LMX2470SLEX National Semiconductor, LMX2470SLEX Datasheet - Page 35

LMX2470SLEX

Manufacturer Part Number

LMX2470SLEX

Description

IC PLL DELTA-SIGMA 24LAMUCSP

Manufacturer

National Semiconductor

Type

PLL Frequency Synthesizer, Delta Sigmar

Datasheet

1.LMX2470SLEXNOPB.pdf (36 pages)

Specifications of LMX2470SLEX

Pll

Yes with Bypass

Input

CMOS

Output

CMOS

Number Of Circuits

Ratio - Input:output

3:3

Differential - Input:output

Yes/No

Frequency - Max

2.6GHz

Divider/multiplier

Yes/Yes

Voltage - Supply

2.25 V ~ 2.75 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-Laminate UTCSP

Frequency-max

2.6GHz

For Use With

LMX2470EVAL - EVALUATION BOARD FOR LMX2470

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

*LMX2470SLEX
*LMX2470SLEX/NOPB
LMX2470SLEXCT

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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Quantity:

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Programming Description

2.9 R8 REGISTER

The R8 Register controls some additional bits that may be useful in optimizing phase noise, lock time, and spurs.

2.9.1 CPUD[2:0] -- Charge Pump User Definition

This bit allows the user to choose from several different modes in the charge pump. The charge pump current is unaffected, but

the fractional spurs and phase noise are impacted by a few dB. In some designs, particularly if the loop bandwidth is wide and

a 4th order delta-sigma engine is used, small spurs may appear at a fraction of where the first fractional spur should appear. In

other designs, these sub-fractional spurs are not present. The user needs to use this adjustment to make these sub-fractional

spurs go away, while still getting the best phase noise possible.

2.9.2 PDCP[1:0] -- Power Drive for Charge Pump

If this bit is enabled, the Fastlock current can be doubled during Fastlock. The charge pump current in steady state is unaffected.

States 0 and 1 should never be used.

2.9.3 DITH[1:0] -- Dithering Control

Dithering is a technique used to spread out the spur energy. Enabling dithering can reduce the main fractional spurs, but can also

give rise to a family of smaller spurs. Whether dithering helps or hurts is application specific. Enabling the dithering may also

increase the phase noise. In most cases where the fractional numerator is zero, dithering usually degrades performance.

Determining tends to be most beneficial in applications where there is insufficient filtering of the spurs. This often occurs when the

loop bandwidth is very wide or a higher order delta-sigma modulator is used. Dithering tends not to impact the main fractional

spurs much, but has a much larger inpact on the sub-fractional spurs. If it is decided that dithering will be used, best results will

be obtained when the fractional denominator is at least 1000.

CPUD

PDCP

DITH

[1:0]

Mode Name

Maximum

Reserved

Minimum

Nominal

(Continued)

DATA[19:0]

Phase Noise

Medium

Worst

Best

N/A

Fastlock Charge Pump Current

PDCP

[1:0]

Double Fastlock Current

Dithering Mode Used

Dithering Disabled

Dithering Enabled

Reserved

Disabled

Reserved

CPUD

[2:0]

Sub-Fractional Spurs

Medium

Worst

Best

N/A

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LMX2470SLEX National Semiconductor, LMX2470SLEX Datasheet - Page 35

LMX2470SLEX

Specifications of LMX2470SLEX

Available stocks

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