MAX5123AEEE-T Maxim Integrated, MAX5123AEEE-T Datasheet - Page 15

MAX5123AEEE-T

Manufacturer Part Number

MAX5123AEEE-T

Description

Digital to Analog Converters - DAC

Manufacturer

Maxim Integrated

Datasheet

1.MAX5122BEEE-T.pdf (19 pages)

Specifications of MAX5123AEEE-T

Number Of Converters

Number Of Dac Outputs

Resolution

12 bit

Interface Type

Serial (SPI)

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Maximum Power Dissipation

667 mW

Minimum Operating Temperature

- 40 C

Output Type

Voltage Buffered

Supply Current

500 uA

Supply Voltage - Max

3.6 V

Supply Voltage - Min

2.7 V

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Integral nonlinearity (Figure 8a) is the deviation of the

values on an actual transfer function from a straight

line. This straight line can be either a best-straight-line

fit (closest approximation to the actual transfer curve)

or a line drawn between the endpoints of the transfer

function, once offset and gain errors have been nulli-

fied. For a DAC, the deviations are measured at every

single step.

Differential nonlinearity (Figure 8b) is the difference

between an actual step height and the ideal value of

Figure 8a. Integral Nonlinearity

Figure 8b. Differential Nonlinearity

__________Applications Information

000

+5V/+3V, 12-Bit, Serial, Force/Sense DACs

001

______________________________________________________________________________________

010

DIGITAL INPUT CODE

AT STEP

001 (1/4 LSB )

010

Differential Nonlinearity (DNL)

011

1 LSB

011

Integral Nonlinearity (INL)

100

DIFFERENTIAL

LINEARITY ERROR (+1/4 LSB)

AT STEP

O11 (1/2 LSB )

DIFFERENTIAL LINEARITY

ERROR (-1/4 LSB)

100

101

with 10ppm/°C Internal Reference

110

101

1 LSB

Definitions

111

1LSB. If the magnitude of the DNL is less than or equal

to 1LSB, the DAC guarantees no missing codes and is

monotonic.

The offset error (Figure 8c) is the difference between

the ideal and the actual offset point. For a DAC, the off-

set point is the step value when the digital input is zero.

This error affects all codes by the same amount and

can usually be compensated for by trimming.

Gain error (Figure 8d) is the difference between the

ideal and the actual full-scale output voltage on the

transfer curve, after nullifying the offset error. This error

alters the slope of the transfer function and corre-

sponds to the same percentage error in each step.

Figure 8c. Offset Error

Figure 8d. Gain Error

OFFSET POINT

ACTUAL

000

IDEAL DIAGRAM

100

IDEAL OFFSET

POINT

GAIN ERROR

DIAGRAM

(-1 1/4 LSB)

ACTUAL

001

IDEAL FULL-SCALE OUTPUT

DIGITAL INPUT CODE

101

OFFSET ERROR

(+1 1/4 LSB)

010

110

IDEAL DIAGRAM

FULL-SCALE

OUTPUT

ACTUAL

011

111

Offset Error

Gain Error

MAX5123AEEE-T Maxim Integrated, MAX5123AEEE-T Datasheet - Page 15

MAX5123AEEE-T

Specifications of MAX5123AEEE-T

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