LMX2434TMX/NOPB National Semiconductor, LMX2434TMX/NOPB Datasheet - Page 30

LMX2434TMX/NOPB

Manufacturer Part Number

LMX2434TMX/NOPB

Description

IC SYNTHESIZER DUAL 5GHZ 20TSSOP

Manufacturer

National Semiconductor

Series

PLLatinum™r

Type

PLL Frequency Synthesizerr

Datasheet

1.LMX2433SLEXNOPB.pdf (49 pages)

Specifications of LMX2434TMX/NOPB

Pll

Yes with Bypass

Input

CMOS

Output

CMOS

Number Of Circuits

Ratio - Input:output

3:2

Differential - Input:output

Yes/No

Frequency - Max

5GHz, 2.5GHz

Divider/multiplier

No/No

Voltage - Supply

2.25 V ~ 2.75 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-TSSOP

Frequency-max

5GHz

For Use With

LMX2434EVAL - EVALUATION BOARD FOR LMX2434

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LMX2434TMX

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LMX243x FinRF Sensitivity Test Setup

The block diagram above illustrates the setup required to

measure the LMX243x device’s RF input sensitivity level.

The same setup is used for the LMX2430TM Evaluation

Board. The purpose of this test is to measure the acceptable

signal level to the FinRF input of the PLL chip. Outside the

acceptable signal range, the feedback divider begins to di-

vide incorrectly and miscount the frequency. The FinIF sen-

sitivity is evaluated in the same way.

The setup uses an open loop configuration. A power supply

is connected to Vcc. The IF PLL is powered down (IF_PD bit

to the FinRF pin. The 3 dB pad provides a 50Ω match

between the PLL and the signal generator. The EN, ENosc,

and OSCin pins are all tied to Vcc. The N value is typically

set to 10000 in CodeLoader, i.e. RF_B word = 156 and

RF_A word = 16 for RF_P bit = 0 (LMX2434) or RF_P bit =

1 (LMX2430 and LMX2433). The feedback divider output is

routed to the Ftest/LD pin by selecting the RF_N/2 Fre-

quency word (MUX[3:0] word = 15) in CodeLoader. A Uni-

versal Counter is connected to the Ftest/LD pin and used to

monitor the output frequency of the feedback divider. The

= 1). By means of a signal generator, an RF signal is applied

expected frequency should be the signal generator fre-

quency divided by twice the corresponding counter value,

i.e. 20000. The factor of two comes in because the LMX43x

device has an internal /2 circuit which is used to provide a

50% duty cycle.

Sensitivity is typically measured over frequency, supply volt-

age and temperature. In order to perform the measurement,

the temperature, frequency, and supply voltage is set to a

fixed value and the power level of the signal at FinRF is

varied. Sensitivity is reached when the frequency error of the

divided RF input is greater than or equal to 1 Hz. The power

attenuation from the cable and the 3 dB pad must be ac-

counted for. The feedback divider will actually miscount if too

much or too little power is applied to the FinRF input. There-

fore, the allowed input power level will be bounded by the

upper and lower sensitivity limits. In a typical application, if

the power level to the FinRF input approaches the sensitivity

limits, this can introduce spurs or cause degradation to the

phase noise. When the power level gets even closer to these

limits, or exceeds it, then the RF PLL loses lock.

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LMX2434TMX/NOPB National Semiconductor, LMX2434TMX/NOPB Datasheet - Page 30

LMX2434TMX/NOPB

Specifications of LMX2434TMX/NOPB

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