Specifications, Analog output, Accuracy – Measurement Computing PCIM-DDA06/16 User Manual

Chapter 4

Specifications

Typical for 25 °C unless otherwise specified.

Specifications in italic text are guaranteed by design.

Analog output

Table 1. Analog output specifications

D/A converter type

AD660BR

Resolution

16 bits

Number of channels

6

Voltage ranges

±10 V, ±5, 0 to 10 V, 0 to 5 V. Ranges are switch selectable

D/A pacing

Software paced

Throughput

System-dependent. Using the Universal Library programmed output

function (cbAOut()) in a loop, in Visual Basic, a typical update rate

of 150 kHz (± 70 nS jitter) can be expected. The rate was measured on

a 500 MHz Pentium III based PC.

Data transfer

Programmed I/O

Monotonicity

15 bits guaranteed over temperature

Slew rate

1.7 V/µs minimum, 2.4 V/µS typical.

Current drive

±5 mA min

Output short-circuit duration

Indefinite

Power-on reset voltage

0 V ±15 mV

Miscellaneous

Double buffered output latches
Update DACs individually or simultaneously (jumper selectable)

Accuracy

Table 2. Analog output accuracy specifications

Absolute accuracy

±2.0 LSB max

Typical accuracy

±1.0 LSB max

Gain error

Trimmable by potentiometer to 0

Offset error

Trimmable by potentiometer to 0

Integral linearity error

±1.0 LSB max, ±0.5 LSB typ

Differential linearity error

±1.0 LSB max, ±0.5 LSB typ

Each PCIM-DDA06/16 is tested at the factory to assure the board’s overall error does not exceed ±2.0 LSB.

Total board error is a combination of gain, offset, integral linearity and differential linearity error. The

theoretical worst-case error of the board may be calculated by summing these component errors. Worst case

error is realized only in the unlikely event that each of the component errors are at their maximum level, and

causing error in the same direction.

Typical accuracy is derived directly from the various component typical errors. This typical, maximum error

calculation for the PCIM-DDA06/16 yields ±1.0 LSB.

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