AD5764RCSUZ Analog Devices Inc, AD5764RCSUZ Datasheet - Page 21

AD5764RCSUZ

Manufacturer Part Number

AD5764RCSUZ

Description

IC DAC QUAD 16BIT VOUT 32-TQFP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5764RBSUZ.pdf (32 pages)

Specifications of AD5764RCSUZ

Data Interface

Serial

Design Resources

High Accuracy, Bipolar Voltage Output Digital-to-Analog Conversion Using AD5764 (CN0006)

Settling Time

8µs

Number Of Bits

Number Of Converters

Voltage Supply Source

Dual ±

Power Dissipation (max)

275mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-TQFP, 32-VQFP

Resolution (bits)

16bit

Sampling Rate

1.26MSPS

Input Channel Type

Serial

Supply Voltage Range - Digital

2.7V To 5.25V

Supply Current

3.55mA

Digital Ic Case Style

QFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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THEORY OF OPERATION

The AD5764R is a quad, 16-bit, serial input, bipolar voltage output

DAC that operates from supply voltages of ±11.4 V to ±16.5 V and

has a buffered output voltage of up to ±10.5263 V. Data is written to

the AD5764R in a 24-bit word format via a 3-wire serial interface.

The AD5764R also offers an SDO pin that is available for daisy

chaining or readback.

The AD5764R incorporates a power-on reset circuit that ensures

that the data registers are loaded with 0x0000 at power-up. The

AD5764R features a digital I/O port that can be programmed via

the serial interface, an analog die temperature sensor, on-chip

10 ppm/°C voltage reference, on-chip reference buffers, and per

channel digital gain and offset registers.

DAC ARCHITECTURE

The DAC architecture of the AD5764R consists of a 16-bit,

current mode, segmented R-2R DAC. The simplified circuit

diagram for the DAC section is shown in Figure 39.

The four MSBs of the 16-bit data-word are decoded to drive

15 switches, E1 to E15. Each of these switches connects one

of the 15 matched resistors to either AGNDx or I

remaining 12 bits of the data-word drive Switch S0 to Switch S11

of the 12-bit R-2R ladder network.

REFERENCE BUFFERS

The AD5764R can operate with either an external or an internal

reference. The reference inputs (REFAB and REFCD) have an

input range of up to 7 V. This input voltage is then used to provide

a buffered positive and negative reference for the DAC cores.

The positive reference is given by

The negative reference to the DAC cores is given by

These positive and negative reference voltages (along with the

gain register values) define the output ranges of the DACs.

REF

E15

4 MSBs DECODED INTO

−V

15 EQUAL SEGMENTS

REF

E14

= 2 × V

= −2 × V

REFIN

Figure 39. DAC Ladder Structure

REFIN

S11

12-BIT, R-2R LADDER

S10

AGNDx

R/8

OUT

. The

VOUTx

Rev. B | Page 21 of 32

SERIAL INTERFACE

The AD5764R is controlled over a versatile 3-wire serial interface

that operates at clock rates of up to 30 MHz and is compatible

with SPI, QSPI™, MICROWIRE™, and DSP standards.

Input Shift Register

The input shift register is 24 bits wide. Data is loaded into the

device, MSB first, as a 24-bit word under the control of a serial

clock input, SCLK. The input register consists of a read/write bit,

a reserved bit that must be set to 0, three register select bits, three

DAC address bits, and 16 data bits, as shown in Table 9. The

timing diagram for this operation is shown in Figure 2.

Upon power-up, the data registers are loaded with zero code

(0x0000) and the outputs are clamped to 0 V via a low impedance

path. The outputs can be updated with the zero code value by

asserting either LDAC or CLR . The corresponding output voltage

depends on the state of the BIN/ 2sCOMP pin. If the BIN/ 2sCOMP

pin is tied to DGND, the data coding is twos complement and

the outputs update to 0 V. If the BIN/ 2sCOMP pin is tied to

negative full scale. To have the outputs power up with zero code

loaded to the outputs, hold the CLR pin low during power-up.

Standalone Operation

The serial interface works with both a continuous and noncon-

tinuous serial clock. A continuous SCLK source can be used only

if SYNC is held low for the correct number of clock cycles. In

gated clock mode, a burst clock containing the exact number of

clock cycles must be used, and SYNC must be taken high after

the final clock to latch the data. The first falling edge of SYNC

starts the write cycle. Exactly 24 falling clock edges must be

applied to SCLK before SYNC is brought high again. If SYNC is

brought high before the 24

written is invalid. If more than 24 falling SCLK edges are applied

before SYNC is brought high, the input data is also invalid. The

input register addressed is updated on the rising edge of SYNC .

For another serial transfer to take place, SYNC must be brought

low again. After the end of the serial data transfer, data is

automatically transferred from the input shift register to the

addressed register.

When the data has been transferred into the chosen register of

the addressed DAC, all data registers and outputs can be updated

by taking LDAC low.

, the data coding is offset binary and the outputs update to

falling SCLK edge, then the data

AD5764R

AD5764RCSUZ Analog Devices Inc, AD5764RCSUZ Datasheet - Page 21

AD5764RCSUZ

Specifications of AD5764RCSUZ

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