SY87739LHI-EVAL Micrel Inc, SY87739LHI-EVAL Datasheet - Page 5

SY87739LHI-EVAL

Manufacturer Part Number

SY87739LHI-EVAL

Description

BOARD EVAL N SY87739 EXPERIMENT

Manufacturer

Micrel Inc

Datasheets

1.SY87739LHI-EVAL.pdf (12 pages)

2.SY87739LHI-EVAL.pdf (13 pages)

Specifications of SY87739LHI-EVAL

Main Purpose

Timing, Frequency Synthesizer

Embedded

Utilized Ic / Part

SY87739

Primary Attributes

Single Integer-N PLL

Secondary Attributes

729MHz, Graphical User Interface, PECL Inputs and Outputs, 3.3V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

576-1406
SY87739L-EVAL

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Micrel, Inc.

“739ev” application. If, instead of running, you get a message

box like that in Figure 9, you’ve performed one or more of

the above steps incorrectly. Re-read this section carefully,

and try again.

Using the Application Software

calculation module “739ifier”, and a download module,

“739ev.” There can be only one instance of the download

module running at any given time, but there can be any

number of instances of the calculation module running,

easing testing at multiple frequencies.

Using the Calculation Module:

below.

burden on the designer using SY87729/39L. Instead of

manually figuring out the configuration values, the calculation

module will determine the optimal configuration parameters,

based on three inputs.

displays several outputs. The first input accepted is the

reference frequency of the clock being provided to the

SY87729/39L. This goes in the “Reference” edit box. When

starting an instance of the calculation module, this edit box

is preset to 27MHz, the frequency Micrel recommends when

synthesizing clocks for standard protocols. This also happens

to be the frequency of the on-board reference oscillator

provided with the SY87729/39L evaluation board. Should

the user wish to use a different reference frequency, type it

in here.

M9999-071906

hbwhelp@micrel.com or (408) 955-1690

Desired Output

Status Shows

Click the “OK” button. Check your work by running the

The application software consists of two components, a

The parts of the calculation module appear in Figure 10

Reservation

The purpose of the calculation module is to ease the

The calculation module accepts these three inputs, and

Frequency

Out Displays

Goes Here

Frequency

Wrapper

Up Here

Choose

Actual

Here

Figure 9. Error Message if “Direct-IO”

Figure 10. The Calculation Module

Incorrectly Installed

Reference Frequency

Goes Here

SY87739L

Parameters

Show Up

Here

This Button

Puts

Parameters

in the

Download

Program

edit boxes. To ease typing, you may use the suffix “m” or

“k” for “mega” or “kilo” respectively. For example, to type in

27MHz, you can strike the following keys: “2”, “7”, and “m”.

reserve the wrapper synthesizer on the SY87729/39L. In

most circumstances, the wrapper synthesizer should be

used. That is why the calculation module starts with the

“Use” radio button selected in the “Wrapper” group box.

This tells the calculation module to use the wrapper

synthesizer, if there is some advantage in doing so, to

generate the target output frequency.

click on the “Reserve” radio button in the “Wrapper” group

box. This tells the calculation module to not use the wrapper

synthesizer when generating output frequencies. The “M”

and “N” parameters will always be 14, indicating that the

wrapper synthesizer is not modifying the output of the

fractional-N synthesizer.

synthesizer generally results in a better output frequency,

smaller frequency error, and lower jitter. An example where

the user might wish to reserve (not use) the wrapper

synthesizer is in an application where not only several data

rates may need to be accepted, but also these data rates

may or may not optionally be modified with some FEC or

digital wrapper. Perhaps a DWDM input would need to

accept a list of possible inputs. But, these may have no

FEC, an ITU standard FEC, or a proprietary digital wrapper

for each input data rate.

rates to accept, and from these, a list of desired reference

clocks the SY87729/39L would need to generate. From this

list, generate a list triple in size. From this new, larger list,

type in each frequency and record the SY87729/39L

configuration parameters that would generate these.

synthesizer, and then to form a list of configuration

parameters for just the base frequencies. The user would

then modify just the “M” and “N” parameters to allow without

FEC, with FEC, or with digital wrapper.

keep in mind that the output frequency range is from 9MHz

to 729MHz. Like the input frequency, you can use suffixes.

As an example, let’s synthesize 8,900,000Hz from a 27MHz

input. Launch “739ifier”. The input frequency is already set

to 27MHz, the wrapper is already set to be used, and the

cursor is ready to accept an output frequency. Type “8”, “.”,

“9”, and “m”. You will get a beep. The status line, the line

just below the output frequency, begins with the word

FAILED, like in Figure 11. It is VERY IMPORTANT to note

that NONE of the SY87729/39L parameters, even if

displayed, is valid when the status line begins with either

the word FAILED or the word STALE.

A note on entering data in the “Reference” or “739 Output”

The second input is the user’s decision whether or not to

On the other hand, to reserve the wrapper synthesizer,

As shown later in this document, using the wrapper

One technique would be to create an initial list of data

An alternative would be to reserve the wrapper

The third input is the desired output frequency. Please

Evaluation Board

SY87729/39L

SY87739LHI-EVAL Micrel Inc, SY87739LHI-EVAL Datasheet - Page 5

SY87739LHI-EVAL

Specifications of SY87739LHI-EVAL

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