In a 3-phase rectifier circuit, the silicon controlled rectifiers have firing angles of 0 degrees. If the incoming voltage waveform is v(t) = 460 sin(wt) where w= 377, what is the average voltage across the load.
The solution doesnt show the graph I would expect for the answer and the answer is 293V
which is simply the average of a half sine wave 460 x 2/ pi = 293 V.
I am thinking it should produce a graph of three identical sine waves out of phase by 120 degrees. Therefore to get the answer you need to do a seperate integral to get 0 to 60 degrees of the following phase which would produce a number greater than 293V.
I need someone to check me because I am not sure how the firing angles at zero get in to the question.
Maybe the problem is they meant to put single phase rectifier circuit because there is a pic of a single phase rectifier in the question.
The solution doesnt show the graph I would expect for the answer and the answer is 293V
which is simply the average of a half sine wave 460 x 2/ pi = 293 V.
I am thinking it should produce a graph of three identical sine waves out of phase by 120 degrees. Therefore to get the answer you need to do a seperate integral to get 0 to 60 degrees of the following phase which would produce a number greater than 293V.
I need someone to check me because I am not sure how the firing angles at zero get in to the question.
Maybe the problem is they meant to put single phase rectifier circuit because there is a pic of a single phase rectifier in the question.
