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Difference between revisions of "NVGate Virtual Input"
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==Virtual Inputs== | |||
The virtual inputs consist of an intermediate processing stage inserted between the front end and the analyses. Each inputs (or player tracks) can be drag& dropped to the virtual inputs plug-in. A virtual input (i.e. the result of calculation between inputs called'' Operators'') is generated as a standard input. It can be used in the following processes: | The virtual inputs consist of an intermediate processing stage inserted between the front end and the analyses. Each inputs (or player tracks) can be drag& dropped to the virtual inputs plug-in. A virtual input (i.e. the result of calculation between inputs called'' Operators'') is generated as a standard input. It can be used in the following processes: | ||
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===Channel=== | |||
Each channel represents an operand for the operators. Each channel applies a polynomial | Each channel represents an operand for the operators. Each channel applies a polynomial | ||
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[[Image:Virtual_Inputs_04.png|framed|none]] | [[Image:Virtual_Inputs_04.png|framed|none]] | ||
===Operators=== | |||
The ''Virtual inputs'' plug-in generates signals from operators. The operator gathers the polynomial member in one signal. There are 12 operators available. | The ''Virtual inputs'' plug-in generates signals from operators. The operator gathers the polynomial member in one signal. There are 12 operators available. | ||
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Note: if the software is able to solve the dimension formula between the channels and the operator (including the coef/offset/power), the output magnitude will be automatically applied. If not, the output will be proposed in Volts. | Note: if the software is able to solve the dimension formula between the channels and the operator (including the coef/offset/power), the output magnitude will be automatically applied. If not, the output will be proposed in Volts. | ||
===Twist=== | |||
The twist measurement consists of computing the angle between the 2 side of transmission shaft (or belt/chain). The measured angle is directly proportional to the stress and the applied torque. | The twist measurement consists of computing the angle between the 2 side of transmission shaft (or belt/chain). The measured angle is directly proportional to the stress and the applied torque. | ||
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The result are available from the add/Remove windows under the virtual input tab. | The result are available from the add/Remove windows under the virtual input tab. | ||
====Uncorrelated pulse number==== | |||
Note that any number of pulses/rev can be used for twist computation and these numbers of pulses/rev can either be different on each side. | Note that any number of pulses/rev can be used for twist computation and these numbers of pulses/rev can either be different on each side. | ||
===Tutorial=== | ===Tutorial=== | ||