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MC9328MXL_06 Datasheet, PDF (60/90 Pages) Freescale Semiconductor, Inc – MX Family of applications processors
Functional Description and Application Information
Host Command
CMD S T Content CRC E Z
NID cycles
CID/OCR
******
Z S T Content Z Z Z
Identification Timing
Host Command
NCR cycles
CID/OCR
CMD S T Content CRC E Z ******
Z S T Content Z Z Z
SET_RCA Timing
Figure 43. Timing Diagrams at Identification Mode
After a card receives its RCA, it switches to data transfer mode. As shown on the first diagram in
Figure 44, SD_CMD lines in this mode are driven with push-pull drivers. The command is followed by a
period of two Z bits (allowing time for direction switching on the bus) and then by P bits pushed up by the
responding card. The other two diagrams show the separating periods NRC and NCC.
Host Command
NCR cycles
Response
CMD S T Content CRC E Z Z P ****** P S T Content CRC E Z Z Z
Command response timing (data transfer mode)
CMD S T
Response
NRC cycles
Host Command
Content CRC E Z
******
Z S T Content CRC E Z Z Z
Timing response end to next CMD start (data transfer mode)
Host Command
NCC cycles
Host Command
CMD S T Content CRC E Z
******
Z S T Content CRC E Z Z Z
Timing of command sequences (all modes)
Figure 44. Timing Diagrams at Data Transfer Mode
Figure 45 shows basic read operation timing. In a read operation, the sequence starts with a single block
read command (which specifies the start address in the argument field). The response is sent on the
SD_CMD lines as usual. Data transmission from the card starts after the access time delay NAC, beginning
from the last bit of the read command. If the system is in multiple block read mode, the card sends a
continuous flow of data blocks with distance NAC until the card sees a stop transmission command. The
data stops two clock cycles after the end bit of the stop command.
MC9328MXL Technical Data, Rev. 8
60
Freescale Semiconductor