Atmaspere ;
First off...I would like echo Bob's accolades and offer our thanks to you for your patience and diligence in this thread ! You are one of a very few gentlemen that would not only offer some input but also stick it out for a myriad of questions as we try to learn a thing or two . A true industry leader !!!
I understand that it takes both voltage and amperage to make watts (E x I = W). And that you can have different kinds of watts ie. "voltage source" and "current source" depending on the impedence of the amp .
Can you tell us if the 'ratio' of volts to amps is the same for both types ? IOW do the watts from a "voltage source" amp generally contain more volts , than the watts from a "current source" amp ? And conversely do the watts from a "current source" amp generally contain more amps , than the watts from a "voltage source" amp ?
Or...
As you stated , "It is true that some constant voltage amplifiers can deliver lots of current." Would this be an example of a ratio difference ?
Thank you .
First off...I would like echo Bob's accolades and offer our thanks to you for your patience and diligence in this thread ! You are one of a very few gentlemen that would not only offer some input but also stick it out for a myriad of questions as we try to learn a thing or two . A true industry leader !!!
I understand that it takes both voltage and amperage to make watts (E x I = W). And that you can have different kinds of watts ie. "voltage source" and "current source" depending on the impedence of the amp .
Can you tell us if the 'ratio' of volts to amps is the same for both types ? IOW do the watts from a "voltage source" amp generally contain more volts , than the watts from a "current source" amp ? And conversely do the watts from a "current source" amp generally contain more amps , than the watts from a "voltage source" amp ?
Or...
As you stated , "It is true that some constant voltage amplifiers can deliver lots of current." Would this be an example of a ratio difference ?
Thank you .