SI5310-EVB Silicon Laboratories Inc, SI5310-EVB Datasheet - Page 2

SI5310-EVB

Manufacturer Part Number

SI5310-EVB

Description

BOARD EVALUATION FOR SI5310

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI5310-EVB.pdf (12 pages)

Specifications of SI5310-EVB

Main Purpose

Timing, Clock Generator

Utilized Ic / Part

SI5310

Processor To Be Evaluated

Si5310

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

336-1140

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Si 5310- EV B

Functional Description

The evaluation board simplifies characterization of the

Si5310 precision clock multiplier/regenerator IC by

providing access to all of the Si5310 I/Os. Device

performance can be evaluated by following the “Test

Configuration” section. Specific performance metrics

include jitter tolerance, jitter generation, and jitter

transfer.

Power supply

The evaluation board requires one 2.5 V supply. Supply

filtering is placed on the board to filter typical system

noise components; however, initial performance testing

should use a linear supply capable of supplying 2.5 V

±5% DC.

CAUTION: The evaluation board is designed so that the

body of the SMA jacks and GND are shorted. Care must

be taken when powering the PCB at potentials other

than GND at 0.0 V and VDD at 2.5 V relative to chassis

GND.

Self-Calibration

The Si5310 device provides an internal self-calibration

function that optimizes the loop gain parameters within

the internal DSPLL

high-to-low transition of the PWRDN/CAL signal while a

valid reference clock is supplied to the REFCLK input.

On the Si5310-EVB board, a voltage detector IC is

utilized to initiate self-calibration. The voltage detector

drives the PWRDN/CAL signal low after the supply

voltage has reached a specific voltage level. This circuit

is described in Silicon Laboratories application note

AN42. On the Si5310-EVB, the PWRDN/CAL signal is

also accessible via a jumper located in the lower left-

hand corner of the evaluation board. PWRDN/CAL is

wired to the center post (signal post) between 2.5 V and

GND.

Device Power Down

The Si5310 device can be powered down via the

PWRDN/CAL signal. When PWRDN/CAL is driven high

(2.5 V) the evaluation board will draw minimal current.

On the Si5310-EVB board, the PWRDN/CAL signal may

be controlled via a jumper located in the lower left-hand

corner of the evaluation board. PWRDN/CAL is wired to

the center post (signal post) between 2.5 V and GND.

CLKIN, CLKOUT, MULTOUT

These high-speed I/Os are wired to the board perimeter

on 30 mil (0.030 inch) 50

launch SMA jacks as labeled on the PCB. These I/Os

are AC coupled to simplify direct connection to a wide

array of standard test hardware. Because each of these

signals are differential both the positive (+) and negative

(–) terminals must be terminated to 50 . Terminating

. Self-calibration is initiated by a

microstrip lines to the end-

Preliminary Rev. 0.71

only one side will degrade the performance of the

Si5310 device. The CLKIN inputs are terminated on the

die with 50

Note: The 50

REFCLK

REFCLK is used to center the frequency of the Si5310

DSPLL so that the device can lock to the CLKIN signal.

For a given CLKIN rate, there are five choices for the

REFCLK frequency. These five options are all multiples

of the CLKIN frequency, as indicated in Table 1. The

REFCLK frequency is automatically detected by the

Si5310 device, so no digital control inputs are needed

for REFCLK frequency selection. REFCLK may be

synchronous or asynchronous with respect to CLKIN.

However, REFCLK must be within ±100 PPM of the

target CLKIN frequency multiple. REFCLK is ac coupled

to the SMA jacks located on the top side of the

evaluation board. The REFCLK inputs are terminated

on the die with 50

Note: The 50

MULTSEL

MULTSEL is a binary input to the Si5310 device that

selects the frequency range for the MULTOUT clock

output. The MULTOUT output frequency is a multiple of

the

MULTOUT will be in either the 150–167 MHz frequency

range or the 600–668 MHz frequency range depending

on the state of the MULTSEL signal as indicated in

Table 1. On the Si5310 evaluation board, MULTSEL is

controlled via a jumper located in the lower left-hand

corner of the board. MULTSEL is wired to the center

post (signal post) between 2.5 V and GND.

The jumper configurations for MULTSEL are indicated

in Figure 1.

CLKIN

ferential signal, thus the differential termination is actu-

ally 50

ferential signal, thus the differential termination is actu-

ally 50

resistors.

input

+ 50

termination is for each terminal/side of a dif-

resistors.

= 100 .

frequency.

The

frequency

for

SI5310-EVB Silicon Laboratories Inc, SI5310-EVB Datasheet - Page 2

SI5310-EVB

Specifications of SI5310-EVB

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