Mooreamps: What you said about bias points is true enough. But a single-ended Class-B amp is unusable for audio, so I stand by what I said.
Bob: I think you have the operation of your beloved '64 AC30 wrong. This is what's supposed to happen in a push-pull Class-A amp:
1: The tubes must be set up such that their idle current is exactly half of the maximum current they can supply with the grids pushed as far positive as the driver can take them. This is achieved by adjusting load impedance, screen voltage, screen resistance and so on.
2: The push-pull drive now increases the plate current of one tube as it decreases the other. If our two tubes were idling at 48mA, then at the positive peak of the sine wave, one of them might conduct 40mA and the other 56mA. At the negative peak, the roles would reverse: 56mA and 40mA.
3: When the amp is producing its maximum output, then at waveform peaks one tube is passing 96mA and the other is exactly at the point of cutoff, passing 0. Any more drive results in clipping, because the tubes are fully on and fully off.
Note that at all times the sum of plate currents is 96mA. This is one way of recognizing a Class-A amp: the supply current doesn't change from idle to full output.
If we set the tubes up differently, such that their idle current was less than half of the maximum possible current, then we're in Class-AB. When one tube is cut off, the other one can still go further on.
For instance, a 50-watt Marshall (or a Vox AC50 ) idles at 34mA per tube, for 68mA total idle current. But it'll draw over 300mA when producing its rated 50 watts. At waveform peaks, one tube is fully on and passing about 450mA, while the other one is completely off.
The above discussion concerns unclipped power output only. All tube amps self-bias into a different class if you overdrive them hard enough.
The TPS61165 is for a white LED backlight driver board I'm building. I got a demo board for the chip, hooked the power up backwards, and blew it. I figured since it was already blown, I had nothing to lose by trying to change the chip out.
Bob: I think you have the operation of your beloved '64 AC30 wrong. This is what's supposed to happen in a push-pull Class-A amp:
1: The tubes must be set up such that their idle current is exactly half of the maximum current they can supply with the grids pushed as far positive as the driver can take them. This is achieved by adjusting load impedance, screen voltage, screen resistance and so on.
2: The push-pull drive now increases the plate current of one tube as it decreases the other. If our two tubes were idling at 48mA, then at the positive peak of the sine wave, one of them might conduct 40mA and the other 56mA. At the negative peak, the roles would reverse: 56mA and 40mA.
3: When the amp is producing its maximum output, then at waveform peaks one tube is passing 96mA and the other is exactly at the point of cutoff, passing 0. Any more drive results in clipping, because the tubes are fully on and fully off.
Note that at all times the sum of plate currents is 96mA. This is one way of recognizing a Class-A amp: the supply current doesn't change from idle to full output.
If we set the tubes up differently, such that their idle current was less than half of the maximum possible current, then we're in Class-AB. When one tube is cut off, the other one can still go further on.
For instance, a 50-watt Marshall (or a Vox AC50 ) idles at 34mA per tube, for 68mA total idle current. But it'll draw over 300mA when producing its rated 50 watts. At waveform peaks, one tube is fully on and passing about 450mA, while the other one is completely off.
The above discussion concerns unclipped power output only. All tube amps self-bias into a different class if you overdrive them hard enough.
The TPS61165 is for a white LED backlight driver board I'm building. I got a demo board for the chip, hooked the power up backwards, and blew it. I figured since it was already blown, I had nothing to lose by trying to change the chip out.
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