Max530, Table 2. input latch addressing – Rainbow Electronics MAX530 User Manual

An additional 110µA of supply current can be saved
when the internal reference is not used by connecting
REFGND to V

DD

. A low on resistance N-channel FET,

such as the 2N7002, can be used to turn off the internal
reference to create a shutdown mode with minimum
current drain (Figure 3). When CLR is high, the transis-
tor pulls REFGND to AGND and the reference and DAC
operate normally. When CLR goes low, REFGND is
pulled up to V

DD

and the reference is shut down. At the

same time, CLR resets the DAC register to all 0s, and
the op-amp output goes to 0V for unity-gain and G = 2

modes. This reduces the total single-supply operating
current from 250µA (400µA max) to typically 40µA in
shutdown mode.

A small error voltage is added to the reference output
by the reference current flowing through the N-channel
pull-down transistor. The switch’s on resistance should
be less than 5

Ω

. A typical reference current of 100µA

would add 0.5mV to REFOUT. Since the reference cur-
rent and on resistance increase with temperature, the
overall temperature coefficient will degrade slightly.

As data is loaded into the DAC and the output moves
above GND, the op-amp quiescent current increases to
its nominal value and the total operating current aver-
ages 250µA. Using dual supplies (±5V), the op amp is
fully biased continuously, and the V

DD

supply current is

more constant at 250µA. The V

SS

current is typically

150µA.

The MAX530 logic inputs are compatible with TTL and
CMOS logic levels. However, to achieve the lowest
power dissipation, drive the digital inputs with rail-to-rail
CMOS logic. With TTL logic levels, the power require-
ment increases by a factor of approximately 2.

MAX530

+5V, Low-Power, Parallel-Input,
Voltage-Output, 12-Bit DAC

10

______________________________________________________________________________________

MAX530

MAX530

12-BIT DAC LATCH

NBL

INPUT

LATCH

NBH

INPUT

LATCH

NBM

INPUT

LATCH

D0/D8

D1/D9

D2/D10

D4

D3/D11

D6

D5

D7

POWER-ON

RESET

CONTROL

LOGIC

DAC

A0

A1

CS

WR

LDAC

CLR

33

µ

F

2.048V

REFERENCE

REFOUT

REFIN

ROFS

RFB

V

OUT

+5V

V

SS

DGND

2N7002

REFGND

AGND

V

DD

Figure 3. Low-Current Shutdown Mode

CLR CS WR LDAC

A0

A1

DATA UPDATED

L

X

X

X

X

X

Reset DAC Latches

H

H

X

H

X

X

No Operation

H

X

H

H

X

X

No Operation

H

L

L

H

H

H

NBH (D8-D11)

H

L

L

H

H

L

NBM (D4-D7)

H

L

L

H

L

H

NBL (D0-D3)

H

H

H

L

X

X

Update DAC Only

H

L

L

X

L

L

DAC NOT UPDATED

H

L

L

L

H

H

NBH and Update DAC

Table 2. Input Latch Addressing