Max5250, Using an ac reference, Digitally programmable current source – Rainbow Electronics MAX5250 User Manual

MAX5250

Using an AC Reference

In applications where the reference has AC signal com-
ponents, the MAX5250 has multiplying capability within
the reference input range specifications. Figure 12
shows a technique for applying a sine-wave signal to
the reference input where the AC signal is offset before
being applied to REFAB/REFCD. The reference voltage
must never be more negative than DGND.

The MAX5250’s total harmonic distortion plus noise
(THD + N) is typically less than -72dB (full-scale code),
given a 1Vp-p signal swing and input frequencies up to
25kHz. The typical -3dB frequency is 650kHz, as
shown in the

Typical Operating Characteristics

graphs.

Digitally Programmable Current Source

The circuit of Figure 13 places an NPN transistor
(2N3904 or similar) within the op-amp feedback loop to
implement a digitally programmable, unidirectional cur-
rent source. This circuit can be used to drive 4–20mA
current loops, which are commonly used in industrial-
control applications. The output current is calculated
with the following equation:

I

OUT

= (V

REF

/ R) x (NB / 1024)

where NB is the numeric value of the DAC’s binary
input code and R is the sense resistor shown in
Figure 13.

Low-Power, Quad, 10-Bit Voltage-Output DAC
with Serial Interface

14

______________________________________________________________________________________

MAX5250

DAC A

DAC B

DAC C

DAC D

V

REFAB

= V

REFCD

= 2.5V

OUTA

10k

10k

10k

10k

10k

10k

10k

10k

OUTB

OUTC

OUTD

DGND

AGND

REFAB

REFCD

REFERENCE INPUTS

+5V

V

DD

FBA

FBB

FBC

FBD

Figure 10. Unipolar Rail-to-Rail Output Circuit

DAC

V

OUT

+5V

-5V

R1 = R2 = 10k

Ω

± 0.1%

MAX5250

REF_

R1

R2

FB_

OUT_

Figure 11. Bipolar Output Circuit

DAC_

OUT_

MAX5250

10k

26k

REF_

V

DD

AGND

DGND

+5V

AC

REFERENCE

INPUT

500mVp-p

1/2 MAX492

Figure 12. AC Reference Input Circuit