MAX1292 Datasheet, PDF(9/20 Page) Maxim Integrated Products – 400ksps, +5V, 8-/4-Channel, 12-Bit ADCs with +2.5V Reference and Parallel Interface

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MAX1292 Datasheet, PDF (9/20 Pages) Maxim Integrated Products – 400ksps, +5V, 8-/4-Channel, 12-Bit ADCs with +2.5V Reference and Parallel Interface

◁

400ksps, +5V, 8-/4-Channel, 12-Bit ADCs

with +2.5V Reference and Parallel Interface

REF

REFADJ

(CH7)

(CH6)

(CH5)

(CH4)

CH3

CH2

CH1

CH0

COM

CLK

INT

ANALOG

INPUT

MULTIPLEXER

CLOCK

CONTROL LOGIC

LATCHES

( ) ARE FOR MAX1290 ONLY.

AV =

2.05

T/H

CHARGE REDISTRIBUTION

12-BIT DAC

SUCCESSIVE-

APPROXIMATION

MUX

THREE-STATE, BIDIRECTIONAL

I/O INTERFACE

D0âD7

8-BIT DATA BUS

17kâ¦

1.22V

REFERENCE

COMP

MAX1290

MAX1292

HBEN

VDD

VLOGIC

GND

Figure 2. Simplified Functional Diagram of 8-/4-Channel MAX1290/MAX1292

_______________Detailed Description

Converter Operation

The MAX1290/MAX1292 ADCs use a successive-

approximation (SAR) conversion technique and an input

track-and-hold (T/H) stage to convert an analog input

signal to a 12-bit digital output. Their parallel (8 + 4) out-

put format provides an easy interface to standard micro-

processors (ÂµPs). Figure 2 shows the simplified internal

architecture of the MAX1290/MAX1292.

Single-Ended and

Pseudo-Differential Operation

The sampling architecture of the ADCâs analog com-

parator is illustrated in the equivalent input circuits in

Figures 3a and 3b. In single-ended mode, IN+ is inter-

nally switched to channels CH0âCH7 for the MAX1290

(Figure 3a) and to CH0âCH3 for the MAX1292 (Figure

3b), while IN- is switched to COM (Table 3). In differen-

tial mode, IN+ and IN- are selected from analog input

pairs (Table 4).

In differential mode, IN- and IN+ are internally switched to

either of the analog inputs. This configuration is pseudo-

differential in that only the signal at IN+ is sampled. The

return side (IN-) must remain stable within Â±0.5 LSB

(Â±0.1 LSB for best performance) with respect to GND

during a conversion. To accomplish this, connect a

0.1ÂµF capacitor from IN- (the selected input) to GND.

During the acquisition interval, the channel selected as

the positive input (IN+) charges capacitor CHOLD. At

the end of the acquisition interval, the T/H switch

opens, retaining charge on CHOLD as a sample of the

signal at IN+.

The conversion interval begins with the input multiplex-

er switching CHOLD from the positive input (IN+) to the

negative input (IN-). This unbalances node ZERO at the

comparatorâs positive input. The capacitive digital-to-

analog converter (DAC) adjusts during the remainder of

the conversion cycle to restore node ZERO to 0V within

the limits of 12-bit resolution. This action is equivalent to

transferring a 12pF [(VIN+) - (VIN-)] charge from CHOLD

to the binary-weighted capacitive DAC, which in turn

forms a digital representation of the analog input signal.

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