MAX105 Datasheet, PDF(16/21 Page) Maxim Integrated Products – Dual, 6-Bit, 800Msps ADC with On-Chip, Wideband Input Amplifier

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MAX105 Datasheet, PDF (16/21 Pages) Maxim Integrated Products – Dual, 6-Bit, 800Msps ADC with On-Chip, Wideband Input Amplifier

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Dual, 6-Bit, 800Msps ADC with On-Chip,

Wideband Input Amplifier

FROM PREVIOUS STAGE

DREADY+/DREADY-

MAX2108

QUADRATURE

DEMODULATOR

PRIMARY

DATA PORT

P0I-P5I

NYQUIST

FILTER

PRE-AMP

2kâ¦

CM BUFFER

I ADC

REF

AUXILIARY

DATA PORT

A0I-A5I

AVCC

1:2

10kâ¦

90Â°

REFERENCE

DOR

10kâ¦

NYQUIST

FILTER

2kâ¦

CM BUFFER

PRE-AMP

REF

Q ADC

PRIMARY

DATA PORT

P0Q-P5Q

AUXILIARY

DATA PORT

A0Q-A5Q

Figure 8. Typical I/Q Application

DOR+/DOR-

Grounding, Bypassing,

and Board Layout

Grounding and power supply decoupling strongly influ-

ence the MAX105âs performance. At 800MHz clock fre-

quency and 6-bit resolution, unwanted digital crosstalk

may couple through the input, reference, power supply,

ground connections, and adversely influence the

dynamic performance of the ADC. In addition, the I&Q

inputs may crosstalk through poorly designed decou-

pling circuits. Therefore, closely follow the grounding

and power-supply decoupling guidelines in Figure 9.

Maxim strongly recommends using a multilayer printed

circuit board (PC board) with separate ground and

power supply planes. Since the MAX105 has separate

analog and digital ground connections (AGND, AGNDI,

AGNDQ, AGNDR, OGNDI, and OGNDQ, respectively).

The PC board should feature separate sections desig-

nated to analog (AGND) and digital (OGND), connect-

ed at only one point. Digital signals should run above

the digital ground plane and analog signals should run

above the analog ground plane. Keep digital signals far

away from the sensitive analog inputs, reference inputs,

and clock inputs. High-speed signals, including clocks,

analog inputs, and digital outputs, should be routed on

50â¦ microstrip lines, such as those employed on the

MAX105EV kit.

The MAX105 has separate analog and digital power-

supply inputs:

â¢ AVCC = +5V Â±5%: Power supply for the analog

input section of the clock circuit.

â¢ AVCCI = +5V Â±5%: Power supply for the I-channel

common-mode buffer, pre-amp and quantizer.

â¢ AVCCQ = +5V Â±5%: Power supply for the Q-chan-

nel common-mode buffer, pre-amp and quantizer.

â¢ AVCCR = +5V Â±5%: Power supply for the on-chip

bandgap reference.

â¢ OVCCI = +3.3V Â±10%: Power supply for the I-chan-

nel output drivers and DREADY circuitry.

â¢ OVCCQ = +3.3V Â±10%: Power supply for the

Q-channel output drivers and DOR circuitry.

All supplies should be decoupled with large tantalum or

electrolytic capacitors at the point they enter the PC

board. For best performance, bypass all power sup-

16 ______________________________________________________________________________________

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