MAX1401 Datasheet, PDF(34/36 Page) Maxim Integrated Products – +3V, 18-Bit, Low-Power, Multichannel, Oversampling Sigma-Delta ADC

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MAX1401 Datasheet, PDF (34/36 Pages) Maxim Integrated Products – +3V, 18-Bit, Low-Power, Multichannel, Oversampling Sigma-Delta ADC

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+3V, 18-Bit, Low-Power, Multichannel,

Oversampling (Sigma-Delta) ADC

THERMOCOUPLE

JUNCTION

+3V

+1.25V

MAX1401

AIN1

SWITCHING

NETWORK BUFFER PGA

AIN2

REFIN+

REFIN-

AGND

DGND

Figure 15. Thermocouple Application with MAX1401

Loop-Powered, 4â20mA Transmitters

Low power, single-supply operation, and easy interfac-

ing with optocouplers make the MAX1401 ideal for

loop-powered 4â20mA transmitters. Loop-powered

transmitters draw their power from the 4â20mA loop,

limiting the transmitter circuitry to a current budget of

4mA. Tolerances in the loop further limit this current

budget to 3.5mA. Since the MAX1401 consumes only

250ÂµA, a total of 3.25mA remains to power the remain-

ing transmitter circuitry. Figure 16 shows a block dia-

gram for a loop-powered 4â20mA transmitter.

Power Supplies

No specific power sequence is required for the

MAX1401; either the V+ or the VDD supply can come

up first. While the latchup performance of the MAX1401

is good, to avoid latchup it is important that power be

applied to the MAX1401 before the analog input signals

(AIN_) or the CLKIN inputs. If this is not possible, then

the current flow into any of these pins should be limited

to 50mA. If separate supplies are used for the

MAX1401 and the system digital circuitry, then the

MAX1401 should be powered up first.

SENSOR

ISOLATION

V+ BARRIER

V+

RGAIN

ÂµP/ÂµC

DAC

SPI

ROFST

VOLTAGE

REGULATOR

GND

RFDBK

VIN+

4â20mA LOOP

INTERFACE

RSENSE

VIN-

Figure 16. 4â20mA Transmitter

34 ______________________________________________________________________________________

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