Name | Description | |
|---|---|---|
Activator | This BC creates a 1 or 0 based on the relevant input signal. This could be used as a 2-point measuring control strategy for a thermal store. | |
Comparison | This BC creates a 1 if the input in A is larger than B and a 0 if B is larger than A. | |
Difference | This BC is a simple mathematical difference between A and B. | |
Hysteris and integrator | These BC’s uses a Hystersis and integrator function on the input signal. | |
Minimum & Maximum | This BC gives the either the minimum or maximum of all the signals connected on the input | |
Multiply | This BC multiplies all the input signals connected. | |
Negative | This BC makes the signal negative. | |
Piecewise lineair function & function expression | These BC’s uses functions on the input signal, which can be changed to fit the needs of the project. | |
Scaling and truncating | This BC allows for scaling of values. | |
Sum | This base circuits sums all the inputs together. | |
Low pass circuit | The Low pass circuit puts a time delay on a value change. | |
Delay | This base circuits puts a delay on the signal. This can be used to let a pump run 5 minutes longer for example. | |
Loop Back | This BC is necessary if you want to loop a signal back (in the next timestep) | |
Control generator |
Manage space
Manage content
Integrations