DP83865-EB National Semiconductor, DP83865-EB Datasheet - Page 53

DP83865-EB

Manufacturer Part Number

DP83865-EB

Description

BOARD EVALUATION DP83865

Manufacturer

National Semiconductor

Datasheet

1.DP83865BVH.pdf (86 pages)

Specifications of DP83865-EB

Main Purpose

Interface, Ethernet

Utilized Ic / Part

DP83865

Lead Free Status / RoHS Status

Not applicable / Not applicable

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4.0 Functional Description

The mapping of the MAC interface is illustrated below in

Table 51.

The GMII interface has the following characteristics:

— Supports 10/100/1000 Mb/s operation

— Data and delimiters are synchronous to clock references

— Provides independent 8-bit wide transmit and receive

— Provides a simple management interface

— Uses signal levels that are compatible with common

— Provides for Full Duplex operation

The GMII interface is defined in the IEEE 802.3z document

Clause 35. In each direction of data transfer, there are Data

(an eight-bit bundle), Delimiter, Error, and Clock signals.

GMII signals are defined such that an implementation may

multiplex most GMII signals with the similar PCS service

interface defined in IEEE 802.3u Clause 22.

Two media status signals are provided. One indicates the

presence of carrier (CRS), and the other indicates the

occurrence of a collision (COL). The GMII uses the MII

management interface composed of two signals (MDC,

MDIO) which provide access to management parameters

and services as specified in IEEE 802.3u Clause 22.

The MII signal names have been retained and the functions

of most signals are the same, but additional valid combina-

tions of signals have been defined for 1000 Mb/s operation.

4.6 Reduced GMII (RGMII)

The Reduced Gigabit Media Independent Interface

(RGMII) is designed to reduce the number of pins required

to interconnect the MAC and PHY (Figure 5). To accom-

plish this goal, the data paths and all associated control

signals are reduced and are multiplexed. Both rising and

trailing edges of the clock are used. For Gigabit operation

the clock is 125 MHz, and for 10 and 100 Mbps operation

the clock frequencies are 2.5 MHz and 25 MHz, respec-

tively. Please refer to the RGMII Specification version 1.3

for detailed descriptions.

data paths

CMOS digital ASIC processes and some bipolar pro-

cesses

GTX_CLK

RXD[3:0]

RXD[4:7]

TXD[3:0]

TXD[4:7]

RX_CLK

RX_DV

RX_ER

TX_EN

TX_ER

GMII

COL

CRS

Table 51. GMII/RGMII/MII Mapping

RGMII_SEL1

RGMII_SEL0

RXDV_ER

TXEN_ER

RX[3:0]

TX[3:0]

RGMII

RCK

TCK

(Continued)

RXD[3:0]

RX_CLK

TXD[3:0]

TX_CLK

RX_DV

RX_ER

TX_EN

TX_ER

CRS

COL

MII

4.6.1 1000 Mbps Mode Operation

All RGMII signals are positive logic. The 8-bit data is multi-

plexed by taking advantage of both clock edges. The lower

4 bits are latched on the positive clock edge and the upper

4 bits are latched on trailing clock edge. The control signals

are multiplexed into a single clock cycle using the same

technique.

To reduce power consumption of RGMII interface,

TXEN_ER and RXDV_ER are encoded in a manner that

minimize transitions during normal network operation. This

is done by following encoding method. Note that the value

of GMII_TX_ER and GMII_TX_EN are valid at the rising

edge of the clock. In RGMII mode, GMII_TX_ER is

resented on TXEN_ER at the falling edge of the TCK clock.

RXDV_ER coding is implemented the same fashion.

TXEN_ER <= GMII_TX_ER (XOR) GMII_TX_EN

RXDV_ER <= GMII_RX_ER (XOR) GMII_RX_DV

When receiving a valid frame with no error, “RXDV_ER =

True” is generated as a logic high on the rising edge of

RCK and “RXDV_ER = False” is generated as a logic high

at the falling edge of RCK.

received, “RXDV_ER = False” is generated as a logic low

on the rising edge of RCK and “RXDV_ER = False” is gen-

erated as a logic low on the falling edge of RCK.

When receiving a valid frame with error, “RXDV_ER =

True” is generated as logic high on the rising edge of

RX_CLK and “RXERR = True” is generated as a logic low

on the falling edge of RCK.

TXEN_ER is treated in a similar manner. During normal

frame transmission, the signal stays at a logic high for both

edges of TCK and during the period between frames where

no error is indicated, the signal stays low for both edges.

4.6.2 1000 Mbps Mode Timing

At the time of the publication of RGMII standard version

1.3, there are two different implmentations of RGMII, HP

and 3COM. The difference is in setup and hold timing.

The DP83865 implemented the HP timing. The following is

an explanation of the RGMII interface of the DP83865.

RGMII

TXEN_ER

RXDV_ER

TX_CLK

RX_CLK

TD0

RD0

RD1

RD2

RD3

TD1

TD2

TD3

Figure 5. RGMII Signals

When no frame is being

FUNCTIONAL

GPHY

BLOCK

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DP83865-EB National Semiconductor, DP83865-EB Datasheet - Page 53

DP83865-EB

Specifications of DP83865-EB

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