Configure Fixed Point Dialog Box (Mixed Signal and Digital Waveform Graphs)
Right-click a digital bus glyph on the plot legend of a mixed signal or digital waveform graph and select Label Format»Configure Fixed Point to display this dialog box.
Use this dialog box to configure the encoding, range, and formatting of a fixed-point digital bus label.
This dialog box includes the following components:
Option
Description
Encoding
Specifies the binary encoding of a fixed-point number. Use the following components to specify the bit size to which you want the number to conform:
Signed—Specifies that the fixed-point data is signed. The sign bit is always the first bit in the bit string that represents the data.
Unsigned—Specifies that the fixed-point data is unsigned.
Word Length—Specifies the total number of bits in the bit string that LabVIEW uses to represent all possible values of the fixed-point data. LabVIEW accepts a maximum word length of 64 bits.
Integer Word Length—Specifies the number of bits in the bit string that LabVIEW uses to represent the integer portion of the value of the fixed-point data. The integer word length can be larger than the word length, and can be positive or negative.
Range
Displays the range and delta for a fixed-point number. Use the following components to specify the range of possible values to which you want the number to conform:
Minimum—Displays the minimum value for the fixed-point data range.
Maximum—Displays the maximum value for the fixed-point data range.
Delta—Displays the increment between numbers within the desired range.
Formatting
Specifies the format style and number of digits of precision for a fixed-point number. Use the following components to specify the format to which you want the number to conform:
Style—Specifies the formatting style of the fixed-point data. You can select from the following formatting styles:
Normal—Displays the fixed-point data in standard numeric notation.
Scientific—Displays the fixed-point data in scientific notation. For example, 60 in normal notation equals 6E+1 in scientific, where E represents the power of 10 exponent.
Engineering—Displays the fixed-point data in engineering notation, in which the exponent is always a multiple of three.
SI notation—Displays the fixed-point data in System International (SI) notation, in which the unit of measurement appears after the value. For example, 6000 in normal notation equals 6k in SI notation.
Digits of Precision—Specifies the number of digits after the decimal point.