Rockwell Automation 1791-XXXX ANALOG BLOCK I/O User Manual
Page 45
Chapter 4
Analog Block Applications Using
Block Transfers
4-5
Description
Decimal Bit
(Octal Bit)
Word
Word 1
Bits 00Ć15 (00Ć17)
Output data for channel 0.
Word 2
Bits 00Ć15 (00Ć17)
Output data for channel 1.
Word 3
Bits 00Ć15 (00Ć17)
Minimum engineering scale factors for output channel 0 data.
Word 4
Bits 00Ć15 (00Ć17)
Maximum engineering scale factors for output channel 0 data.
Word 5
Bits 00Ć15 (00Ć17)
Minimum engineering scale factors for output channel 1 data.
Word 6
Bits 00Ć15 (00Ć17)
Maximum engineering scale factors for output channel 1 data.
Word 7
Bits 00Ć15 (00Ć17)
Minimum engineering scale factors for input channel 0 data.
Word 8
Bits 00Ć15 (00Ć17)
Maximum engineering scale factors for input channel 0 data.
Word 9
Bits 00Ć15 (00Ć17)
Minimum engineering scale factors for input channel 1 data.
Word 10
Bits 00Ć15 (00Ć17)
Maximum engineering scale factors for input channel 1 data.
Word 11
Bits 00Ć15 (00Ć17)
Minimum engineering scale factors for input channel 2 data.
Word 12
Bits 00Ć15 (00Ć17)
Maximum engineering scale factors for input channel 2 data.
Word 13
Bits 00Ć15 (00Ć17)
Minimum engineering scale factors for input channel 3 data.
Word 14
Bits 00Ć15 (00Ć17)
Maximum engineering scale factors for input channel 3 data.
Word 15
Bits 00Ć15 (00Ć17)
Low alarm level for input channel 0. When the input value for this channel is less than the low
value, the corresponding low alarm bit is set in the BTR.
Word 16
Bits 00Ć15 (00Ć17)
High alarm level for input channel 0. When the input value for this channel is greater than the
high value, the corresponding high alarm bit is set in the BTR.
Word 17
Bits 00Ć15 (00Ć17)
Alarm deadband for input channel 0. This field creates a hysteresis effect on the low and high
alarms. For an alarm condition to be removed, the input signal must go above the low alarm
limit or below the high alarm limit by an amount equal to the specified deadband. Alarm
deadband values must be less than or equal to one half the difference of the high and low
alarm values.
Word 18
Bits 00Ć15 (00Ć17)
Low alarm level for input channel 1. When the input value for this channel is less than the low
value, the corresponding low alarm bit is set in the BTR.
Word 19
Bits 00Ć15 (00Ć17)
High alarm level for input channel 1. When the input value for this channel is greater than the
high value, the corresponding high alarm bit is set in the BTR.
Word 20
Bits 00Ć15 (00Ć17)
Alarm deadband for input channel 1. This field creates a hysteresis effect on the low and high
alarms. For an alarm condition to be removed, the input signal must go above the low alarm
limit or below the high alarm limit by an amount equal to the specified deadband. Alarm
deadband values must be less than or equal to one half the difference of the high and low
alarm values.
Word 21
Bits 00Ć15 (00Ć17)
Low alarm level for input channel 2. When the input value for this channel is less than the low
value, the corresponding low alarm bit is set in the BTR.
Word 22
Bits 00Ć15 (00Ć17)
High alarm level for input channel 2. When the input value for this channel is greater than the
high value, the corresponding high alarm bit is set in the BTR.
Word 23
Bits 00Ć15 (00Ć17)
Alarm deadband for input channel 2. This field creates a hysteresis effect on the low and high
alarms. For an alarm condition to be removed, the input signal must go above the low alarm
limit or below the high alarm limit by an amount equal to the specified deadband. Alarm
deadband values must be less than or equal to one half the difference of the high and low
alarm values.
Word 24
Bits 00Ć15 (00Ć17)
Low alarm level for input channel 3. When the input value for this channel is less than the low
value, the corresponding low alarm bit is set in the BTR.