AD7243AR Analog Devices Inc, AD7243AR Datasheet - Page 4

AD7243AR

Manufacturer Part Number

AD7243AR

Description

DAC 1-CH R-2R 12-Bit 16-Pin SOIC W

Manufacturer

Analog Devices Inc

Series

DACPORT®r

Datasheet

1.AD7243ANZ.pdf (12 pages)

Specifications of AD7243AR

Package

16SOIC W

Resolution

12 Bit

Conversion Rate

300 KSPS

Architecture

R-2R

Digital Interface Type

Serial (3-Wire)

Number Of Outputs Per Chip

Output Type

Voltage

Full Scale Error

Â±6 LSB

Integral Nonlinearity Error

Â±1 LSB

Maximum Settling Time

10 us

Rohs Status

RoHS non-compliant

Settling Time

10µs

Number Of Bits

Data Interface

Serial

Number Of Converters

Voltage Supply Source

Dual ±

Power Dissipation (max)

100mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (0.300", 7.5mm Width)

Lead Free Status / RoHS Status

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AD7243

TERMINOLOGY

Bipolar Zero Error

Bipolar Zero Error is the voltage measured at V

DAC is configured for bipolar output and loaded with all 0s

(Two’s Complement Coding) or with 1000 0000 0000 (Offset

Binary Coding). It is due to a combination of offset errors in the

DAC, amplifier and mismatch between the internal gain resis-

tors around the amplifier.

Full-Scale Error

Full-Scale Error is a measure of the output error when the am-

plifier output is at full scale (for the bipolar output range full

scale is either positive or negative full scale). It is measured with

respect to the reference input voltage and includes the offset

errors.

Digital-to-Analog Glitch Impulse

This is the voltage spike that appears at V

code in the DAC latch changes, before the output settles to its

final value. The energy in the glitch is specified in nV secs, and

is measured for an all codes change from 0000 0000 0000 to

1111 1111 1111 and vice versa.

Digital Feedthrough

This is a measure of the voltage spike that appears on V

result of feedthrough from the digital inputs on the AD7243. It

is measured with LDAC held high.

Pin Mnemonic

REFIN

REFOUT

CLR

BIN/COMP

SCLK

SDIN

SYNC

DGND

LDAC

DCEN

SDO

AGND

OFS

OUT

Description

Voltage Reference Input. It is internally buffered before being applied to the DAC. The nominal reference

voltage for specified operation of the AD7243 is 5 V.

Voltage Reference Output. The internal 5 V analog reference is provided at this pin. To operate the part -

using its internal reference, REFOUT should be connected to REFIN.

Clear, Logic Input. Taking this input low sets V

bipolar range and to –REFIN in the offset binary bipolar range.

Logic Input. This input selects the data format to be either binary or two’s complement. In both unipolar

ranges, natural binary format is selected by connecting this input to a Logic “0.” In the bipolar configuration,

offset binary format is selected with a Logic “0” while a Logic “1” selects two’s complement format.

Serial Clock, Logic Input. Data is clocked into the input register on each falling SCLK edge.

Serial Data In, Logic Input. The 16-bit serial data word is applied to this input.

Data Synchronization Pulse, Logic Input. Taking this input low initializes the internal logic in readiness for a

new data word.

Digital Ground. Ground reference for all digital circuitry.

Load DAC, Logic Input. Updates the DAC output. The DAC output is updated on the falling edge of this

signal or alternatively if this line is permanently low, an automatic update mode is selected whereby the DAC

is updated on the 16th falling SCLK pulse.

Daisy-Chain Enable, Logic Input. Connect this pin high if a daisy-chain interface is being used, otherwise

this pin must be connected low.

Serial Data Out, Logic Output. With DCEN at Logic “1” this output is enabled, and the serial data in the

input shift register is clocked out on each falling SCLK edge.

Analog Ground. Ground reference for all analog circuitry.

Output Offset Resistor for the amplifier. It is connected to V

range and to REFIN for the –5 V to +5 V range.

Analog Output Voltage. This is the buffer amplifier output voltage. Three different output voltage ranges can

be chosen: 0 V to +5 V, 0 to +10 V and –5 V to +5 V.

Negative Power Supply (used for the output amplifier only, may be connected to 0 V for single supply

operation or to –12 V to –15 V for dual supplies).

Positive Power Supply (+12 V to +15 V).

AD7243 PIN FUNCTION DESCRIPTIONS (DIP and SOIC PIN NUMBERS)

OUT

when the digital

OUT

when the

OUT

as a

Relative Accuracy (Linearity)

Relative Accuracy, or endpoint linearity, is a measure of the

maximum deviation of the DAC transfer function from a

straight line passing through the endpoints of the transfer func-

tion. It is measured after allowing for zero and full-scale errors

and is expressed in LSBs or as a percentage of full-scale reading.

Single Supply Linearity and Gain Error

The output amplifier on the AD7243 can have true negative off-

sets even when the part is operated from a single +15 V supply.

However, because the negative supply rail (V

put cannot actually go negative. Instead, when the output offset

voltage is negative, the output voltage sits at 0 V, resulting in the

transfer function shown in Figure 1.

OUT

to 0 V in both unipolar ranges and the two’s complement

NEGATIVE

VOLTAGE

OUTPUT

OFFSET

OUT

{

for the +5 V range, to AGND for the +10 V

DAC CODE

) is 0 V, the out-

AD7243AR Analog Devices Inc, AD7243AR Datasheet - Page 4

AD7243AR

Specifications of AD7243AR

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