Problem Description
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- Figure 2
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Ladder
Diagram to obtain output Figure 1 Ladder Diagram to obtain output Figure 2 Note: Assuming Clock is always present, so it only depends on the state of T input as stated in Truth Table of T Flip Flop above. Program Description I:1/0 is T input which is used to toggle the output. We are assuming that the clock is always present, so output is dependent only on T input I:1/0. In the Ladder Diagram Figure. 1, One Shot is created by ordering rungs such a way that during first scan cycle when T input I:1/0 is triggered, Bit B3:0/0 goes high immediately setting output image table of B3:0/0 to 1. During first scan cycle, it first scans the RUNG000 and then RUNG001. When the RUNG002 is scanned, it receives input “1” from the image table which was set while scanning RUNG000. It triggers output O:2/0. As soon as output O:2/0 goes high, it is sealed. During the second scan cycle, when RUNG000 is scanned, status of O:2/1 is observed “1” which breaks the flow in RUNG000 resetting image table of memory bit B3:0/0 to “0”. This does not occur output O:2/0 to be de-energized due to latching logic. Even if the T input is withdrawn, the output O:2/0 does not change. When T input I:1/0 is again triggered, it repeats the same scan cycle sequence De-Energizing output O:2/0. The only difference in Ladder Diagram of Figure.1 and Figure.2 is that in Figure.1, one extra rung is added to create One Shot but the same rung is eliminated in Figure.2 by using One Shot Rise instruction. Operation remains the same. Yüklə 2,74 Mb. Dostları ilə paylaş:
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