sa8027 NXP Semiconductors, sa8027 Datasheet - Page 8

sa8027

Manufacturer Part Number

sa8027

Description

2.5 Ghz Low Voltage, Low Power Rf Fractional-n/if Integer Frequency Synthesizer

Manufacturer

NXP Semiconductors

Datasheet

1.SA8027.pdf (22 pages)

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divider stage. For single ended operation, the signal should be fed to

pulse is generated which will drive the main phase comparator. Also,

Philips Semiconductors

1.0 FUNCTIONAL DESCRIPTION

1.1 Main Fractional-N divider

The RFin inputs drive a pre-amplifier to provide the clock to the first

one of the inputs while the other one is AC grounded. The

pre-amplifier has a high input impedance, dominated by pin and pad

capacitance. The circuit operates with signal levels from –18 dBm to

0 dBm, and at frequencies as high as 2.5 GHz. The divider consists

of a fully programmable bipolar prescaler followed by a CMOS

counter. Total divide ratios range from 512 to 65535.

The fractional modulus is selected by programming FMOD in the

A word. There are 2 modulus to select from: when FMOD = 0,

modulo 8 is selected; when FMOD = 1, modulo 5 is selected.

At the completion of a main divider cycle, a main divider output

the fractional accumulator is incremented by the value of NF. The

accumulator works with modulo set by FMOD. When the

accumulator overflows, the overall division ratio N will be increased

by 1, to N + 1. The average division ratio over modulo main divider

cycles (either 5 or 8) will be

The output of the main divider will be modulated with a fractional

phase ripple. The phase ripple is proportional to the contents of the

fractional accumulator and is nulled by the fractional compensation

charge pump. Thus, f

The reloading of a new main divider ratio is synchronized to the

state of the main divider to avoid introducing a phase disturbance.

2001 Aug 21

2.5 GHz low voltage, low power

RF fractional-N/IF integer frequency synthesizer

REFERENCE

INPUT

Nfrac + N

VCO

= f

comp

DIVIDE BY R

MOD

Figure 6. Reference Divider

1.2 Auxiliary divider

The AUXin input drives a pre-amplifier to provide the clock to the

first divider stage. The pre-amplifier has a high input impedance,

dominated by pin and pad capacitance. The circuit operates with

signal levels from –15 dBm to 0 dBm (112 to 632 mVpp), and at

frequencies as high as 550 MHz. The divider consists of a fully

programmable bipolar prescaler followed by a CMOS counter. Total

divide ratios range from 128 to 16383.

1.3 Reference divider

The reference divider consists of a divider with programmable

values between 4 and 1023 followed by a three bit binary counter.

The 3 bit SM (SA) register (see Figure 6) determines which one of

the 5 output pulses are selected as the main (auxiliary) phase

detector input, thus allowing the main PFD and auxiliary PFD to

operate at different frequencies.

1.4 Phase detector (see Figure 7)

The reference and main (aux) divider outputs are connected to a

phase/frequency detector that controls the charge pump. The pump

current is set by an external resistor in conjunction with control bits

CP0 and CP1 in the C-word (see Table 1). The dead zone (caused

by finite time taken to switch the current sources on or off) is

cancelled by forcing the pumps ON for a minimum time ( ) at every

cycle (backlash time) providing improved linearity.

SM=”000”

SM=”001”

SM=”010”

SM=”011”

SM=”100”

SA=”100”

SA=”011”

SA=”010”

SA=”001”

SA=”000”

SR01415

DETECTOR

AUXILIARY

PHASE

MAIN

SA8027

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sa8027 NXP Semiconductors, sa8027 Datasheet - Page 8

sa8027

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