MAX1082_12 Datasheet, PDF(16/23 Page) Maxim Integrated Products – 300ksps/400ksps, Single-Supply, 4-Channel, Serial 10-Bit ADCs with Internal Reference

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MAX1082_12 Datasheet, PDF (16/23 Pages) Maxim Integrated Products – 300ksps/400ksps, Single-Supply, 4-Channel, Serial 10-Bit ADCs with Internal Reference

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MAX1082/MAX1083

300ksps/400ksps, Single-Supply, 4-Channel,

Serial 10-Bit ADCs with Internal Reference

SCLK

tCSS

tCSO

tDS

DIN

tCH

tCL

tDH

tDOE

DOUT

tSTE

SSTRB

tCP

#10

tDOH

tDOV

tSTH

tSTV

tCSW

tCSH

tCS1

tDOD

tSTD

Figure 6. Detailed Serial-Interface Timing

mode (PD1 = PD0 = 0), with an external reference and

conversion controlled at the maximum clock speed.

One dummy conversion to power up the device is

needed, but no waiting time is necessary to start the

second conversion, thereby achieving lower power

consumption at up to half the full sampling rate.

Using Fast Power-Down and Reduced

Power Modes

FASTPD and REDP modes achieve the lowest power

consumption at speeds close to the maximum sam-

pling rate. Figure 10 shows the MAX1083âs power con-

sumption in FASTPD mode (PD1 = 0, PD0 = 1), REDP

mode (PD1 = 1, PD0 = 0), and, for comparison, normal

operating mode (PD1 = 1, PD0 = 1). The figure shows

power consumption using the specified power-down

mode, with the internal reference and conversion con-

trolled at the maximum clock speed. The clock speed

in FASTPD or REDP should be limited to 4.8MHz for the

MAX1082/MAX1083. FULLPD mode may provide

increased power savings in applications where the

MAX1082/MAX1083 are inactive for long periods of

time, but intermittent bursts of high-speed conversions

are required.

Internal and External References

The MAX1082/MAX1083 can be used with an internal

or external reference voltage. An external reference

can be connected directly at REF or at the REFADJ pin.

An internal buffer is designed to provide 2.5V at

REF for the MAX1082/MAX1083. The internally trimmed

1.22V reference is buffered with a 2.05 gain.

Internal Reference

The MAX1082/MAX1083âs full-scale range with the

internal reference is 2.5V with unipolar inputs and

Â±1.25V with bipolar inputs. The internal reference volt-

age is adjustable by Â±100mV with the circuit in Figure

12.

External Reference

The MAX1082/MAX1083âs external reference can be

placed at the input (REFADJ) or the output (REF) of the

internal reference-buffer amplifier. The REFADJ input

impedance is typically 17kâ¦. At REF, the DC input

resistance is a minimum of 18kâ¦. During conversion, an

external reference at REF must deliver up to 350ÂµA DC

load current and have 10â¦ or less output impedance. If

the reference has a higher output impedance or is

noisy, bypass it close to the REF pin with a 4.7ÂµF

capacitor.

To use the direct REF input, disable the internal buffer

by connecting REFADJ to VDD1. Using the REFADJ

input makes buffering the external reference unneces-

sary.

Transfer Function

Table 5 shows the full-scale voltage ranges for unipolar

and bipolar modes.

Figure 13 depicts the nominal, unipolar input/output

(I/O) transfer function, and Figure 14 shows the bipolar

I/O transfer function. Code transitions occur halfway

between successive-integer LSB values. Output coding

is binary, with 1LSB = 2.44mV (2.500V/2/1024) for

Maxim Integrated

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