The periodic or AC waveform is the resulting product of a rotating electrical generator.
This means then that the AC Waveform is a “time-dependent signal” with the most common type of time-dependant signal being that of the Periodic Waveform. An AC waveform is constantly changing its polarity every half cycle alternating between a positive maximum value and a negative maximum value respectively with regards to time with a common example of this being the domestic mains voltage supply we use in our homes. The shape obtained by plotting the instantaneous ordinate values of either voltage or current against time is called an AC Waveform. Sine waves are by far one of the most important types of AC waveform used in electrical engineering. Sinusoidal waveforms are more generally called by their short description as Sine Waves.
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The term AC or to give it its full description of Alternating Current, generally refers to a time-varying waveform with the most common of all being called a Sinusoid better known as a Sinusoidal Waveform. An AC function can represent either a power source or a signal source with the shape of an AC waveform generally following that of a mathematical sinusoid being defined as: A(t) = A max*sin(2πƒt).
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Just to keep things simple, I will keep everything inside a playlist (so you can look up the playlist to see the complete progress on the series while this progresses over time).Īt this point I am writing this down I have no idea yet (nor any timetable) how long this series will be, nor any idea on when this series is finished.An alternating function or AC Waveform on the other hand is defined as one that varies in both magnitude and direction in more or less an even manner with respect to time making it a “Bi-directional” waveform. While this is one series, I might note I am going to provide different videos outside this series.
Eventually leading to becoming a CV expert while just looking at cables and understand what is going on.
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Also have much more control over how to use it, and how to manipulate it. And touch the realm of Berlin school while doing so.Īt the end of this specific series, you should know a lot about what makes Control Voltage work inside Propellerhead Reason. Base stuff around the PSQ-1684 (and some crazy ideas while using this device). While in this series progresses over time I will also touch the boundaries on what envelopes do, how you can use those in a CV environment. Beginning with the basics first (again, but take a different angle while doing this). So with that in mind, I am going to make a new series regarding control voltages. And some may require additional ideas in the realm of Control Voltages. Since I have heard a lot of people are struggling with this, have little clues on what control voltages are.
Today I am going to start of with a new series about control voltage.
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