SI5315-EVB Silicon Laboratories Inc, SI5315-EVB Datasheet - Page 30

SI5315-EVB

Manufacturer Part Number

SI5315-EVB

Description

BOARD EVAL SI5315 8KHZ-644.53MHZ

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI5315B-C-GM.pdf (58 pages)

2.SI5315-EVB.pdf (22 pages)

Specifications of SI5315-EVB

Main Purpose

Timing, Clock Multiplier

Embedded

Utilized Ic / Part

SI5315

Primary Attributes

2 Inputs, 2 Outputs

Secondary Attributes

CML, CMOS, LVDS, LVPECL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Si5315

4.2. PLL Self-Calibration

An internal self-calibration (ICAL) is performed before operation to optimize loop parameters and jitter

performance. While the self-calibration is being performed, the DSPLL is being internally controlled by the self-

calibration state machine. The LOL alarm will be active during ICAL. The self-calibration time t

Table 3, “AC Characteristics”.

Any of the following events will trigger a self-calibration:



In any of the above cases, an internal self-calibration will be initiated if a valid input clock exists (no input alarm)

and is selected as the active clock at that time. The external crystal or reference clock must also be present for the

self-calibration to begin. If valid clocks are not present, the self-calibration state machine will wait until they appear,

at which time the calibration will start. An output clock will be active while waiting for a valid input clock. The output

clock frequency is based on the VCO range determine by FRQSEL and FRQTBL settings. This output clock will

vary by +/-20%. If no output clock is desired prior to an ICAL, then the appropriate SFOUT setting is required.

After a successful self-calibration has been performed with a valid input clock, no subsequent self calibrations are

performed unless one of the above conditions are met. If the input clock is lost following self-calibration, the device

enters holdover mode. When the input clock returns, the device relocks to the input clock without performing a self-

calibration.

4.2.1. Input Clock Stability during Internal Self-Calibration

An exit from reset must occur when the selected CKINn clock is stable in frequency with a frequency value that is

within the device operating range. The other CKINs must also either be stable in frequency or squelched during a

reset.

4.2.2. Self-Calibration caused by Changes in Input Frequency

If the selected CKINn varies by 500 ppm or more in frequency since the last calibration, the device may initiate a

self-calibration.

4.2.3. Device Reset

Upon powerup, the device internally executes a power-on-reset (POR) which resets the internal device logic. The

pin RST can also be used to initiate a reset. The device stays in this state until a valid CKINn is present, when it

then performs a PLL Self-Calibration (See 4.2. "PLL Self-Calibration”).

Power-on-reset (POR)

Release of the external reset pin RST (transition of RST from 0 to 1)

Change in FRQSEL, FRQTBL, BWSEL, or XTAL/CLOCK pins

Internal DSPLL registers out-of-range, indicating the need to relock the DSPLL

Rev. 0.26

LOCKHW

is given in

SI5315-EVB Silicon Laboratories Inc, SI5315-EVB Datasheet - Page 30

SI5315-EVB

Specifications of SI5315-EVB

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