mpc92439 Integrated Device Technology, mpc92439 Datasheet - Page 10

mpc92439

Manufacturer Part Number

mpc92439

Description

900mhz, Low Voltage, Lvpecl Clock Syntheesizer

Manufacturer

Integrated Device Technology

Datasheet

1.MPC92439.pdf (15 pages)

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MPC92439 Data Sheet

data sheet, the V

2.835 V must be maintained on the V

drop criteria. The RC filter pictured will provide a broadband filter with

approximately 100:1 attenuation for noise whose spectral content is

above 20 kHz. As the noise frequency crosses the series resonant

point of an individual capacitor its overall impedance begins to look

inductive and thus increases with increasing frequency. The parallel

capacitor combination shown ensures that a low impedance path to

ground exists for frequencies well above the bandwidth of the PLL.

Generally, the resistor/capacitor filter will be cheaper, easier to

implement and provide an adequate level of supply filtering. A higher

level of attenuation can be achieved by replacing the resistor with an

appropriate valued inductor. A 1000 µH choke will show a significant

impedance at 10 kHz frequencies and above. Because of the current

draw and the voltage that must be maintained on the V

low DC resistance inductor is required (less than 15 Ω).

Layout Recommendations

thus a good power supply bypassing scheme is a must.

shows a representative board layout for the MPC92439. There exists

many different potential board layouts and the one pictured is but

one. The important aspect of the layout in

impedance connections between VCC and GND for the bypass

capacitors. Combining good quality general purpose chip capacitors

with good PCB layout techniques will produce effective capacitor

resonances at frequencies adequate to supply the instantaneous

switching current for the MPC92439 outputs. It is imperative that low

inductance chip capacitors are used; it is equally important that the

board layout does not introduce back all of the inductance saved by

using the leadless capacitors. Thin interconnect traces between the

capacitor and the power plane should be avoided and multiple large

vias should be used to tie the capacitors to the buried power planes.

Fat interconnect and large vias will help to minimize layout induced

inductance and thus maximize the series resonant point of the

bypass capacitors. Note the dotted lines circling the crystal oscillator

connection to the device. The oscillator is a series resonant circuit

and the voltage amplitude across the crystal is relatively small. It is

imperative that no actively switching signals cross under the crystal

as crosstalk energy coupled to these lines could significantly impact

the jitter of the device. Special attention should be paid to the layout

of the crystal to ensure a stable, jitter free interface between the

crystal and the on-board oscillator. Although the MPC92439 has

several design features to minimize the susceptibility to power supply

noise (isolated power and grounds and fully differential PLL), there

still may be applications in which overall performance is being

MPC92439 REVISION 4 OCTOBER 27, 2009

the V

CC_PLL

Figure 8

The MPC92439 provides sub-nanosecond output edge rates and

supply and the MPC92439 pin of the MPC92439. From the

pin) is maximum 20 mA, assuming that a minimum of

must have a resistance of 10–15 Ω to meet the voltage

Figure 8. V

CC_PLL

, C

= 0.01...0.1 µF

= 10-15 Ω

current (the current sourced through the

CC_PLL

= 22 µF

Power Supply Filter

CC_PLL

Figure 9

pin. The resistor shown

MPC92439

CC_PLL

is the low

CC_PLL

Figure 9

pin, a

degraded due to system power supply noise. The power supply filter

and bypass schemes discussed in this section should be adequate

to eliminate power supply noise related problems in most designs.

The On-Chip Crystal Oscillator

minimize system implementation cost. The integrated oscillator is a

Pierce-type that uses the crystal in its parallel resonance mode. It is

recommended to use a 10 to 20 MHz crystal with a load specification

of C

used at the expense of an slightly higher frequency than specified for

the crystal. Externally connected capacitors on both the XTAL_IN

and XTAL_OUT pins are not required but can be used to fine-tune the

crystal frequency as desired.

the board as close as possible to the MPC92439 XTAL_IN and

XTAL_OUT pins to reduce crosstalk of active signals into the

oscillator. Short and wide traces further reduce parasitic inductance

and resistance. It is further recommended to guard the crystal circuit

by placing a ground ring around the traces and oscillator

components. See

The MPC92439 features an integrated on-chip crystal oscillator to

The crystal, the trace and optional capacitors should be placed on

Crystal Cut

Resonance Mode

Crystal Frequency

Shunt Capacitance C

Load Capacitance C

Equivalent Series Resistance ESR

= 10 pF. Crystals with a load specification of C

Table 12. Recommended Crystal Specifications

Figure 9. PCB Board Layout Recommendation

XTAL

Parameter

900MHZ, LOW VOLTAGE, LVPECL CLOCK SYNTHESIZER

Table 12

for the PLCC28 Package

for recommended crystal specifications.

Fundamental AT Cut

Parallel

10 - 20 MHz

5 - 7 pF

10 pF

20–60 Ω

Value

= 20 pF may be

= V

= GND

= Via

mpc92439 Integrated Device Technology, mpc92439 Datasheet - Page 10

mpc92439

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