SI5364-EVB Silicon Laboratories Inc, SI5364-EVB Datasheet - Page 2

SI5364-EVB

Manufacturer Part Number

SI5364-EVB

Description

BOARD EVALUATION FOR SI5364

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI5364-EVB.pdf (14 pages)

2.SI5364-H-BL.pdf (38 pages)

Specifications of SI5364-EVB

Main Purpose

Timing, Clock Generator

Utilized Ic / Part

SI5364

Processor To Be Evaluated

SI5364

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1146

Current page: 2 of 14
Download datasheet (2Mb)

Si 5364- EV B

Functional Description

The Si5364-EVB is the evaluation board for the Si5364

SONET/SDH Precision Port Card Clock IC. This

evaluation

associated with normal operation of the device. This

circuit board also is designed to provide access to signals

that are reserved for factory testing purposes.

Power Supply Selection and Connections

The Si5364-EVB board is switch selectable for

operation using either a single 3.3 V or a single 2.5 V

supply.

For operation using a 3.3 V supply, configure the board

as follows:

1. Remove power supply connections from the VDD and

2. Remove the connection between VDD33 and VDD25 by

3. Set VSEL33 high by sliding the switch on the VSEL33

4. Connect the power supply ground lead and 3.3 V supply

For operation using a 2.5 V supply, configure the board

as follows:

1. Remove power supply connections from the VDD and

2. Set VSEL33 low by sliding the switch on the VSEL33 (JP3)

3. Connect VDD33 and VDD25 by installing a jumper

4. Connect the power supply ground lead and 2.5 V supply

Power Consumption

Typical supply current draw for the Si5364-EVB with LED

indicators disabled and one clock output enabled is

120 mA. Each additional clock output that is enabled

adds approximately 15 mA. LED indicators, when

enabled, adds approximately 8 mA for each indicator that

is illuminated.

Si5364 Control Inputs

Most of the control inputs to the Si5364 are routed to the

center post of a SPDT switch located at JP1. The

switches are wired with the signal on the center pin,

VDD33 on one side pin, and GND on the other side pin.

Each input is easily configurable to a high or a low state.

There are three inputs to the Si5364 that are not routed to

switches at JP1. Two of these signals are INCDELAY and

GND terminals of the board’s power connector, J15.

removing the jumper on header JPI.

(JP3) to the side marked “1”.

lead to the GND and VDD terminals of the board’s power

connector, J15.

GND terminals of the board’s power connector, J15.

to the side marked “0”.

between one of the 3.3 V pins and one of the 2.5 V pins on

header JPI.

lead to the GND and VDD terminals of the board’s power

connector, J15.

board

provides

access

all

Preliminary Rev. 0.33

signals

DECDELAY. They are routed to push button switches

SW1 and SW2, respectively, through headers JP4 and

JP5. Inverters U6 and U7 condition the action of these

switches before being sent to the Si5364 device.

Pressing and releasing these switches provides a single

pulse to the control input for the Si5364. This is a

convenient method for evaluating the operation of the

INCDELAY and DECDELAY functions. Resistors R26

and R27 allow the user to disconnect the switches from

the device and drive the inputs from another source. JP4

and JP5 are not populated when shipped from the

factory. If an external source is required to drive the

INCDELAY and DECDELAY inputs, then populate these

two headers. This provides the user a convenient location

to connect the source.

Each LVTTL input on the Si5364 device has an internal

pull-down mechanism. The control inputs default to a low

state if no device drives the input.

RSTN/CAL Settings for Normal Operation

and Self-Calibration

The RSTN/CAL signal is an LVTTL input to the Si5364

and has an on-chip pull down mechanism. This pin must

be set high to enable normal operation of the Si5364

device.

Setting RSTN/CAL low forces the Si5364 into a reset

state. A low-to-high transition of RSTN/CAL enables the

part and initiates a self-calibration sequence.

The Si5364 device automatically initiates a self-

calibration at power-up if the RSTN/CAL signal is held

high. A self-calibration of the device also can be manually

initiated by pushing the RSTN/CAL switch, SW3, then

releasing. Self-calibration must be initiated manually after

changing the state of either the BWSEL[1:0] control

inputs or the FEC[1:0] inputs.

Whether manually initiated or automatically initiated at

power-up, the self-calibration process requires the

presence of a valid input clock. If the self-calibration is

initiated without a valid clock present, the device waits for

a valid clock before completing the self-calibration. The

Si5364 clock outputs drift to the lower end of the

operating frequency range as the device waits for a valid

clock. After the input clock is validated, the calibration

process runs to completion, the device locks to the input,

and the clock outputs shifts to their target frequencies.

Subsequent losses of the input clock do not require re-

calibration. If the clock input is lost after self-calibration,

the device enters Digital Hold mode. When the input

clock returns, the device re-locks to the input clock

without performing a self-calibration.

SI5364-EVB Silicon Laboratories Inc, SI5364-EVB Datasheet - Page 2

SI5364-EVB

Specifications of SI5364-EVB

Related parts for SI5364-EVB