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I just read a couple threads discussing the above topic.
Common attenuators we use are basically resistors. Oh sometimes we hang caps or inductors on them to emulate speakers, but mainly they are resistors.
I know in the rarified world of engineering, they have sophisticated things like programmable electronic loads for powr supply testing. Especially when supplies might crank out 50 amps or something. These guys don;t just hang a resistor on a supply and get out the volt meter.
I know little about it, so i am hoping the engineering brain trust around here can educate me.
Seems to me that electronic loads comprise something like power MOSFETs or even bipolars wired to shunt current across the output of a powr source.. the MOSFET can act like a resistor by conducting as much as you tell it. The MOSFET would be on a heat sink and cooled, but it ain;t a resistor.
I mean, if I wired an MJ15024 across some power source and biased it on, it would load that source, right? And I could control how much.
Have i at least got that much straight?
SO would this same sort of approach work for a dynamic source like an amplifier output? Or might there be interactions I am not forseeing?
Common attenuators we use are basically resistors. Oh sometimes we hang caps or inductors on them to emulate speakers, but mainly they are resistors.
I know in the rarified world of engineering, they have sophisticated things like programmable electronic loads for powr supply testing. Especially when supplies might crank out 50 amps or something. These guys don;t just hang a resistor on a supply and get out the volt meter.
I know little about it, so i am hoping the engineering brain trust around here can educate me.
Seems to me that electronic loads comprise something like power MOSFETs or even bipolars wired to shunt current across the output of a powr source.. the MOSFET can act like a resistor by conducting as much as you tell it. The MOSFET would be on a heat sink and cooled, but it ain;t a resistor.
I mean, if I wired an MJ15024 across some power source and biased it on, it would load that source, right? And I could control how much.
Have i at least got that much straight?
SO would this same sort of approach work for a dynamic source like an amplifier output? Or might there be interactions I am not forseeing?
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