SI5367/68-EVB Silicon Laboratories Inc, SI5367/68-EVB Datasheet - Page 4

SI5367/68-EVB

Manufacturer Part Number

SI5367/68-EVB

Description

BOARD EVAL FOR SI5367/68

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI536566-EVB.pdf (28 pages)

2.SI536768-EVB.pdf (18 pages)

Specifications of SI5367/68-EVB

Main Purpose

Timing, Clock Generator

Utilized Ic / Part

SI5367, SI5368

Processor To Be Evaluated

Si5367 and Si5368

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Si5365/66-EVB

Si5367/68-EVB

5.3. Si536x Input and Output Clocks

The Si536x has four differential inputs that are ac terminated to 50 Ω and then ac coupled to the part. Single ended

operation can be implemented by simply not connecting to one of the two of the differential pairs.

The four clock outputs are all differential, ac coupled and configured for driving 50 Ω transmission lines. When

using single ended outputs, it is important that the unused half of the output be terminated. Given that the

Frame Sync signal can have a duty cycle that is far from 50%, the Frame Sync outputs are dc coupled. If the

Frame Sync signal is configured for CMOS output, then the two outputs are not complements of one another and

should be wired in parallel so that the output drive current is doubled. To evaluate CMOS level Frame Sync

outputs, a 0 Ω resistor should be installed at R19. Note that for the MCU controlled parts (Si5367 and Si5368), the

Frame Sync output signal format can be configured independently of the other four outputs.

Two jumpers are provided to assist in monitoring the Si536x power. When R36 is removed, J25 can be used to

measure the device current. J18 can be used at any time to monitor the supply voltage at the device.

The Si5366 and Si5368 require that an external reference clock be provided to enable the devices to operate as

narrowband jitter attenuators with loop bandwidths as low as 60 Hz. The external reference clock can be either a

crystal, a stand-alone oscillator or some other clock source. The range of acceptable reference frequencies is

described in the Any-Rate Precision Clocks Family Reference Manual (Si53xx-RM). The EVB's are shipped with a

3rd overtone 114.285 MHz crystal that is used in the majority of applications. J1 and J2 are used when the Si536x

is to be configured in narrowband mode with an external reference oscillator (i.e. without using the 114.285 MHz

crystal). When operating in wideband mode, the reference oscillator should be disabled and so that it cannot add to

the output phase noise.

The RATE pins should also be configured for the desired mode, either through DSPLLsim or using the jumper

plugs at J17 (see Table 7).

Table 2 shows how the various components should be configured for the three modes of operation:

DUT PWR

USB

+3.3 V

+1.8 V

Vreg

MCU

reg addr

SPI bus

1.8 to 3.3 V

Figure 2. Si536x TQFP Block Diagram

Reset

switch

CPLD

LEDs

Input

SMAs

Rev. 0.4

Jumper

Headers

Terminate

Control signals

Ext RefClk

Si536x

CKOUT1

CKOUT2

CKOUT3

CKOUT4

FSOUT

SPI, I

status signals

C signals

Output

SMAs

SI5367/68-EVB Silicon Laboratories Inc, SI5367/68-EVB Datasheet - Page 4

SI5367/68-EVB

Specifications of SI5367/68-EVB

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