Preliminary
Registers
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3.3.3.3
PHY Acknowledge Status Register (ALIVE)
The PHY acknowledge status register (ALIVE) is shown in
and described in
Figure 3-78. PHY Acknowledge Status Register (ALIVE)
31
16
ALIVE
R/W1C-0
15
0
ALIVE
R/W1C-0
LEGEND: R/W = Read/Write; W1C = Write 1 to clear, write of 0 has no effect; -n = value after reset
Table 3-78. PHY Acknowledge Status Register (ALIVE) Field Descriptions
Bit
Field
Value
Description
31-0
ALIVE
0-FFFF FFFFh
MDIO Alive bits. Each of the 32 bits of this register is set if the most recent access to the PHY with
address corresponding to the register bit number was acknowledged by the PHY; the bit is reset if
the PHY fails to acknowledge the access. Both the user and polling accesses to a PHY will cause
the corresponding alive bit to be updated. The alive bits are only meant to be used to give an
indication of the presence or not of a PHY with the corresponding address. Writing a 1 to any bit
will clear it, writing a 0 has no effect.
0
The PHY fails to acknowledge the access.
1
The most recent access to the PHY with an address corresponding to the register bit number was
acknowledged by the PHY.
3.3.3.4
PHY Link Status Register (LINK)
The PHY link status register (LINK) is shown in
and described in
Figure 3-79. PHY Link Status Register (LINK)
31
16
LINK
R-0
15
0
LINK
R-0
LEGEND: R = Read only; -n = value after reset
Table 3-79. PHY Link Status Register (LINK) Field Descriptions
Bit
Field
Value
Description
31-0
LINK
0-FFFF FFFFh
MDIO Link state bits. This register is updated after a read of the generic status register of a PHY.
The bit is set if the PHY with the corresponding address has link and the PHY acknowledges the
read transaction. The bit is reset if the PHY indicates it does not have link or fails to acknowledge
the read transaction. Writes to the register have no effect.
0
The PHY indicates it does not have a link or fails to acknowledge the read transaction.
1
The PHY with the corresponding address has a link and the PHY acknowledges the read
transaction.
516
EMAC/MDIO Module
SPRUGX9 – 15 April 2011
© 2011, Texas Instruments Incorporated
Содержание TMS320C6A816 Series
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