MAX551ACPA Maxim Integrated, MAX551ACPA Datasheet - Page 10

MAX551ACPA

Manufacturer Part Number

MAX551ACPA

Description

Digital to Analog Converters - DAC

Manufacturer

Maxim Integrated

Datasheet

1.MAX551BEUB-T.pdf (12 pages)

Specifications of MAX551ACPA

Number Of Converters

Number Of Dac Outputs

Resolution

12 bit

Interface Type

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

Settling Time

1 us

Maximum Operating Temperature

+ 70 C

Mounting Style

Through Hole

Package / Case

PDIP N

Minimum Operating Temperature

0 C

Output Type

Current

Supply Voltage - Max

5.25 V

Supply Voltage - Min

4.5 V

Voltage Reference

External

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For best linearity, terminate OUT and GND at exactly

0V. In most applications, OUT is connected to an

inverting op amp’s summing junction. The amplifier’s

input offset voltage can degrade the DAC’s linearity by

causing OUT to be terminated to a nonzero voltage.

The resulting error is:

where V

DAC’s output resistance, which is code dependent.

The maximum error voltage (R

minimum error voltage (R

this error, use a low-offset amplifier such as the

MAX4166 (unipolar output) or the MAX427 (bipolar out-

put). Otherwise, the amplifier offset must be trimmed to

zero. A good guide rule is that V

than 1/10LSB.

The output amplifier’s input bias current (I

limit performance, since I

error. Choose an op amp with an I

(e.g., one-tenth) the DAC’s 1LSB output current (typi-

cally 111nA when V

2.5V). Offset and linearity can also be impaired if the

output amplifier’s noninverting input is grounded

through a bias-current compensation resistor. This

resistor adds to the offset at this pin and thus should

not be used. For best performance, connect the nonin-

verting input directly to ground.

In static or DC applications, the output amplifier’s char-

acteristics are not critical. In higher speed applications

in which either the reference input is an AC signal or

the DAC output must quickly settle to a new pro-

grammed value, the output op amp’s AC parameters

must be considered.

A compensation capacitor, C1, may be required when

the DAC is used with a high-speed output amplifier.

The purpose of the capacitor is to cancel the pole

formed by the DAC output capacitance, C

internal feedback resistor, R

the type of op amp used but typically ranges from 14pF

to 30pF. Too small a value causes output ringing, while

excess capacitance overdamps the output. C1’s size

can be minimized and the output voltage settling time

improved by keeping the circuit-board trace short and

stray capacitance at OUT as low as possible.

+3V/+5V, 12-Bit, Serial, Multiplying DACs

__________Applications Information

in 10-Pin µMAX Package

______________________________________________________________________________________

Error Voltage = V

= is the op amp’s offset and R

REF

= 5V, and 55.5nA when V

x R

= ∞) is V

(1 + R

. Its value depends on

Output Amplifier

= R

generates an offset

should be no more

much less than

/ R

) is 2V

. To minimize

OUT

)

) can also

, and the

is the

REF

; the

The MAX551/MAX552 are true 4-quadrant DACs, mak-

ing them ideal for multiplying applications. The refer-

ence input accepts both AC and DC signals within a

voltage range of ±6V. The R-2R ladder is implemented

with thin-film resistors, enabling the use of unipolar or

bipolar reference voltages with only a single power

supply for the DAC. The voltage at the V

the DAC’s full-scale output voltage.

If the reference is too noisy, it should be bypassed to

GND (AGND on the 10-pin µMAX package) with a

0.1µF ceramic capacitor located as close to the REF

pin as possible.

The MAX551 can be conveniently used in voltage

mode, single-supply operation with OUT biased at any

voltage between GND and V

allowed to go 0.3V lower than GND or 0.3V higher than

current flow that could damage the device.

Figure 5 shows the MAX551 connected as a voltage

output DAC. In this mode of operation, the OUT pin is

connected to the reference-voltage source, and the

GND pin is connected to the PCB ground plane. The

DAC output now appears at the REF pin, which has a

constant resistance equal to the reference input resis-

tance (11kΩ typ). This output should be buffered with

an op amp when a lower output impedance is required.

The RFB pin is not used in this mode. The reference

input (OUT) impedance is code dependent, and the

circuit’s response time depends on the reference

source’s behavior with changing load conditions.

Figure 5. Single-Supply, Voltage Mode Operation

. Otherwise, internal diodes turn on, causing a high

REFERENCE

VOLTAGE

OUT

GND

Single-Supply Operation

MAX551

DIN

Voltage Mode (MAX551)

+5V

SCLK

. OUT must not be

Reference Voltage

LOAD

REF

input sets

OUT

MAX551ACPA Maxim Integrated, MAX551ACPA Datasheet - Page 10

MAX551ACPA

Specifications of MAX551ACPA

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