LMX2470SLEX National Semiconductor, LMX2470SLEX Datasheet - Page 17

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

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

H&T Electronics

Part Number:

LMX2470SLEX

Quantity:

1 956

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Bench Test Setups

Input Impedance Measurement Procedure

The above block diagram shows the test procedure measur-

ing the input impedance for the LMX2470. This applies to the

FinRF, FinIF, and OSCin pins. The basic test procedure is to

calibrate the network analyzer, ensure that the part is pow-

ered up, and then measure the input impedance. The net-

work analyzer can be calibrated by using either calibration

standards or by soldering resistors directly to the evaluation

board. An open can be implemented by putting no resistor, a

short can be implemented by using a 0 ohm resistor, and a

short can be implemented by using two 100 ohm resistors in

parallel. Note that no DC blocking capacitor is used for this

test procedure. This is done with the PLL removed from the

PCB. This requires the use of a clamp down fixture that may

not always be generally available. If no clamp down fixture is

available, then this procedure can be done by calibrating up

to the point where the DC blocking capacitor usually is, and

then adding a 0 ohm resistor back for the actual measure-

(Continued)

ment. Once that the network analyzer is calibrated, it is

necessary to ensure that the PLL is powered up. This can be

done by toggling the power down bits (RF_PD and IF_PD)

and observing that the current consumption indeed in-

creases when the bit is disabled. Sometimes it may be

necessary to apply a signal to the OSCin pin in order to

program the part. If this is necessary, disconnect the signal

once it is established that the part is powered up. It is useful

to know the input impedance of the PLL for the purposes of

debugging RF problems and designing matching networks.

Another use of knowing this parameter is make the trace

width on the PCB such that the input impedance of this trace

matches the real part of the input impedance of the PLL

frequency of operation. In general, it is good practice to keep

trace lengths short and make designs that are relatively

resistant to variations in the input impedance of the PLL.

20059371

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LMX2470SLEX National Semiconductor, LMX2470SLEX Datasheet - Page 17

LMX2470SLEX

Specifications of LMX2470SLEX

Available stocks

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