SI5320-EVB Silicon Laboratories Inc, SI5320-EVB Datasheet - Page 3

SI5320-EVB

Manufacturer Part Number

SI5320-EVB

Description

BOARD EVALUATION FOR SI5320

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI5320-EVB.pdf (18 pages)

Specifications of SI5320-EVB

Main Purpose

Timing, Clock Generator

Utilized Ic / Part

SI5320

Processor To Be Evaluated

Si5320

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1142

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and a 0.1 F capacitor, such that the positive and

negative inputs of the differential pair each see a 50

termination to “ac

termination impedance is 100 .

For single-ended operation, supply a signal to one of

the differential inputs (usually the positive input). The

other input should be shorted to ground using an SMA

shorting plug. The on-board termination circuit provides

a 50

differential pair.

Differential Clock Output Signals

The differential clock outputs from the Si5320 device

are routed to the perimeter of the circuit board using

provide ac-coupling are located near the clock output

SMA connectors.

Internal Regulator Compensation

The Si5320-EVB contains pad locations for a resistor

and a capacitor between the VDD25 node and ground.

The resistor pads are populated with a 0

capacitor pads are populated with a low ESR 33 F

tantalum capacitor. This is the suggested compensation

circuit for Si5320 devices.

Location

JP6

JP1

JP5

JP7

transmission line structures. The capacitors that

termination to ac-ground for each leg of the

Table 1. Si5320-EVB Assembly Rev B-01 Default Jumper/Switch Settings

INFRQSEL[0]

INFRQSEL[1]

INFRQSEL[2]

LED ENABLE

FXDDELAY

FRQSEL[0]

FRQSEL[1]

BWSEL[0]

BWSEL[1]

VALTIME

VSEL33

DBLBW

VDD33

FEC[0]

FEC[1]

Signal

ground,” and

Open

State

the line-to-line

resistor. The

Preliminary Rev. 0.4

There are two considerations for selecting this

combination of compensation resistor and capacitor.

First, is the stability of the regulator. The second is noise

filtering.

The acceptable range for the time constant at this node

is 15 s to 50 s. The capacitor used on the board is a

33 F capacitor with an ESR of .8 . This yields a time

constant of 26.4 s. The designer could decide to use a

330 F capacitor with an ESR of .15 . This yields a

time constant of 49.5 s. Each of these cases provide a

compensation circuit that makes the output of the

regulator stable.

The second issue is noise filtering. For this, more

capacitance is usually better. For the two cases

described above, the 330 F case provides greater

noise filtering. However, the large case size of the

330 F capacitor might make it impractical for many

applications. The Si5320 device is specified with the

33 F cap.

Default Jumper Settings

The default jumper settings for the Si5320-EVB board

are given in Table 1. These settings configure the board

for operation from a 3.3 V supply.

3.3 V plane not connected to 2.5 V plane

Selected bandwidth not doubled

Loop Filter Bandwidth = 800 Hz

Internal Regulator enabled

Clock Out = 622.08 MHz

LED Indicators enabled

100 ms Validation Time

Clock IN = 19.44 MHz

Fixed Delay disabled

No FEC scaling

Notes

Si5320-EVB

SI5320-EVB Silicon Laboratories Inc, SI5320-EVB Datasheet - Page 3

SI5320-EVB

Specifications of SI5320-EVB

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