MCBSTM32EXL Keil, MCBSTM32EXL Datasheet - Page 520

MCBSTM32EXL

Manufacturer Part Number

MCBSTM32EXL

Description

BOARD EVALUATION FOR STM32F103ZE

Manufacturer

Keil

Datasheets

1.MCBSTM32EXL.pdf (995 pages)

2.MCBSTM32EXL.pdf (1 pages)

Specifications of MCBSTM32EXL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 520 of 995
Download datasheet (9Mb)

Universal serial bus full-speed device interface (USB)

520/995

succeeds. It is mandatory to execute the sequence of operations in the above mentioned

order to avoid losing the notification of a second OUT transaction addressed to the same

endpoint following immediately the one which triggered the CTR interrupt.

Control transfers

Control transfers are made of a SETUP transaction, followed by zero or more data stages,

all of the same direction, followed by a status stage (a zero-byte transfer in the opposite

direction). SETUP transactions are handled by control endpoints only and are very similar to

OUT ones (data reception) except that the values of DTOG_TX and DTOG_RX bits of the

addressed endpoint registers are set to 1 and 0 respectively, to initialize the control transfer,

and both STAT_TX and STAT_RX are set to ‘10’ (NAK) to let software decide if subsequent

transactions must be IN or OUT depending on the SETUP contents. A control endpoint must

check SETUP bit in the USB_EPnR register at each CTR_RX event to distinguish normal

OUT transactions from SETUP ones. A USB device can determine the number and direction

of data stages by interpreting the data transferred in the SETUP stage, and is required to

STALL the transaction in the case of errors. To do so, at all data stages before the last, the

unused direction should be set to STALL, so that, if the host reverses the transfer direction

too soon, it gets a STALL as a status stage. While enabling the last data stage, the opposite

direction should be set to NAK, so that, if the host reverses the transfer direction (to perform

the status stage) immediately, it is kept waiting for the completion of the control operation. If

the control operation completes successfully, the software will change NAK to VALID,

otherwise to STALL. At the same time, if the status stage will be an OUT, the STATUS_OUT

(EP_KIND in the USB_EPnR register) bit should be set, so that an error is generated if a

status transaction is performed with not-zero data. When the status transaction is serviced,

the application clears the STATUS_OUT bit and sets STAT_RX to VALID (to accept a new

command) and STAT_TX to NAK (to delay a possible status stage immediately following the

next setup).

Since the USB specification states that a SETUP packet cannot be answered with a

handshake different from ACK, eventually aborting a previously issued command to start the

new one, the USB logic doesn’t allow a control endpoint to answer with a NAK or STALL

packet to a SETUP token received from the host.

When the STAT_RX bits are set to ‘01’ (STALL) or ‘10’ (NAK) and a SETUP token is

received, the USB accepts the data, performing the required data transfers and sends back

an ACK handshake. If that endpoint has a previously issued CTR_RX request not yet

acknowledged by the application (i.e. CTR_RX bit is still set from a previously completed

reception), the USB discards the SETUP transaction and does not answer with any

handshake packet regardless of its state, simulating a reception error and forcing the host to

send the SETUP token again. This is done to avoid losing the notification of a SETUP

transaction addressed to the same endpoint immediately following the transaction, which

triggered the CTR_RX interrupt.

Doc ID 13902 Rev 9

RM0008

MCBSTM32EXL Keil, MCBSTM32EXL Datasheet - Page 520

MCBSTM32EXL

Specifications of MCBSTM32EXL

Related parts for MCBSTM32EXL