NBC12429AMNG ON Semiconductor, NBC12429AMNG Datasheet - Page 13

NBC12429AMNG

Manufacturer Part Number

NBC12429AMNG

Description

IC CLOCK SYNTH 25-400MHZ 32-QFN

Manufacturer

ON Semiconductor

Type

PLL Clock Generatorr

Datasheet

1.NBC12429FAR2G.pdf (22 pages)

Specifications of NBC12429AMNG

Pll

Yes

Input

Crystal

Output

PECL

Number Of Circuits

Ratio - Input:output

1:1

Differential - Input:output

No/Yes

Frequency - Max

400MHz

Divider/multiplier

Yes/No

Voltage - Supply

3.135 V ~ 5.25 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-TFQFN Exposed Pad

Frequency-max

400MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Using the On−Board Crystal Oscillator

integrated on−board crystal oscillator to minimize system

implementation costs. The oscillator is a series resonant,

multivibrator type design as opposed to the more common

parallel resonant oscillator design. The series resonant

design provides better stability and eliminates the need for

large load capacitors per Figure 8 (do not use cyrstal load

caps). The oscillator is totally self contained so that the only

external component required is the crystal. As the oscillator

is somewhat sensitive to loading on its inputs, the user is

advised to mount the crystal as close to the device as possible

to avoid any board level parasitics. To facilitate co−location,

surface mount crystals are recommended, but not required.

Because the series resonant design is affected by capacitive

loading on the crystal terminals, loading variation

introduced by crystals from different vendors could be a

potential issue. For crystals with a higher shunt capacitance,

it may be required to place a resistance, optional R

across the terminals to suppress the third harmonic.

Although typically not required, it is a good idea to layout

the PCB with the provision of adding this external resistor.

The resistor value will typically be between 500 W and 1 kW.

for optimum performance, a series resonant crystal should

be used. Unfortunately, most crystals are characterized in a

parallel resonant mode. Fortunately, there is no physical

difference between a series resonant and a parallel resonant

crystal. The difference is purely in the way the devices are

characterized. As a result, a parallel resonant crystal can be

used with the device with only a minor error in the desired

frequency. A parallel resonant mode crystal used in a series

resonant circuit will exhibit a frequency of oscillation a few

hundred ppm lower than specified (a few hundred ppm

translates to kHz inaccuracies). In a general computer

application, this level of inaccuracy is immaterial. Table 12

below specifies the performance requirements of the

crystals to be used with the device.

The NBC12429 and NBC12429A feature a fully

The oscillator circuit is a series resonant circuit and thus,

Figure 8. Crystal Application

APPLICATIONS INFORMATION

http://onsemi.com

shunt

*See accompanying text for series versus parallel resonant

Power Supply Filtering

analog/digital products and as such, exhibit some

sensitivities that would not necessarily be seen on a fully

digital product. Analog circuitry is naturally susceptible to

random noise, especially if this noise is seen on the power

supply pins. The NBC12429 and NBC12429A provide

separate power supplies for the digital circuitry (V

the internal PLL (PLL_V

this design technique is to try and isolate the high switching

noise of the digital outputs from the relatively sensitive

internal analog PLL. In a controlled environment such as an

evaluation board, this level of isolation is sufficient.

However, in a digital system environment where it is more

difficult to minimize noise on the power supplies, a second

level of isolation may be required. The simplest form of

isolation is a power supply filter on the PLL_V

NBC12429 and NBC12429A.

The NBC12429 and NBC12429A are most susceptible to

noise with spectral content in the 1 kHz to 1 MHz range.

Therefore, the filter should be designed to target this range.

The key parameter that needs to be met in the final filter

design is the DC voltage drop that will be seen between the

NBC12429A. From the data sheet, the PLL_V

(the current sourced through the PLL_V

23 mA (27 mA maximum). Assuming that a minimum of

2.8 V must be maintained on the PLL_V

DC voltage drop can be tolerated when a 3.3 V V

is used. The resistor shown in Figure 9 must have a

resistance of 10 − 15 W to meet the voltage 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, it’s overall

Table 12. Crystal Specifications

discussion.

Crystal Cut

Resonance

Frequency Tolerance

Frequency/Temperature Stability

Operating Range

Shunt Capacitance

Equivalent Series Resistance (ESR)

Correlation Drive Level

Aging

The

Figure 9 illustrates a typical power supply filter scheme.

supply and the PLL_V

NBC12429

Parameter

and

) of the device. The purpose of

NBC12429A

pin of the NBC12429 and

Fundamental AT Cut

Series Resonance*

±75 ppm at 25°C

±150 ppm 0 to 70°C

0 to 70°C

5−7 pF

50 to 80 W

100 mW

5 ppm/Yr (First 3 Years)

pin) is typically

Value

pin, very little

are

pin for the

current

supply

mixed

) and

NBC12429AMNG ON Semiconductor, NBC12429AMNG Datasheet - Page 13

NBC12429AMNG

Specifications of NBC12429AMNG

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