3342-56 Peregrine Semiconductor, 3342-56 Datasheet - Page 6

3342-56

Manufacturer Part Number

3342-56

Description

IC PLL INTEGER-N 3GHZ 20QFN

Manufacturer

Peregrine Semiconductor

Series

UltraCMOS™r

Type

PLL Clock Driverr

Datasheet

1.3342-54.pdf (16 pages)

Specifications of 3342-56

Input

Clock

Output

Clock

Frequency - Max

3GHz

Voltage - Supply

2.85 V ~ 3.15 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-VFQFN Exposed Pad

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Functional Description

The PE3342 consists of a dual modulus prescaler,

three programmable counters, a phase detector

and control logic with EEPROM memory (see

Figure 1).

The dual modulus prescaler divides the VCO

frequency by either 10 or 11, depending on the

state of the internal modulus select logic. The R

and M counters divide the reference and prescaler

outputs by integer values stored in one of three

selectable registers. The modulus select logic

uses the 4-bit A counter.

The phase-frequency detector generates up and

down frequency control signals and are also used

to enable a lock detect circuit.

Frequency control data is loaded into the device

via the Serial Data Port, and can be placed in

three separate frequency registers. One of these

registers (EE register) is used to load from and

write to the non-volatile 20-bit EEPROM.

Various operational and test modes are available

through the enhancement register, which is only

accessible through the Serial Data Port (it cannot

be loaded from the EEPROM).

Main Counter Chain

The main counter chain divides the RF input

frequency, F

user-defined values in the M and A counters. It

operates in two modes:

High Frequency Mode

Setting PB (prescaler bypass) LOW enables the

÷10/11 prescaler, providing operation to 2.7 GHz.

In this mode, the output from the main counter

chain, f

the following equation:

where 0

When the loop is locked, F

reference frequency, f

where 0

Page 6 of 17

= F

= [10 x (M + 1) + A] x (f

/ [10 x (M + 1) + A]

, is related to the VCO frequency, F

≤

, by an integer derived from the

15 and A

, by the following equation:

≤

M + 1; 1

/ (R+1))

is related to the

≤

511

(1)

(2)

, by

A consequence of the upper limit on A is that F

must be greater than or equal to 90 x (f

obtain contiguous channels. Programming the M

counter with the minimum value of 1 will result in a

minimum M counter divide ratio of 2.

Programming the M and A counters with their

maximum values provides a divide ratio of 5135.

Prescaler Bypass Mode

Setting the PB bit of a frequency register HIGH

allows F

mode, the prescaler and A counter are powered

down, and the input VCO frequency is divided by

the M counter directly. The following equation

relates F

where 1 ≤ M ≤ 511

Reference Counter

The reference counter chain divides the reference

frequency, f

comparison frequency, f

The output frequency of the 6-bit R Counter is

related to the reference frequency by the following

equation:

where 0

Note that programming R with 0 will pass the

reference frequency, f

detector.

Phase Detector

The phase detector is triggered by rising edges

from the main counter (f

counter (f

If the divided VCO leads the divided reference in

phase or frequency (f

LOW. If the divided reference leads the divided

VCO in phase or frequency (f

pulses LOW. The width of either pulse is directly

proportional to the phase offset between the f

signals.

= f

= (M + 1) x (f

/ (R + 1)

Document No. 70-0091-04 │ UltraCMOS™ RFIC Solutions

≤

to bypass the ÷10/11 prescaler. In this

). It has two outputs, PD_U, and PD_D.

to the reference frequency f

≤

, down to the phase detector

/ (R+1))

, directly to the phase

leads f

) and the reference

), PD_D pulses

leads f

Product Specification

), PD_U

/ (R+1)) to

PE3342

(3)

(4)

and

3342-56 Peregrine Semiconductor, 3342-56 Datasheet - Page 6

3342-56

Specifications of 3342-56

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