SI5320-H-BL Silicon Laboratories Inc, SI5320-H-BL Datasheet - Page 17

SI5320-H-BL

Manufacturer Part Number

SI5320-H-BL

Description

IC CLOCK MULT SONET/SDH 63-PBGA

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI5320-H-BL.pdf (34 pages)

Specifications of SI5320-H-BL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

SI5320-H-BL

Manufacturer:

Silicon Laboratories Inc

Quantity:

10 000

Company:

H&T Electronics

Part Number:

SI5320-H-BL

Quantity:

149

Current page: 17 of 34
Download datasheet (551Kb)

Output Clock Frequency

Range

622 MHz

155 MHz

19 MHz

Driver Powerdown

FEC Frequency

Scaling

1/1

255/238

238/255

Reserved

Loop Bandwidth BWSEL1

*Note: When DBLBW = 1, FXDDELAY must be asserted and

Input Clock

Frequency

Range

Reserved

622 MHz

311 MHz

155 MHz

77 MHz

38 MHz

19 MHz

Reserved

Table 9. Nominal Clock Output Frequencies

Table 8. Nominal Clock Input Frequencies

12800 Hz

6400 Hz

3200 Hz

1600 Hz

800 Hz

FEC scaling must be disabled.

Table 10. FEC Frequency Scalings

Table 7. Loop Bandwidth Settings

INFRQSEL2 INFRQSEL1 INFRQSEL0

BWSEL0

FRQSEL1

FEC1

DBLBW

FRQSEL0

FEC0

Rev. 2.5

2.2.1. FEC Rate Conversion

The Si5320 provides a 1/32x, 1/16x, 1/8x, 1/4x, 1/2x,

1x, 2x, 4x, 8x, 16x, or 32x clock frequency multiplication

function with an option for additional frequency scaling

by a factor of 255/238 or 238/255 for FEC rate

compatibility. The multiplication factor is configured by

selecting the input and output clock frequency ranges

for the device. The additional frequency scaling by a

factor of either 255/238 or 238/255 for FEC compatibility

is selected using the FEC[1:0] control inputs. (See

Table 10.)

For example, a 622.08 MHz output clock (a non-FEC

rate) can be generated from a 19.44 MHz input clock (a

non-FEC

(19.44 MHz range), setting FRQSEL [1:0] = 11 (32x

multiplication), and setting FEC[1:0] = 00 (no FEC

scaling).

A 666.51 MHz output clock (a FEC rate) can be

generated from a 19.44 MHz input clock (a non-FEC

rate) by setting INFRQSEL[2:0] = 001 (19.44 MHz

range), setting FRQSEL [1:0] = 11 (32x multiplication),

and setting FEC[1:0] = 01 (255/238 FEC scaling).

Finally, a 622.08 MHz output clock (a non-FEC rate) can

be generated from a 20.83 MHz input clock (a FEC rate)

by setting INFRQSEL[2:0] = 001 (19.44 MHz range),

setting FRQSEL [1:0] = 11 (32x multiplication), and

setting FEC[1:0] = 10 (238/255 FEC scaling).

2.3. PLL Performance

The Si5320 PLL is designed to provide extremely low

jitter generation, high jitter tolerance, and a well-

controlled jitter transfer function with low peaking and a

high degree of jitter attenuation.

2.3.1. Jitter Generation

Jitter generation is defined as the amount of jitter

produced at the output of the device with a jitter free

input clock. Generated jitter arises from sources within

the VCO and other PLL components. Jitter generation is

also a function of the PLL bandwidth setting. Higher

loop bandwidth settings may result in lower jitter

generation, but may also result in less attenuation of

jitter on the input clock signal.

2.3.2. Jitter Transfer

Jitter transfer is defined as the ratio of output signal jitter

to input signal jitter for a specified jitter frequency. The

jitter transfer characteristic determines the amount of

input clock jitter that passes to the outputs. The DSPLL

technology used in the Si5320 provides tightly-

controlled jitter transfer curves because the PLL gain

parameters are determined by digital circuits that do not

vary over supply voltage, process, and temperature. In

a system application, a well-controlled transfer curve

rate)

setting

INFRQSEL[2:0] = 001

Si5320

SI5320-H-BL Silicon Laboratories Inc, SI5320-H-BL Datasheet - Page 17

SI5320-H-BL

Specifications of SI5320-H-BL

Available stocks

Related parts for SI5320-H-BL