LMX2531LQ1700E/NOPB National Semiconductor, LMX2531LQ1700E/NOPB Datasheet - Page 15

LMX2531LQ1700E/NOPB

Manufacturer Part Number

LMX2531LQ1700E/NOPB

Description

IC PLL FREQ SYNTH W/VCO 36-LLP

Manufacturer

National Semiconductor

Series

PowerWise®r

Type

Clock/Frequency Synthesizer (RF)r

Datasheet

1.LMX2531LQ1778ENOPB.pdf (36 pages)

Specifications of LMX2531LQ1700E/NOPB

Pll

Yes

Input

Clock

Output

CMOS

Number Of Circuits

Ratio - Input:output

2:2

Differential - Input:output

No/No

Frequency - Max

1.77GHz

Divider/multiplier

Yes/No

Voltage - Supply

2.8 V ~ 3.2 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

36-LLP

Frequency-max

1.77GHz

Number Of Elements

Supply Current

46mA

Pll Input Freq (min)

5MHz

Pll Input Freq (max)

80MHz

Operating Supply Voltage (typ)

Operating Temp Range

-40C to 85C

Package Type

LLP EP

Output Frequency Range

1662 to 1770MHz

Operating Supply Voltage (min)

2.8V

Operating Supply Voltage (max)

3.2V

Operating Temperature Classification

Industrial

Pin Count

Leaded Process Compatible

Yes

Rohs Compliant

Yes

Peak Reflow Compatible (260 C)

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LMX2531LQ1700ETR

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Symbol

Note 2: There are program bits that need to be set based on the OSCin frequency. Refer to the following sections: 2.7.8 XTLSEL[2:0] -- Crystal Select, 2.8.1

XTLDIV[1:0] -- Division Ratio for the Crystal Frequency, 2.8.2 XTLMAN[11:0] -- Manual Crystal Mode, 2.9.1 XTLMAN2 -- MANUAL CRYSTAL MODE SECOND

ADJUSTMENT, and2.9.2 LOCKMODE -- FREQUENCY CALIBRATION MODE. Not all bit settings can be used for all frequency choices of OSCin. For instance,

automatic modes described in 2.7.8 XTLSEL[2:0] -- Crystal Select do not work below 8 MHz.

Note 3: One of the specifications for modeling PLL in-band phase noise is the PLL 1/f noise normalized to 1 GHz carrier frequency and 10 kHz offset, L

(10 kHz). From this normalized index of PLL 1/f noise, the PLL 1/f noise can be calculated for any carrier and offset frequency as:

slope and improves with higher charge pump currents and at higher offset frequencies . To accurately measure L

phase detector frequency and a clean reference to make it such that this measurement is on the 10 dB/decade slope close to the carrier. L

masked by the reference oscillator performance if a low power or noisy source is used. The total PLL in-band phase noise performance is the sum of L

(f) and L

Note 4: A specification used for modeling PLL in-band phase noise floor is the Normalized PLL noise floor, LN

yet large enough to avoid a substantial noise contribution from the reference and PLL flicker noise. L

if a low power or noisy source is used. The total PLL in-band phase noise performance is the sum of L

words,L

Note 5: Maximum Allowable Temperature Drift for Continuous Lock is how far the temperature can drift in either direction from the value it was at the time that

the R0 register was last programmed, and still have the part stay in lock. The action of programming the R0 register, even to the same value, activates a frequency

calibration routine. This implies that the part will work over the entire frequency range, but if the temperature drifts more than the maximum allowable drift for

continuous lock, then it will be necessary to reload the R0 register to ensure that it stays in lock. Regardless of what temperature the part was initially programmed

at, the temperature can never drift outside the frequency range of -40°C

Note 6: The VCO phase noise is measured assuming that the loop bandwidth is sufficiently narrow that the VCO noise dominates. The maximum limits apply

only at center frequency and over temperature, assuming that the part is reloaded at each test frequency. Over frequency, the phase noise can vary 1 to 2 dB,

with the worst case performance typically occurring at the highest frequency. Over temperature, the phase noise typically varies 1 to 2 dB, assuming the part is

reloaded.

CWH

CWL

EWH

PLL_flat

CES

PLL_flicker

PLL_flat

contributes to the total noise, L(f). To measure L

PLL

PLL_flat

= L(f) – 20·log(N) – 10·log(f

(f) = L

(f) = 10·log(10(

Clock to Enable Set Up Time

Enable to Clock Set Up Time

Data to Clock Set Up Time

High-Level Output Voltage

Low-Level Output Voltage

. In other words,L

High-Level Input Voltage

Enable Pulse Width High

High-Level Input Current

Data to Clock Hold Time

Low-Level Input Voltage

Low-Level Input Current

Clock Pulse Width High

Clock Pulse Width Low

PLL_flicker

Parameter

(10 kHz) - 10·log(10 kHz / f) + 20·log( Fout / 1 GHz ). Flicker noise can dominate at low offsets from the carrier and has a 10 dB/decade

PLL_flat

PLL

/ 10 )

(f) = 10·log(10(

+ 10(

). L

PLL_flat

Digital Interface (DATA, CLK, LE, CE, Ftest/LD, FLout)

PLL_flicker

is the single side band phase noise in a 1 Hz Bandwidth and f

(f) / 10 )

PLL_flat

/ 10 )

+ 10(

the offset frequency must be chosen sufficiently smaller then the loop bandwidth of the PLL, and

MICROWIRE Timing

PLL_flicker

See Data Input Timing

≤

(f) / 10 )

≤

Conditions

85°C without violating specifications.

= -500 µA

= 500 µA

= 1.75

= 0 V

PLL_flat

PLL_flicker

can be masked by the reference oscillator performance

is the phase detector frequency of the synthesizer.

(f) and L

PLL_flat

PLL_flicker

, and is defined as:

PLL_flat

(10 kHz) it is important to use a high

Min

-3.0

1.6

2.0

. In other

2.65

Typ

0.0

PLL_flicker

Max

2.75

0.4

3.0

0.4

www.national.com

(f) can be

PLL_flicker

Units

µA

LMX2531LQ1700E/NOPB National Semiconductor, LMX2531LQ1700E/NOPB Datasheet - Page 15

LMX2531LQ1700E/NOPB

Specifications of LMX2531LQ1700E/NOPB

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