ICS1894-40 Datasheet, PDF(7/52 Page) Integrated Device Technology – 10BASE-T/100BASE-TX INTEGRATED PHYCEIVER WITH RMII INTERFACE

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ICS1894-40 Datasheet, PDF (7/52 Pages) Integrated Device Technology – 10BASE-T/100BASE-TX INTEGRATED PHYCEIVER WITH RMII INTERFACE

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ICS1894-40

10BASE-T/100BASE-TX INTEGRATED PHYCEIVER WITH RMII INTERFACE

PHYCEIVER

setting that is common to the two link partners is selected as

the mode of operation.

The following list shows the speed and duplex operation

mode from highest to lowest.

â¢ Priority 1: 100Base-TX, full-duplex

â¢ Priority 2: 100Base-TX, half-duplex

â¢ Priority 3: 10Base-T, full-duplex

â¢ Priority 4: 10Base-T, half-duplex

If auto-negotiation is not supported or the ICS1894-40 link

partner is forced to bypass auto-negotiation, the

ICS1894-40 sets its operating mode by observing the signal

at its receiver. This is known as parallel detection, and

allows the ICS1894-40 to establish link by listening for a

fixed signal protocol in the absence of auto-negotiation

advertisement protocol.

MII Management (MIIM) Interface

The ICS1894-40 supports the IEEE 802.3 MII Management

Interface, also known as the Management Data Input /

Output (MDIO) Interface. This interface allows upper-layer

devices to monitor and control the state of the ICS1894-40.

An external device with MIIM capability is used to read the

PHY status and/or configure the PHY settings. Additional

details on the MIIM interface can be found in Clause

22.2.4.5 of the IEEE 802.3u Specification.

The MIIM interface consists of the following:

â¢ A physical connection that incorporates the clock line

(MDC) and the data line (MDIO).

â¢ A specific protocol that operates across the

aforementioned physical connection that allows an

external controller to communicate with one or more

ICS1894-40 devices. Each ICS1894-40 device is

assigned a PHY address between 1 and 7 by the P[4:0]

strapping pins.

â¢ An internal addressable set of thirteen 16-bit MDIO

registers. Register [0:6] are required, and their functions

are defined by the IEEE 802.3u Specification. The

additional registers are provided for expanded

functionality.

The ICS1894-40 supports MIIM in both MII mode and RMII

mode.

The following table shows the MII Management frame

format for the ICS1894-40.

MII Management Frame Format

Preamble Start of Read/Write PHY Address REG Address TA

Frame OP Code Bits [4:0]

Bits [4:0]

Data Bits

Idle

[15:0]

Read 32 1âs

00AAA

RRRRR

Z0 DDDDDDDD_DDDDDDDD Z

Write 32 1âs

00AAA

RRRRR

10 DDDDDDDD_DDDDDDDD Z

Interrupt (INT)

INT (pin 12) is an optional interrupt signal that is used to

inform the external controller that there has been a status

update in the ICS1894-40 PHY register. Bits[15:8] of

enable and disable the conditions for asserting the INT

signal. Bits[7:0] of register 1Bh are the interrupt status bits,

and are used to indicate which interrupt conditions have

occurred. The interrupt status bits are cleared after reading

active high or active low.

MII Data Interface

The Media Independent Interface (MII) is specified in

Clause 22 of the IEEE 802.3u Specification. It provides a

common interface between physical layer and MAC layer

devices, and has the following key characteristics:

â¢ Supports 10Mbps and 100Mbps data rates.

â¢ Uses a 25MHz reference clock, sourced by the PHY.

â¢ Provides independent 4-bit wide (nibble) transmit and

receive data paths.

â¢ Contains two distinct groups of signals: one for

transmission and the other for reception.

By default, the ICS1894-40 is configured in MII mode after it

is power-up or reset with the following:

â¢ A 25MHz crystal connected to REF_IN, REF_OUT (pins

37, 36), or an external 25MHz clock source (oscillator)

connected to REF_IN.

IDTâ¢ / ICSâ¢ 10BASE-T/100BASE-TX INTEGRATED PHYCEIVER WITH RMII INTERFACE 7

ICS1894-40 REV C 092909

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