SI5326C-C-GMR Silicon Laboratories Inc, SI5326C-C-GMR Datasheet - Page 19

SI5326C-C-GMR

Manufacturer Part Number

SI5326C-C-GMR

Description

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI5326C-C-GMR.pdf (72 pages)

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The Si5326 has two differential clock outputs. The

electrical format of each clock output is independently

programmable to support LVPECL, LVDS, CML, or

CMOS loads. If not required, the second clock output

can be powered down to minimize power consumption.

The phase difference between the selected input clock

and the output clocks is adjustable in 200 ps increments

for system skew control using the CLAT[7:0] register.

Fine phase adjustment is available and is set using the

FLAT register bits. The nominal range and resolution of

the FLAT[14:0] skew adjustment word are: ±110 ps and

3 ps, respectively. In addition, the phase of one output

clock may be adjusted in relation to the phase of the

other output clock. The resolution varies from 800 ps to

2.2 ns depending on the PLL divider settings. See

Table 8 for instructions on ensuring output-to-output

alignment. The input to output skew is not specified.

The DSPLLsim software utility determines the phase

offset

multiplication

debugging, a bypass mode is available which drives the

output clock directly from the input clock, bypassing the

internal DSPLL. The device is powered by a single 1.8,

2.5, or 3.3 V supply.

resolution

CKOUT_ALWAYS_ON

ratio

for

combination.

Table 8. CKOUT_ALWAYS_ON and SQ_ICAL Truth Table

given

input

For

SQ_ICAL

system-level

clock/clock

Rev. 1.0

CKOUT OFF until after the first ICAL

CKOUT OFF until after the first successful

ICAL (i.e., when LOL is low)

CKOUT always ON, including during an ICAL

CKOUT always ON, including during an ICAL.

Use these settings to preserve output-to-output

skew

4.1. External Reference

114.285 MHz 3rd overtone crystal is used as part of a

fixed-frequency oscillator within the DSPLL. This

external reference is required for the device to perform

jitter attenuation. Silicon Laboratories recommends

using a high quality crystal. Specific recommendations

may be found in the Family Reference Manual.

In digital hold, the DSPLL remains locked and tracks the

external reference. Note that crystals can have

temperature sensitivities.

4.2. Further Documentation

Consult the Silicon Laboratories Si53xx Any Frequency

Precision Clock Family Reference Manual (FRM) for

detailed information about the Si5326 functions.

Additional design support is available from Silicon

Laboratories through your distributor.

Silicon Laboratories has developed a PC-based

software utility called DSPLLsim to simplify device

configuration, including frequency planning and loop

bandwidth selection. The FRM and this utility can be

downloaded from http://www.silabs.com/timing.

external,

high

Results

quality

clock

Si5326

low-cost

SI5326C-C-GMR Silicon Laboratories Inc, SI5326C-C-GMR Datasheet - Page 19

SI5326C-C-GMR

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