DC1298A-AA Linear Technology, DC1298A-AA Datasheet - Page 23

DC1298A-AA

Manufacturer Part Number

DC1298A-AA

Description

BOARD EVAL LTM9002-AA

Manufacturer

Linear Technology

Type

Baseband Receiverr

Datasheets

1.DC1298A-LA.pdf (28 pages)

2.DC1298A-LA.pdf (4 pages)

Specifications of DC1298A-AA

Design Resources

Demo Circuit 1298A Schematic

Frequency

0Hz ~ 300MHz

Features

LTM9002 14bit Dual Receiver Subsystem, DC-170MHz LPF

Tool / Board Applications

Wireless Connectivity-ZigBee, RF, Infrared, USB

Mcu Supported Families

LTM9002

Development Tool Type

Hardware - Eval/Demo Board

For Use With/related Products

LTM9002

Lead Free Status / RoHS Status

Not applicable / Not applicable

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APPLICATIONS INFORMATION

It is recommended that CLKA and CLKB are shorted

together and driven by the same clock source. If a small

time delay is desired between when the two channels

sample the analog inputs, CLKA and CLKB can be driven

by two different signals. If this time delay exceeds 1ns,

the performance of the part may degrade. CLKA and CLKB

should not be driven by asynchronous signals.

Figure 10 and Figure 11 show alternatives for converting

a differential clock to the single-ended CLK input. The use

of a transformer provides no incremental contribution

to phase noise. The LVDS or PECL to CMOS translators

provide little degradation below 70MHz, but at 140MHz will

degrade the SNR compared to the transformer solution.

The nature of the received signals also has a large bear-

ing on how much SNR degradation will be experienced.

For high crest factor signals such as WCDMA or OFDM,

where the nominal power level must be at least 6dB to

8dB below full-scale, the use of these translators will have

a lesser impact.

Figure 10. CLK Driver Using an LVDS or PECL to CMOS Converter

100Ω

IF LVDS USE FIN1002 OR FIN1018.

FOR PECL, USE AZ1000ELT21 OR SIMILAR

4.7μF

FERRITE

BEAD

0.1μF

CLK

SUPPLY

CLEAN

LTM9002

9002 F10

The transformer in the example may be terminated with

the appropriate termination for the signaling in use. The

use of a transformer with a 1:4 impedance ratio may

be desirable in cases where lower voltage differential

signals are considered. The center tap may be bypassed

to ground through a capacitor close to the ADC if the

differential signals originate on a different plane. The

use of a capacitor at the input may result in peaking, and

depending on transmission line length may require a 10Ω

to 20Ω series resistor to act as both a lowpass ﬁ lter for

high frequency noise that may be induced into the clock

line by neighboring digital signals, as well as a damping

mechanism for reﬂ ections.

Maximum and Minimum Conversion Rates

The maximum conversion rate for the LTM9002-AA is

125Msps and the LTM9002-LA is 65Msps. The lower

limit of the sample rate is determined by the droop of the

sample-and-hold circuits. The pipelined architecture of

this ADC relies on storing analog signals on small valued

capacitors. Junction leakage will discharge the capaci-

tors. The speciﬁ ed minimum operating frequency for the

LTM9002 is 1Msps.

Figure 11. LVDS or PECL CLK Driver Using a Transformer

DIFFERENTIAL

CLOCK

INPUT

ETC1-1T

5pF TO

30pF

0.1μF

CLK

FERRITE

BEAD

LTM9002

9002 F11

9002f

DC1298A-AA Linear Technology, DC1298A-AA Datasheet - Page 23

DC1298A-AA

Specifications of DC1298A-AA

Related parts for DC1298A-AA