SI5020-B-GM Silicon Laboratories Inc, SI5020-B-GM Datasheet - Page 12

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

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Si5020

4.5. Forward Error Correction (FEC)

The Si5020 supports FEC in SONET OC-48 (SDH

STM-16) applications for data rates up to 2.7 Gbps. In

FEC applications, the appropriate reference clock

frequency is determined by dividing the input data rate

by 16, 32, or 128. For example, if an FEC code is used

that produces a 2.70 Gbps data rate, the required

reference clock would be 168.75, 84.375, or 21.09 MHz.

4.6. Lock Detect

The Si5020 provides lock-detect circuitry that indicates

whether the PLL has achieved frequency lock with the

incoming data. The circuit compares the frequency of a

divided-down version of the recovered clock with the

frequency of the applied reference clock (REFCLK). If

the recovered clock frequency deviates from that of the

reference clock by the amount specified in Table 4 on

page 7, the PLL is declared out-of-lock, and the loss-of-

lock (LOL) pin is asserted high. In this state, the PLL will

periodically try to reacquire lock with the incoming data

stream. During reacquisition, the recovered clock may

drift over a ±600 ppm range relative to the applied

reference clock, and the LOL output alarm may toggle

until the PLL has reacquired frequency lock. Due to the

low noise and stability of the DSPLL, under the

condition where data is removed from the inputs, there

is the possibility that the PLL will not drift enough to

render an out-of-lock condition.

If REFCLK is removed, the LOL output 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.

Note: LOL is not asserted during PWRDN/CAL.

4.7. PLL Performance

The PLL implementation used in the Si5020 is fully

compliant with the jitter specifications proposed for

SONET/SDH equipment by Bellcore GR-253-CORE,

Issue 2, December 1995 and ITU-T G.958.

4.7.1. Jitter Tolerance

The Si5020’s tolerance to input jitter exceeds that of the

Bellcore/ITU mask shown in Figure 4. This mask

defines the level of peak-to-peak sinusoid jitter that

must be tolerated when applied to the differential data

input of the device.

Note: There are no entries in the mask table for the data rate

corresponding to OC-24 as that rate is not specified by

either GR-253 or G.958.

Rev. 1.5

4.7.2. Jitter Transfer

The Si5020 is fully compliant with the relevant Bellcore/

ITU specifications related to SONET/SDH jitter transfer.

Jitter transfer is defined as the ratio of output signal jitter

to input signal jitter as a function of jitter frequency (see

Figure 5). These measurements are made with an input

test signal that is degraded with sinusoidal jitter whose

magnitude is defined by the mask in Figure 4.

4.7.3. Jitter Generation

The Si5020 exceeds all relevant specifications for jitter

generation proposed for SONET/SDH equipment. The

jitter generation specification defines the amount of jitter

that may be present on the recovered clock and data

outputs when a jitter free input signal is provided. The

Si5020 typically generates less than 3.0 mUI

when presented with jitter-free input data.

Jitter (UI p-p)

Sinusoidal

Figure 4. Jitter Tolerance Specification

SONET

Data Rate

OC- 48

OC- 12

OC- 3

Input

1.5

0.15

(Hz)

600

Frequency

(Hz)

6000

300

Slope = 20 dB/Decade

(kHz)

1000

6.5

(kHz)

1000

250

rms

of jitter

SI5020-B-GM Silicon Laboratories Inc, SI5020-B-GM Datasheet - Page 12

SI5020-B-GM

Specifications of SI5020-B-GM

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