Define the Conversion Types for a Logic Program

You can use the Byte-String Conversions and String to Time Conversion Mode combo boxes to define how a Logic program converts values. The conversions that you select will affect the results of the program, so you need to choose the correct types of conversion for your needs.

To define the conversion types:

  1. Display the configuration Form for the relevant program (see Configure an ST Program, Ladder Diagram, SFC or FBD).
  2. Select the Logic tab.
  3. Use the Byte - String Conversions combo box to choose the conversion type for converting byte values into string values.

    The available options include:

    • Character—The system will use ASCII codes to convert the byte number into a string value. Each character has a a corresponding ASCII code—the program will read the byte value as an ASCII code.
    • Decimal Integer—The system will use binary codes to convert the byte number into a string value. Each character has a corresponding binary code—the program will read the byte value as a binary code.
    • Hexadecimal Integer—The system will use hexadecimal codes to convert the byte number into a string value. Each character has a corresponding hexadecimal value—the program will read the byte value as a hexadecimal value.
  4. Use the String to Time Conversion Mode combo box to define the format that will be used when the time inputs are converted to strings. The format can be:
    • Windows—Uses a format that is similar to the date and time formats for the UK locale of Microsoft Windows. The format of the string is dependent on the type of input time value:

      Input TypeOutput String Format (Windows)
      Date

      dd-MM-yyyy
      For example, 09-12-2011

      Date and Time

      dd-MM-yyyy hh:mm:ss.SSS
      For example, 09-12-2011 22:31:14.313

      Time of Day

      hh:mm:ss.SSS
      For example, 22:31:14.313

      Time

      hh:mm:ss.SSS
      For example, 22:31:14.313

      The milliseconds are omitted if they are zero.

      If the time is negative, the string is prefixed with a minus sign, for example, minus 12 hours is: -12:00:00.

    • IEC 61131-3—The IEC 61131-3 format is used to convert the input into a string output. The format of the string is dependent on the type of input time value:

      Input TypeOutput String Format (IEC 61131-3)
      Date

      D#yyyy-MM-dd
      For example, D#2011-12-03

      Date and Time

      DT#yyyy-MM-dd-hh:mm:ss.SSS
      For example, DT#2011-12-03-13:43:24.341

      Time of Day

      TOD#hh:mm:ss.SSS
      For example, TOD#22:31:14.313

      Time

      T#DdHhMmSsFms

      Where D, H, M, S and F represent numerical values for day, hour, minute, second and milliseconds, respectively. For example:

      T#16d21h19m25s13ms

      Any element that is zero is omitted (unless all of the elements are 0, in which case the string is T#0). For example, one and a half hours is T#1h30m.

      If the time is negative, a minus sign is added after the T#. For example, minus 30 minutes is: T#-30m.

To configure the other Logic tab settings, see Configure an ST Program, Ladder Diagram, SFC or FBD.


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