bit cleared at the core level
when using the DMA with an endpoint configured for any IN transaction/transfer.
20.3.1.2.1.3 Error Handling of Bulk IN Transfer: Peripheral Mode
If the software wants to shut down the Bulk IN pipe, it should set the SENDSTALL bit (bit 4 of
PERI_TXCSR). When the controller receives the next IN token, it will send a STALL to the host, set the
SENTSTALL bit (bit 5 of PERI_TXCSR) and generate an interrupt.
When the software receives an interrupt with the SENTSTALL bit (bit 5 of PERI_TXCSR) set, it should
clear the SENTSTALL bit. It should however leave the SENDSTALL bit set until it is ready to re-enable
the Bulk IN pipe.
NOTE: If the host failed to receive the STALL packet for some reason, it will send another IN token, so
it is advisable to leave the SENDSTALL bit set until the software is ready to re-enable the Bulk IN pipe.
When a pipe is re-enabled, the data toggle sequence should be restarted by setting the CLRDATATOG
bit in the PERI_TXCSR register (bit 6).
20.3.1.2.2 Bulk OUT Transfer: Peripheral Mode
A Bulk OUT transaction is used to transfer non-periodic data from the host to the function controller.
The following optional features are available for use with an Rx endpoint used in peripheral mode for
Bulk OUT transactions:
•
Double packet buffering: When enabled, up to two packets can be stored in the FIFO on reception
from the host. Double packet buffering is enabled by setting the DPB bit of the RXFIFOSZ register
(bit 4).
•
DMA: If DMA is enabled for the endpoint, a DMA request will be generated whenever the endpoint
has a packet in its FIFO. This feature can be used to allow the DMA controller to unload packets
from the FIFO without processor intervention.
NOTE: When DMA is enabled, endpoint interrupt will not be generated for completion of packet
reception. Endpoint interrupt will be generated only in the error conditions.
1771
SPRUGX9 – 15 April 2011
Universal Serial Bus (USB)
© 2011, Texas Instruments Incorporated
Содержание TMS320C6A816 Series
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