600彩这是专业的

John Broskie's Guide to Tube Circuit Analysis & Design

600彩这是专业的04 august 2013

Where Did July Go?
600彩这是专业的 After spending ten days on the East Coast, it took me weeks to catch up, which makes sense, as I am always behind. In addition, my kids are home for summer vacation, which certainly is a vacation for them, but for me... This explains why I haven't posted for so long a time.

 

 

GlassWare Tilt Control
In my previous post600彩这是专业的, I promised the unveiling of the new . well, here it is. This is a simple affair: a small PCB (1.4in by 2.8in), a stereo, shorting, five-position rotary switch, four capacitors and eight resistors. It is a passive design, which entails a -3dB insertion losses and whose center frequency is 500Hz and its nominal input impedance is 100k. The center position results in a flat frequency response, but is down -3dB. As the control twists clockwise, the highs go up by +1.5dB per click and the lows go down by -1.5dB per click. Conversely, as the control twists counterclockwise, the lows go up by +1.5dB per click and the highs go down by -1.5dB per click. The following graph shows the five frequency plots in an idealized form.

the actual five frequency plots are much smoother, as shown below.

achieving these five frequency response profiles requires five passive networks—all of which share resistor r1 as circuit element.

600彩这是专业的the first position is selected when the rotary switch is turned completely clockwise, which results in the junction of capacitor c1 and resistor r2 being selected.

600彩这是专业的since i have long ago discovered that many readers cannot see topology in an unfamiliar format, i have added the redrawn schematic on the right to make the shelving network's configuration clearer. a quick inspection reveals that dc voltage and low frequencies will be attenuated by the two-resistor voltage divider formed by r1 and r2. on the other hand, high frequencies will jump over resistor r1 and emerge un-attenuated. the difference in signal amplitude between high and low frequencies is equal to 20log(1 + r1/r2) in dbs. if r1 and r2 are the same value, the difference is equal to -6db. the lower frequency at which the signal strength begins to climb is equal to 1 / (2 • pi • r1 • c1). the high frequency at which the signal strength begins to flatten out is equal to 1 / (2 • pi • r1||r2 • c1).

since the glassware tilt control's center frequency is 500hz and we need a 3db cut and boost, the two transition frequencies must equal 500hz/1.414 (353.6hz) and 500hz x 1.414 (707hz), where 1.414 is the square root of 2. both r1 and r2 equal 30k and c1 equals 15nf. if we run a spice simulation on this shelving network with these values, we get the following frequency plot.

rotating the switch one click back counterclockwise results in a smaller boost and cut, only 1.5db. once again, the center frequency is 500hz. the math gets much thicker with this more elaborate shelving network.

600彩这是专业的nonetheless, the result is that the 1.5db cut and boost are imposed on the frequency response and the center frequency is still 500hz, which will be -3db down, as in the previous shelving network. the spice plot is shown below.

600彩这是专业的the center position is much easier to implement, as we only need a fixed -3db attenuator, which can easily be made from two resistors.

600彩这是专业的the input signal must be reduced to 70.7% of its original value. since r1 equals 30k, r5 must equal about 70k. the closest 1% resistor value is 69.8k. the spice frequency plot is quite boring.

600彩这是专业的moving one more click counter-clockwise gives us a +1.5db bass boost and a -1.5db cut in highs. once again, the center frequency is 500hz. you can readily see how at high frequencies, resistors r7 and r6 are in parallel with each other; but at dc and low frequencies, only resistors r1 and r6 are in series with each other.

using 4.3nf for c3 and 61.9k for r7 and 160k for r6 results in the following spice graph.

and our last position results in the biggest bass boost and the biggest cut in high frequencies (+3db & -3db). at the center frequency, 500hz, the attenuation is -3db. a quick inspection of the following network reveals that at dc and low frequencies, no attenuation occurs; but at high frequencies, resistors r1 and r8 define a two-resistor attenuator. if r8 equals 30k, the attenuation will be -6db.

600彩这是专业的using 7.5nf for c5 and 30k for r8 results in the following spice graph.

600彩这是专业的and there we have it: five positions, five different sonic presentations. i found the sonic results quite interesting. first of all, i was advised to make huge cuts and boosts to the signal, so even the near-deaf would notice the difference. well, i am glad that i didn't, as the 1.5db increments is plenty for most recordings. yes, there are plenty of recordings that could use bigger sonic tilts, but the better solution would be to design and build a very-expensive 11-position tilt control.

600彩这是专业的one result that impressed me greatly was listening to my sennheiser hd650 and grado sr-225 headphones with the glassware tilt control. they do not sound anything alike... without the tilt control that is. i found that the sonic difference could be substantially reduced by one click to the right with the hd650 headphones and one click to the left with the sr-225 headphones. not exactly the same, but much closer than i ever thought possible. i also own akg and beyer headphones and i have been using all these headphones as tone controls of sorts, swapping one out for another as the music dictates the need for a different sonic presentation. this approach is neither elegant nor inexpensive. the much better approach is to seek out the most neutral headphones and then use a glassware tilt control to make the needed frequency adjustments. (the next missing sonic control required for great headphone listening is a stereo blend control that would undo some of the excessive stereo separation.)

600彩这是专业的the pcb was made purposely small so it could fit within a 1u rack-mount enclosure. this required that the resistors be inserted perpendicular to the board, which is never to my liking, as i have big hands, but it wasn't that big of a deal. the bigger deal was something that i didn't expect. one problem we face today is that tight-tolerance polystyrene capacitors are no longer being made and finding tight-tolerance film capacitors of any type is difficult. (i can imagine the nightmare day when no small through-hole capacitors will be made, leaving us with only surface-mount capacitors.) i hadn't realized how bad things had gotten, until i tried sourcing the capacitors with a 0.4in lead spacing for the glassware tilt control. very difficult indeed.

 

How To Use The GlassWare Tilt Control
600彩这是专业的 Since the Tilt Control is passive, it does not require a power supply. Thank God. But also since it is passive, it assumes that the signal source presents a low impedance and that its output sees a very high input impedance. This does not seem to be that big an assumption, but it can prove to be. For example, I had no problem fitting the assembled Tilt Control into a small extruded-aluminum project enclosure with four RCA jacks on the back, two input jacks and two output jacks. I placed the Tilt control between my DAC and a solid-state headphone amplifier. The results were excellent. I fed the DAC from a Squeezebox Duet and I controlled the music selection and volume with my Android Squeezebox app. Bliss. I love control at a distance (without wires). I then substituted the solid-state headphone amplifier with my tube-based amplifier. Now, I had a problem. The tube headphone amplifier presents an input impedance of 20k, which dragged down the Tilt Control excessively. I had to bypass the volume control and use a 10M grid resistor, before I could get the correct shelving functions to work with the amplifier.

what about placing the tilt control after the 20k volume control? the highest output impedance from a potentiometer occurs at -6db, where the zo equals the potentiometer's resistance divided by four; in the case of a 20k potentiometer, 5k. the 5k of resistance results in shifting the center frequency up a tad, say 50hz to 550hz and making the bass boost bigger, along with increasing the insertion loss by 0.5db, as the following graph shows.

600彩这是专业的to be honest, although i know many audiophiles who would wet their pants at the sight of such asymmetry, the resulting plots are still quite useful. remember: there is no perfect, no absolute tilt-control profile. once we leave flat frequency response, we are on our own. since the ear is less sensitive to low frequencies, the above set of frequency response plots may prove preferable to the those shown earlier.

600彩这是专业的at the other end, the load impedance, the closer the load approaches infinity the better. so, placing the tilt control in front of a 20k potentiometer would be a truly bad idea, as would placing it in front of an amplifier with a 47k input impedance. in contrast, following the glassware tilt control with a cathode follower or an opamp is a good idea. the following schematic shows a tilt control cascading into an aikido cathode follower.

because the rotary switch is a shorting type, the output never loses contact with a path to ground, so the control itself can be used as the grid resistor. we could even use an opamp configured to deliver a gain of 1.4 (+3db), which would undo the -3db insertion loss.

600彩这是专业的the glassware tilt control kit is available now at the . it includes the pcb, rotary switch, and all the polypropylene capacitors (8) and 1% metal-film resistors (16).

 

Next Time
The topic will be tube math.

 

//jrb

     

 

 

Kit User Guide PDFs
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E-mail from GlassWare Customers

hi john,

I received the Aikido PCB today - thank you for the first rate shipping
600彩这是专业的 speed.

wanted to let you know that this is simply the best pcb i have had in my hands, bar none. the quality is fabulous, and your documentation is superb. i know you do this because you love audio, but i think your price of $39 is a bit of a giveaway! i'm sure you could charge double and still have happy customers.

600彩这是专业的looking forward to building the aikido, will send some comments when i'm done!

Thank you, regards,
Gary.

And

Mr Broskie,

600彩这是专业的i bought an aikido stereo linestage kit from you some days ago, and i received it just this monday. i have a few things to say about it. firstly, i'm extremely impressed at the quality of what i've been sent. in fact, this is the highest quality kit i've seen anywhere, of anything. i have no idea how you managed to fit all this stuff in under what i paid for it. second, your shipping was lightning-quick. just more satisfaction in the bag, there. i wish everyone did business like you.

Sean H.
600彩这是专业的


High-quality, double-sided, extra thick, 2-oz traces, plated-through holes, dual sets of resistor pads and pads for two coupling capacitors. Stereo and mono, octal and 9-pin printed circuit boards available.

   Designed by John Broskie & Made in USA

aikido pcbs for as little as $24

 



Only $9.95
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The Tube CAD Journal's first companion program, TCJ Filter Design lets you design a filter or crossover (passive, OpAmp or tube) without having to check out thick textbooks from the library and without having to breakout the scientific calculator. This program's goal is to provide a quick and easy display not only of the frequency response, but also of the resistor and capacitor values for a passive and active filters and crossovers.

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Tube crossovers are a major part of this program; both buffered and un-buffered tube based filters along with mono-polar and bipolar power supply topologies are covered. Available on a CD-ROM and a downloadable version (4 Megabytes).

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