ad7545achips Analog Devices, Inc., ad7545achips Datasheet - Page 6

ad7545achips

Manufacturer Part Number

ad7545achips

Description

Cmos 12-bit Buffered Multiplying Dac

Manufacturer

Analog Devices, Inc.

Datasheet

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AD7545

that the +5 V used to power the AD7545 is free from digitally

induced noise.

Temperature Coefficients: The gain temperature coefficient

of the AD7545 has a maximum value of 5 ppm/°C and a typical

value of 2 ppm/°C. This corresponds to worst case gain shifts of

2 LSBs and 0.8 LSBs respectively over a 100°C temperature

range. When trim resistors Rl and R2 are used to adjust full-

scale range, the temperature coefficient of R1 and R2 should

also be taken into account. The reader is referred to Analog

Devices Application Note “Gain Error and Gain Temperature

Coefficient of CMOS Multiplying DACs,” Publication Number

E630–10–6/81.

SINGLE SUPPLY OPERATION

The ladder termination resistor of the AD7545 (Figure 1) is

connected to AGND. This arrangement is particularly suitable

for single supply operation because OUT1 and AGND may be

biased at any voltage between DGND and V

AGND should never go more than 0.3 volts less than DGND or

an internal diode will be turned on and a heavy current may

flow which will damage the device. (The AD7545 is, however,

protected from the SCR latch-up phenomenon prevalent in

many CMOS devices.)

Figure 7 shows the AD7545 connected in a voltage switching

mode. OUT1 is connected to the reference voltage and AGND

is connected to DGND. The D/A converter output voltage is

available at the V

equal to R. R

The loading on the reference voltage source is code dependent

and the response time of the circuit is often determined by the

behavior of the reference voltage with changing load conditions.

To maintain linearity, the voltages at OUT1 and AGND should

remain within 2.5 volts of each other, for a V

OUT1 and AGND is increased to more than 2.5 V, the differ-

ential nonlinearity of the DAC will increase and the linearity of

the DAC will be degraded. Figures 8 and 9 show typical curves

illustrating this effect for various values of reference voltage and

by some value, then OUT1 and AGND may be biased up. The

effect on linearity and differential nonlinearity will be the same

as reducing V

Figure 7. Single Supply Operation Using Voltage

Switching Mode

. If the output voltage is required to be offset from ground

is reduced from 15 V, or the differential voltage between

= +5 volts. However, great care should be taken to ensure

REFERENCE

VOLTAGE

is not used in this circuit.

by the amount of the offset.

REF

pin and has a constant output impedance

15 VOLT CMOS DIGITAL INPUTS

OUT1

AGND

DGND

AD7545

+15V

DB11–DB0

REF

. OUT1 and

of 15 volts. If

–6–

Figure 8. Differential Nonlinearity vs. V

Circuit. Reference Voltage = 2.5 Volts. Shaded Area Shows

Range of Values of Differential Nonlinearity that Typically

Occur for L, C and U Grades.

Figure 9. Differential Nonlinearity vs. Reference Voltage

for Figure 7 Circuit. V

Range of Values of Differential Nonlinearity that Typically

Occur for L, C and U Grades.

The circuits of Figures 4, 5 and 6 can all be converted to single

supply operation by biasing AGND to some voltage between

circuit of Figure 5 modified to give a range from +2 V to +8 V

about a “pseudo-analog ground” of 5 V. This voltage range

would allow operation from a single V

The AD584 pin-programmable reference fixes AGND at +5 V.

There is no need to buffer the V

with an amplifier because the input impedance of the D/A con-

verter is constant. Note, however, that since the temperature

coefficient of the D/A reference input resistance is typically

–300 ppm/°C; applications that experience wide temperature

variations may require a buffer amplifier to generate the +2.0 V

at the AD7545 V

obtained by changing R4 to shift the zero point and (R1 + R2)

to change the slope, or gain, of the D/A transfer function. V

must be kept at least 5 V above OUT1 to ensure that linearity is

preserved.

is set at +2 V by means of the series resistors R1 and R2.

and DGND. Figure 10 shows the twos complement bipolar

–0.5

–1.0

–1.5

–2.0

–1

–2

0.5

0.0

REF

pin. Other output voltage ranges can be

= 15 Volts. Shaded Area Shows

REF

– Volts

REF

input to the AD7545

of +10 V to +15 V.

for Figure 7

REV. A

ad7545achips Analog Devices, Inc., ad7545achips Datasheet - Page 6

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