MK3727 Integrated Circuit System, MK3727 Datasheet - Page 3

MK3727

Manufacturer Part Number

MK3727

Description

Low Cost 27 MHZ 3.3v Vcxo

Manufacturer

Integrated Circuit System

Datasheet

1.MK3727.pdf (6 pages)

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MDS 3727 E

Int egrat ed C ircuit Syste ms

External Component Selection

The MK3727 requires a minimum number of external

components for proper operation.

Decoupling Capacitor

A decoupling capacitor of 0.01µF must be connected

between VDD (pin 2) and GND (pin 4), as close to

these pins as possible. For optimum device

performance, the decoupling capacitor should be

mounted on the component side of the PCB. Avoid the

use of vias in the decoupling circuit.

Series Termination Resistor

When the PCB trace between the clock output (CLK,

pin 5) and the load is over 1 inch, series termination

should be used. To series terminate a 50 trace (a

commonly used trace impedance) place a 33 resistor

in series with the clock line, as close to the clock output

pin as possible. The nominal impedance of the clock

output is 20 .

Quartz Crystal

The MK3727 VCXO function consists of the external

crystal and the integrated VCXO oscillator circuit. To

assure the best system performance (frequency pull

range) and reliability, a crystal device with the

recommended parameters (shown below) must be

used, and the layout guidelines discussed in the

following section shown must be followed.

The frequency of oscillation of a quartz crystal is

determined by its “cut” and by the load capacitors

connected to it. The MK3727 incorporates on-chip

variable load capacitors that “pull” (change) the

frequency of the crystal. The crystal specified for use

with the MK3727 is designed to have zero frequency

error when the total of on-chip + stray capacitance is

14pF.

Recommended Crystal Parameters:

Initial Accuracy at 25 C

Temperature Stability

Aging

Load Capacitance

Shunt Capacitance, C0

C0/C1 Ratio

Equivalent Series Resistance

525 R ace S tr eet, San Jose, CA 95126

7 pF Max

±20 ppm

±30 ppm

±20 ppm

250 Max

14 pf

Max

The external crystal must be connected as close to the

chip as possible and should be on the same side of the

PCB as the MK3727. There should be no via’s between

the crystal pins and the X1 and X2 device pins. There

should be no signal traces underneath or close to the

crystal.

Crystal Tuning Load Capacitors

The crystal traces should include pads for small fixed

capacitors, one between X1 and ground, and another

between X2 and ground. Stuffing of these capacitors

on the PCB is optional. The need for these capacitors

is determined at system prototype evaluation, and is

influenced by the particular crystal used (manufacture

and frequency) and by PCB layout. The typical required

capacitor value is 1 to 4 pF.

To determine the need for and value of the crystal

adjustment capacitors, you will need a PC board of

your final layout, a frequency counter capable of about

1 ppm resolution and accuracy, two power supplies,

and some samples of the crystals which you plan to

use in production, along with measured initial accuracy

for each crystal at the specified crystal load

capacitance, CL.

To determine the value of the crystal capacitors:

1. Connect VDD of the MK3727 to 3.3V. Connect pin 3

of the MK3727 to the second power supply. Adjust the

voltage on pin 3 to 0V. Measure and record the

frequency of the CLK output.

2. Adjust the voltage on pin 3 to 3.3V. Measure and

record the frequency of the same output.

To calculate the centering error:

Where:

error

being measured

If the centering error is less than ±25 ppm, no

adjustment is needed. If the centering error is more

than 25ppm negative, the PC board has excessive

stray capacitance and a new PCB layout should be

target

Error

xtal

= nominal crystal frequency

=actual initial accuracy (in ppm) of the crystal

OST

t el (40 8) 295 -9800

----------------------------------------------------------------------------- -

3.0V

24 - 36 MH

–

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–

3.3 V

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w ww. ic s t .c o m

Revision 032603

OLT

MK3727

–

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VCXO

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MK3727 Integrated Circuit System, MK3727 Datasheet - Page 3

MK3727

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