DAC8420 Analog Devices, DAC8420 Datasheet - Page 14

DAC8420

Manufacturer Part Number

DAC8420

Description

Quad 12-Bit Serial Voltage Output DAC

Manufacturer

Analog Devices

Datasheet

1.DAC8420.pdf (24 pages)

Specifications of DAC8420

Resolution (bits)

12bit

Dac Update Rate

125kSPS

Dac Settling Time

8µs

Max Pos Supply (v)

+15.75V

Single-supply

Yes

Dac Type

Voltage Out

Dac Input Format

Ser

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DAC8420

THEORY OF OPERATION

INTRODUCTION

The DAC8420 is a quad, voltage-output 12-bit DAC with a serial

digital input capable of operating from a single 5 V supply. The

straightforward serial interface can be connected directly to

most popular microprocessors and microcontrollers, and can

accept data at a 10 MHz clock rate when operating from ±15 V

supplies. A unique voltage reference structure ensures maximum

utilization of the DAC output resolution by allowing the user to

set the zero-scale and full-scale output levels within the supply

rails. The analog voltage outputs are fully buffered, and are

capable of driving a 2 kΩ load. Output glitch impulse during

major code transitions is a very low 64 nV-s (typ).

DIGITAL INTERFACE OPERATION

The serial input of the DAC8420, consisting of CS , SDI, and

LD , is easily interfaced to a wide variety of microprocessor serial

ports. While CS is low, the data presented to the input SDI is

shifted into the internal serial-to-parallel shift register on the

rising edge of the clock, with the address MSB first, data LSB

last, as shown in Table 6 and in the timing diagram (Figure 2).

The data format, shown in Table 8, is two bits of DAC address

and two don’t care fill bits, followed by the 12-bit DAC data-

word. Once all 16 bits of the serial data-word have been input,

the load control LD is strobed and the word is parallel-shifted

out onto the internal data bus. The two address bits are decoded

and used to route the 12-bit data-word to the appropriate DAC

data register (see the Applications section).

CORRECT OPERATION OF CS AND CLK

In Table 6, the control pins CLK and CS require some attention

during a data load cycle. Since these two inputs are fed to the

same logical OR gate, the operation is in fact identical. The user

must take care to operate them accordingly to avoid clocking in

false data bits. In the timing diagram, CLK must be halted high

or CS must be brought high during the last high portion of the

CLK following the rising edge that latched in the last data bit.

Otherwise, an additional rising edge is generated by CS rising

while CLK is low, causing CS to act as the clock and allowing a

false data bit into the serial input register. The same issue must

also be considered in the beginning of the data load sequence.

Table 8.

(FIRST)

—Address Word—

D11

(MSB)

D10

Rev. B | Page 14 of 24

USING CLR AND CLSEL

The clear ( CLR ) control allows the user to perform an asyn-

chronous reset function. Asserting CLR loads all four DAC

data-word registers, forcing the DAC outputs to either zero

scale (0x000) or midscale (0x800), depending on the state of

CLSEL as shown in Table 6. The clear function is asynchronous

and totally independent of CS . When CLR returns high, the

DAC outputs remain latched at the reset value until LD is

strobed, reloading the individual DAC data-word registers

with either the data held in the serial input register prior to the

reset or with new data loaded through the serial interface.

Table 7. DAC Address Word Decode Table

PROGRAMMING THE ANALOG OUTPUTS

The unique differential reference structure of the DAC8420

allows the user to tailor the output voltage range precisely to

the needs of the application. Instead of spending DAC resolu-

tion on an unused region near the positive or negative rail, the

DAC8420 allows the user to determine both the upper and

lower limits of the analog output voltage range. Thus, as shown

in Table 9 and Figure 30, the outputs of DAC A through DAC D

range between VREFHI and VREFLO, within the limits specified

in the Specifications section. Note also that VREFHI must be

greater than VREFLO.

—DAC Data-Word—

VREFLO

VREFHI

2.5V MIN

B10

Figure 30. Output Voltage Range Programming

0V MIN

2.5V MIN

0x000

B11

DAC Addressed

DAC A

DAC B

DAC C

DAC D

B12

–10V MIN

B13

0xFFF

B14

1 LSB

(LAST)

B15

(LSB)

DAC8420 Analog Devices, DAC8420 Datasheet - Page 14

DAC8420

Specifications of DAC8420

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