max5100aeupt Maxim Integrated Products, Inc., max5100aeupt Datasheet - Page 6

max5100aeupt

Manufacturer Part Number

max5100aeupt

Description

Max5100 +2.7v To +5.5v, Low-power, Quad, Parallel 8-bit Dac With Rail-to-rail Voltage Outputs

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX5100AEUPT.pdf (8 pages)

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The MAX5100 uses a matrix decoding architecture for

the DACs. The external reference voltage is divided

down by a resistor string placed in a matrix fashion.

Row and column decoders select the appropriate tab

from the resistor string to provide the needed analog

voltages. The resistor network converts the 8-bit digital

input into an equivalent analog output voltage in pro-

portion to the applied reference voltage input. The

resistor string presents a code-independent input

impedance to the reference and guarantees a monoton-

ic output.

The device can be used in multiplying applications.

The voltages are buffered by rail-to-rail op amps con-

nected in a follower configuration to provide a rail-to-rail

output. The functional block diagram for the MAX5100

is shown in Figure 2.

The MAX5100 features a shutdown mode that reduces

current consumption to 1nA. A high voltage on the

shutdown pin shuts down the DACs and the output

amplifiers. In shutdown mode, the output amplifiers

enter a high-impedance state. When bringing the

+2.7V to +5.5V, Low-Power, Quad, Parallel

8-Bit DAC with Rail-to-Rail Voltage Outputs

7–14

_______________________________________________________________________________________

D7–D0

NAME

OUTA

SHDN

OUTD

OUTC

LDAC

OUTB

GND

REF

Low-Power Shutdown Mode

DAC B Voltage Output

DAC A Voltage Output

Positive Supply Voltage. Bypass V

Reference Voltage Input

Shutdown. Connect SHDN to GND for normal operation.

Write Input (active low). Use WR to load data into the DAC input latch selected by A0 and A1.

Data Inputs 7–0

Load DAC Input (active low). Drive the asynchronous LDAC input low to transfer the contents of all input

latches to their respective DAC latch.

DAC Address Select Bit (MSB)

DAC Address Select Bit (LSB)

Ground

DAC D Voltage Output

DAC C Voltage Output

Detailed Description

Digital-to-Analog Section

to GND using a 0.1µF capacitor.

device out of shutdown, allow 13µs for the output to

stabilize.

The DAC outputs are internally buffered by precision

amplifiers with a typical slew rate of 0.6V/µs. The typical

settling time to ±1/2LSB at the output is 6µs when

loaded with 10kΩ in parallel with 100pF.

The MAX5100 provides a code-independent input

impedance on the REF input. The input impedance is

typically 460kΩ in parallel with 15pF, and the reference

input voltage range is 0 to V

accepts positive DC signals as well as AC signals with

peak values between 0 and V

sets the full-scale output voltage for the DAC. The out-

put voltage (V

digitally programmable voltage source as follows:

where N

code.

In the MAX5100, address lines A0 and A1 select the

DAC that receives data from D0–D7, as shown in Table 1.

FUNCTION

is the numeric value of the DAC binary input

Digital Inputs and Interface Logic

OUT

) for any DAC is represented by a

= (N

Output Buffer Amplifiers

· V

REF

Pin Description

. The reference input

. The voltage at REF

) / 256

Reference Input

max5100aeupt Maxim Integrated Products, Inc., max5100aeupt Datasheet - Page 6

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