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Are there any other EAR 834P modders lately?

I had to beg David Schulte of Upgrade Company to mod my EAR 834P because there are so many detractors. There are also loads of DIY people who have tweaked the circuit in custom ways. The changes I had made include V-cap coupling caps and RFI shileding. Switching from using the 12AX7 tubes to 5751 or 12AT7 tubes if you can handle the lower gain also is highly beneficial. I use Valvo 6201 blue print in the one spot, Brimar and Siemen Halske 12AT7's in the gain stages 2 & 3. 2 is not left and 3 is not right- it sums the tubes for the gain stage left and right. My results are stunning. Because the 12AT7's only have 70% of the gain or the 12AX7, I changed out my Bent Audio step up tranny's for Bob's Devices Cinemag 1131 with a 1:40 or 1:20, ratio which is adjusted at the flip of a toggle switch.
zenbret
zenbret OP
18 posts
 
Lewm, So you are saying that attenuators made out of resistors only lower the gain by decreasing the amplitude of the wave, but they do not change voltage or current at all?

I mistakenly thought that transformers step up the voltage by adding resistance ( the coil of wire acted like a resistor).

I have used autoformers on OTL amps before to boost the voltage.
Glad you keep me from talking a fool, cause I don't have a full understanding of basic electronics- though I have been reading up.

Slaw- remind me, are you using all 12AX7 tubes?

I actually made one more change- Siemens 12AT7 1982 tube in V3 ( the Syvania 6201 Gold brand was to tight and thin- needed a looser sloppier sound to fatten it up and the Siemens works well)
zenbret OP
18 posts
 
Found a clarification- thanks for pointing out my flaw Lewm. If a signal in a wire has a high enough gain, then a passive gain limiting preamp using resistors can be used to lower the signal to whatever listening level is desired, with full blast having no resistor in the circuit. These are often considered purer sounding than gain stages if you have enough gain not to need an active gain preamp.

"A resistor is a device that opposes current by reducing the voltage across it. If you look at a series circuit (a bunch of resistors and battery in series) you will see a voltage drop across each resistor, but the same current through each resistor." as one person explained.

V (voltage)= I (current) x R(resistance): is Ohm's law

Capacitors absorb preferentially low wavelengths, inductors absorb high wavelengths, resistors decrease voltage with no affect on frequency overall.

Can someone explain how transformer coils step up the voltage?
dover
2,177 posts
 
Zenbret
A simple transformer consists essentially of two coils of insulated wire. In most transformers, the wires are wound around an iron-containing structure called the core. One coil, called the primary, is connected to a source of alternating current that produces a constantly varying magnetic field around the coil. The varying magnetic field, in turn, produces an alternating current in the other coil. This coil, called the secondary, is connected to a separate electric circuit.

The ratio of the number of turns in the primary coil to the number of turns in the secondary coil—the turns ratio—determines the ratio of the voltages in the two coils. For example, if there is one turn in the primary and ten turns in the secondary coil, the voltage in the secondary coil will be 10 times that in the primary. Such a transformer is called a step-up transformer.

The cartridge is the source of alternating current that the primary winding sees.

If you like equations : Power = V(volts) x I(current)

and VI(primary) = VI (secondary)

The transformer takes the high current low voltage from the cartridge and converts it to higher voltage lower current.

Because of the low current after the transformer, the interconnect from transformer to pre should be kept as short as possible.
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