Hello all,
I was just wondering on "settling time after switch-on" of DC blocking capacitors of preamplifiers. Some designs have say 1uf , some 10uf and some have electrolyte 220uf or 470uf. Perhaps in case of 470uf we would have longer settling time. Is using 470uf ok? Or we would face a problem? And if the answer is yes what would be the problem of long settling time? (Although some famous designs use large value bi-polar capacitors. )
Thanks.
I was just wondering on "settling time after switch-on" of DC blocking capacitors of preamplifiers. Some designs have say 1uf , some 10uf and some have electrolyte 220uf or 470uf. Perhaps in case of 470uf we would have longer settling time. Is using 470uf ok? Or we would face a problem? And if the answer is yes what would be the problem of long settling time? (Although some famous designs use large value bi-polar capacitors. )
Thanks.
Capacitors by themselves define nothing, you will always have an associated resistance or impedance after them, which defines a time constant. which is what is worrying you.
By consense , Audio band is considered 20Hz-20kHz ; capacitors are often rated so associated with next impedance they pass, lower than that say 5 Hz, or even 2 Hz , to have minimal influence at 20 Hz; nothing to gain reaching lower, but even a 1Hz lower limit implies a roughly 1 second time constant .... which is almost a non issue.
So you needn´t worry about any competently designed (pre)amplifier.
Yes I know, thanks for asking, I was only confused by the "settling time after switch-on a preamplifier" issue which dc coupling capacitors can cause.
Time constant is just one parameter to consider. The other very important is the DC voltage you block with that capacitor.
Let's say your preamp has about 0.5V DC at the output and the time constant is 1s. That means DC voltage after capacitor will drop to benign ~100mV one second after turn on. But if DC voltage at the output was 20V immediately after turn on, 1s later you would still have dangerous 4V after the capacitor.
Let's say your preamp has about 0.5V DC at the output and the time constant is 1s. That means DC voltage after capacitor will drop to benign ~100mV one second after turn on. But if DC voltage at the output was 20V immediately after turn on, 1s later you would still have dangerous 4V after the capacitor.
What would be a good cut-off frequency for low-pass filter of an amplifier, considering the least effect on high frequency?
Exactly, then in case of a preamp with wide bandwidth op-amps do you think a low-pass filter with cut-off frequency of 400kHz would be ok?
There are two things regarding the upper freq limit of an amp.
1. Amp cirtuit and its compensation. Here you focus on stability and low distortion. Design and used parts dictate the outcome
2. RF input filter
Composite BW of these two factors in a modern amp should be at least 100kHz imho.
1. Amp cirtuit and its compensation. Here you focus on stability and low distortion. Design and used parts dictate the outcome
2. RF input filter
Composite BW of these two factors in a modern amp should be at least 100kHz imho.