ADF4156BRUZ-RL Analog Devices Inc, ADF4156BRUZ-RL Datasheet - Page 13

ADF4156BRUZ-RL

Manufacturer Part Number

ADF4156BRUZ-RL

Description

IC,FREQUENCY SYNTHESIZER,CMOS,TSSOP,16PIN,PLASTIC

Manufacturer

Analog Devices Inc

Type

Fractional N Synthesizer (RF)r

Datasheet

1.ADF4156BCPZ.pdf (24 pages)

Specifications of ADF4156BRUZ-RL

Design Resources

Low-Noise Microwave fractional-N PLL using active loop filter and RF prescaler (CN0174)

Pll

Yes

Input

CMOS

Output

Clock

Number Of Circuits

Ratio - Input:output

2:1

Differential - Input:output

Yes/No

Frequency - Max

6GHz

Divider/multiplier

Yes/Yes

Voltage - Supply

2.7 V ~ 3.3 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-TSSOP

Frequency-max

6GHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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MOD/R REGISTER, R2

With the control bits (Bits[2:0]) of Register R1 set to 010, the

on-chip MOD/R register is programmed. Figure 19 shows the

input data format for programming this register.

Noise and Spur Mode

The noise modes on the ADF4156 are controlled by DB30 and

DB29 in the MOD/R register. See Figure 19 for the truth table.

The noise modes allow the user to optimize a design either for

improved spurious performance or for improved phase noise

performance.

When the lowest spur setting is chosen, dither is enabled. This

randomizes the fractional quantization noise so that it resembles

white noise, rather than spurious noise. As a result, the part is

optimized for improved spurious performance. This operation

is typically used when the PLL closed-loop bandwidth is wide

for fast-locking applications. Wide loop bandwidth is defined as

a loop bandwidth greater than 1/10 of the RF

resolution (f

to the same level as a narrow loop bandwidth.

For best noise performance, use the lowest noise setting option.

As well as disabling the dither, using the lowest noise setting

ensures that the charge pump is operating in an optimum

region for noise performance. This setting is useful if a narrow

loop filter bandwidth is available. The synthesizer ensures

extremely low noise, and the filter attenuates the spurs. The

typical performance characteristics show the trade-offs in a

typical WCDMA setup for various noise and spur settings.

CSR Enable

Setting this bit to 1 enables cycle slip reduction, which can

improve lock times. Note that the signal at the phase frequency

detector (PFD) must have a 50% duty cycle for cycle slip

reduction to work. The charge-pump current setting must also

be set to a minimum value. See the Fast Lock Times section for

more information. Note that CSR cannot be used if the phase

detector polarity is set to negative.

Charge-Pump Current Setting

DB[27:24] set the charge-pump current setting. These bits

should be set to the charge-pump current as indicated by the

loop filter design (see Figure 19).

Prescaler (P/P + 1)

The dual-modulus prescaler (P/P + 1), along with the INT,

FRAC, and MOD counters, determines the overall division ratio

from the RF

RES

to the PFD input.

). A wide loop filter does not attenuate the spurs

OUT

channel step

Rev. A | Page 13 of 24

Operating at CML levels, the prescaler uses the clock from the

RF input stage and divides it down for the counters. The prescaler

is based on a synchronous 4/5 core. When it is set to 4/5, the

maximum RF frequency allowed is 3 GHz. Therefore, when

operating the ADF4156 with frequencies greater than 3 GHz,

the prescaler must be set to 8/9. The prescaler limits the INT

value as follows:

RDIV/2

Setting this bit to 1 inserts a divide-by-2 toggle flip-flop

between the R-counter and PFD, which extends the maximum

REF

Reference Doubler

Setting DB20 to 0 feeds the REF

RF R-counter, disabling the doubler. Setting this bit to 1 multiplies

the REF

R-counter. When the doubler is disabled, the REF

is the active edge at the PFD input to the fractional synthesizer.

When the doubler is enabled, both the rising and falling edges

of REF

When the doubler is enabled and the lowest spur mode is chosen,

the in-band phase noise performance is sensitive to the REF

duty cycle. The phase noise degradation can be as much as 5 dB

for REF

phase noise is insensitive to the REF

is in the lowest noise mode and when the doubler is disabled.

The maximum allowable REF

enabled is 30 MHz.

5-Bit R-Counter

The 5-bit R-counter allows the input reference frequency

(REF

the phase frequency detector (PFD). Division ratios from

1 to 32 are allowed.

12-Bit Interpolator MOD Value

This programmable register sets the fractional modulus, which is

the ratio of the PFD frequency to the channel step resolution on

the RF output. Refer to the RF Synthesizer: A Worked Example

section for more information.

With P = 4/5, N

With P = 8/9, N

input rate.

) to be divided down to produce the reference clock to

become active edges at the PFD input.

frequency by a factor of 2 before feeding it into the 5-bit

duty cycles that are outside a 45% to 55% range. The

MIN

= 23

= 75

frequency when the doubler is

signal directly into the 5-bit

duty cycle when the device

ADF4156

falling edge

ADF4156BRUZ-RL Analog Devices Inc, ADF4156BRUZ-RL Datasheet - Page 13

ADF4156BRUZ-RL

Specifications of ADF4156BRUZ-RL

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