MAX114 Datasheet, PDF(7/12 Page) Maxim Integrated Products – +5V, 1Msps, 4 & 8-Channel, 8-Bit ADCs with 1μA Power-Down

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MAX114 Datasheet, PDF (7/12 Pages) Maxim Integrated Products – +5V, 1Msps, 4 & 8-Channel, 8-Bit ADCs with 1μA Power-Down

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+5V, 1Msps, 4 & 8-Channel,

8-Bit ADCs with 1ÂµA Power-Down

_______________Detailed Description

Converter Operation

The MAX114/MAX118 use a half-flash conversion tech-

nique (see Functional Diagram) in which two 4-bit flash

ADC sections achieve an 8-bit result. Using 15 com-

parators, the flash ADC compares the unknown input

voltage to the reference ladder and provides the upper

four data bits. An internal digital-to-analog converter

(DAC) uses the four most significant bits (MSBs) to

generate both the analog result from the first flash con-

version and a residue voltage that is the difference

between the unknown input and the DAC voltage. The

residue is then compared again with the flash com-

parators to obtain the lower four data bits (LSBs).

An internal analog multiplexer enables the devices to

read four (MAX114) or eight (MAX118) different analog

voltages under microprocessor (ÂµP) control. One of the

MAX118âs analog channels, IN8, is internally hard-

wired and always reads VREF+ when selected.

DATA

OUTPUTS

RL = 3k

DATA

OUTPUTS

VDD

RL = 3k

a) HIGH-Z TO VOH

b) HIGH-Z TO VOL

Figure 1. Load Circuits for Data-Access Time Test

DATA

OUTPUTS

DATA

OUTPUTS

10pF

VDD

10pF

a) VOH TO HIGH-Z

b) VOL TO HIGH-Z

Figure 2. Load Circuits for Data-Hold Time Test

Power-Down Mode

In burst-mode or low sample-rate applications, the

MAX114/MAX118 can be shut down between conver-

sions, reducing supply current to microamp levels (see

Typical Operating Characteristics). A logic low on the

PWRDN pin shuts the devices down, reducing supply

current typically to 1ÂµA when powered from a single +5V

supply. A logic high on PWRDN wakes up the

MAX114/MAX118, and the selected analog input enters

the track mode. The signal is fully acquired after 360ns

(this includes both the power-up delay and the track/hold

acquisition time), and a new conversion can be started.

If the power-down feature is not required, connect

PWRDN to VDD. For minimum current consumption, keep

digital inputs at the supply rails in power-down mode.

Refer to the Reference section for information on reduc-

ing reference current during power-down.

___________________Digital Interface

The MAX114/MAX118 have two basic interface modes,

which are set by the MODE pin. When MODE is low,

the converters are in read mode; when MODE is high,

the converters are set up for write-read mode. The A0,

A1, and A2 inputs control channel selection, as shown

in Table 1. The address must be valid for a minimum

time, tACQ, before the next conversion starts.

Table 1. Truth Table for Input Channel

Selection

MAX114

A1 A0

ââ

MAX118

A2 A1 A0

000

001

010

011

100

101

110

111

SELECTED CHANNEL

IN1

IN2

IN3

IN4

IN5

IN6

IN7

IN8

(reads VREF+ if selected)

Read Mode (MODE = 0)

In read mode, conversions and data access are con-

trolled by the RD input (Figure 3). The comparator

inputs track the analog input voltage for the duration of

tACQ. Initiate a conversion by driving CS and RD low.

With ÂµPs that can be forced into a wait state, hold RD

low until output data appears. The ÂµP starts the conver-

sion, waits, and then reads data with a single read

instruction.

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