CRD8900A-1 Cirrus Logic Inc, CRD8900A-1 Datasheet - Page 35

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CRD8900A-1

Manufacturer Part Number

CRD8900A-1

Description

KIT EVAL FOR CS8900A

Manufacturer

Cirrus Logic Inc

Series

CrystalLAN™r

Datasheet

1.CS8900A-CQZ.pdf (138 pages)

Specifications of CRD8900A-1

Main Purpose

Interface, Ethernet

Utilized Ic / Part

CS8900A

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Secondary Attributes

-

Embedded

-

Primary Attributes

-

Other names

598-1163

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bit times), and k is the smaller of n or 10, where

n is the number of retransmission attempts.

3.9.5.9 Modified Backoff

The Modified Backoff is described by the

equation:

where r (a random integer) is the number of

slot times the MAC must wait, and k is 3 for n

< 3 and k is the smaller of n or 10 for n ≥ 3,

where n is the number of retransmission at-

tempts.

The advantage of the Modified Backoff algo-

rithm over the Standard Backoff algorithm is

that it reduces the possibility of multiple colli-

sions on the first three retries. The disadvan-

tage is that it extends the maximum time

needed to gain access to the network for the

first three retries.

The host may choose to disable the Backoff al-

gorithm altogether by setting the DisableBack-

off bit (Register 19, TestCTL, Bit B). When

disabled, the CS8900A only waits the 9.6 µs

IPG time before starting transmission.

3.9.5.10 SQE Test

If the CS8900A is transmitting on the AUI, the

external transceiver should generate an SQE

Test signal on the CI+/CI- pair following each

CS8900A

Crystal LAN™ Ethernet Controller

MAC

Carrier Sense

Port Select

0 ≤ r ≤ 2

Collision

RX NRZ

RX CLK

TX NRZ

TXCLK

TEN

k

CIRRUS LOGIC PRODUCT DATASHEET

Figure 12. ENDEC

Decoder

Encoder

Detector

Carrier

& PLL

Clock

ENDEC

transmission. The SQE Test is a 10 MHz sig-

nal lasting 5 to 15 bit times and starting within

0.6 to 1.6 µs after the end of transmission.

During this period, the CS8900A ignores re-

ceive carrier activity (see SQE Error in this

section for more information).

3.10 Encoder/Decoder (ENDEC)

The CS8900A’s integrated encoder/decoder

(ENDEC) circuit is compliant with the relevant

portions of section 7 of the Ethernet standard

(ISO/IEC 8802-3, 1993). Its primary functions

include: Manchester encoding of transmit da-

ta; informing the MAC when valid receive data

is present (Carrier Detection); and, recovering

the clock and NRZ data from incoming Man-

chester-encoded data.

Figure 12 provides a block diagram of the EN-

DEC and how it interfaces to the MAC, AUI

and 10BASE-T transceiver.

3.10.1 Encoder

The encoder converts NRZ data from the MAC

and a 20 MHz Transmit Clock signal into a se-

rial stream of Manchester data. The Transmit

Clock is produced by an on-chip oscillator cir-

cuit that is driven by either an external 20 MHz

quartz crystal or a TTL-level CMOS clock in-

put. If a CMOS input is used, the clock should

be 20 MHz ±0.01% with a duty cycle between

MUX

MUX

RX

TX

RXSQL

RX

TX

AUISQL

AUIRX

AUITX

AUICol

Transceiver

10BASE-T

AUI

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