SI52147-A01AGM Silicon_Laboratories, SI52147-A01AGM Datasheet - Page 8

SI52147-A01AGM

Manufacturer Part Number

SI52147-A01AGM

Description

Specifications: Type: Clock/Frequency Generator, Fanout Buffer (Distribution), Multiplexer ; PLL: Yes ; Main Purpose: PCI Express (PCIe) ; Input: Clock, Crystal ; Output: Clock ; Number of Circuits: 1 ; Ratio - Input Output: 1 9 ; Differential - Inpu

Manufacturer

Silicon_Laboratories

Datasheet

1.SI52147-A01AGM.pdf (22 pages)

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Si52147

Use the following formulas to calculate the trim capacitor values for Ce1 and Ce2.

2.2. CKPWRGD_PDB (Power down) Clarification

The CKPWRGD_PDB pin is a dual-function pin. During initial power up, the pin functions as CKPWRGD. Upon the

first powerup if the CKPWRGD is low, the device outputs will be disabled, but the crystal oscillator and I

are active. Once CKPWRGD has been sampled high by the clock chip, the pin assumes a PDB functionality. When

the pin has assumed a PDB functionality and the pin is pull low, the device will be placed in standby mode.

2.3. PDB (Power down) Assertion

The PDB pin is an asynchronous active low input used to disable all clocks in a glitch free manner. All outputs will

be driven low in power down mode. In power down mode, all outputs, the crystal oscillator and the I

disabled.

2.4. PDB Deassertion

When a valid rising edge on CKPWRGD/PDB pin is applied, all outputs are enabled in a glitch free manner within

two to six output clock cycle.

2.5. OE Clarification

The OE pins are active high inputs used to enable and disable the output clocks. To enable the output clock, the OE

pin needs to be logic high and the I

the output clocks: the OE is pulled to a logic low, or the I

to be driven at all time and even though it has an internally 100 k resistor.

2.6. OE Assertion

The OE signals are active high input used for synchronous stopping and starting the DIFF output clocks respectively

while the rest of the clock generator continues to function. The assertion of the OE signal by making it logic high

causes stopped respective DIFF output to resume normal operation. No short or stretched clock pulses are produced

when the clock resumes. The maximum latency from the assertion to active outputs is no more than two to six output

clock cycles.

2.7. OE Deassertion

When the OE pin is deasserted by making its logic low, the corresponding DIFF output is stopped cleanly, and the

final output state is driven low.

2.8. SSON Clarification

SSON is an active input used to enable –0.5% spread on all DIFF outputs. When sampled high, –0.5% spread is

enabled on all DIFF outputs. When sampled low, the DIFF output frequencies are non-spread.

CLe



CL: Crystal load capacitance

CLe: Actual loading seen by crystal using standard value trim capacitors

Ce: External trim capacitors

Cs: Stray capacitance (terraced)

Ci : Internal capacitance (lead frame, bond wires, etc.)

Total Capacitance (as seen by the crystal)

(

Load Capacitance (each side)

Ce1 + Cs1 + Ci1

Ce = 2 x CL – (Cs + Ci)

Ce2 + Cs2 + Ci2

C output enable bit needs to be logic high. There are two methods to disable

Preliminary Rev. 0.1

)

C enable bit is set to a logic low. The OE pins is required

C logic are

C logics

SI52147-A01AGM Silicon_Laboratories, SI52147-A01AGM Datasheet - Page 8

SI52147-A01AGM

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