MAX11102 Datasheet, PDF(22/25 Page) Maxim Integrated Products – 2Msps/3Msps, Low-Power, Serial 12-/10-/8-Bit ADCs

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2Msps/3Msps, Low-Power,

Serial 12-/10-/8-Bit ADCs

and stays within a given error band centered on the

Choosing a Reference

resulting steady-state amplifier output level. The ADC For devices using an external reference, the choice of

input sampling capacitor charges during the sampling the reference determines the output accuracy of the

cycle, referred to as the acquisition period. During this

acquisition period, the settling time is affected by the

input resistance and the input sampling capacitance.

This error can be estimated by looking at the settling of

an RC time constant using the input capacitance and

the source impedance over the acquisition time period.

Y Figure 17 shows a typical application circuit. The

MAX4430, offering a settling time of 37ns at 16 bits, is

an excellent choice for this application. See the THD

R vs. Input Resistance graph in the Typical Operating

Characteristics.

+5V

ADC. An ideal voltage reference provides a perfect initial

accuracy and maintains the reference voltage indepen-

dent of changes in load current, temperature, and time.

Considerations in selecting a reference include initial

voltage accuracy, temperature drift, current source,

sink capability, quiescent current, and noise. Figure 17

shows a typical application circuit using the MAX6126

to provide the reference voltage. The MAX6033 and

MAX6043 are also excellent choices.

INA 500I

AIN1

LIM VDC

0.1ÂµF

10ÂµF

100pF COG

500I

MAX4430

-5V

0.1ÂµF

10ÂµF

0.1ÂµF

10ÂµF

10I

470pF

COG CAPACITOR

470pF

COG CAPACITOR

10ÂµF

+5V

VDD

AGND

VOVDD

OVDD

0.1ÂµF

10ÂµF

AIN1

AIN2

MAX11102

MAX11103

MAX11106

MAX11111

REF

SCLK

DOUT

CHSEL

SCK

MISO

CPU

RE 500I

PAIN2

0.1ÂµF

10ÂµF

100pF COG

500I

10I

0.1ÂµF

7 OUTF

IN 2

8 OUTS

MAX6126

4 GNDS

NR 1

3 GND

+3V

1ÂµF

0.1ÂµF

MAX4430

VDC

-5V

0.1ÂµF

10ÂµF

Figure 17. Typical Application Circuit

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