KAD5512P-50Q72 Intersil, KAD5512P-50Q72 Datasheet - Page 16

KAD5512P-50Q72

Manufacturer Part Number

KAD5512P-50Q72

Description

IC ADC 12BIT 500MSPS SGL 72-QFN

Manufacturer

Intersil

Series

FemtoCharge™r

Datasheet

1.KAD5512P-50Q72.pdf (30 pages)

Specifications of KAD5512P-50Q72

Number Of Bits

Sampling Rate (per Second)

500M

Data Interface

Serial, SPI™

Number Of Converters

Power Dissipation (max)

460mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

72-VFQFN Exposed Pad

For Use With

KDC5512EVAL - DAUGHTER CARD FOR KAD5512KDC5512-50EVAL - DAUGHTER CARD FOR KAD5512

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Best performance is obtained when the analog inputs are

driven differentially. The common-mode output voltage,

VCM, should be used to properly bias the inputs as shown in

Figures 25 through 27. An RF transformer will give the best

noise and distortion performance for wideband and/or high

intermediate frequency (IF) inputs. Two different transformer

input schemes are shown in Figures 25 and 26.

This dual transformer scheme is used to improve

common-mode rejection, which keeps the common-mode

level of the input matched to VCM. The value of the shunt

resistor should be determined based on the desired load

impedance. The differential input resistance of the

KAD5512P-50 is 500Ω.

The SHA design uses a switched capacitor input stage (see

Figure 40), which creates current spikes when the sampling

capacitance is reconnected to the input voltage. This causes

a disturbance at the input which must settle before the next

sampling point. Lower source impedance will result in faster

settling and improved performance. Therefore a 1:1

transformer and low shunt resistance are recommended for

optimal performance.

FIGURE 25. TRANSFORMER INPUT FOR GENERAL

FIGURE 26. TRANSMISSION-LINE TRANSFORMER INPUT

1000pF

ADT1-1WT

1.8

1.4

1.0

0.6

0.2

FIGURE 24. ANALOG INPUT RANGE

ADTL1-12

PURPOSE APPLICATIONS

FOR HIGH IF APPLICATIONS

0.725V

ADTL1-12

ADT1-1WT

INP

0.1µF

INN

VCM

0.535V

VCM

KAD5512P

VCM

KAD5512P-50

A differential amplifier, as shown in Figure 27, can be used in

applications that require DC-coupling. In this configuration

the amplifier will typically dominate the achievable SNR and

distortion performance.

Clock Input

The clock input circuit is a differential pair (see Figure 41).

Driving these inputs with a high level (up to 1.8V

input) sine or square wave will provide the lowest jitter

performance. A transformer with 4:1 impedance ratio will

provide increased drive levels.

The recommended drive circuit is shown in Figure 28. A duty

range of 40% to 60% is acceptable. The clock can be driven

single-ended, but this will reduce the edge rate and may

impact SNR performance. The clock inputs are internally

self-biased to AVDD/2 to facilitate AC coupling.

A selectable 2x frequency divider is provided in series with

the clock input. The divider can be used in the 2X mode with

a sample clock equal to twice the desired sample rate. This

allows the use of the Phase Slip feature, which enables

synchronization of multiple ADCs.

The clock divider can also be controlled through the SPI

port, which overrides the CLKDIV pin setting. Details on this

are contained in “Serial Peripheral Interface” on page 20.

AVDD

49.9O

0.22µF

200pF

FIGURE 27. DIFFERENTIAL AMPLIFIER INPUT

FIGURE 28. RECOMMENDED CLOCK DRIVE

CLKDIV PIN

69.8O

AVDD

AVSS

Float

1kO

TABLE 1. CLKDIV PIN SETTINGS

100O

TC4-1W

348O

1000pF

1kO

0.1µF

DIVIDE RATIO

25O

Not Allowed

217O

200pF

200O

P-P

October 9, 2009

KAD5512P

on each

FN6805.3

VCM

CLKP

CLKN

KAD5512P-50Q72 Intersil, KAD5512P-50Q72 Datasheet - Page 16

KAD5512P-50Q72

Specifications of KAD5512P-50Q72

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