The “adc to Alpha-Beta-Zero” block computes the coordinates of a three-phase (abc) signal in a stationary reference frame (αβ0). The transformation is performed using the…
The “dq0 to abc” block computes a three-phase (abc) signal from a space vector in a rotating reference frame (dq0). The angle of the rotating…
The “abc to dq0” block computes the coordinates of a three-phase (abc) signal in a rotating reference frame (dq0). The angle of the rotating reference…
The tunable parameter block creates a variable that can be altered in real-time using imperix Cockpit. It supports the int32, uint32, and float data types. Simultaneously, the tunable parameter…
The probe variable block creates a variable that can be watched and logged in real-time using using imperix Cockpit. It supports the int32, uint32, and…
The Core state block returns the state of the target: The block also provides a second signal called “reset” that can be wired to the…
The external reset block provides a signal that can be wired to the external reset input of PID controllers to keep the integrator at reset…
This block issues a request to enable or disable the PWM outputs, similar to the “Enable outputs” button of BB Control utility software. It issues…
The SV-PWM block generates PWM signals based on the Space Vector Modulation (SVM) algorithm. This algorithm determines the three vectors that are the closest to…
The FPGA sandbox PWM block allows driving the PWM output from a user-made modulator from within the FPGA. Information on FPGA edition is available on Editing…
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