High Performance Two Port 10/100 Managed Ethernet Switch with 32-Bit Non-PCI CPU Interface
Datasheet
Revision 1.4 (08-19-08)
96
SMSC LAN9312
DATASHEET
7.2.10.2
PHY Software Reset via PHY_BASIC_CTRL_x
The PHY can also be reset by setting bit 15 (PHY_RST) of the
Port x PHY Basic Control Register
. This bit is self clearing and will return to 0 after the reset is complete.
This reset does not reload the configuration strap values into the PHY registers.
7.2.10.3
PHY Power-Down Reset
After the PHY has returned from a power-down state, a reset of the PHY is automatically generated.
The PHY power-down modes do not reload or reset the PHY registers. Refer to
for additional information.
7.2.11
LEDs
Each PHY provides LED indication signals to the GPIO/LED block of the LAN9312. This allows
external LEDs to be used to indicate various PHY related functions such as TX/RX activity, speed,
duplex, or link status. Refer to
Chapter 13, "GPIO/LED Controller," on page 162
for additional
information on the configuration of these signals.
7.2.12
Required Ethernet Magnetics
The magnetics selected for use with the LAN9312 should be an Auto-MDIX style magnetic, which is
widely available from several vendors. Please review the SMSC Application note 8.13 “Suggested
Magnetics” for the latest qualified and suggested magnetics. A list of vendors and part numbers are
provided within the application note.
7.3
Virtual PHY
The Virtual PHY provides a basic MII management interface (MDIO) to the Host MAC per the IEEE
802.3 (clause 22) so that an unmodified driver can be supported as if the Host MAC was attached to
a single port PHY. This functionality is designed to allow easy and quick integration of the LAN9312
into designs with minimal driver modifications. The Virtual PHY provides a full bank of registers which
comply with the IEEE 802.3 specification. This enables the Virtual PHY to provide various status and
control bits similar to those provided by a real PHY. These include the output of speed selection,
duplex, loopback, isolate, collision test, and auto-negotiation status. For a list of all Virtual PHY
registers and related bit descriptions, refer to
Section 14.4.1, "Virtual PHY Registers," on page 285
.
7.3.1
Virtual PHY Auto-Negotiation
The purpose of the auto-negotiation function is to automatically configure the Virtual PHY to the
optimum link parameters based on the capabilities of its link partner. Because the Virtual PHY has no
actual link partner, the auto-negotiation process is emulated with deterministic results.
Auto-negotiation is enabled by setting bit 12 (VPHY_AN) of the
Virtual PHY Basic Control Register
and is restarted by the occurrence of any of the following events:
Power-On Reset (POR)
Hardware reset (nRST)
PHY Software reset (via bit 3 of the
Reset Control Register (RESET_CTL)
, bit 0 of the
Management Control Register (PMT_CTRL)
Virtual PHY Basic Control Register
)
Setting the
Virtual PHY Basic Control Register (VPHY_BASIC_CTRL)
, bit 9 high (auto-neg restart)
Digital Reset (via bit 10 of the
Reset Control Register (RESET_CTL)
Issuing an EEPROM Loader RELOAD command (
Section 10.2.4, "EEPROM Loader," on page 149
The emulated auto-negotiation process is much simpler than the real process and can be categorized
into three steps: