MAX5205AEUB+ Maxim Integrated, MAX5205AEUB+ Datasheet - Page 9

MAX5205AEUB+

Manufacturer Part Number

MAX5205AEUB+

Description

Digital to Analog Converters - DAC 16Bit DAC w/Int Reference

Manufacturer

Maxim Integrated

Datasheet

1.MAX5206BEUB.pdf (13 pages)

Specifications of MAX5205AEUB+

Rohs

yes

Number Of Converters

Number Of Dac Outputs

Resolution

16 bit

Interface Type

QSPI, SPI, Serial (3-Wire, 4-Wire, Microwire)

Settling Time

25 us

Maximum Operating Temperature

+ 105 C

Mounting Style

SMD/SMT

Package / Case

USOP

Minimum Operating Temperature

- 40 C

Output Type

Voltage

Supply Voltage - Max

5.25 V

Supply Voltage - Min

4.75 V

Voltage Reference

External

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three digital inputs: CS, DIN, and SCLK (Figure 2). The

active-low chip-select input (CS) enables the serial

data loading at the data input (DIN). Pull CS low and

clock in each bit of the 16-bit digital word on the rising

edge of the serial clock (SCLK). Two eight-bit bytes

can be used, and do not require any additional time

between them. Pulling CS high after loading the 16-bit

word transfers that code into the DAC register and then

updates the output. If CS is not kept low during the

entire loading of the 16-bit word, data will be corrupted.

In this case, a new 16-bit word must be loaded. LDAC

must be kept low at all times for the above instructions.

An alternate method of interfacing and updating the

MAX5204–MAX5207 can be done with a fourth digital

input, the active-low load DAC (LDAC). LDAC allows

the output to update asynchronously after CS goes

high. It is useful when updating multiple MAX5204–

MAX5207s synchronously when sharing a single LDAC

and CS line. LDAC must be kept high at all times dur-

ing the data loading sequence and must only be

asserted when CS is high. Asserting LDAC when CS is

low can cause corrupted data. To operate the

MAX5204–MAX5207 using LDAC, pull LDAC high, pull

CS low, load the 16-bit word as described in the previ-

ous paragraph, and pull CS high again. Following these

commands, the DAC output only updates when LDAC

is asserted low (Figure 3).

Figure 2. 3-Wire Interface Timing Diagram

Low-Cost, Voltage-Output, 16-Bit DACs in µMAX

SCLK

DIN

NOTE: LDAC IS LOGIC LOW.

_______________________________________________________________________________________

CSWH

CS0

CSS

D15

The low-power shutdown mode reduces supply current

to typically 1µA and a maximum of 10µA. Shutdown

mode is not activated through command words, as is

common among D/A converters. These devices require

careful manipulation of CS and SCLK (Figure 4).

To shut down the MAX5204–MAX5207, change the

state of SCLK (either a high to low or low to high transi-

tion can be used) and pulse two falling CS edges. In

order to keep the device in shutdown mode, SCLK

must not change state. SCLK must remain in the state

it is in after the two CS pulses.

There are two methods to wake up the MAX5204–

MAX5207. Pulse one falling CS edge or transition SCLK.

It takes 50µs typically from the CS falling edge or SCLK

transition for the DAC to return to normal operation.

The MAX5204–MAX5207 have a power-on reset circuit

to set the DAC’s output to a known state when V

first applied. The MAX5204/MAX5206 reset to midscale

(code 8000 hex) upon power-up. The MAX5205/

MAX5207 reset to zero-scale (code 0000 hex) upon

power-up. This ensures that unwanted output voltages

do not occur immediately following a system power-up,

such as a loss of power. It is required to apply V

before any other input (DIN, SCLK, CLR, LDAC, CS,

and REF).

D14

CSH

CS1

Power-On Reset

Shutdown Mode

Shutting Down

Waking Up

first

MAX5205AEUB+ Maxim Integrated, MAX5205AEUB+ Datasheet - Page 9

MAX5205AEUB+

Specifications of MAX5205AEUB+

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