MAX1034 Datasheet, PDF(25/31 Page) Maxim Integrated Products – 8-/4-Channel, ±VREF Multirange Inputs, Serial 14-Bit ADCs

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

MAX1034 Datasheet, PDF (25/31 Pages) Maxim Integrated Products – 8-/4-Channel, ±VREF Multirange Inputs, Serial 14-Bit ADCs

◁

8-/4-Channel, Â±VREF Multirange Inputs,

Serial 14-Bit ADCs

â¢ Internal-Clock-Mode Control Byte

â¢ Reset Byte

â¢ Partial Power-Down-Mode-Control Byte

This prevents the MAX1034/MAX1035 from inadvertent-

ly exiting full power-down mode because of a CS glitch

in a noisy digital environment.

Power-On Reset

The MAX1034/MAX1035 power up in normal operation

configured for external clock mode with all circuitry

active (Tables 7 and 8). Each analog input channel

(CH0âCH7) is set for single-ended conversions with a

Â±VREF bipolar input range (Table 6).

Allow the power supplies to stabilize after power-up. Do

not initiate any conversions until the power supplies

have stabilized. Additionally, allow 10ms for the internal

reference to stabilize when CREF = 1.0ÂµF and CREFCAP

= 0.1ÂµF. Larger reference capacitors require longer

stabilization times.

Internal or External Reference

The MAX1034/MAX1035 operate with either an internal or

external reference. The reference voltage impacts the

ADCâs FSR (Figures 12, 13, and 14). An external refer-

ence is recommended if more accuracy is required than

the internal reference provides, and/or multiple converters

require the same reference voltage.

SAR

ADC REF

4.096V

REF

1.0ÂµF

MAX1034

MAX1035

5kâ¦

4.096V

BANDGAP

REFERENCE

REFCAP

VRCTH

AGND1

0.1ÂµF

Figure 17. Internal Reference Operation

Internal Reference

The MAX1034/MAX1035 contain an internal 4.096V

bandgap reference. This bandgap reference is connect-

ed to REFCAP through a nominal 5kâ¦ resistor (Figure 17).

The voltage at REFCAP is buffered creating 4.096V at

REF. When using the internal reference, bypass

REFCAP with a 0.1ÂµF or greater capacitor to AGND1 and

bypass REF with a 1.0ÂµF or greater capacitor to AGND1.

External Reference

For external reference operation, disable the internal

reference and reference buffer by connecting REFCAP

to AVDD1. With AVDD1 connected to REFCAP, REF

becomes a high-impedance input and accepts an

external reference voltage. The MAX1034/MAX1035

external reference current varies depending on the

applied reference voltage and the operating mode (see

the External Reference Input Current vs. External

Reference Input Voltage in the Typical Operating

Characteristics).

Applications Information

Noise Reduction

Additional samples can be taken and averaged (over-

sampling) to remove the effect of transition noise on

conversion results. The square root of the number of

samples determines the improvement in performance.

For example, with 2/3 LSBRMS (4 LSBP-P) transition

noise, 16 (42 = 16) samples must be taken to reduce

the noise to 1 LSBP-P.

Interface with 4â20mA Signals

Figure 19 illustrates a simple interface between the

MAX1034/MAX1035 and a 4â20mA signal. 4â20mA sig-

naling can be used as a binary switch (4mA represents

a logic-low signal, 20mA represents a logic-high sig-

nal), or for precision communication where currents

between 4mA and 20mA represent intermediate analog

data. For binary switch applications, connect the

4â20mA signal to the MAX1034/MAX1035 with a resis-

tor to ground. For example, a 200â¦ resistor converts

the 4â20mA signal to a 0.8V to 4V signal. Adjust the

resistor value so the parallel combination of the resistor

and the MAX1034/MAX1035 source impedance is

200â¦. In this application, select the single-ended 0 to

VREF range (R[2:0] = 011, Table 6). For applications

that require precision measurements of continuous

analog currents between 4mA and 20mA, use a buffer

to prevent the MAX1034/MAX1035 input from diverting

current from the 4â20mA signal.

______________________________________________________________________________________ 25

▷