MAX5715AAUD+ Maxim Integrated, MAX5715AAUD+ Datasheet

MAX5715AAUD+

Manufacturer Part Number

MAX5715AAUD+

Description

Digital to Analog Converters - DAC 12Bit 4CH V Buff Precision ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX5715AAUD.pdf (27 pages)

Specifications of MAX5715AAUD+

Rohs

yes

Number Of Converters

Number Of Dac Outputs

Resolution

12 bit

Interface Type

SPI, Serial (3-Wire, Microwire)

Settling Time

4.5 us

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

TSSOP-14

Maximum Power Dissipation

797 mW

Minimum Operating Temperature

- 40 C

Output Type

Voltage Buffered

Supply Current

1.16 mA

Supply Voltage - Max

5.5 V

Supply Voltage - Min

2.7 V

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The MAX5713/MAX5714/MAX5715 4-channel, low-power,

8-/10-/12-bit, voltage-output digital-to-analog converters

(DACs) include output buffers and an internal reference

that is selectable to be 2.048V, 2.500V, or 4.096V. The

MAX5713/MAX5714/MAX5715 accept a wide supply

voltage range of 2.7V to 5.5V with extremely low power

(3mW) consumption to accommodate most low-voltage

applications. A precision external reference input allows

rail-to-rail operation and presents a 100kI (typ) load to

an external reference.

The MAX5713/MAX5714/MAX5715 have a 50MHz 3-wire

SPI/QSPI™/MICROWIRE®/DSP-compatible serial interface

that also includes a RDY output for daisy-chain applica-

tions. The DAC output is buffered and has a low supply

current of less than 250FA per channel and a low off-

set error of Q0.5mV (typ). On power-up, the MAX5713/

MAX5714/MAX5715 reset the DAC outputs to zero, pro-

viding additional safety for applications that drive valves

or other transducers which need to be off on power-up.

The internal reference is initially powered down to allow

use of an external reference. The MAX5713/MAX5714/

MAX5715 allow simultaneous output updates using soft-

ware LOAD commands or the hardware load DAC logic

input (LDAC).

A clear logic input (CLR) allows the contents of the CODE

and the DAC registers to be cleared asynchronously and

sets the DAC outputs to zero. The MAX5713/MAX5714/

MAX5715 are available in a 14-pin TSSOP and an ultra-

small, 12-bump WLP package and are specified over the

-40NC to +125NC temperature range.

QSPI is a trademark of Motorola, Inc.

Semiconductor Corporation.

µMAX is a registered trademark of Maxim Integrated Products,

MICROWIRE is a registered trademark of National

For pricing, delivery, and ordering information, please contact Maxim Direct

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

Output DACs with Internal Reference and SPI Interface

Programmable Voltage and Current Sources

Gain and Offset Adjustment

Automatic Tuning and Optical Control

Power Amplifier Control and Biasing

Process Control and Servo Loops

Portable Instrumentation

Data Acquisition

Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered

General Description

Applications

MAX5713/MAX5714/MAX5715

Inc.

S Four High-Accuracy DAC Channels

S Three Precision Selectable Internal References

S Internal Output Buffer

S Small 5mm x 4.4mm 14-Pin TSSOP or Ultra-Small

S Wide 2.7V to 5.5V Supply Range

S Separate 1.8V to 5.5V V

S 50MHz 3-Wire SPI/QSPI/MICROWIRE/DSP

S Power-On-Reset to Zero-Scale DAC Output

S LDAC and CLR For Asynchronous Control

S Three Software-Selectable Power-Down Output

Ordering Information

For related parts and recommended products to use with this part,

refer to:

(LDAC)

SCLK

(RDY)

 12-Bit Accuracy Without Adjustment

 ±1 LSB INL Buffered Voltage Output

 Monotonic Over All Operating Conditions

 Independent Mode Settings for Each DAC

 2.048V, 2.500V, or 4.096V

 Rail-to-Rail Operation with External Reference

 4.5µs Settling Time

 Outputs Directly Drive 2kI Loads

1.6mm x 2.2mm 12-Bump WLP Package

Compatible Serial Interface with RDY Output

Impedances

 1kI, 100kI, or High Impedance

CSB

CLR

DIN

( ) TSSOP PACKAGE ONLY

www.maximintegrated.com/MAX5713.related

DDIO

SPI SERIAL

INTERFACE

POR

GND

CODE

CLEAR/

RESET

DAC CONTROL LOGIC

appears at end of data sheet.

Benefits and Features

INTERNAL REFERENCE/

EXTERNAL BUFFER

LOAD

REF

EVALUATION KIT AVAILABLE

Functional Diagram

LATCH

DAC

CLEAR/

RESET

DDIO

POWER-DOWN

8 -/10-/12-BIT

Power-Supply Input

DAC

MAX5713

MAX5714

MAX5715

BUFFER

19-6394; Rev 2; 1/13

1 OF 4 DAC CHANNELS

100kI

1kI

OUTA

OUTB

OUTC

OUTD

Related parts for MAX5715AAUD+

MAX5715AAUD+ Summary of contents

Page 1

... Data Acquisition QSPI is a trademark of Motorola, Inc. MICROWIRE is a registered trademark of National Semiconductor Corporation. µMAX is a registered trademark of Maxim Integrated Products, For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim’s website at www.maximintegrated.com. MAX5713/MAX5714/MAX5715 S Four High-Accuracy DAC Channels  ...

Page 2

... Differential Nonlinearity (Note 5) Offset Error (Note 6) Offset Error Drift Gain Error (Note 6) Gain Temperature Coefficient Zero-Scale Error Full-Scale Error Maxim Integrated MAX5713/MAX5714/MAX5715 Maximum Continuous Current into Any Pin .................... Q50mA Operating Temperature Range ........................ -40NC to +125NC Storage Temperature Range ............................ -65NC to +150NC (V + 0.3V) and +6V DD Lead Temperature (TSSOP only)(soldering, 10s) ...

Page 3

... Resistive Load Handling Short-Circuit Output Current DC Power-Supply Rejection DYNAMIC PERFORMANCE Voltage-Output Slew Rate Voltage-Output Settling Time DAC Glitch Impulse Channel-to-Channel Feedthrough (Note 8) Digital Feedthrough Power-Up Time Maxim Integrated MAX5713/MAX5714/MAX5715 = 0V 200pF 2kI, T GND L L SYMBOL CONDITIONS No load 2kI load to GND ...

Page 4

... A PARAMETER Output Voltage-Noise Density (DAC Output at Midscale) Integrated Output Noise (DAC Output at Midscale) Output Voltage-Noise Density (DAC Output at Full Scale) Integrated Output Noise (DAC Output at Full Scale) Maxim Integrated MAX5713/MAX5714/MAX5715 = 0V 200pF 2kI, T GND L L SYMBOL CONDITIONS f = 1kHz ...

Page 5

... POWER REQUIREMENTS Supply Voltage I/O Supply Voltage Supply Current (Note 11) Interface Supply Current (Note 11) Power-Down Mode Supply Current DIgITAL INPUT CHRACTERISTICS (CSB, SCLk, DIN, LDAC, CLR) Hysteresis Voltage Input High Voltage Maxim Integrated MAX5713/MAX5714/MAX5715 = 0V 200pF 2kI, T GND L L SYMBOL CONDITIONS V REF ...

Page 6

... SCLK Fall to CSB Fall CSB Pulse Width High DIN to SCLK Fall Setup Time DIN to SCLK Fall Hold Time CLR Pulse Width Low CLR Rise to CSB Fall LDAC Pulse Width Low LDAC Fall to SCLK Fall Hold Maxim Integrated MAX5713/MAX5714/MAX5715 = 0V 200pF 2kI, T GND L L ...

Page 7

... SCLK CSH0 t CSS0 CSB t CSPW CLR t t CLPW CSC LDAC Figure 1. SPI Serial Interface Timing Diagram Maxim Integrated MAX5713/MAX5714/MAX5715 = 0V 200pF 2kI, T GND L L SYMBOL CONDITIONS pplies to 24th SCLK falling edge CRF C = 20pF LOAD pplies to 24th SCLK falling edge, ...

Page 8

... Figure 2. Elongated SPI Serial Interface Timing Diagram (Daisy-Chain Applications, TSSOP Package Only) (MAX5715, 12-bit performance +25°C, unless otherwise noted.) A INL vs. CODE 1 REF 0.8 NO LOAD 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 -0.8 -1.0 0 512 1024 1536 2048 2560 3072 3584 CODE (LSB) Maxim Integrated MAX5713/MAX5714/MAX5715 SCLK ...

Page 9

... TEMPERATURE 0. 2.5V (EXTERNAL) REF NO LOAD 0.05 GAIN ERROR ( FULL-SCALE ERROR GAIN ERROR (V DD -0.05 -0.10 -40 -25 - TEMPERATURE (°C) Maxim Integrated MAX5713/MAX5714/MAX5715 Typical Operating Characteristics (continued) INL AND DNL vs. SUPPLY VOLTAGE 1 2.7V REF 0.8 0.6 MAX INL 0.4 MAX DNL 0.2 0 -0.2 -0.4 MIN DNL MIN INL -0.6 -0.8 -1.0 2 ...

Page 10

... CODE (LSB) SETTLING TO ±1 LSB ( 5V 2kI REF L 3/4 SCALE TO 1/4 SCALE 4.3µs V OUT 0.5V/div TRIGGER PULSE 5V/div 4µs/div Maxim Integrated MAX5713/MAX5714/MAX5715 Typical Operating Characteristics (continued +125° +25°C A 4.3 4.7 5.1 5 2560 3072 3584 4096 = 200pF) L ZOOMED V ...

Page 11

... CHANNEL-TO-CHANNEL FEEDTHROUGH ( 5V +25NC, NO LOAD) DD REF A NO LOAD NO LOAD TRANSITIONING DAC FULL SCALE STATIC DAC: MIDSCALE ANALOG CROSSTALK = 1.8nV*s 5µs/div Maxim Integrated MAX5713/MAX5714/MAX5715 Typical Operating Characteristics (continued) = 200pF) L MAX5713 toc21 2V/div REF DD V OUT 2V/div ...

Page 12

... SOURCING DD 2.00 1. AND 5V DD 1.00 SINKING 0.50 DAC = ZERO SCALE (mA) OUT Maxim Integrated MAX5713/MAX5714/MAX5715 Typical Operating Characteristics (continued) MAX5713 toc25 TRANSITIONING DAC 1V/div STATIC DAC 1.25mV/div TRIGGER PULSE 10V/div REF DIGITAL FEEDTHROUGH MAX5713 toc26 0.7mV/div V ...

Page 13

... REF 2.7V (INTERNAL) = 2.5V REF BOX METHOD 2.8 2.9 3.0 3.2 3.3 3.4 3.6 3.7 3.9 4.0 4.1 TEMPERATURE DRIFT (ppm/°C) Maxim Integrated MAX5713/MAX5714/MAX5715 Typical Operating Characteristics (continued) = 4.5V) REF MAX5713 toc31 V = 12µV P-P 2µV/div = 2.5V) REF MAX5713 toc33 V = 15µV P-P 2µV/div REFERENCE LOAD REGULATION INTERNAL REFERENCE -0.2 -0.4 -0 2.048V, 2.5V, AND 4.096V REF -0 ...

Page 14

... — RDY 9 C4 DIN 10 C3 SCLK 11 C2 CSB 12 C1 CLR DDIO 14 — LDAC Maxim Integrated MAX5713/MAX5714/MAX5715 + 14 LDAC 13 V DDIO 12 CLR MAX5713 MAX5714 11 CSB MAX5715 10 SCLK 9 DIN 8 RDY TSSOP Reference Voltage Input/Output Buffered Channel A DAC Output Buffered Channel B DAC Output ...

Page 15

... Within each DAC channel there is a CODE register followed by a DAC latch register (see the Detailed Functional Diagram). The contents of the CODE register Maxim Integrated MAX5713/MAX5714/MAX5715 hold pending DAC output settings which can later be loaded into the DAC registers. The CODE register can be updated using both CODE and CODE_LOAD user com- mands ...

Page 16

... D8 D7 MAX5715 D11 D10 D9 Maxim Integrated MAX5713/MAX5714/MAX5715 Clear Input (CLR) ing of more than 24 SCLK cycles are executed on the 24th SCLK falling edge, using the first three bytes of data available. SPI operations consisting of less than 24 SCLK cycles will not be executed. The content of the SPI operation consists of a command byte followed by a two byte data word ...

Page 17

... SPI DEVICE Figure 3. Typical SPI Application Circuit SPI User-Command Register Map This section lists the user accessible commands and registers for the MAX5713/MAX5714/MAX5715. Table 2 provides detailed information about the Command Registers. Maxim Integrated MAX5713/MAX5714/MAX5715 CSB MAX5713 SCLK MAX5714 DIN MAX5715 ...

Page 18

... Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered Output DACs with Internal Reference and SPI Interface Maxim Integrated MAX5713/MAX5714/MAX5715 18 ...

Page 19

... Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered Output DACs with Internal Reference and SPI Interface A DAC B DAC C DAC D DAC LD_EN DACs All Maxim Integrated MAX5713/MAX5714/MAX5715 19 ...

Page 20

... Maxim Integrated MAX5713/MAX5714/MAX5715 CODEn Command ister. To avoid this, use the LOADn command with DAC SELECTION = ALL DACs or use the LOAD_ALL com- mand. See The CODEn_LOADn command (B[23:20] = 0011) updates the CODE register contents for the selected DAC(s) as well as the DAC register content of the selected DAC(s). ...

Page 21

... PD1 (B17) PD0 (B16 Maxim Integrated MAX5713/MAX5714/MAX5715 POWER Command In STANDBY mode, the internal reference can be pow- ered down or it can be set to remain powered-on for external use. Also, in STANDBY mode, devices using the external reference do not load the REF pin. See ...

Page 22

... REF Command 4.0V 0 Default Values ➝ Maxim Integrated MAX5713/MAX5714/MAX5715 CONFIG Command The REF command updates the global reference setting used for all DAC channels. Set B[17:16 use an external reference for the DACs or set B[17:16] to 01, 10 select either the 2.5V, 2.048V, or 4.096V internal reference, respectively ...

Page 23

... Offset error indicates how well the actual transfer function matches the ideal transfer function. The offset error is calculated from two measurements near zero code and near maximum code. Maxim Integrated MAX5713/MAX5714/MAX5715 Gain error is the difference between the ideal and the actual full-scale output voltage on the transfer curve, after nullifying the offset error ...

Page 24

... Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered Output DACs with Internal Reference and SPI Interface V DDIO CSB SCLK DIN SPI SERIAL INTERFACE (RDY) CLR (LDAC) POR () TSSOP PACKAGE ONLY Maxim Integrated MAX5713/MAX5714/MAX5715 V REF DD 100kI R IN INTERNAL/EXTERNAL REFERENCE (USER OPTION) CODE DAC 8-/10-/12-BIT REGISTER LATCH A ...

Page 25

... Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered Output DACs with Internal Reference and SPI Interface 100nF µC NOTE: BIPOLAR OPERATING CIRCUIT, ONE CHANNEL SHOWN µC NOTE: UNIPOLAR OPERATING CIRCUIT, ONE CHANNEL SHOWN Maxim Integrated MAX5713/MAX5714/MAX5715 V V DDIO DD 4.7µ DDIO DD OUT DAC LDAC CSB ...

Page 26

... Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered Output DACs with Internal Reference and SPI Interface PART PIN-PACkAgE MAx5713AUD+T* MAx5714AUD+T* MAx5715AAUD+T MAX5715BAUD+T* MAX5715AWC+T Note: All devices are specified over the -40°C to +125°C temperature range. +Denotes a lead(Pb)-free/RoHS-compliant package Tape and reel. *Future product—Contact factory for availability. ...

Page 27

... Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed ...

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