MAX109 Datasheet, PDF(25/29 Page) Maxim Integrated Products – 8-Bit, 2.2Gsps ADC with Track/Hold Amplifier and 1:4 Demultiplexed LVDS Outputs

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MAX109 Datasheet, PDF (25/29 Pages) Maxim Integrated Products – 8-Bit, 2.2Gsps ADC with Track/Hold Amplifier and 1:4 Demultiplexed LVDS Outputs

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8-Bit, 2.2Gsps ADC with Track/Hold Amplifier

and 1:4 Demultiplexed LVDS Outputs

CLKN

ADC SAMPLE NUMBER

ADC SAMPLES ON THE RISING EDGE OF CLKP

N N + 1 N + 2 N + 3 N + 4 N + 5 N + 6 N + 7 N + 8 N + 9 N + 10 N + 11 N + 12 N + 13 N + 14 N + 15 N + 16 N + 17 N + 18 N + 19

CLKP RSTINN tSU

tHD

RESET

INPUT

RSTINP

DCON

DCOP

PORTA DATA

SAMPLE HERE

N+5

PORTB DATA

N+6

PORTC DATA

N+7

PORTD DATA

N+4

N+8

RESETOUT

DATA PORT

RSTOUTN

RSTOUTP

THE GRAY AREAS INDICATE A POWER-UP DEPENDENT STATE, WHICH IS UNKNOWN AT THE TIME THE RESET IS BEING ASSERTED.

Figure 16. Reset Output Timing in Demultiplexed SDR Mode

integrated fans are available from Co-Fan USA (e.g.,

the 30-1101-02 model, which is used on the evaluation

kit of the MAX109). This particular heatsink with inte-

grated fan is available with pre-applied adhesive for

easy package mounting.

Bypassing/Layout/Power Supply

Grounding and power-supply decoupling strongly influ-

ence the MAX109âs performance. At a 2.2GHz clock

frequency and 8-bit resolution, unwanted digital

crosstalk may couple through the input, reference,

power supply, and ground connections and adversely

influence the dynamic performance of the ADC.

Therefore, closely follow the grounding and power-sup-

ply decoupling guidelines (Figure 17). Maxim strongly

recommends using a multilayer printed circuit board

(PCB) with separate ground and power-supply planes.

Since the MAX109 has separate analog and digital

ground connections (GNDA, GNDI, GNDR, and GNDD,

respectively), the PCB should feature separate analog

and digital ground sections connected at only one

point (star ground at the power supply). 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 out-

puts, should be routed on 50â¦ microstrip lines, such as

those employed on the MAX109 evaluation kit.

The MAX109 has separate analog and digital power-

supply inputs:

â¢ VEE (-5V) is the analog and substrate supply

â¢ VCCI (5V) to power the T/H amplifier, clock distribu-

tion, bandgap reference, and reference amplifier

â¢ VCCA (5V) to supply the ADCâs comparator array

â¢ VCCO (3.3V) to establish power for all LVDS-based

circuit sections

â¢ VCCD (5V) to supply all logic circuits of the data con-

verter

The MAX109 VEE supply contacts must not be left open

while the part is being powered up. To avoid this condi-

tion, add a high-speed Schottky diode (such as a

Motorola 1N5817) between VEE and GNDI. This diode

prevents the device substrate from forward biasing,

which could cause latchup. All supplies should be

decoupled with large tantalum or electrolytic capacitors

at the point they enter the PCB. For best performance,

bypass all power supplies to the appropriate grounds

with a 330ÂµF and 33ÂµF tantalum capacitor to filter power-

supply noise, in parallel with 0.1ÂµF capacitors and high-

quality 0.01ÂµF ceramic chip capacitors. Each power

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