MAX5152ACEE+ Datasheet MAX5152ACEE+, MAX5152BEEE+, MAX5153ACEE+ | P13-P15

__________Applications Information

Unipolar Output

Figure 9 depicts the MAX5152/MAX5153 configured for

unity-gain, unipolar operation. Table 2 lists the unipolar

output codes. To increase dynamic range, specific

gain configurations can be used as shown in Figure 10.

Bipolar Output

The MAX5152/MAX5153 can be configured for a bipo-

lar output, as shown in Figure 11. The output voltage is

given by the equation:

OUT

= V

REF

[((2 x NB) / 8192) - 1]

where NB represents the numeric value of the DAC’s

binary input code. Table 3 shows digital codes and the

corresponding output voltage for Figure 11’s circuit.

MAX5152/MAX5153

Low-Power, Dual, 13-Bit Voltage-Output DACs

with Configurable Outputs

______________________________________________________________________________________ 13

TO OTHER

SERIAL DEVICES

MAX5152

MAX5153

DIN

SCLK

MAX5152

MAX5153

DIN

SCLK

MAX5152

MAX5153

DIN

SCLK

DIN

SCLK

CS1

CS2

CS3

Figure 8. Multiple MAX5152/MAX5153s Sharing a Common DIN Line

MAX5152

MAX5153

DAC

REF_

OUT_

FB_

DGND

AGND

+5V/+3V

Figure 9. Unipolar Output Circuit

Table 2. Unipolar Code Table (Gain = +1)

00000 0000 0001

0V00000 0000 0000

01111 1111 1111

10000 0000 0000

DAC CONTENTS

MSB LSB

10000 0000 0001

11111 1111 1111

ANALOG OUTPUT

8191

8192

REF













4097

8192

REF













4095

8192

REF













8192

REF













4096

8192

REF













MAX5152/MAX5153

Using an AC Reference

In applications where the reference has an AC signal

component, the MAX5152/MAX5153 have multiplying

capabilities within the reference input voltage range

specifications. Figure 12 shows a technique for apply-

ing a sinusoidal input to the reference input to REF_,

where the AC signal is offset before being applied to

the reference input.

Harmonic Distortion and Noise

The total harmonic distortion plus noise (THD+N) is typ-

ically less than -80dB at full scale with a 1Vp-p input

swing at 5kHz. The typical -3dB frequency is 600kHz

for both devices, as shown in the

Typical Operating

Characteristics

Low-Power, Dual, 13-Bit Voltage-Output DACs

with Configurable Outputs

14 ______________________________________________________________________________________

MAX5152

MAX5153

DAC

OUT

(

+ R1

) (

)(

REF_

)

R2 8192

REF_

OUT

FB_

OUT_

AGNDDGND

+5V/+3V

Figure 10. Configurable Output Gain

AGNDDGND

MAX5152

MAX5153

DAC _

REF_

OUT_

FB_

10k 10k

V-

V+

OUT

+5V/+3V

Figure 11. Bipolar Output Circuit

DAC_

OUT_

FB_

MAX5152

MAX5153

10k

26k

REF_

DGND AGND

+5V/

+3V

REFERENCE

INPUT

500mVp-p

MAX495

+5V/+3V

Figure 12. AC Reference Input Circuit

Table 3. Bipolar Code Table

00000 0000 0001

00000 0000 0000

01111 1111 1111

0V10000 0000 0000

DAC CONTENTS

MSB LSB

10000 0000 0001

11111 1111 1111

ANALOG OUTPUT

4095

4096

REF













4096

REF













-V

4096

REF













-V

4095

4096

REF













-V

4096

- V

REF REF













Digital Calibration and

Threshold Selection

Figure 13 shows the MAX5152/MAX5153 in a digital

calibration application. With a bright value applied to

the photodiode (on), the DAC is digitally ramped up

until it trips the comparator. The microprocessor stores

this high calibration value. Repeat the process with a

dim light (off) to obtain the dark current calibration. The

microprocessor then programs the DAC to set an out-

put voltage that is the midpoint of the two calibration

values. Applications include tachometers, motion sens-

ing, automatic readers, and liquid clarity analysis.

Digital Control of Gain and Offset

The two DACs can be used to control the offset and

gain for curve-fitting nonlinear functions, such as trans-

ducer linearization or analog compression/expansion

applications. The input signal is used as the reference

for the gain-adjust DAC, whose output is summed with

the output from the offset-adjust DAC. The relative

weight of each DAC output is adjusted by R1, R2, R3,

and R4 (Figure 14).

MAX5152/MAX5153

Low-Power, Dual, 13-Bit Voltage-Output DACs

with Configurable Outputs

______________________________________________________________________________________ 15

AGND

DIN

µP

DGND

MAX5152

MAX5153

DAC _

REF_

OUT_

FB_

V+

V-

PHOTODIODE

V+

OUT

+5V/+3V

Figure 13. Digital Calibration

AGNDDGND

REFA

CONTROL/

SHIFT REGISTER

REFB

MAX5152

MAX5153

DACA

+5V/+3V

DIN

SCLK

REF

OUT_B

FBB

FBA

OUT_A

OUT

DACB

– OFFSET

[ ]

OUT

GAIN

[ ]

8192

NA IS THE NUMERIC VALUE OF THE INPUT CODE FOR DACA.

NB IS THE NUMERIC VALUE OF THE INPUT CODE FOR DACB.

R1+R2

8192

(

)(

)

(

REF

)(

)

[ ] [ ]

Figure 14. Digital Control of Gain and Offset

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

MAX5152ACEE+

Mfr. #:

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Manufacturer:

Maxim Integrated

Description:

Digital to Analog Converters - DAC 13-Bit 2Ch Precision DAC

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MAX5152ACEE+

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