XRT71D04 Datasheet, PDF(19/22 Page) Exar Corporation – 4 CHANNEL E3/DS3/STS-1 JITTER ATTENUATOR, STS-1 TO DS3 DESYNCHRONIZER

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

XRT71D04 Datasheet, PDF (19/22 Pages) Exar Corporation – 4 CHANNEL E3/DS3/STS-1 JITTER ATTENUATOR, STS-1 TO DS3 DESYNCHRONIZER

◁

Ã¡Ã§

XRT71D04

4 CHANNEL E3/DS3/STS-1 JITTER ATTENUATOR, STS-1 TO DS3 DESYNCHRONIZER

REV. 1.1.1

TABLE 4: ADDRESS AND BIT FORMATS OF THE COMMAND REGISTERS

ADDR

COMMAND

TYPE

0X06 CR6

R/W *** *** STS-1_0 DS3/E3_0 DJA_0 RRClkES_0 RClkES_0 FSS_0

0x07 CR7

RO *** ***

***

FL_0

0x0E CR14 R/W *** *** STS-1_1 DS3/E3_1 DJA_1 RRClkES_1 RClkES_1 FSS_1

0x0F CR15

*** ***

***

FL_1

0x16 CR22 R/W *** *** STS-1_2 DS3/E3_2 DJA_2 RRClkES_2 RClkES_2 FSS_2

0x17 CR23

*** ***

***

FL_2

0x1E CR30 R/W *** *** STS-1_3 DS3/E3_3 DJA_3 RRClkES_3 RCLKES_3 FSS_3

0x1F CR31

*** ***

***

FL_3

3.0 MICROPROCESSOR SERIAL INTERFACE

The serial interface for the XRT71D04 and the

XRT73L00 family of E3/DS3/STS-1 LIUâs are the

same, which makes it easy to configure both the

XRT71D04 and the LIU with a single CS, SDI, SDO

and SClk input and output pins.

3.1 SERIAL INTERFACE OPERATION.

Serial interface data structure and timings are provid-

ed in Figure 5 and 6 respectively.

The clock signal is provided to the SClk and the CS is

asserted for 50 ns prior to the first rising edge of the

SClk.

3.1.1 Bit 1âR/W (Read/Write) Bit

This bit will be clocked into the SDI input, on the first

rising edge of SClk (after CS has been asserted).

This bit indicates whether the current operation is a

Read or Write operation. A â1â in this bit specifies a

Read operation; whereas, a â0â in this bit specifies a

Write operation.

3.1.2 Bits 2 through 6âA0, A1, A2 ,A3, and A4

The five (5) bit Address Values.

The next five rising edges of the SClk signal will clock

in the 5-bit address value for this particular Read (or

Write) operation. The address selects the Command

address bits to the SDI input pin is applied in ascend-

ing order with the LSB (least significant bit) first.

3.1.3 Bit 7âA5

A5 must be set to â0â, as shown in Figure 9.

3.1.4 Bit 8âA6

The value of A6 is a donât care.

Once these first 8 bits have been written into the Seri-

al Interface, the subsequent action depends upon

whether the current operation is a Read or Write op-

eration.

3.1.5 Read Operation

Once the last address bit (A4) has been clocked into

the SDI input, the Read operation will proceed

through an idle period, lasting three SClk periods. On

the falling edge of SClk Cycle #8 (see Figure 9) the

serial data output signal (SDO) becomes active. At

this point the user can begin reading the data con-

tents of the addressed Command Register (at Ad-

dress [A4,A3, A2, A1, A0]) via the SDO output pin.

The Serial Interface will output this eight bit data word

(D0 through D7) in ascending order (with the LSB

first), on the falling edges of the SClk . The data (on

the SDO output pin) is stable for reading on the very

next rising edge of the SClk .

3.1.6 Write Operation

Once the last address bit (A4) has been clocked into

the SDI input, the Write operation will proceed

through an idle period, lasting three SClk periods. Pri-

or to the rising edge of SClk Cycle #9 , the eight bit

data word is applied to SDI input. Data on SDI is

latched on the rising edge of SClk.

▷