max530bcwgt Maxim Integrated Products, Inc., max530bcwgt Datasheet - Page 9

max530bcwgt

Manufacturer Part Number

max530bcwgt

Description

Max530 +5v, Low-power, Parallel-input, Voltage-output, 12-bit Dac

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX530BCWGT.pdf (16 pages)

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Figure 2. Reference Noise vs. Frequency

The output amplifier uses a folded cascode input stage

and a type AB output stage. Large output devices with

low series resistance allow the output to swing to

ground in single-supply operation. The output buffer is

unity-gain stable. Input offset voltage and supply cur-

rent are laser trimmed. Settling time is 25µs to 0.01% of

final value. The output is short-circuit protected and

can drive a 2kΩ load with more than 100pF of load

capacitance. The op amp may be placed in unity-gain

(G = 1), in a gain of two (G = 2), or in a bipolar-output

mode by using the ROFS and RFB pins. These pins are

used to define a DAC output voltage range of 0V to

+2.048V, 0V to +4.096V or ±2.048V, by connecting

ROFS to VOUT, GND, or REFIN. RFB is always con-

nected to VOUT. Table 1 summarizes ROFS usage.

Table 1. ROFS Usage

Note: Assumes RFB = VOUT and REFIN = REFOUT = 2.048V

CONNECTED TO:

AGND

REFIN

ROFS

VOUT

300

250

200

150

100

0.1

REFOUT

SINGLE POLE ROLLOFF

REFOUT

_______________________________________________________________________________________

-2.048V to +2.048V

TEK 7A22

DAC OUTPUT

FREQUENCY (kHz)

0V to 4.096V

0V to 2.048V

RANGE

REFOUT

= 3.3 F

REFOUT

100

TOTAL

REFERERNCE

NOISE

Output Buffer

= 47 F

+5V, Low-Power, Parallel-Input,

1000

OP-AMP

Bipolar

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

G = 1

G = 2

GAIN

Voltage-Output, 12-Bit DAC

An external reference in the range (V

ply, unity-gain operation. In single-supply, unity-gain

operation, the reference must be positive and may not

exceed (V

the DAC’s full-scale output. Because of the code-

dependent nature of reference input impedances, a

high-quality, low-output-impedance amplifier (such as

the MAX480 low-power, precision op amp) should be

used to drive REFIN.

If an upgrade to the internal reference is required, the

2.5V MAX873A is ideal: ±15mV initial accuracy,

7ppm/°C (max) temperature coefficient.

An internal power-on reset (POR) circuit forces the

DAC register to reset to all 0s when V

The POR pulse is typically 1.3µs; however, it may take

2ms for the internal reference to charge its large filter

capacitor and settle to its trimmed value.

In addition to POR , a clear (CLR) pin, when held low,

sets the DAC register to all 0s. CLR operates asynchro-

nously and independently from chip select (CS). With

the DAC input at all 0s, the op-amp output is at zero for

unity-gain and G = 2 configurations, but it is at -V

for the bipolar configuration.

The MAX530 is designed for low power consumption.

Understanding the circuit allows power consumption

management for maximum efficiency. In single-supply

mode (V

rent is typically only 160µA, including the reference, op

amp, and DAC. This low current occurs when the

power-on reset circuit clears the DAC to all 0s and

forces the op-amp output to zero (unipolar mode only).

See the Supply Current vs. REFIN graph in the Typical

Operating Characteristics . Under this condition, there

is no internal load on the reference (DAC = 000hex,

REFIN is open circuit) and the op amp operates at its

minimum quiescent current. The CLR signal resets the

MAX530 to these same conditions and can be used to

control a power-saving mode when the DAC is not

being used by the system.

- 2V) may be used with the MAX530 in dual-sup-

= +5V, V

- 2V). The reference voltage determines

= GND) the initial supply cur-

External Reference

Power-On Reset

Shutdown Mode

is first applied.

+ 2V) to

REF

max530bcwgt Maxim Integrated Products, Inc., max530bcwgt Datasheet - Page 9

max530bcwgt

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