2 output range and data format, 3 dac and analog output filter, Dac (digital-to-analog converter) – ADLINK PCI-9527 User Manual
Page 41: Table 3-6: dac (digital-to-analog converter), Output range and data format, Dac and analog output filter
Operation Theory
29
ADLINK Technology Inc.
Copyright 2010
3.3.2
Output Range and Data Format
The following table illustrates the PCI-9527 idea transfer charac-
teristics of various input codes versus output voltages. The data
format of the PCI-9527 is two’s-complement.
3.3.3
DAC and Analog Output Filter
DAC (Digital-to-Analog Converter)
The DACs on PCI-9527 are two 24-bit delta-sigma DACs. It sepa-
rates the sample rates into four regions between 1KS/s to
216KSps (table 3.3.1). Each region has different bandwidth of
internal digital filter, this will optimize the DA dynamic performance
over all sample rate region. For example, when setting at lower
sample rate, the digital filter bandwidth is lower too. It improves
SNR of output current and release the need for external analog
low pass filter.
The relationship between DAC sample rate and DDS output clock
is as followed
Description
Digital Input Code
Bipolar Analog Output
Full-scale Range
±10V
±1V
±0.1V
Least significant bit
1.19uV
0.119uV
0.012uV
FSR-1LSB
7FFFFF
9.99999881V 0.999999881V 0.099999988V
Midscale +1LSB
000001
1.19uV
0.119uV
0.012uV
Midscale 000000
0V
0V
0V
Midscale –1LSB
FFFFFF
-1.19uV
-0.119uV
-0.012uV
-FSR
800000
-10V
-1V
-0.1V
Table 3-5: Digital Input Code and Analog Output Range
Update Rate
1K-27KHz
27K-54KHz
54K-108KHz
108K-216KHz
DDS CLK
512K-13.824MHz 6.912M-13.824MHz 6.912M-13.824MHz 13.824M-27.648MHz
Table 3-6: DAC (Digital-to-Analog Converter)