GS9035ACPJE3 Ver la hoja de datos (PDF) - Gennum -> Semtech

Número de pieza

componentes Descripción

fabricante

GS9035ACPJE3

GENLINX II serialdigital reclocker

Gennum -> Semtech 

6. OUTPUT DATA MUTING

The GS9035A internally mutes the SDO and SDO outputs

PHASE

DETECTOR

when the device is not locked. When muted, SDO/SDO are

latched providing a logic state to the subsequent circuit

Øi

+

KPD

ΙCP

VCO

and avoiding a condition where noise could be amplified

-

and appear as data. The output data muting timing is

2πKf

Ns

Øo

shown in Figure 14.

LOOP RLF

FILTER

CLF1

CLF2

DDI

NO DATA TRANSITIONS

LOCK

SDO

VALID

DATA

OUTPUTS MUTED

VALID

DATA

Fig. 14 Output Data Muting Timing

7. CLOCK ENABLE

When CLK_EN is high, the GS9035A SCO/SCO outputs are

enabled. When CLK_EN is low, the SCO/SCO outputs are

set to a high Z state and float to VCC. Disabling the clock

outputs results in a power savings of 10%. It is

recommended that the CLK_EN input be hard wired to the

desired state. For applications which do not require the

clock output, connect CLK_EN to Ground and connect the

SCO/SCO outputs to VCC.

8. STRESSFUL DATA PATTERNS

All PLL's are susceptible to stressful data patterns which

can introduce bit errors in the data stream. PLL's are most

sensitive to patterns which have long run lengths of zeros or

ones (low data transition densities for a long period of time).

The GS9035A is designed to operate with low data

transition densities such as the SMPTE 259M pathological

signal (data transition density = 0.05).

9. PLL DESIGN GUIDELINES

The performance of the GS9035A is primarily determined

by the PLL. Thus, it is important that the system designer is

familiar with the basic PLL design equations.

A model of the GS9035A PLL is shown below. The main

components are the phase detector, the VCO, and the

external loop filter components.

Fig. 15 PLL Model

9.1 Transfer Function

The transfer function of the PLL is defined as Øo/Øi and can

be approximated as

Ø-----o-

Øi

=

--------------s----C----L---F---1---R----L---F----+-----1---------------- ----------------------------1-----------------------------

sCLF1RLF – -R---L-L---F-- + 1

s2CLF2L

+

s

----L-----

RLF

+

1

where

Equation 1

L = --------N-----------

DICPKƒ

N is the divider modulus

D is the data density (=0.5 for NRZ data)

ΙCP is the charge pump current in Amps

Kƒ is the VCO gain in Hz/V

This response has 1 zero (wZ) and three poles (wP1, wBW,

wP2) where

wZ

=

----------1------------

CLF1RLF

wP1

=

------------------1--------------------

CLF1RLF

–

----L-----

RLF

wBW

=

R-----L---F-

L

wP2

=

----------1------------

CLF2RLF

The bode plot for this transfer function is plotted in Figure 16.

GENNUM CORPORATION

10 of 14

522 - 41 - 08

Share Link: