Re: Re: Re: A 6SN7 direct coupled preamp & regulated supply for everyone's perusal.
If you don't need the gain, you can ditch some, and improve the linearity by doing a plate follower. First, get rid of the cathode bias resistor and replace it with a green LED. The Vf is quite close to the required grid bias, and the LED has very little AC resistance in the forward direction.
Next, apply the NFB to reduce the Avcl to about four (doesn't look like it'll need much more). If there's a problem of DC offsets from the source, you can add a DC blocking capacitor. For this, move the volume control to the output. The A Number One problem with this is that variations in source impedance, as you'd get with a volume control, will cause the closed loop gain to vary since that impedance is in series with Rs. Given an Avol= 15, make Rf= 5.1Rs. That should give Avcl= ~4.0. That should improve your THD to ~1.0%.
Plate Follower
G said:
If you don't need the gain, you can ditch some, and improve the linearity by doing a plate follower. First, get rid of the cathode bias resistor and replace it with a green LED. The Vf is quite close to the required grid bias, and the LED has very little AC resistance in the forward direction.
Next, apply the NFB to reduce the Avcl to about four (doesn't look like it'll need much more). If there's a problem of DC offsets from the source, you can add a DC blocking capacitor. For this, move the volume control to the output. The A Number One problem with this is that variations in source impedance, as you'd get with a volume control, will cause the closed loop gain to vary since that impedance is in series with Rs. Given an Avol= 15, make Rf= 5.1Rs. That should give Avcl= ~4.0. That should improve your THD to ~1.0%.
Plate Follower
Re: Re: Re: Re: A 6SN7 direct coupled preamp & regulated supply for everyone's perusal.
How would this effect the output impedance?
Miles Prower said:
How would this effect the output impedance?
^^^^
Since this is a gNFB scheme, the NFB will reduce the Zo. Being a current feedback method, it will also reduce Zi. The latter isn't such a big deal since the open loop Zi can be made so high to begin with, way in excess of what you'd get with BJTs.
Since this is a gNFB scheme, the NFB will reduce the Zo. Being a current feedback method, it will also reduce Zi. The latter isn't such a big deal since the open loop Zi can be made so high to begin with, way in excess of what you'd get with BJTs.
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