SI5320-H-BL Silicon Laboratories Inc, SI5320-H-BL Datasheet - Page 18

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

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Si5320

minimizes the output clock jitter variation from board to

board, providing more consistent system level jitter

performance.

The jitter transfer characteristic is a function of the

BWSEL[1:0] setting. (See Table 7.) Lower bandwidth

selection settings result in more jitter attenuation of the

incoming clock but may result in higher jitter generation.

Table 4 on page 9 gives the 3 dB bandwidth and

peaking values for specified BWSEL settings. Figure 6

shows the jitter transfer curve mask.

2.3.3. Jitter Tolerance

Jitter tolerance for the Si5320 is defined as the

maximum peak-to-peak sinusoidal jitter that can be

present on the incoming clock. The tolerance is a

function of the jitter frequency, because tolerance

improves for lower input jitter frequency. See Figure 7.

2.4. Digital Hold of the PLL

When no valid input clock is available, the Si5320

digitally holds the internal oscillator to its last frequency

value. This provides a stable clock to the system until an

input clock is again valid. This clock maintains very

stable operation in the presence of constant voltage and

temperature. The frequency accuracy specifications for

digital hold mode are given in Table 4 on page 9.

Am plitude

Jitter Out

10 ns

Jitter In

Figure 6. PLL Jitter Transfer Mask/Template

Input

Jitter

Figure 7. Jitter Tolerance Mask/Template

Transfer

Jitter

0 dB

(s)

–20 dB/dec.

Peaking

Excessive Input Jitter Range

–20 dB/dec.

Jitter In

Jitter

Rev. 2.5

2.5. Hitless Recovery from Digital Hold

When the Si5320 device is locked to a valid input clock,

a loss of the input clock causes the device to

automatically switch to digital hold mode. When the

input clock signal returns, the device performs a

“hitless” transition from digital hold mode back to the

selected input clock. That is, the device performs

“phase build-out” to absorb the phase difference

between the internal VCO clock operating in digital hold

mode and the new/returned input clock. The maximum

phase step size seen at the clock output during this

transition and the maximum slope for this phase step

are given in Table 4 on page 9.

This feature can be disabled by asserting the

FXDDELAY pin. When the FXDDELAY pin is high, the

output clock is phase and frequency locked with a

known

Consequently, any abrupt phase change on the input

clock propagates through the device, and the output

slews at the selected loop bandwidth until the original

phase relationship is restored.

Note: When the DBLBW is asserted, hitless recovery must

2.6. Loss-of-Signal Alarm

The Si5320 has loss-of-signal (LOS) circuitry that

constantly monitors the CLKIN input clock for missing

pulses. The LOS circuitry sets a LOS output alarm

signal when missing pulses are detected.

The LOS circuitry operates as follows. Regardless of

the selected input clock frequency range, the LOS

circuitry divides down the input clock into the 19 MHz

range. The LOS circuitry then over-samples this

divided-down input clock to search for extended periods

of time without input clock transitions. If the LOS

also be disabled by driving FXDDELAY high for proper

operation.

Figure 8. Recovery from Digital Hold

phase

Recovery from

relationship

digital hold

the

PT_MTIE

input

clock.

SI5320-H-BL Silicon Laboratories Inc, SI5320-H-BL Datasheet - Page 18

SI5320-H-BL

Specifications of SI5320-H-BL

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