Si5369-EVB Silicon Laboratories Inc, Si5369-EVB Datasheet - Page 20

MCU, MPU & DSP Development Tools SI5369 DEV KIT

Si5369-EVB

Manufacturer Part Number

Si5369-EVB

Description

MCU, MPU & DSP Development Tools SI5369 DEV KIT

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI5369-EVB.pdf (30 pages)

2.SI5369-EVB.pdf (84 pages)

Specifications of Si5369-EVB

Processor To Be Evaluated

Si5369

Interface Type

I2C, SPI

Operating Supply Voltage

3.3 V

Lead Free Status / Rohs Status

Details

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3. Functional Description

The Si5369 is a jitter-attenuating precision clock multiplier

for applications requiring sub 1 ps rms jitter performance.

The Si5369 accepts four clock inputs ranging from 2 kHz

to 710 MHz and generates five clock outputs ranging from

2 kHz to 945 MHz and select frequencies to 1.4 GHz. The

device provides virtually any frequency translation

combination across this operating range. Independent

dividers are available for every input clock and output

clock, so the Si5369 can accept input clocks at different

frequencies and it can generate output clocks at different

frequencies. The Si5369 input clock frequency and clock

multiplication ratio are programmable through an I

SPI interface. Optionally, the fifth clock output can be

configured as a 2 to 512 kHz SONET/SDH frame

synchronization output that is phase aligned with one of

the high-speed output clocks. Silicon Laboratories offers a

PC-based software utility, DSPLLsim, that can be used to

determine the optimum PLL divider settings for a given

input frequency/clock multiplication ratio combination that

minimizes phase noise and power consumption. This

utility

http://www.silabs.com/timing

The Si5369 is based on Silicon Laboratories' 3rd-

generation DSPLL

frequency synthesis and jitter attenuation in a highly

integrated PLL solution that eliminates the need for

external VCXO and loop filter components. The Si5369

PLL loop bandwidth is digitally programmable and

supports a range from 4 to 525 Hz. The DSPLLsim

software utility can be used to calculate valid loop

bandwidth settings for a given input clock frequency/clock

multiplication ratio.

The Si5369 supports hitless switching between input

clocks in compliance with GR-253-CORE and GR-1244-

CORE that greatly minimizes the propagation of phase

transients to the clock outputs during an input clock

transition (<200 ps typ). Manual, automatic revertive and

non-revertive input clock switching options are available.

The Si5369 monitors the four input clocks for loss-of-

signal and provides a LOS alarm when it detects missing

pulses on any of the four input clocks. The device

monitors the lock status of the PLL. The lock detect

algorithm works by continuously monitoring the phase of

the input clock in relation to the phase of the feedback

clock. The Si5369 monitors the frequency of CKIN1,

CKIN2, CKIN3, and CKIN4 with respect to a selected

reference frequency and generates a frequency offset

alarm (FOS) if the threshold is exceeded. This FOS

feature is available for SONET applications in which both

the monitored frequency on CKIN1, CKIN3, and CKIN4

and the reference frequency are integer multiples of 19.44

MHz. Both Stratum 3/3E and SONET Minimum Clock

(SMC) FOS thresholds are supported.

The Si5369 provides a digital hold capability that allows

the device to continue generation of a stable output clock

when the selected input reference is lost. During digital

can

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hold, the DSPLL generates an output frequency based on

a historical average that existed a fixed amount of time

before the error event occurred, eliminating the effects of

phase and frequency transients that may occur

immediately preceding digital hold.

The Si5369 has five differential clock outputs. The

electrical format of the clock outputs is programmable to

support LVPECL, LVDS, CML, or CMOS loads. If not

required, unused clock outputs 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.

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. Consult the DSPLLsim

configuration software to determine the phase offset

resolution for a given input clock/clock multiplication ratio

combination. For system-level debugging, a bypass mode

is available which drives the output clock directly from the

input clock, bypassing the internal DSPLL. The device is

3.1. External Reference

An external clock or a low-cost 114.285 MHz 3rd overtone

crystal is typically used as part of a fixed-frequency

oscillator within the DSPLL. This external reference is

required for the device to operate. Silicon Laboratories

recommends using a high-quality crystal. Specific

recommendations may be found in the Family Reference

Manual. An external clock from a high-quality OCXO or

TCXO can also be used as a reference for the device.

In digital hold, the DSPLL remains locked to this external

reference. Any changes in the frequency of this reference

when the DSPLL is in digital hold, will be tracked by the

output of the device. Note that crystals can have

temperature sensitivities.

3.2. Further Documentation

Consult

Precision Clock Family Reference Manual (FRM) for

detailed information about the Si5369. 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; click on

Documentation.

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Silicon

Laboratories

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Si5369-EVB Silicon Laboratories Inc, Si5369-EVB Datasheet - Page 20

Si5369-EVB

Specifications of Si5369-EVB

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