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Texas Instruments TMS320TCI6486 User Manual

Page 20

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MDCLK

MDIO

RMTXD[1−0]

RMTXEN

RMCRSDV

RMRXD[1−0]

RMRXER

Physical

layer

device

(PHY)

EMAC

MDIO

System

core

RMREFCLK

RMREFCLK

50-MHz

zero-delay

clock buffer

50-MHz

XO

EMAC Functional Architecture

www.ti.com

2.3.2

Reduced Media Independent Interface (RMII) Connections

Figure 3

shows a TCI6486/C6472 device with integrated EMAC and MDIO interfaced to the PHY via an

RMII connection. This interface is available only in 10-Mbps and 100-Mbps modes.

Figure 3. Ethernet Configuration with RMII Interface

The RMII interface has the same functionality as the MII, but it does so with a reduced number of pins,
thus lowering the total cost for an application. In devices incorporating many PHY interfaces such as
switches, the number of pins can add significant cost as the port counts increase.

Table 8

summarizes the

individual EMAC and MDIO signals for the RMII interface.

The RMII interface does not include an MCOL signal. A collision is detected from the receive and transmit
data delimiters. The data signals are 2 bits wide, and a single reference clock must be provided to the
MAC, operating at 50 MHz to sustain the same data rate as MII.

Table 8. EMAC and MDIO Signals for RMII Interface

Signal Name

I/O

Description

RMTXD[1-0]

O

Transmit data (RMTXD). The transmit data pins are a collection of 2 data signals comprising 2 bits
of data. RMTDX0 is the least-significant bit (LSB). The signals are synchronized to the RMII
reference clock and valid only when RMTXEN is asserted.

RMTXEN

O

Transmit enable (RMTXEN). The transmit enable signal indicates that the RMTXD pins are
generating nibble data for use by the PHY. It is driven synchronously to the RMII reference clock.

RMCRSDV

I

Carrier sense/receive data valid (RMCRSDV). The RMCRSDV pin is asserted by the PHY when the
network is not idle in either transmit or receive. The data on RMRXD is considered valid once the
RMCRSDV signal is asserted. The pin is de-asserted when both transmit and receive are idle. The
assertion of this signal is asynchronous to the RMII reference clock.

RMREFCLK

I

Reference clock (RMREFCLK). A 50-MHz clock must be provided through this pin for RMII
operation.

RMRXD[1-0]

I

Receive data (RMRXD). The receive data pins are a collection of 2 data signals comprising 2 bits of
data. RMRDX0 is the least-significant bit (LSB). The signals are synchronized to the RMII reference
clock and valid only when RMCRSDV is asserted. In 10-Mbps operation, RMRXD is sampled every
tenth cycle of the RMII reference clock.

20

C6472/TCI6486 EMAC/MDIO

SPRUEF8F – March 2006 – Revised November 2010

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