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Function description To monitor the lowering range, the range monitoring in Chart 350 (range 3) is used. This provides the option to shift the limits, as a function of the velocity, whereby this is not used in the particular example. Table 4-21 Defining the range, in which the knife may be lowered Param Value Quantity Significance (using the example) L224 675 Range3_max Upper limit value, where the knife may be in the lower position. Example: max. time to raise the knife = 1.5 s V_reference = 20 m/min when raising the knife, distance moved = 500 mm Range3_max = 1200 mm - 500 mm - 25 mm = 675 mm Þ Comment In this particular example, the material is considered to have been cut when the knife has been lowered (operation completed). It would be more correct, so set the "material cut" status, when the knife actually reaches the lower dead point. However, there is the danger that this status would never be reached if, for a high material velocity and mechanical delays, knife lowering would be interrupted before the lower deadpoint is reached. The conditions for the three control functions can be defined using this range definition: 4.7.1.3 Parameterizable STATE logic The logic functions in the table above should be considered as an application example. For each actual plant or system, changes can be expected to take into account plant or system secondary conditions. In order to be able to create as many different versions as possible, logic functions are not implemented in the form of individual gates, but as parameterizable logic (refer to Chart 400). A parameterizable STATE logic block has 8 BOOLean inputs (I1 ... I8), which can be freely-connected to BOOLean connectors (e.g. to a digital input which signals "knife at the top"). The type of logical combination is defined using mask entries. Each mask selects which inputs or inverted inputs are to be AND'ed. Mask bit Associated input 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 I8 I2 I1 I8 I7 I6 I5 I4 I3 I2 I1 Example Fig. 4-15 I7 I6 I5 I4 I3 MR1 = 16#8106 = 1000 0001 0000 0110b = I8 · I1 · I3 · I2 Assigning the selection mask bits to the inputs 4 set masks (MS1 ... MS4) and 3 reset masks (MR1 ... MR3) are available. In addition, using the MR mask, the inputs can be selected which cause the internal flipflops to be reset. Sheet-Cutter/Cut to Length - SIMADYN D - Manual 6DD1903-0DB0 Edition 10.00 59
