IDT8N3QV01 Datasheet, PDF(5/23 Page) Integrated Device Technology

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IDT8N3QV01 Datasheet, PDF (5/23 Pages) Integrated Device Technology – Quad-Frequency Programmable VCXO

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IDT8N3QV01 Rev G Data Sheet

QUAD-FREQUENCY PROGRAMMABLE-VCXO

Principles of Operation

The block diagram consists of the internal 3RD overtone crystal and

oscillator which provide the reference clock fXTAL of either 114.285

MHz or 100 MHz. The PLL includes the FemtoClock NG VCO along

with the Pre-divider (P), the feedback divider (M) and the post divider

(N). The P, M, and N dividers determine the output frequency based

on the fXTAL reference and must be configured correctly for proper

operation. The feedback divider is fractional supporting a huge

number of output frequencies. The configuration of the feedback

divider to integer-only values results in an improved output phase

noise characteristics at the expense of the range of output

frequencies. In addition, internal registers are used to hold up to four

different factory pre-set P, M, and N configuration settings. These

default pre-sets are stored in the I2C registers at power-up. Each

configuration is selected via the the FSEL[1:0] pins and can be read

back using the SCLK and SDATA pins.

The user may choose to operate the device at an output frequency

different than that set by the factory. After power-up, the user may

write new P, N and M settings into one or more of the four

configuration registers and then use the FSEL[1:0] pins to select the

newly programmed configuration. Note that the I2C registers are

volatile and a power supply cycle will reload the pre-set factory

default conditions.

If the user does choose to write a different P, M, and N configuration,

it is recommended to write to a configuration which is not currently

selected by FSEL[1:0] and then change to that configuration after the

I2C transaction has completed. Changing the FSEL[1:0] controls

results in an immediate change of the output frequency to the

selected register values. The P, M, and N frequency configurations

support an output frequency range 15.476MHz to 866.67MHz and

975MHz to 1,300MHz.

The devices use the fractional feedback divider with a delta-sigma

modulator for noise shaping and robust frequency synthesis

capability. The relatively high reference frequency minimizes phase

noise generated by frequency multiplication and allows more efficient

shaping of noise by the delta-sigma modulator.

The output frequency is determined by the 2-bit pre-divider (P), the

feedback divider (M) and the 7-bit post divider (N). The feedback

divider (M) consists of both a 7-bit integer portion (MINT) and an

18-bit fractional portion (MFRAC) and provides the means for

high-resolution frequency generation. The output frequency fOUT is

calculated by:

fOUT = fXTAL ï P-----1-ï---N-- ï

MINT + M------F----R----A----C-----+-----0---.--5-

218

(1)

The four configuration registers for the P, M (MINT & MFRAC) and N

dividers which are named Pn, MINTn, MFRACn and Nn with n=0 to

3. ânâ denominates one of the four possible configurations.

As identified previously, the configurations of P, M (MINT & MFRAC)

and N divider settings are stored the I2C register, and the

configuration loaded at power-up is determined by the FSEL[1:0]

pins.

Table 4 Frequency Selection

Input

FSEL1 FSEL0

Selects

0 (def.) 0 (def.) Frequency 0

Frequency 1

Frequency 2

Frequency 3

P0, MINT0, MFRAC0, N0

P1, MINT1, MFRAC1, N1

P2, MINT2, MFRAC2, N2

P3, MINT3, MFRAC3, N3

Frequency Configuration

An order code is assigned to each frequency configuration

programmed by the factory (default frequencies). For more

information on the available default frequencies and order codes,

please see the Ordering Information Section in this document. For

available order codes, see the FemtoClock NG Ceramic-Package

XO and VCXO Ordering Product Information document.

For more information and guidelines on programming of the device

for custom frequency configurations, the register description, the pull

range programming and the serial interface description, see the

FemtoClock NG Ceramic 5x7 Module Programming Guide.

IDT8N3QV01GCD REVISION A MARCH 6, 2012

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