Output table:As described in Section 6.1.4, up to four input signals can be acquired simultaneously by each detector and fouroutputs can be displayed and recorded with the iMOv Software. By default, Outputs 1 to 4 correspond to Inputs1 to 4 respectively. Inputs 1 to 4 are acquired by the OWM and correspond to the input ports of the DSP box.Figure 36 – Output tableIt is also possible to generate up to 12 additional simultaneous outputs resulting from operation between theinputs or previous outputs. Those operations can be done on Outputs 5 to 12. To make an operation, first chosean input or a previous output as ‘’Operand 1’’, select an operator in the ‘’Operator’’ column and select anotherinput or output as ‘’Operand 2’’.The five operators or functions are add (+), substract (-), multiply (*), divide (/) and inv. Operand 1. Such operatorscan be used to generate a single chromatogram from up to four different inputs.
Output table:<br>As described in Section 6.1.4, up to four input signals can be acquired simultaneously by each detector and four<br>outputs can be displayed and recorded with the iMOv Software. By default, Outputs 1 to 4 correspond to Inputs<br>1 to 4 respectively. Inputs 1 to 4 are acquired by the OWM and correspond to the input ports of the DSP box.<br>Figure 36 – Output table<br>It is also possible to generate up to 12 additional simultaneous outputs resulting from operation between the<br>inputs or previous outputs. Those operations can be done on Outputs 5 to 12. To make an operation, first chose<br>an input or a previous output as ‘’Operand 1’’, select an operator in the ‘’Operator’’ column and select another<br>input or output as ‘’Operand 2’’.<br>The five operators or functions are add (+), substract (-), multiply (*), divide (/) and inv. Operand 1. Such operators<br>can be used to generate a single chromatogram from up to four different inputs.
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