2 input range and data format, Table 3-2: input range and data format, Input range and data format – ADLINK PCI-9527 User Manual

24

Operation Theory

PCI-9527

ADLINK Technology Inc.

User’s Manual

Copyright 2010

3.2.2

Input Range and Data Format

When using an A/D converter, users should first know about the
properties of the signal to be measured. Users can decide which
channel to use and how to connect the signals to the card. Please
refer to section 2.5 for signal connections.

The A/D acquisition is initiated by a trigger source; users must
decide how to trigger the A/D conversion. The data acquisition will
start once a trigger condition is matched. After the end of an A/D
conversion, the A/D data is buffered in a Data FIFO. The A/D data
can now be transferred into the PC's memory for further process-
ing.

The following table illustrates the idea transfer characteristics of
various input ranges of the PCI-9527. The data format of the PCI-
9527 is 2’s complement.

Description

Bipolar Analog Input Range

Digital Code

Full-scale Range

±40V

±10V

±3.1622776V ±1V

±0.316227V

Least significant bit 4.76uV

1.19uV

0.37uV

0.119uV

0.037uV

FSR-1LSB

39.99999952V

9.99999881V 3.1622773V

0.999999881V

0.31622773V

7FFFFF

Midscale +1LSB

4.76uV

1.19uV

0.37uV

0.119uV

0.037uV

000001

Midscale 0V

0V

0V

0V

0V

000000

Midscale –1LSB

-4.76uV

-1.19uV

-0.37uV

-0.119uV

-0.037uV

FFFFFF

-FSR

-40V

-10V

-3.1622776V

-1V

-0.31622776V 800000

Table 3-2: Input Range and Data Format