Rainbow-electronics MAX1033 User Manual download pdf

General Description

The MAX1032/MAX1033 multirange, low-power, 14-bit,

successive-approximation, analog-to-digital converters

(ADCs) operate from a single +5V supply and achieve

throughput rates up to 115ksps. A separate digital sup-

ply allows digital interfacing with 2.7V to 5.25V systems

using the SPI™-/QSPI™-/MICROWIRE™-compatible

serial interface. Partial power-down mode reduces the

supply current to 1.3mA (typ). Full power-down mode

reduces the power-supply current to 1µA (typ).

The MAX1032 provides eight (single-ended) or four

(true differential) analog input channels. The MAX1033

provides four (single-ended) or two (true differential)

analog input channels. Each analog input channel is

independently software programmable for seven sin-

gle-ended input ranges (0 to +6V, -6V to 0, 0 to +12V,

-12V to 0, ±3V, ±6V, and ±12V), and three differential

input ranges (±6V, ±12V, ±24V).

An on-chip +4.096V reference offers a small convenient

ADC solution. The MAX1032/MAX1033 also accept an

external reference voltage between 3.800V and 4.136V.

The MAX1032 is available in a 24-pin TSSOP package

and the MAX1033 is available in a 20-pin TSSOP pack-

age. Each device is specified for operation from -40°C

to +85°C.

Applications

Industrial Control Systems

Data-Acquisition Systems

Avionics

Robotics

Features

♦ Software-Programmable Input Range for Each

Channel

♦ Single-Ended Input Ranges

0 to +6V, -6V to 0, 0 to +12V, -12V to 0, ±3V,

±6V, and ±12V

♦ Differential Input Ranges

±6V, ±12V, and ±24V

♦ Eight Single-Ended or Four Differential Analog

Inputs (MAX1032)

♦ Four Single-Ended or Two Differential Analog

Inputs (MAX1033)

♦ ±16.5V Overvoltage Tolerant Inputs

♦ Internal or External Reference

♦ 115ksps Maximum Sample Rate

♦ Single +5V Power Supply

♦ 20-/24-Pin TSSOP Package

MAX1032/MAX1033

8-/4-Channel, ±12V Multirange Inputs,

Serial 14-Bit ADCs

________________________________________________________________ Maxim Integrated Products 1

Pin Configurations

Ordering Information

AGND1

AGND2

DD2

AGND3CH2

CH1

CH0

DD1

TOP VIEW

REF

REFCAP

DDO

CH6

CH5

CH4

CH3

DGND

DGNDO

DOUT

SCLKSSTRB

DIN

CH7

TSSOP

MAX1032

19-3573; Rev 2; 12/06

For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at

1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.

PART

PIN-PACKAGE

CHANNELS

PKG CODE

MAX1032EUG*

24 TSSOP 8 U24-1

MAX1033EUP

20 TSSOP 4 U20-2

SPI and QSPI are trademarks of Motorola, Inc.

MICROWIRE is a trademark of National Semiconductor Corp.

Pin Configurations continued at end of data sheet.

*Future product—contact factory for availability.

Note: All devices are specified over the -40°C to +85°C oper-

ating temperature range.

1 2 3 4 5 6 ... 30 31

Summary of Contents

Page 1 - Serial 14-Bit ADCs

General DescriptionThe MAX1032/MAX1033 multirange, low-power, 14-bit,successive-approximation, analog-to-digital converters(ADCs) operate from a singl

Page 2

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs10 ____________________________________________________________________________

Page 3

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs_______________________________________________________________________________

Page 4

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs12 ____________________________________________________________________________

Page 5

Detailed DescriptionThe MAX1032/MAX1033 multirange, low-power, 14-bitsuccessive-approximation ADCs operate from a single+5V supply and have a separate

Page 6

MAX1032/MAX1033Power SuppliesTo maintain a low-noise environment, the MAX1032/MAX1033 provide separate power supplies for eachsection of circuitry. Ta

Page 7

As a result, the analog input impedance is relativelyconstant over input voltage as shown in Figure 5.Single-ended conversions are internally referenc

Page 8

MAX1032/MAX1033Figure 8 illustrates the software-selectable differentialanalog input voltage range that produces a valid digitaloutput. Each analog in

Page 9

Figure 6. Simplified Analog Input CircuitMAX1032MAX1033R2R1VSJ*RSOURCEANALOGSIGNALSOURCER2R1VSJ*RSOURCEANALOGSIGNALSOURCEIN_+IN_+*MINIMIZE RSOURCE TO

Page 10

Differential Common-Mode RangeThe MAX1032/MAX1033 differential common-moderange (VCMDR) must remain within -14V to +10V toobtain valid conversion resu

Page 11

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs_______________________________________________________________________________

Page 12

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs2 _____________________________________________________________________________

Page 13

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs20 ____________________________________________________________________________

Page 14

Start BitCommunication with the MAX1032/MAX1033 is accom-plished using the three input data word formats shownin Table 3. Each input data word begins

Page 15

Mode ControlThe MAX1032/MAX1033 contain one byte-wide mode-control register. The timing diagram of Figure 15 showshow to use the mode-control byte, an

Page 16

• User supplies one byte of SCLK, then drives CShigh to relieve processor load while the ADCconverts• After SSTRB transitions high, the user suppliest

Page 17

External Acquisition Mode (Mode 1)The slowest maximum throughput rate is achieved withthe external acquisition method. SCLK controls the acqui-sition

Page 18

This prevents the MAX1032/MAX1033 from inadvertent-ly exiting full power-down mode because of a CS glitchin a noisy digital environment.Power-On Reset

Page 19

Bridge ApplicationThe MAX1032/MAX1033 convert 1kHz signals moreaccurately than a similar sigma-delta converter thatmight be considered in bridge appli

Page 20

Differential Nonlinearity (DNL)DNL is the difference between an actual step width andthe ideal value of 1 LSB. A DNL error specification ofgreater tha

Page 21

Unipolar Offset Error-FSR to 0VWhen a zero-scale analog input voltage is applied tothe converter inputs, the digital output is all ones(0x3FFF). Ideal

Page 22

Effective Number of Bits (ENOB)ENOB indicates the global accuracy of an ADC at aspecific input frequency and sampling rate. With aninput range equal t

Page 23

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs_______________________________________________________________________________

Page 24

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs30 ____________________________________________________________________________

Page 25 - Applications Information

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCsMaxim cannot assume responsibility for use of any circuitry other than circuitr

Page 26

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs4 _____________________________________________________________________________

Page 27

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs_______________________________________________________________________________

Page 28

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs6 _____________________________________________________________________________

Page 29

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs_______________________________________________________________________________

Page 30

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs8 _____________________________________________________________________________

Page 31 - Package Information

MAX1032/MAX10338-/4-Channel, ±12V Multirange Inputs, Serial 14-Bit ADCs_______________________________________________________________________________

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Rainbow-electronics MAX1033 User Manual

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Summary of Contents

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