MAX1042BETX+T Maxim Integrated Products, MAX1042BETX+T Datasheet

MAX1042BETX+T

Manufacturer Part Number

MAX1042BETX+T

Description

IC ADC/DAC 10BIT W/FIFO 36TQFN

Manufacturer

Maxim Integrated Products

Type

ADC, DACr

Datasheet

1.MAX1048BETX.pdf (39 pages)

Specifications of MAX1042BETX+T

Resolution (bits)

10 b

Sampling Rate (per Second)

225k

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Voltage Supply Source

Analog and Digital

Voltage - Supply

4.75 V ~ 5.25 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

36-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The MAX1040/MAX1042/MAX1046/MAX1048 integrate a

multichannel, 10-bit, analog-to-digital converter (ADC)

and a quad, 10-bit, digital-to-analog converter (DAC) in a

single IC. The devices also include a temperature sensor

and configurable general-purpose I/O ports (GPIOs) with

a 25MHz SPI™-/QSPI™-/MICROWIRE™-compatible seri-

al interface. The ADC is available in a four or an eight

input-channel version. The four DAC outputs settle within

2.0µs, and the ADC has a 225ksps conversion rate.

All devices include an internal reference (4.096V) provid-

ing a well-regulated, low-noise reference for both the

ADC and DAC. Programmable reference modes for the

ADC and DAC allow the use of an internal reference, an

external reference, or a combination of both. Features

such as an internal ±1°C accurate temperature sensor,

FIFO, scan modes, programmable internal or external

clock modes, data averaging, and AutoShutdown™ allow

users to minimize both power consumption and proces-

sor requirements. The low glitch energy (4nV

digital feedthrough (0.5nV

DACs make these devices ideal for digital control of fast-

response closed-loop systems.

The devices are guaranteed to operate with a supply volt-

age from +4.75V to +5.25V. These devices consume

2.5mA at 225ksps throughput, only 22µA at 1ksps

throughput, and under 0.2µA in the shutdown mode. The

MAX1042/MAX1048 offer four GPIOs that can be config-

ured as inputs or outputs.

The MAX1040/MAX1042/MAX1046/MAX1048 are avail-

able in 36-pin thin QFN packages. All devices are speci-

fied over the -40°C to +85°C temperature range.

19-3294; Rev 3; 3/08

Note: All devices are specified over the -40°C to +85°C operating temperature range.

*EP = Exposed pad.

**Number of resolution bits refers to both DAC and ADC.

For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,

or visit Maxim’s website at www.maxim-ic.com.

MAX1040BETX

MAX1042BETX

MAX1046BETX

MAX1048BETX

PART

Closed-Loop Controls for Optical Components

and Base Stations

System Supervision and Control

Data-Acquisition Systems

10-Bit, Multichannel ADCs/DACs with FIFO,

________________________________________________________________ Maxim Integrated Products

36 Thin QFN-EP*

PIN-PACKAGE

General Description

Temperature Sensing, and GPIO Ports

•

s) of the integrated quad

VOLTAGE (V)

Applications

4.096

REF

•

s) and low

ANALOG SUPPLY

VOLTAGE (V)

4.75 to 5.25

Ordering Information/Selector Guide

♦ 10-Bit, 225ksps ADC

♦ 10-Bit, Quad, 2µs Settling DAC

♦ Internal Reference or External Single-Ended/

♦ Internal ±1°C Accurate Temperature Sensor

♦ On-Chip FIFO Capable of Storing 16 ADC

♦ On-Chip Channel-Scan Mode and Internal

♦ Analog Single-Supply Operation: +4.75V to +5.25V

♦ Digital Supply: +2.7V to AV

♦ 25MHz, SPI/QSPI/MICROWIRE Serial Interface

♦ AutoShutdown Between Conversions

♦ Low-Power ADC

♦ Low-Power DAC: 1.5mA

♦ Evaluation Kit Available (Order MAX1258EVKIT)

SPI and QSPI are trademarks of Motorola, Inc.

MICROWIRE is a trademark of National Semiconductor Corp.

AutoShutdown is a trademark of Maxim Integrated Products, Inc.

Pin Configurations appear at end of data sheet.

Differential Reference

Conversion Results and One Temperature Result

Data-Averaging Features

Analog Multiplexer with True-Differential

Eight Single-Ended Channels or Four

Four Single-Ended Channels or Two Differential

Excellent Accuracy: ±0.5 LSB INL, ±0.5 LSB

Ultra-Low-Glitch Energy (4nV

Power-Up Options from Zero Scale or Full Scale

Excellent Accuracy: ±0.5 LSB INL

Internal Reference Voltage (4.096V)

2.5mA at 225ksps

22µA at 1ksps

0.2µA at Shutdown

RESOLUTION

Track/Hold (T/H)

Differential

Channels (Unipolar or Bipolar)

(MAX1040/MAX1042)

Channels (Unipolar or Bipolar)

(MAX1046/MAX1048)

DNL, No Missing Codes Over Temperature

BITS**

CHANNELS

ADC

CHANNELS

•

DAC

Features

GPIOs

Related parts for MAX1042BETX+T

MAX1042BETX+T Summary of contents

Page 1

... Low-Power DAC: 1.5mA Applications ♦ Evaluation Kit Available (Order MAX1258EVKIT) SPI and QSPI are trademarks of Motorola, Inc. MICROWIRE is a trademark of National Semiconductor Corp. AutoShutdown is a trademark of Maxim Integrated Products, Inc. Pin Configurations appear at end of data sheet. Ordering Information/Selector Guide REF ANALOG SUPPLY ...

Page 2

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports ABSOLUTE MAXIMUM RATINGS AV to AGND .........................................................-0.3V to +6V DD DGND to AGND.....................................................-0.3V to +0. .......................................................-3.0V to +0. Digital Inputs to DGND.............................................-0.3V to +6V Digital ...

Page 3

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports ELECTRICAL CHARACTERISTICS (continued) ( 4.75V to 5.25V, external reference otherwise noted. Typical values are at AV PARAMETER SYMBOL Acquisition Time t ACQ Conversion Time ...

Page 4

Page 5

Page 6

Page 7

Page 8

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports ( 5V, external V = 4.096V REF at REF +25°C, unless otherwise noted.) A ANALOG SHUTDOWN CURRENT vs. ANALOG SUPPLY VOLTAGE 0.5 ...

Page 9

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports ( 5V, external V = 4.096V REF at REF +25°C, unless otherwise noted.) A ANALOG SUPPLY CURRENT vs. SAMPLING RATE 3.0 2.5 ...

Page 10

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports ( 5V, external V = 4.096V REF at REF +25°C, unless otherwise noted.) A INTERNAL REFERENCE VOLTAGE vs. TEMPERATURE 4.12 4.11 4.10 ...

Page 11

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports ( 5V, external V = 4.096V REF at REF +25°C, unless otherwise noted.) A TEMPERATURE SENSOR ERROR vs. TEMPERATURE 1.00 0.75 0.50 ...

Page 12

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports PIN MAX1040 MAX1042 MAX1046 1, 2, 16–19 16–19, 16–19 24, 25, 31, 24 ...

Page 13

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports PIN MAX1040 MAX1042 MAX1046 27–31, 34 27–31, 34 — — — — — — 24, 25 — — ...

Page 14

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Detailed Description The MAX1040/MAX1042/MAX1046/MAX1048 integrate a multichannel 10-bit ADC and a quad 10-bit DAC in a single IC. These devices also include a temperature sensor and configurable GPIOs with a ...

Page 15

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports GPIOC0, GPIOA0, GPIOA1 GPIOC1 USER-PROGRAMMABLE I/O CONTROL OSCILLATOR SCLK CS DIN DOUT TEMPERATURE SENSOR EOC LOGIC CONTROL CNVST AIN0 10-BIT FIFO AND SAR T/H AIN5 ALU ADC REF2/ AIN6 CNVST/ ...

Page 16

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 1. Command Byte (MSB First) REGISTER NAME BIT 7 Conversion* 1 Setup 0 ADC Averaging 0 DAC Select 0 Reset 0 GPIO Configure** 0 GPIO Write** 0 GPIO Read** ...

Page 17

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Unipolar or Bipolar Conversions Address the unipolar- and bipolar-mode registers through the setup register (bits 1 and 0). See Table 5 for the setup register. See Figures 3 and 4 ...

Page 18

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Celsius (two’s complement resolution of 8 LSB per degree. See the Temperature Measurements sec- tion for details on converting the digital code to a tem- perature. In addition ...

Page 19

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Write to the GPIOs by writing a command byte to the GPIO command register. Write a single data byte to the MAX1042/MAX1048 following the command byte. The GPIOs can sink ...

Page 20

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports and 7 for timing specifications for starting a scan with CNVST. A conversion is not performed requested on a channel or one of the channel pairs that ...

Page 21

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 5. Setup Register* BIT NAME BIT — 7 (MSB) — 6 CKSEL1 5 CKSEL0 4 REFSEL1 3 REFSEL0 2 DIFFSEL1 1 DIFFSEL0 0 (LSB) * See below for bit ...

Page 22

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 5c. Clock Mode 11 VOLTAGE REFSEL1 REFSEL0 REFERENCE Internal (DAC 0 0 and ADC) External single- ended (REF1 0 1 for DAC and REF2 for ADC) Internal (ADC) 1 ...

Page 23

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 6. Unipolar-Mode Register (Addressed Through the Setup Register) BIT NAME BIT UCH0/1 7 (MSB) Configure AIN0 and AIN1 for unipolar differential conversion. UCH2/3 6 Configure AIN2 and AIN3 for ...

Page 24

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Unipolar/Bipolar Registers The final 2 bits (LSBs) of the setup register control the unipolar-/bipolar-mode address registers. Set DIFFSEL[1: write to the unipolar-mode regis- ter. Set bits DIFFSEL[1:0] ...

Page 25

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 9 details the four scan modes available in the ADC conversion register. All four scan modes allow averaging as long as the AVGON bit, bit 4 in the averaging ...

Page 26

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Write the command byte 00000011 to configure the GPIOs. The eight SCLK cycles following the command byte load data from DIN to the GPIO configuration reg- ister in the MAX1042/MAX1048. ...

Page 27

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 17. DAC Serial-Interface Configuration 16-BIT SERIAL WORD MSB CONTROL BITS ...

Page 28

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Table 18. DAC Power-Up and Power-Down Commands CONTROL DATA BITS BITS — — — ...

Page 29

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Partial Reads and Partial Writes If the first byte of an entry in the FIFO is partially read (CS is pulled high after fewer than eight SCLK cycles), the remaining ...

Page 30

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports CNVST CS SCLK DOUT EOC Figure 6. Clock Mode 00—After writing a command byte, set CNVST low for at least 40ns to begin a conversion. t CSW CNVST (ACQUISITION 1) ...

Page 31

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports DIN CS SCLK DOUT t DOV EOC Figure 8. Clock Mode 10—The command byte to the conversion register begins the acquisition (CNVST is not required). version. However, coupled noise may ...

Page 32

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports DIN (ACQUISITION1) CS SCLK DOUT EOC X = DON'T CARE. Figure 9. Clock Mode 11—Externally Timed Acquisition, Sampling, and Conversion without CNVST Externally Clocked Acquisitions and Conversions Using the Serial ...

Page 33

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports SCLK DIN D15 D14 t DOE D15 DOUT D7 t CSS t CSPWH CS Figure 10. DAC/GPIO Serial-Interface Timing (Clock Modes 00, 01, and ...

Page 34

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports SCLK D15 D14 DIN t DOE D15 DOUT D7 t CSS t CSPWH CS Figure 11. DAC/GPIO Serial-Interface Timing (Clock Mode 11) SCLK 1 ...

Page 35

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports CS t GSU GPIO INPUT/OUTPUT Figure 13. GPIO Timing LDAC OUT_ Figure 14. LDAC Functionality Drive LDAC low to transfer the content of the input reg- isters to the DAC ...

Page 36

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Unipolar ADC Offset Error For an ideal converter, the first transition occurs at 0.5 LSB, above zero. Offset error is the amount of deviation between the measured first transition point ...

Page 37

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports Full-Power Bandwidth A large -0.5dBFS analog input signal is applied to an ADC, and the input frequency is swept up to the point where the amplitude of the digitized conversion ...

Page 38

Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports TOP VIEW D.C. 1 D.C. 2 EOC DGND 5 MAX1040 DOUT 6 SCLK 7 DIN 8 OUT0 ...

Page 39

... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 39 © 2008 Maxim Integrated Products ...

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