MAX1418 Datasheet, PDF(17/20 Page) Maxim Integrated Products – 15-Bit, 65Msps ADC with -78.2dBFS Noise Floor for IF Applications

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MAX1418 Datasheet, PDF (17/20 Pages) Maxim Integrated Products – 15-Bit, 65Msps ADC with -78.2dBFS Noise Floor for IF Applications

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15-Bit, 65Msps ADC with -78.2dBFS

Noise Floor for IF Applications

Grounding

The practice of providing a split ground plane in an

attempt to confine digital ground return currents has

often been recommended in ADC application literature.

However, for converters such as the MAX1418, it is

strongly recommended to employ a single, uninterrupt-

ed ground plane. The MAX1427 EV kit achieves excel-

lent dynamic performance with such a ground plane.

The EP of the MAX1418 should be soldered directly to

a ground pad on layer 1 with vias to the ground plane

on layer 2. This provides excellent electrical and ther-

mal connections to the printed circuit.

Supply Bypassing

The MAX1427 EV kit uses 220ÂµF capacitors on each

supply line (AVCC, DVCC, and DRVCC) to provide low-

frequency bypassing. The loss (series resistance)

associated with these capacitors is actually of some

benefit in eliminating high-Q supply resonances. Ferrite

beads are also used on each of the supply lines to

enhance supply bypassing (Figure 9).

Small value (0.01ÂµF to 0.1ÂµF) surface-mount capacitors

should be placed at each supply pin or each grouping

of supply pins to attenuate high-frequency supply noise

(Figure 9). It is recommended to place these capacitors

on the topside of the board and as close to the device

as possible with short connections to the ground plane.

Static Parameter Definitions

Integral Nonlinearity (INL)

Integral nonlinearity is the deviation of the values on an

actual transfer function from a straight line. This straight

line can be either a best straight-line fit or a line drawn

between the end points of the transfer function, once

offset and gain errors have been nullified. However, the

static linearity parameters for the MAX1418 are mea-

sured using the histogram method with an input fre-

quency of 15MHz.

BYPASSINGâADC LEVEL

AVCC

DVCC

BYPASSINGâBOARD LEVEL

AVCC

FERRITE BEAD

0.1ÂµF

10ÂµF

47ÂµF

GND

D0âD14

DVCC

MAX1418

10ÂµF

47ÂµF

FERRITE BEAD

0.1ÂµF

GND

DRVCC

FERRITE BEAD

10ÂµF

47ÂµF

220ÂµF

ANALOG

POWER-SUPPLY SOURCE

220ÂµF

DIGITAL

POWER-SUPPLY SOURCE

220ÂµF

OUTPUT-DRIVER

POWER-SUPPLY SOURCE

Figure 9. Grounding, Bypassing, and Decoupling Recommendations for MAX1418

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