MAX1156 Datasheet, PDF(10/15 Page) Maxim Integrated Products – 14-Bit, 135ksps, Single-Supply ADCs with Bipolar Analog Input Range

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MAX1156 Datasheet, PDF (10/15 Pages) Maxim Integrated Products – 14-Bit, 135ksps, Single-Supply ADCs with Bipolar Analog Input Range

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14-Bit, 135ksps, Single-Supply ADCs with

Bipolar Analog Input Range

ACQUISITION

R/C

EOC

REF AND

BUFFER

POWER

CONVERSION

DATA

OUT

ACQUISITION

R/C

EOC

REF AND

BUFFER

POWER

CONVERSION

DATA

OUT

Figure 5. Selecting Standby Mode

Figure 6. Selecting Shutdown Mode

External Reference

An external reference can be placed at either the input

(REFADJ) or the output (REF) of the MAX1156/

MAX1158/MAX1174âs internal buffer amplifier. Using

the buffered REFADJ input makes buffering the exter-

nal reference unnecessary. The input impedance of

REFADJ is typically 5kâ¦. The internal buffer output

must be bypassed at REF with a 10ÂµF capacitor.

Connect REFADJ to AVDD to disable the internal buffer.

Directly drive REF using an external 3.8V to 4.2V refer-

ence. During conversion, the external reference must

be able to drive 100ÂµA of DC load current and have an

output impedance of 10â¦ or less.

For optimal performance, buffer the reference through

an op amp and bypass REF with a 10ÂµF capacitor.

Consider the MAX1156/MAX1158/MAX1174âs equiva-

lent input noise (0.32LSB) when choosing a reference.

Reading the Conversion Result

EOC is provided to flag the microprocessor when a

conversion is complete. The falling edge of EOC sig-

nals that the data is valid and ready to be output to the

bus. D0âD13 are the parallel outputs of the

MAX1156/MAX1158/MAX1174. These three-state out-

puts allow for direct connection to a microcontroller I/O

bus. The outputs remain high-impedance during acqui-

sition and conversion. Data is loaded onto the output

bus with the third falling edge of CS with R/C high (after

tDO). Bringing CS high forces the output bus back to

high impedance. The MAX1156/MAX1158/MAX1174

then wait for the next falling edge of CS to start the next

conversion cycle (see Figure 2).

HBEN toggles the output between the high/low byte.

The low byte is loaded onto the output bus when HBEN

is low and the high byte is on the bus when HBEN is

high. The two MSBs of the high byte are always zero.

Transfer Function

Figures 8, 9, and 10 show the MAX1156/MAX1158/

MAX1174 output transfer functions. The MAX1158 and

MAX1174 outputs are coded in offset binary, while the

MAX1156 is coded in standard binary.

Input Buffer

Most applications require an input buffer amplifier to

achieve 14-bit accuracy and prevent loading the

source. Switch the channels immediately after acquisi-

tion, rather than near the end of or after a conversion,

when the input signal is multiplexed. This allows more

time for the input buffer amplifier to respond to a large

step-change in input signal. The input amplifier must

have a high enough slew rate to complete the required

output voltage change before the beginning of the

acquisition time. Figure 11 shows an example of this

circuit using the MAX427.

Figures 12a and 12b show how the MAX1158 and

MAX1174 analog input current varies depending on

whether the chip is operating or powered down. The

part is fully powered down between conversions if the

voltage at R/C is set high during the second falling

edge of CS. The input current abruptly steps to the

powered up value at the start of acquisition. This step

in the input current can disrupt the ADC input, depend-

ing on the driving circuitâs output impedance at high

frequencies. If the driving circuit cannot fully settle by

10 ______________________________________________________________________________________

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