SI5020-B-GM Silicon Laboratories Inc, SI5020-B-GM Datasheet - Page 11

SI5020-B-GM

Manufacturer Part Number

SI5020-B-GM

Description

IC CLK DATA REC SONET/SDH 20-QFN

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI5020-B-GM.pdf (22 pages)

Specifications of SI5020-B-GM

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 11 of 22
Download datasheet (149Kb)

4. Functional Description

The Si5020 utilizes a phase-locked loop (PLL) to

recover a clock synchronous to the input data stream.

This clock is used to retime the data, and both the

recovered clock and data are output synchronously via

current mode logic (CML) drivers. Optimal jitter

performance is obtained by using Silicon Laboratories'

DSPLL technology to eliminate the noise entry points

caused by external PLL loop filter components.

4.1. DSPLL

The PLL structure (shown in Figure 1 on page 5) utilizes

Silicon Laboratories' DSPLL technology to eliminate the

need for external loop filter components found in

traditional PLL implementations. This is achieved by

using a digital signal processing (DSP) algorithm to

replace the loop filter commonly found in analog PLL

designs. This algorithm processes the phase detector

error term and generates a digital control value to adjust

the frequency of the voltage-controlled oscillator (VCO).

Because external loop filter components are not

required, sensitive noise entry points are eliminated,

making the DSPLL less susceptible to board-level noise

sources that make SONET/SDH jitter compliance

difficult to attain.

4.2. PLL Self-Calibration

The Si5020 achieves optimal jitter performance by

using self-calibration circuitry to set the loop gain

parameters within the DSPLL. For the self-calibration

circuitry to operate correctly, the power supply voltage

must exceed 2.25 V when calibration occurs. For best

performance, the user should force a self-calibration

once the supply has stabilized on powerup.

A self-calibration can be initiated by forcing a high-to-

low transition on the powerdown control input, PWRDN/

CAL, while a valid reference clock is supplied to the

REFCLK input. The PWRDN/CAL input should be held

high at least 1 μs before transitioning low to guarantee a

self-calibration. Several application circuits that could be

used to initiate a power-on self-calibration are provided

in Silicon Laboratories’ “AN42: Controlling DSPLL™

Self-Calibration for the Si5020/5018/5010 CDR Devices

and Si531x Clock Multiplier/Regenerator Devices.”

4.3. Multi-Rate Operation

The Si5020 supports clock and data recovery for OC-48

and STM-16 data streams. In addition, the PLL was

designed to operate at data rates up to 2.7 Gbps to

support

forward error correction (FEC).

OC-48/STM-16

™

applications

that

employ

Rev. 1.5

Multi-rate operation is achieved by configuring the

device to divide down the output of the VCO to the

desired data rate. The divide factor is configured by the

RATESEL0-1 pins. The RATESEL0-1 configuration and

associated data rates are given in Table 7.

4.4. Reference Clock Detect

The Si5020 CDR requires an external reference clock

applied to the REFCLK input for normal device

operation. When REFCLK is absent, the LOL alarm will

always be asserted when it has been determined that

no activity exists on REFCLK, indicating the frequency

lock status of the PLL is unknown. Additionally, the

Si5020 uses the reference clock to center the VCO

output frequency so that clock and data can be

recovered from the input data stream. The device self

configures for operation with one of three reference

clock frequencies. This eliminates the need to externally

configure the device to operate with a particular

reference clock.

The reference clock centers the VCO for a nominal

output of between 2.5 GHz and 2.7 GHz. The VCO

frequency is centered at 16, 32, or 128 times the

reference

continuously monitors the reference clock input to

determine whether the device should be configured for

a reference clock that is 1/16, 1/32, or 1/128 the

nominal VCO output. Approximate reference clock

frequencies for some target applications are given in

Table 8.

RATESEL

SONET/SDH

155.52 MHz

19.44 MHz

77.76 MHz

[0:1]

Table 8. Typical REFCLK Frequencies

Table 7. Multi-Rate Configuration

622.08 Mbps

155.52 Mbps

2.488 Gbps

1.244 Gbps

clock

SONET/

SDH

78.125 MHz

156.25 MHz

19.53 MHz

Ethernet

Gigabit

frequency.

1.25 Gbps

Ethernet

Gigabit

—

166.63 MHz

15/14 FEC

SDH with

20.83 MHz

83.31 MHz

SONET/

Detection

2.67 Gbps

OC-48

15/14

with

FEC

—

Si5020

REFCLK

Ratio of

VCO to

128

Divider

circuitry

CLK

SI5020-B-GM Silicon Laboratories Inc, SI5020-B-GM Datasheet - Page 11

SI5020-B-GM

Specifications of SI5020-B-GM

Related parts for SI5020-B-GM