ltc1599bin-pbf Linear Technology Corporation, ltc1599bin-pbf Datasheet - Page 15

ltc1599bin-pbf

Manufacturer Part Number

ltc1599bin-pbf

Description

Ltc1599 - 16-bit Byte Wide, Low Glitch Multiplying Dac With 4-quadrant Resistors

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1599BIN-PBF.pdf (20 pages)

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APPLICATIONS

A 16-Bit General Purpose Analog Output Circuit

Industrial applications often use analog signals of 0V to

5V, 0V to 10V, ±5V or ±10V. The topology in Figure 6 uses

an LTC1599 to produce a universal analog output, capable

of operation over all these ranges, with only software

configuration. High precision analog switches are used to

provide uncompromising stability in all ranges and matched

resistors internal to the LTC1599 are used, as well as a

configuration that minimizes the effects of channel resis-

tance in the switches. Note that in all cases the analog

switches have minimal current flowing through them. The

use of unbuffered analog switches in series with the

feedback/divider resistors would result in an error be-

cause of temperature coefficient mismatch between the

internal DAC resistors and the switch channel resistances,

as well as the channel resistance variation over the signal

range. Quad analog switch U3 (DG212B) allows configu-

ration of feedback terms and selection of the reference

voltage. Switch C allows the buffered reference voltage to

be injected into the summing node via Pin 5 (R

bipolar outputs. When active, switch D places R

parallel with R

equal to the voltage at the REF pin of the LTC1599.

The other switches in U3 (A and B) are used to select the

10V reference produced by the LT1019, or 5V produced by

the R3 and R4 divider.

An inexpensive precision divider can be implemented

using an 8-element resistor array, paralleling four resis-

tors for R3 and four resistors for R4. Symmetry in the

interconnection of these resistors will ensure compensa-

tion for temperature gradient across the resistor array. An

, producing an output at full scale voltage

INFORMATION

OFS

) for

alternative to a resistor divider is the LTC1043 switched

capacitor building block. It can be configured as a high

precision divide-by-2. Please consult the LTC1043 data

sheet for more information.

The NOR gate (U4) ensures that switches C and D are not

enabled simultaneously. This eliminates contention be-

tween the reference buffer and the output amplifier.

This topology can be modified to accept a high current

buffer following the LT1112, if higher output current levels

are required or difficult loads need be driven. Adjustment

of C

chosen.

Note that the analog switches must handle the full output

swing in this configuration, but there is a variety of suitable

switches on the market including the LTC201. The DG212B

as shown is a newer generation part with lower leakage,

providing a performance advantage.

The DG333A, a quad single-pole, double-throw switch,

could be used for a 2-channel version similar to this

circuit. Alternatively, a single channel can be created with

the additional switches used as switched capacitor divide-

by-2, as shown on the LTC1043 data sheet. In choosing

analog switches, keep in mind the logic levels and the

signal levels required.

Table 1. Configuration Settings for the Various Output Ranges

0V to 5V

0V to 10V

– 5V to 5V

–10V to 10V

OUT

MODE

’s value may be required for the buffer amplifier

REFSEL

BIPOLAR/UNIPOLAR

LTC1599

sn1599 1599fs

GAIN

ltc1599bin-pbf Linear Technology Corporation, ltc1599bin-pbf Datasheet - Page 15

ltc1599bin-pbf

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