DP83820BVUW National Semiconductor, DP83820BVUW Datasheet - Page 15

DP83820BVUW

Manufacturer Part Number

DP83820BVUW

Description

IC INTERFACE CONTROLLER 208-PQFP

Manufacturer

National Semiconductor

Datasheet

1.DP83820BVUW.pdf (87 pages)

Specifications of DP83820BVUW

Controller Type

Ethernet Controller, MAC/BIU

Interface

IEEE 802.3

Voltage - Supply

3.3V

Current - Supply

150mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

208-MQFP, 208-PQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*DP83820BVUW

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3.0 Functional Description

3.7.1 VLAN Tag Handling

The Rx MAC can detect packets containing a 4-byte VLAN

tag, and remove the VLAN tag from the received packet. If

RX VLAN Tag removal is enabled, then the 4 bytes

following the source and destination addresses will be

stripped out. The VLAN status can be returned in the

Receive Descriptor Extended Status field.

3.7.2 Carrier Extension and Packet Bursting

The Receive MAC supports reception of packets with

Carrier Extension and packets transmitted using Frame

Bursting for 1000 Mb/s half-duplex operation. The first

frame in a burst must be at least one slotTime in length,

otherwise it will be considered to be a collision fragment.

3.7.3 IP Checksum Verification

The Rx MAC supports IP checksum verification. It can

validate IP checksums as well as TCP and UDP

checksums. Packets can be discarded based on detecting

checksum errors.

3.8 Physical Layer Interface

The DP83820 implements a physical layer interface that

can support all of the following:

— Media Independent Interface (MII)

— Gigabit Media Independent Interface (GMII)

— Ten-Bit Interface (TBI)

In addition, the DP83820 implements a Management

interface as defined for MII and GMII.

3.8.1 Media Independent Interface (MII)

The DP83820 supports 10 Mb/s and 100 Mb/s physical

layer devices through the Media Independent Interface

(MII) as defined in IEEE 802.3 (clause 22). The MII

consists of a transmit data interface (TXEN, TXER,

TXD[3:0], and TXCLK), a receive data interface (RXDV,

RXER, RXD[3:0], and RXCLK), 2 status signals (CRS and

COL) and a management interface (MDC and MDIO). In

— Start bits are defined as <01>.

— Opcode bits are defined as <01> for a Write access and

— PMD address is the device address.

— Register address is address of the register within that

— Line turnaround bits will be <10> for Write accesses and

— Data is the 16 bits of data that will be written to or read

<10> for a Read access.

device.

will be <xx> for Read accesses. This allows time for the

MII lines to “turn around”.

from the PMD device.

Note: b = bits

SB OP

2b 2b

Figure 3-9 MII Management Frame Format

(Continued)

this mode of operation, both Transmit and Receive clocks

are supplied by the Phy.

3.8.2 Gigabit Media Independent Interface (GMII)

The DP83820 can support 1000 Mb/s physical layer

devices through the Gigabit Media Independent Interface

(GMII) as defined in IEEE 802.3 (clause 35). The GMII is

extended from the MII to use 8-bit data interfaces and to

operate at higher frequency. The GMII consists of a

transmit data interface (TXEN, TXER, TXD[7:0], and

GTXCLK), a receive data interface (RXDV, RXER,

RXD[7:0], and RXCLK), 2 status signals (CRS and COL)

and a management interface (MDC and MDIO). Many of

the signals are shared with the MII interface. One

significant difference is the Transmit clock (GTXCLK) is

supplied by the DP83820 instead of the Phy. The

management interface (described later) is the same in both

MII and GMII modes

3.8.3 Ten-Bit Interface (TBI)

The TBI provides a port for transmit and receive data for

interfacing to devices that support the 1000Base-X portion

of the 802.3 specification. This includes 1000Base-FX fiber

devices. The port consists of data paths that are 10-bits

wide in each direction as well as control signals. This

interface shares pins with the MII and GMII interfaces.

3.8.4 MII/GMII Management Interface

The

communication protocol similar to a serial EEPROM.

Signaling occurs on two signals: clock (MDC) and data

(MDIO). This protocol provides capability for addressing up

to 32 individual Physical Media Dependent (PMD) devices

which share the same serial interface, and for addressing

up to 32 16-bit read/write registers within each PMD. The

MII management protocol utilizes following frame format:

start bits (SB), opcode (OP), PMD address (PA), register

address (RA), line turnaround (LT) and data (See Figure 3-

9).

A reset frame is also provided and defined as 32

consecutive 1s (FFFF FFFFh). After power up, all MII PMD

devices must wait for a reset frame to be received prior to

participating

Additionally, a reset frame may be issued at any time to

allow all connected PMDs to re-synchronize to the data

traffic.

The MII/EEPROM Access Register (MEAR) is used to

provide access to the serial MII.

Refer to Section 4.2.3 for complete details of the MEAR.

MII/GMII

Data

16b

management

MII

management

interface

communication.

utilizes

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Specifications of DP83820BVUW

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