MK1714-01RILF IDT, Integrated Device Technology Inc, MK1714-01RILF Datasheet - Page 4

MK1714-01RILF

Manufacturer Part Number

MK1714-01RILF

Description

IC CLK MULT SPRD SPECTRUM 20QSOP

Manufacturer

IDT, Integrated Device Technology Inc

Type

Clock Multiplierr

Datasheet

1.MK1714-01RLFTR.pdf (9 pages)

Specifications of MK1714-01RILF

Pll

Yes with Bypass

Input

Clock, Crystal

Output

CMOS

Number Of Circuits

Ratio - Input:output

1:2

Differential - Input:output

No/No

Frequency - Max

200MHz

Divider/multiplier

No/Yes

Voltage - Supply

3 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-QSOP

Frequency-max

200MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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External Components

The MK1714-01 requires a minimum number of external

components for proper operation.

Decoupling Capacitor

A decoupling capacitor of 0.01µF must be connected

between VDD and GND, 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 outputs and the

loads are 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 .

Crystal Tuning Load Capacitors

Crystal Load Capacitors

The device crystal connections should include pads for

small capacitors from X1 to ground and from X2 to ground.

These capacitors are used to adjust the stray capacitance of

the board to match the nominally required crystal load

capacitance. Because load capacitance can only be

increased in this trimming process, it is important to keep

stray capacitance to a minimum by using very short PCB

traces (and no vias) between the crystal and device. Crystal

capacitors must be connected from each of the pins X1 and

X2 to ground.

The value (in pF) of these crystal caps should equal

pF. Example: For a crystal with a 16 pF load capacitance,

each crystal capacitor would be

[16 - 6]*2 = 20pF.

If the output frequency is not critical, external load

capacitors are not necessary.

PCB Layout Recommendations

For optimum device performance and lowest output phase

noise, the following guidelines should be observed.

IDT™ SPREAD SPECTRUM MULTIPLIER CLOCK

MK1714-01

SPREAD SPECTRUM MULTIPLIER CLOCK

-6)*2. In this equation, C

= crystal load capacitance in

1) The 0.01µF decoupling capacitor should be mounted on

the component side of the board as close to the VDD pin as

possible. No vias should be used between decoupling

capacitor and VDD pin. The PCB trace to VDD pin should

be kept as short as possible, as should the PCB trace to the

ground via. Distance of the ferrite bead and bulk decoupling

from the device is less critical.

2) The external crystal should be mounted just next to the

device with short traces. The X1 and X2 traces should not

be routed next to each other with minimum spaces, instead

they should be separated and away from other traces.

3) To minimize EMI the 33 series termination resistor, if

needed, should be placed close to the clock output.

4) An optimum layout is one with all components on the

same side of the board, minimizing vias through other signal

layers (the ferrite bead and bulk decoupling capacitor can be

mounted on the back). Other signal traces should be routed

away from the MK1714-01. This includes signal traces just

underneath the device, or on layers adjacent to the ground

plane layer used by the device.

Powerup Considerations

To insure proper operation of the spread spectrum

generation circuit, some precautions must be taken in the

implementation of the MK1714-01.

1) An input signal should not be applied to X1 until VDD is

stable (within 10% of its final value). This requirement can

be easily met by operating the MK1714-01 and the X1

source from the same power supply. This requirement is not

applicable if a crystal is used.

2) LEE should not be enabled (taken high) until after the

power supplies and input clock are stable. This requirement

can be met by direct control of LEE by system logic; for

example, a “power good” signal. Another solution is to leave

LEE unconnected but place a 0.01 F capacitor to ground.

The pull-up resistor on LEE will charge the capacitor and

provide approximately a 700 s delay until spread spectrum

is enabled.

3) If the input frequency is changed during operation,

disable spread spectrum until the input clock stabilizes at

the new frequency.

MK1714-01

REV L 051310

SSCG

MK1714-01RILF IDT, Integrated Device Technology Inc, MK1714-01RILF Datasheet - Page 4

MK1714-01RILF

Specifications of MK1714-01RILF

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