MK2049-36SI IDT, Integrated Device Technology Inc, MK2049-36SI Datasheet - Page 4

MK2049-36SI

Manufacturer Part Number

MK2049-36SI

Description

IC VCXO PLL CLK SYNTH 20-SOIC

Manufacturer

IDT, Integrated Device Technology Inc

Type

PLL Clock Synthesizerr

Datasheet

1.MK2049-36SILFTR.pdf (8 pages)

Specifications of MK2049-36SI

Pll

Yes

Input

Clock

Output

Clock

Number Of Circuits

Ratio - Input:output

1:3

Differential - Input:output

No/No

Frequency - Max

77.76MHz

Divider/multiplier

Yes/Yes

Voltage - Supply

3.15 V ~ 3.45 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-SOIC

Frequency-max

44.736MHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Frequency Locking to the Input

In all modes, the output clocks are frequency-locked to the input. The outputs will remain at the specified output frequency

as long as the combined variation of the input frequency and the crystal does not exceed 100 ppm. For example, if the

crystal can vary ±40 ppm (initial accuracy + temperature + aging), then the input frequency can vary by up to 60 ppm and

still have the output clock remain frequency-locked.

PC Board Layout

A proper board layout is critical to the successful use of the MK2049. In particular, the CAP1 and CAP2 pins are very

sensitive to noise and leakage (CAP2 at pin 18 is the most sensitive). Traces must be as short as possible and the two

capacitors and resistor must be mounted next to the device as shown below. The capacitor shown between pins 15 and 17,

and the one between pins 4 and 7 are the power supply decoupling capacitors. The high frequency output clocks on pins 8

and 9 should have a series termination of 33 connected close to the pin. Additional improvements will come from keeping

all components on the same side of the board, minimizing vias through other signal layers, and routing other signals away

from the MK2049. You may also refer to application note MAN05 for additional suggestions on layout of the crystal selection.

The crystal traces should include pads for small capacitors from X1 and X2 to ground. These are used to adjust the stray

capacitance of the board to match the crystal load capacitance. The typical telecom reference frequency is accurate to

much less than 1 ppm, so the MK2049 may lock and run properly even if the board capacitance is not adjusted with these

fixed capacitors. However, IDT recommends that the adjustment capacitors be included to minimize the effects of variation

in individual crystals, temperature, and aging. The value of these capacitors (typically 0 - 4 pF) is determined once for a

given board layout, using the procedure found in application note MAN05 on the IDT web site.

External Component Selection

The MK2049-36 requires a minimum number of external components for proper operation. Decoupling capacitors of 0.01 F

must be connected between VDD and GND pins close to the chip (especially pins 4 and 7, 15 and 17), and 33 series

terminating resistors should be used on clock outputs with traces longer than one inch (assuming 50 traces). The selection

of additional external components is described in the following sections.

IDT® 3.3 VOLT COMMUNICATIONS CLOCK PLL

MK2049-36

3.3 VOLT COMMUNICATIONS CLOCK PLL

Optional -

see text

Figure 2. Typical MK2049-34 Layout

resist

cap

resist

Cutout in ground and power plane.

Route all traces away from this area.

resist

= connect to VDD

= connect to GND

resist

cap

VCXO AND SYNTHESIZER

MK2049-36

REV G 051310

MK2049-36SI IDT, Integrated Device Technology Inc, MK2049-36SI Datasheet - Page 4

MK2049-36SI

Specifications of MK2049-36SI

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