SI5315-EVB Silicon Laboratories Inc, SI5315-EVB Datasheet - Page 16

SI5315-EVB

Manufacturer Part Number

SI5315-EVB

Description

BOARD EVAL SI5315 8KHZ-644.53MHZ

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI5315B-C-GM.pdf (58 pages)

2.SI5315-EVB.pdf (22 pages)

Specifications of SI5315-EVB

Main Purpose

Timing, Clock Multiplier

Embedded

Utilized Ic / Part

SI5315

Primary Attributes

2 Inputs, 2 Outputs

Secondary Attributes

CML, CMOS, LVDS, LVPECL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Si5315

3. Functional Description

3.1. Overview

The Si5315 is a jitter-attenuating precision clock multiplier for Synchronous Ethernet, SONET/SDH, and PDH

(T1/E1) applications. The Si5315 accepts dual clock inputs ranging from 8 kHz to 644.53 MHz and generates two

frequency-multiplied clock outputs ranging from 8 kHz to 644.53 MHz. The two input clocks are at the same

frequency and the two output clocks are at the same frequency. The input clock frequency and clock multiplication

ratio are selectable from a look up table of popular SyncE and T1/E1 rates.

The Si5315 is based on Silicon Laboratories' 3rd-generation DSPLL

frequency synthesis and jitter attenuation in a highly integrated PLL solution that eliminates the need for external

VCXO and loop filter components. The Si5315 PLL loop bandwidth is selectable via the BWSEL[1:0] pins and

supports a range from 60 to 8.4 kHz.

The Si5315 supports hitless switching between the two input clocks in compliance with ITU-T G.8262 and Telcordia

GR-253-CORE and GR-1244-CORE. This feature greatly minimizes the propagation of phase transients to the

clock outputs during an input clock transition (<200 ps typ). Manual and automatic revertive and non-revertive input

clock switching options are available via the AUTOSEL input pin. The Si5315 monitors both input clocks for loss-of-

signal and provides a LOS alarm when it detects missing pulses on either input clock. The device monitors the lock

status of the PLL. The lock detect algorithm works by continuously monitoring the phase of the input clock in

relation to the phase of the feedback clock. The Si5315 provides a holdover capability that allows the device to

continue generation of a stable output clock when the selected input reference is lost.

The Si5315 has two differential clock outputs. The signal format of the clock outputs is programmable to support

LVPECL, LVDS, CML, or CMOS loads. The second clock output can be powered down to minimize power

consumption. For system-level debugging, a bypass mode is available which drives the output clock directly from

the input clock, bypassing the internal DSPLL. The device operates from a single 1.8, 2.5, or 3.3 V supply.

FRQSEL[3:0]

BWSEL[1:0]

AUTOSEL

FRQTBL

CS/CA

CKIN1+

CKIN1–

CKIN2+

CKIN2–

LOS1

LOS2

LOL

RST

Signal Detect

Bandwidth

Frequency

Control

Figure 6. Detailed Block Diagram

Xtal/Clock

Reference Clock

Crystal or

DSPLL

Rev. 0.26

PLL Bypass

OSC

technology, which provides any-rate

VDD (1.8, 2.5, or 3.3 V)

GND

DBL2_BY

SFOUT[1:0]

CKOUT1+

CKOUT1–

CKOUT2+

CKOUT2–

SI5315-EVB Silicon Laboratories Inc, SI5315-EVB Datasheet - Page 16

SI5315-EVB

Specifications of SI5315-EVB

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