- May 6, 2004
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- Independent Instrument Technician - Retired
There are two basic ways to wire a blend pot, and a variation to one of them.
First, the conventional way that you will find on most production basses.
Here one pickup is connected to the centre lug of one gang of the pot, and the other pickup is connected to the centre lug of the other gang. The leftmost lug of the upper gang is connected to ground and to the right lug on the lower gang. This type of wiring uses the potentiometer as a variable voltage divider, sending more or less signal to the output and the other part of the division to ground.
The complaint most often expressed about this kind of wiring is that it doesn't take much rotation from the centre detent to throw the balance largely to one pickup. That is to say when you rotate the pot to favor the neck pickup, very little rotation is needed before the bridge pickup is almost eliminated from the audible blend.
To remedy this situation the wiring is changed from a voltage divider to a variable resistor in series with the pickup. So instead of splitting the signal between the output and ground it simply provides variable resistance between the pickup and the output stream.
There is no ground connection in this configuration, and thus no need to connect the black diagonal shown in the first pic. However, you should still ground the case of the pot.
The complaint about this scheme is that you cannot take one pickup out of the circuit entirely - roll the blend to the extreme neck pickup position and there will still be a bit of signal coming from the bridge pickup, and vice versa. For many it's not enough to be concerned about, while others feel the need to be able to completely eliminate one pickup from the signal.
Which brings us to the third scheme - the no-load blend. Our friend Walter has posted about this in another thread, and he will chime in with his solution shortly.
But I should mention another scheme I ran across - the single gang quasi-blend solution. It uses a regular linear pot wired like this:
TB member @sissy kathy commented so well on this configuration that I will just quote here:
"That single pot is using a mid line tap so there is always resistance to each pickup. The output of the pickups is never at 100%.You only ever get a continously variable split between the pickups. that equals 50% of the potential total output of the two pickups; that is 100% of either pickup at the extreme positions but the other pickup is near 0%. It'll make your amp work harder for a given volume."
First, the conventional way that you will find on most production basses.
Here one pickup is connected to the centre lug of one gang of the pot, and the other pickup is connected to the centre lug of the other gang. The leftmost lug of the upper gang is connected to ground and to the right lug on the lower gang. This type of wiring uses the potentiometer as a variable voltage divider, sending more or less signal to the output and the other part of the division to ground.
The complaint most often expressed about this kind of wiring is that it doesn't take much rotation from the centre detent to throw the balance largely to one pickup. That is to say when you rotate the pot to favor the neck pickup, very little rotation is needed before the bridge pickup is almost eliminated from the audible blend.
To remedy this situation the wiring is changed from a voltage divider to a variable resistor in series with the pickup. So instead of splitting the signal between the output and ground it simply provides variable resistance between the pickup and the output stream.
There is no ground connection in this configuration, and thus no need to connect the black diagonal shown in the first pic. However, you should still ground the case of the pot.
The complaint about this scheme is that you cannot take one pickup out of the circuit entirely - roll the blend to the extreme neck pickup position and there will still be a bit of signal coming from the bridge pickup, and vice versa. For many it's not enough to be concerned about, while others feel the need to be able to completely eliminate one pickup from the signal.
Which brings us to the third scheme - the no-load blend. Our friend Walter has posted about this in another thread, and he will chime in with his solution shortly.
But I should mention another scheme I ran across - the single gang quasi-blend solution. It uses a regular linear pot wired like this:
TB member @sissy kathy commented so well on this configuration that I will just quote here:
"That single pot is using a mid line tap so there is always resistance to each pickup. The output of the pickups is never at 100%.You only ever get a continously variable split between the pickups. that equals 50% of the potential total output of the two pickups; that is 100% of either pickup at the extreme positions but the other pickup is near 0%. It'll make your amp work harder for a given volume."
