Friday, August 29, 2025

FENDER: Deluxe 5E3

Some notes on the 5E3, the most famous and widely copied variation of the Fender Deluxe, produced from about 1955 - 1960.


Fender Deluxe 5E3 schematic


Fender Deluxe 5E3 layout


POWER

Transformer:  Triad 6452, 380–0–380 V

Rectifier:    5Y3GT

B+ ~360V  

Filtering:    B1 - 16uf,    B2 - 5k / 16uf,    B3 - 22k / 16uf


OUTPUT

OT:   8k P-P,  8ohm secondary.   Triad 108 (pre 60's).   Schumacher 125A1A.   Note the option to add another 8ohm extension speaker, which implies that the amp can handle a 4 ohm load

2 x 6V6

Va ~340 - 350

Cathode biased.  Rk 250hm, 50uf bypass capacitor

Grid stop: 1k5.  Grid leak:  220k


CATHODYNE PHASE INVERTER - 12AX7

First stage, boost:

Ra 100k,  Rk 1k5 ohms / 25uf bypass

22n coupling to grid of inverter


Second stage, invert:   

Ra 56k,   Rk 1k5 in series with 56k 

Rg 1meg to 1k5 / 56k resistor node

100nf coupling to 6V6 from cathode and anode of 12AX7


PREAMP - 12AY7

Ra 100k,  Rk 820 ohms shared / 25uf bypass.   (1,640ohms per cathode)

Grid stoppers 68k (in parallel, for high).   Standard Fender input wiring

Rg 1meg.  100nf coupling caps to volume


A1M VOLUME & TONE

A1M volume and tone pots.   

In tweed circuits, the volume pots are wired in an older style: the wiper (pin 2) is the input, while the outer lug (pin 3) serves as the output. Electrically, this is the same as the modern convention, just reversed in function.

A 500 pF capacitor from pin 3 connects back to the preamp’s coupling capacitor. This acts like a variable bright cap—its effect diminishes as the volume is turned up.

A 4.7 nF capacitor from pin 1 goes to ground, providing a simple treble cut by shunting high frequencies away.

Pin 2 (the wiper) carries the combined signal forward to the grid of the phase inverter (also connected to the output of the volume pot).

One hallmark of these amps is the interaction between the two volume controls. Both pots connect directly to the grid of the first phase inverter stage, so even if only one channel is in use, adjusting the unused channel’s volume will still alter the response of the active channel.


12AY7 x 12AX7

Parameter 12AY7 12AX7
Amplification Factor (µ) 40 100
Plate Resistance (rp) 22.8 kΩ 62.5 kΩ
Transconductance (gm) 1750 µmhos 1600 µmhos
Typical Plate Current ≈ 3 mA @ Va=250 V. 
Vg = –2 V 
≈ 1.2 mA @ Va=250 V.   
Vg = –2 V
Max Plate Voltage 300 V 330 V
Max Plate Dissipation (per triode)    1.5 W 1.2 W
Heater Current 0.3 A @ 6.3 V
0.3 A @ 6.3 V
Typical Bias for ~1 mA –2 V to –4 V –1.5 V to –2 V

6V6

Parameter 6V6
Type Beam power tetrode
Plate Resistance (rp) ~62 kΩ (effective in Class A)
Transconductance (gm) ~4100 µmhos
Typical Plate Current 34–45 mA (idle, Class A)
Max Plate Voltage 350 V (design centre)
Max Plate Dissipation      14 W
Heater Voltage 6.3 V
Heater Current 0.45 A @ 6.3 V
Typical Bias –12 V to –15 V (Class A)
Typical Load Impedance 8 - 10 kΩ  P-P
Typical Output Power              ≈ 14 W (push-pull, Class AB)  

5Y3

Parameter 5Y3GT
Type Full-wave rectifier 
Maximum DC Output Current   125 mA
Peak Inverse Voltage 1400 V
Typical DC Output Voltage ~350 V DC (at 100 mA load).  
Max Input Capacitance 20 µF (first filter capacitor)
Heater Voltage 5 V
Heater Current 2.0 A
Typical Voltage Drop ≈ 60 V at 125 mA load






Saturday, August 16, 2025

FARRINGTON: Hybrid Valve PA head

This four-channel beast is a hybrid valve PA amp, built by a bloke named Jim Farrington in NSW sometime in the late sixties or maybe seventies.  From what I can tell, they mostly stayed local to where he lived, and you don’t see many pop up anywhere.   I picked this up on eBay, and it was sent from his hometown.

Looking at the few photos on Ozvalve Amps, it seems he used the same head and chassis for most builds, swapping out the control panel and designing amps to suit whatever job it was for.

There’s no schematics around, and I’m not about to trace the whole thing — there’s just too much going on.  I might figure out the reverb section though, and maybe keep that as is.

VINTAGE FARRINGTON PA AMPLIFIER

VINTAGE FARRINGTON PA AMPLIFIER

VINTAGE FARRINGTON PA AMPLIFIER



Some photos from the eBay listing below.



SPECS

It's going to be a little vague at this stage, and might stay this way.

  • 4 x solid-state preamps:  bass, treble, level, reverb.  Hi and lo impedance inputs 
  • Master volume, reverb and tone controls (bass, treble)
  • The modulation indicator lamp is not related to signal modulation or trem of any kind
  • Reverb:  valve driven, Hammond / Gibbs 1122 tank.  6BM8 to drive it
  • 4 x EL34 fixed bias output stage
  • I'm guessing some kind of 12AX7 based phase inverter 
  • A&R transformers
  • Solid-state rectifier
  • Line output from the speaker terminals 

PLANS

The plan is to rebuild it, swapping some of the solid-state preamps for valve ones, but I’ll probably keep one solid-state channel just to hang on to a bit of its history.

Channel one:     Guitar effect, probably a boost

Channel two:     Solid state

Channel three:   Fedner preamp with bass and treble controls

Channel four:    Pentode channel of some description 

Master tone controls to be removed.  I'm guessing this amp will need to keep the master volume, as it has a reasonable amount of output power

As each channel has two input jacks, I'm considering a modular approach, with an in and out for each channel.  


Saturday, August 9, 2025

BELL & HOWELL: 622 Projector Amplifier, 5E3 Tweed Deluxe Conversion

Documenting another Bell & Howell amplifier conversion.

While it has a different model number and a shiny red faceplate, it's the same amp as the 621 and others in the series.  Quite often, variations of the model number has more to do with the projector than the amp. 

BELL & HOWELL 622 PROJECTOR AMPLIFIER



Stock - the infamous rats' nest.


Now with the unnecessary parts removed - although there is still more work to do.


622 CONVERSION NOTES

Plan A was to strip it back and rework the preamp, but there were too many out-of-spec parts and it wasn’t heading in the right direction. When I powered it up, it ran really poorly and there was a fair bit of resistor noise.

So I moved to Plan B – gutted it and built a 5E3-style amp (Fender Tweed Deluxe). It came together really well.

Preamp
I used an ECC35 / 6SL7 for the preamp. A single triode provides more than enough gain for a Deluxe Tweed–style amp, as the 6SL7 has higher gain than the 12AY7 originally used.

Phase Inverter
The Deluxe uses a 12AX7 in a cathodyne inverter.  I kept the 6SL7 from the projector here — its lower gain balances the extra gain in the preamp.  A 6SN7, which has even less gain, is also a reasonable option, if you want something even cleaner.  

I recently came across the Dumble mods for the 5E3 - one of which involves adding feedback to the phase inverter.  I gave it a try and liked it.   


Rear Panel
I swapped the unusual power connector for a standard IEC.  A few minutes with a file and one extra hole was all it took to make it fit.  This model already had a full-size fuse holder, so that was left as is, after confirming that it was the right value fuse.

The speaker outputs were replaced with cliff jacks, as they just manage to cover the holes.  

bell & howell 622 amplifier conversion gut shot

There’s a lot more space in the chassis once the old boards are gone.  I added a few tag strips for mounting parts – one for the first filter cap, and a couple more for the phase inverter and preamp.

I used the unused 6V6 socket as the star ground point, leaving the heater wires connected there since it’s the first stop from the transformer.  Best to keep that part untouched.

The elevated heater voltage was also left as is - in a chassis this size, it doesn't hurt to have a bit of extra protection from heater hum (heater centre tap connected to the cathode of a 6V6).
 
bell & howell 622 amplifier conversion gut shot









Friday, August 8, 2025

COLORSOUND: 1971 Overdriver

There are a few versions of these floating around - I went for the 1971 9V version, simply as 9v is more convenient, and I was thinking about something different to use one of the large gapco enclosures for.

You could drop the volume pot if you wanted something a little more vintage correct, but given the very high output level, most people want this. 

There's a lot of historical information here on Kit Rae's site - which also includes a very good explanation of the differences between different versions (9v vs 18v etc).  

COLORSOUND 1971 OVERDRIVER - 0.15" VERO LAYOUT

COLORSOUND OVERDRIVER - 0.15" VERO LAYOUT


COLORSOUND 1971 OVERDRIVER SCHEMATIC

COLORSOUND OVERDRIVER SCHEMATIC 1971







Wednesday, August 6, 2025

BE Fuzz Face layout

Just a Fuzz Face layout that I used recently and want to make note of - it's based on the one knob fuzz line, which is a handy little layout, but didn't quite suit my needs.    With some minor adjustments, it can be used for most fuzz face variants - component table here.

FUZZ FACE - 0.15" VERO LAYOUT - BE V1a

FUZZ FACE - 0.15" VERO LAYOUT - BE V1a

The photo doesn't exactly match the layout above, as I routed some wires through the holes and under the board to make things a little neater, and I updated the layout after making the first one.  There were also some component value tweaks.



Hammond Eddystone Enclosure, 145 x 95 x 49mm
Knobs: 25 x 25 
Stomp: 20
LED: 12.5
Cliff Jacks: 20, offset 5