MK3754BLFTR Datasheet MK3754DLF, MK3754BLFTR, MK3754DLFTR | P1-P3

DATASHEET

LOW COST 54 MHZ 3.3 VOLT VCXO MK3754

IDT™ / ICS™

LOW COST 54 MHZ 3.3 VOLT VCXO 1

MK3754 REV H 072805

Description

The MK3754D and MK3754B are drop-in replacements for

the MK3754S device. Compared to these earlier devices

the MK3754D and MK3754B offer a wider operating

frequency range and improved power supply noise

rejection.

The MK3754 is ICS’ lowest cost, low jitter, high

performance 3.3 Volt VCXO and PLL clock synthesizer

designed to replace expensive 54 MHz VCXOs. The

on-chip Voltage Controlled Crystal Oscillator accepts a 0 to

3.3 V input voltage to vary the output clocks by ±100 ppm.

Using ICS’ patented VCXO and analog/digital

Phase-Locked Loop (PLL) techniques, the device uses an

inexpensive external 13.5 MHz pullable crystal input to

produce a 54 MHz output clock.

The MK3754D exhibits a moderate VCXO gain of

120 ppm/V typical, when used with a high quality external

pullable quartz crystal. The MK3754B offers a higher

VCXO gain of 150 ppm/V. The higher intrinsic VCXO gain

of the MK3754B may help compensate for the reduced

pullability of a low quality crystal used in some applications.

However, higher VCXO gain may also increase clock output

phase noise.

The frequency of the on-chip VCXO is adjusted by an

external control voltage input into pin VIN. Because VIN is a

high impedance input, it can be driven directly from an

PWM RC integrator circuit. Frequency output increases

with VIN voltage input. The usable range of VIN is 0 to 3 V.

Features

• MK3754D and MK3754B are drop-in upgrades to the

earlier MK3754S device

• Packaged in 8-pin SOIC

• Available in Pb (lead) free package

• Operating voltage of 3.3 V

• Uses an inexpensive 13.500 MHz external crystal

• On-chip VCXO (patented) with pull range of 200 ppm

(minimum)

• VCXO turning voltage of 0 to 3.3V

• 12 mA output drive capability at TTL levels

• Advanced, low power, sub-micron CMOS process

MK3754D is Recommended for New Designs.

Block Diagram

54 MHz

Voltage

Controlled

Crystal

Oscillator

VIN

13.5 MHz

Pullable

Crystal

PLL/Clock

Synthesis

Circuitry

VDD

GND

MK3754

LOW COST 54 MHZ 3.3 VOLT VCXO VCXO AND MULTIPLIER

IDT™ / ICS™

LOW COST 54 MHZ 3.3 VOLT VCXO 2

MK3754 REV H 072805

Pin Assignment

Pin Descriptions

VDD

VIN

GND

CLK

VDD

X21

MK3754S

MK3754B

MK3754D

8 Pin (150 mil) SOIC

Number

Name

Type

Pin Description

1 XI Input Crystal connection. Connect to the external pullable crystal.

2 VDD Power Connect to +3.3 V (0.01uf decoupling capacitor recommended).

3 VIN Input Voltage input to VCXO -- 0 to 3.3 V analog input which controls the

oscillation frequency of the VCXO.

4 GND Power Connect to ground.

5 VDD Power Connect to +3.3 V (0.01uf decoupling capacitor recommended).

6 CLK Output 54 MHz clock output.

7 GND Power Connect to ground.

8 X2 Input Crystal connection. Connect to the external pullable crystal.

MK3754

LOW COST 54 MHZ 3.3 VOLT VCXO VCXO AND MULTIPLIER

IDT™ / ICS™

LOW COST 54 MHZ 3.3 VOLT VCXO 3

MK3754 REV H 072805

External Component Selection

The MK3754 requires a minimum number of external

components for proper operation.

Decoupling Capacitor

A decoupling capacitor of 0.01 µF 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 50Ω trace (a commonly used

trace impedance) place a 33Ω resistor in series with the

clock line, as close to the clock output pin as possible. The

nominal impedance of the clock output is 20Ω.

Quartz Crystal

The MK3754 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

MK3754 incorporates on-chip variable load capacitors that

“pull” (change) the frequency of the crystal. The crystal

specified for use with the MK3754 is designed to have zero

frequency error when the total of on-chip + stray

capacitance is

14 pF.

Recommended Crystal Parameters:

Initial Accuracy at 25

°C ±20 ppm

Temperature Stability ±30 ppm

Aging ±20 ppm

Load Capacitance 14 pf

Shunt Capacitance, C0 7 pF Max

C0/C1 Ratio 250 Max

Equivalent Series Resistance 35 Ω 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 MK3754. 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.

The procedure for determining the value of these capacitors

can be found in application note MAN05.

P1-P3 P4-P6 P7-P7

MK3754BLFTR

Mfr. #:

Buy MK3754BLFTR

Manufacturer:

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Description:

Clock Synthesizer / Jitter Cleaner LOW COST 54MHZ 3.3V VCXO

Lifecycle:

New from this manufacturer.

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MK3754BLFTR

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