From axisab!ricard@lth.se Wed Feb 10 03:29:06 1993 (Smail3.1.28.1 #1) id m0nMCoZ-000QE2C; Wed, 10 Feb 93 09:29 MET id ; Wed, 10 Feb 93 08:26 MET From: ricard@axis.se (Ricard Wolf) Date: Wed, 10 Feb 93 08:26:45 MET Subject: Re: Formant synthesizer (home built) > Rick Jansen > >From RICK@SARA.NL Tue Feb 9 05:52:34 1993 > Date: Tue, 09 Feb 93 11:48:09 CET > From: Rick Jansen > Organization: SARA - Amsterdam Universities Computer Center > Subject: Formant synthesizer (home built) This article was a beauty! > transistors these days. No idea why there are no BC107Cs available > any more. As far as I understand, the BC107 series (BC107A, 107B, 108 ... 109C) were the first of the series. In the sixities, they started to be replaced by the BC147 series, which was housed in a small plastic case with three short legs. The 147 was used for a while in consumer electronics, but has been since superseeded by the BC547 series, which I beleive is identical to the old BC107's. The only difference between the 107 and 147 was the power rating 300mW vs. 220mW. Don't know the power rating of the 547 series. /Ricard -- Ricard Wolf / | \ / | /- email: ricard@axis.se Axis Communications AB /__| \/ | \__ uucp: axisab.se!ricard S - 223 70 LUND / | /\ | \ Tel: +46 46 19 18 63 SWEDEN / | / \ | \__/ Fax: +46 46 13 61 30 -- "Life on the other side of the planet must be wonderful" -- From RICK@SARA.NL Tue Feb 9 05:52:34 1993 OHSTVMA.ACS.OHIO-STATE.EDU (LMail V1.1c/1.7e) with BSMTP id 0428; Tue, 9 Feb 1993 05:51:28 -0500 9 Feb 93 11:50 MET with BSMTP id 5384; Tue, 09 Feb 93 11:48:47 CET Date: Tue, 09 Feb 93 11:48:09 CET From: Rick Jansen Organization: SARA - Amsterdam Universities Computer Center Subject: Formant synthesizer (home built) If you're interested in some experiences with building a synthesizer, read on. I have built/am still building a modular analog synthesizer. It is the Elektor Formant designed by C. Chapman (an Englishman?), which was published in 1977/78 in the European electronics magazine Elektor. In those days I was still a student, and didn't have the time or money for the project. So I shelved it, till a later date when I would have both time and money at the same moment. This rare combination of factors occurred a few months ago, triggering the project from hibernation. The Formant is a conventional Moog-style synthesizer, voltage controlled with a 1V/octave characteristic. It consists of separate modules mounted in a rack, six in a row, two racks on top of each other. Each module is a printed circuit board with a front. The idea was to put these modules in a 19" rack or something home grown. The Formant was published in a series of articles in Elektor, and later as a book with a compilation of the articles. A year later there was a book with additions and extensions by M. Aigner, an Austrian. The first book describes the keyboard and interface, power supply, VCO, VCF, LFO (consists of 3 LFOs), Noise, ADSR, VCA, COM (output module), RFM (Resonance Filter Module) and a 24dB VCF. Book 2 contains things like Ring Modulator, Envelope Follower, Mixer, Phase Shifter, ADSR Controller, VC-LFO's, Sample and Hold, and a few more. I'll briefly describe the modules here, and how building the Formant went. The Modules =========== Keyboard interface The keyboard is made with double switches, one switching a resistance ladder, the other the gate signal. - inputs: frequency modulation - controls: portamento, octaves coarse and fine VCO The VCO generates sine, triangle, square, sawtooth and spaces sawtooth waves. The pulse width of the square is adjustable, and even modulatable. - inputs: frequency modulation, external control voltage, pulse width modulation. A LED indicates the pulse width. - dials for octaves coarse and fine, output level, pulse width, pulse width modulation and frequency modulation. - Switches to select each waveform (you can have sine and square at the same time, the signals are simply added together). - External control voltage/keyboard voltage selector. VCF The VCF is a 12dB/octave voltage controlled filter. You can configure the filter as Low Pass, High Pass, Band Pass or as a notch filter. Quite versatile really. - inputs: Timbre Modulation, external control voltage, external signal. - dials for timbre modulation, external signal level, envelope, octaves, Q (resonance) and output level. - Switches to select HP, BP, LP and Notch filter function. ADSR The ADSR generates the envelope signals for the VCA and the VCF. Normally you will have two ADSRs in a system, one for the VCA, and the other for the VCF(s). - dials for Attack, Decay, Sustain and Release. - switch to select AD or ADSR envelope - LED indicator showing the envelope VCA The VCA has the following controls: - inputs for amplitude modulation and external signal. - dials for AM depth, ES level and Gain. - Switch for ENV/Off (Off means no ENV control). - LED to view the input signal level. LFO The LFO module consists of 3 LFOs. LFO 1 and 2 are identical, generating square, triangle and sawtooth (/|/|) waves. LFO 3 is different, in that it generates triangle and two sawtooths, one being the inverse of the other. ( /|/| and |\|\). Each LFO has a dial for the frequency, and a LED that shows the triangular wave amplitude. Noise The noise module generates white noise, coloured noise and a random voltage. The 'speed' of the random voltage is adjustable with a dial and indicated with a LED. COM The Control and Output Module outputs the Formant signal, there are dials for tone control (Bass, Mid, Treble) and Output level. You can connect a headphone or external amp to this module. (All outputs of the Formant you can connect a headphone to.) 24dB VCF Is basically like the VCF, but 24db/oct. - inputs: Timbre Modulation (TM), ECV, External Signal (ES). - dials for TM, ES level, Envelope (ENV), Octaves, Q (resonance) and output level. - Switch to select HP/LP, a switch to select VCO's/ES. - A dB/Oct selector: 6, 12, 18, 24 dB/oct. RFM The Resonance Filter Module is used to mimic existing instruments more naturally, or just as some filter. Another name for an RFM is a 'parametric equalizer'. This is not a voltage controlled filter. The Formant RFM consists of 3 filters in parallel. Each filter has three dials for f0, Q and A. A basic Formant consists of 3 VCOs, 1 VCF, 2 ADSRs, 1 LFO, 1 Noise and a COM. So far I have built 3 VCOs, 1VCF, 1 24dB VCF, 2 ADSRs, 1 VCA, 1 LFO, 1 Noise , 1 COM. Getting the parts ================= One of the first difficulties when you're going to build a thing that was designed 15 years ago is getting the components. Most of the parts used in the Formant are just common opamps, there are no exotic custom chips used, like the CEM chips. There are some (three) key components, that are getting pretty hard to get these days. The following turned out to be 'difficult': - The exponential generator that converts the linear control voltages to an exponential voltage in the VCO was made with a uA726 double transistor from Fairchild. The uA726 is an ideal part, it contains both a precise double transistor and an oven which keept the temperature constant. Thus temperature stability is guaranteed. It never was a commonly used component anyway, and now it is getting rare. I have been able to get a few still, thanks Georg :) You could use a modern double transistor though, like a MAT02. Modern transistors are far more stable, and it might be you can use one straight away. I haven't tried though. If I would not have gotten hold of the uA726 I would have used the MAT02, and built a temperature controlled heater myself (using a powertransistor as a heater and a temperature sensor to control it). - The exponential generator in the other voltage controlled modules (VCF and VCA) were built with another double transistor, a PNP transistor array in an ic, the CA3084. I have been able to get 10 of those still. You could use a MAT03 as a replacement though. - In the VCOs BC107C and BC177C transistors were used. Very simple and common transistors you'd say. Well, they aren't. I have not been able to locate a single BC107C. The A and B types are available though, but it is explicitly stated that a C type is absolutely crucial. BC108C or BC109C won't do, as they have too low a voltage rating. I used BC547C and BC557C instead. Those are very common transistors these days. No idea why there are no BC107Cs available any more. The BC's are used in a comparator, converting a sawtooth to square and in a sawtooth to triangle converter. (Maybe using the BC5..C's is the reason the square waves are not *very* sharp, but more or less rounded off a bit. Not that it matters very much to the sound though.) All other components are still easy to get. I ordered opamps from a mail order company, and the things they didn't have from others. It is vital to keep a list of companies you already phoned and what you asked for, to avoid the embarrassment of asking someone the same thing again a few days later. It happened to me only once. Things I first wanted to have a look at I went to local electronics shops for. Upgrading to 'modern' standards =============================== Not a great lot seems to have happened in analog electronics in the past 15 years. Nearly all parts common then still are common today, with the exception of the few mentioned above. I have been able though to upgrade the design very easily by just using some modern equivalents: - 741 I have used TL071C opamps instead of the old 741. If you buy a hundred they're same price, or lower, than the bl**dy old 741. The TL071C is a FET opamp with very low noise specs. Ideally suited for a synthesizer or any other low-noise application, like preamps. - FETs In many places FET source followers are used as buffers. In those days FET opamps were not widely available, and very expensive. The disadvantage of using a FET source follower is that you have to select suitable FETs and select a resistor with it. I used the metal can version of the LF356H instead, which, with some bending of its legs, will fit beautifully in all places FET source followers are used. No selection necessary, and no R either. - Rs Metal film resistors are almost as cheap as carbon film ones these days. I simply used metal film resistors just everywhere. The advantage of metal film Rs is that they are low-noise and more stable. In some places 1% resistors are used, but they were as easy to get as the normal (10%) ones. Printed circuit boards ====================== For all modules Elektor published PCB layouts. Back then you could then also buy the prints from them. Elektor only has prints a limited period of time, but I found a company that still has the films, and can produce the PCBs for you. All modules, except the VCO, are eurocards. The VCO is a double eurocard. Price of the VCO board is Dfl 61,-, which is ca US$ 30,- if I count two Dfl's to the dollar. The eurocards cost ca US$ 12,- each. The PCB layout is also in the book, so you could etch and drill the prints yourself, but I thought that far too much hassle, and environmentally unfriendly. Keyboard and housing ==================== Building a synthesizer is not simply soldering parts onto printed circuit boards. The total effort involved is more than *twenty* times the effort of the plain soldering. Most of this effort and frustration is invested in mechanical things like the keyboard and the housing. The keyboard is just a plain electronic-organ keyboard. There is a double switch for each key, and those switches have to close simultaneously. Such switches are made by a company called Kimber- Allen in England. The mechanical interface between key and switch is a *lot* of work. The original idea was that under each key there is a T-shaped piece of plastic that will close the two switches at the same time. I have not been able to get a keyboard with those T-shaped 'pushers'. My keyboard just had a piece of plastic, with two hooks in it, as used in electronic organs. I had to find my own solution, so for each switch I drilled two tiny holes in the piece of plastic attached to the key. I have a 5 octave keyboard, with 61 keys, so I had a marvellous weekend. The housing of the Formant turned out to be an awful lot of work too, and very costly as well. The Formant consists of eurocards and double eurocards. All pictures in the book get the idea across that everything fits neatly in a 19" rack, six modules in a row. The truth is not so simple. The pictures show a 19" rack, divided in 6HE and 3HE. The modules with the bigger fronts, like VCO and VCF are in the lower part, the smaller modules in the upper 3HE part. And here things go wrong. The VCO is a double eurocard, but the VCF is a single eurocard. A double eurocard does *not* fit in a 6HE 19" rack. As you see, this is a complete mess, you cannot put VCO and VCF prints in rails in a standard 19" 6HE rack. I ended up with extra alu profiles, and mounting the eurocard on a piece of aluminium the size of a double eurocard. Add to this that my pcb manufacturer did not cut the epoxy material really very precisely the 10 centimeter width of a eurocard, but a few millimeters extra, that I had to grind off using sandpaper. Of course I only found out after having already soldered all components in place. I have called the good man some very bad names. The fronts of the modules have given me headaches. Elektor has given a design for them, too. You can copy those on 0.5 mm thick adhesive photosensitive aluminium, as made by 3M. My pcb-making company could also do that for me. What fun, as the fronts turned out to be some 5 millimeters larger than 6HE. Also, the markers for the drill-holes on the fronts do not match the spacing of a 19" rack at all. So, I ended up with fronts with screws in the corners, and the marks very visible. Furthermore the result was quite fuzzy, the lines and figures being far from sharp. I guess during the years the films got scratched, and so my fronts also looked rather scratched. Another things is that I use knobs for the dials with a plexiglass clear disk. In the original design the figures are then obscured by the plexiglass disc, making them unreadable. You can see them, but as the clear plexiglass disc is curved its more like looking through a lens. Awful. Thus I was not pleased with the fronts at all, and designed new ones myself on a Macintosh. My idea was to print them on film with a 600 dpi printer and use the same 3M alu front stuff. Alas, the printing would cost me US$ 10 per A4 (two big fronts or 4 small ones). Plus US$ 15 per A4 sheet 3M alu foil. I thought that a bit steep. And then having to process it all... nah. I printed my designs onto overhead sheets, which I simply glue onto a piece of aluminium with transparent 2-component glue. Looks great! Oh, I haven't mentioned yet that you need to drill a *lot* of holes in the alu fronts for potentiometers, connectors, switches, LEDs and the lot, have I? Well, you have to drill a lot of holes in the alu fronts for potentiometers, connectors, switches, LEDs and the lot. About a hundred holes in total. And you think drilling holes in 1.5 mm aluminium is easy? Very funny. It is not. The holes for switches and 3.5 connectors are still easy, but the bigger (ca. 10mm) holes for potmeters are a pain. You cannot simply drill those, for you will end up with a triangular hole. Instead, you have to use a conical drilling tool that I don't know the english word for now, but I'd call it a 'widener' :-) Next fun thing is, you have to connect the prints and potmeters and switches and all with pieces of wire. Many hundreds in total, each of which I neatly soldered and protected with the insulating shrinking stuff the English word for which eludes me right now. It is all a lot of work. Especially as not all directions from the book are clear. I ended up with quite a few potmeters connected in reverse, so you'd turn up something and it would in fact go down. Very confusing if you don't know what you're doing. Calibrating procedures ====================== An analog synthesizer has to be adjusted and calibrated. And again, this is a lot of work. Plus, you need to know what you are doing. Now I'm an electro engineer, but I work as a systems programmer so I don't have much experience in the field of practical electronics, which I was never very good at at all in the first place. (I still remember nightmare of the electronics lab where we had to make a simple single transistor work as an emitter follower or something as simple as that, and nothing seemed to work. Least of all the oscilloscope, that had about as many dials and trigger options as my synthesizer has now, which would show nothing but an oscillating emitter follower. Aaaaargh!) Well anyway, not all directions and procedures are very clear, and you have to fill in a lot yourself.JSometimes directions are open for more than one interpretation even. You definately need an oscilloscope and a digital volt meter for the final adjustment of the VCOs. Cost ==== *important note* If you think that building a synthesizer yourself is a cheap way of getting a synthesizer, here is what you must do: forget it. The Formant has cost me a *lot* of money. I could have bought, for example, a Waldorf microWave plus an Atari, or maybe even a Macintosh LC. But, no regrets. There's no such thing as twiddling your own knobs (no pun intended here) and knowing the ins and outs of your synthesizer. Most expensive single items are the 19" racks. The rest is not very expensive per se, only you need a lot of things. A potmeter and a knob aren't very deer, but if you need a hundred it all adds up to quite an amount. Same goes for the switches (also about 50), and 3.5 mm connectors. Also you need tools. I bought an electric drill, drills (amazing!), saws, what not. In total, very roughly speaking, the Formant has cost me about US$ 2500,-. (Including tools and parts already bought for future use.) Time ==== I had time off from work last year for 5 weeks in a row in the autumn, time I had to take off or lose it. Being rather fed up with work on our Visualization Center (computer animations of scientific data, video equipment and the lot) I decided to take it :-) It cost me a full week to get more or less all the most important parts. I spent much of the remaining 4 weeks fulltime putting it all together. Planning is vital here, nothing is more frustrating than not having bought just one silly tiny resistor. So, if you have to build a Formant just in the evenings and weekend, be prepared to work on it some time. Playing it ========== Well, after spending so much time and money I found out what I knew before. I can play with it, but not really play it very well yet. I've had music lessons as a kid, and even learned how to play a recorder. The wooden type, not the tape type. I never learned to play a keyboard. Only a few weeks ago I found out how to play scales. Not that it matters much, I'll interface it to midi and a computer one day and be my own Kraftwerk. Or I could practise and learn how to play, really. I'm definately having fun with it anyway. I already have been able to reproduce some sounds Tomita used on Pictures at an Exhibition, I know how to do the Popcorn sound, and I have found how to make the thin high-pitched sound in the background of Kraftwerk's Spacelab, and how to do the deng-deng-deng-deng-... of old Radioactivity. Wow. Who can build a Formant? ======================== Building a machine like this is not something to undertake lightly. It costs a lot of money, it takes a lot of time, and requires a lot of mechanical skills and not least some insight in electronics. An analog synthesizer has to be adjusted and calibrated. And again, this is a lot of work. Plus, you need to know what you are doing. Well anyway, not all directions and procedures are very clear, and you have to fill in a lot yourself.JSometimes directions are open for more than one interpretation even. You definately need an oscilloscope and a digital volt meter for the final adjustment of the VCOs. I have been lucky that I haven't made many errors while soldering the boards, but I have made some. Those can be a big puzzle, and you *will* have to solve them. If you have never built anything electronic before: don't do it. If you don't have the money: don't do it. If you don't have *plenty* of time: don't do it. If you don't have the mechanical tools: get them first. If you have neighbours who don't like synthesizer sounds: get rid of them first, or buy a pair of headphones. Future ====== Well, there still are new modules to build and play with, like the extensions from book 2 (ring modulator etc). I want a sequencer, the simple analog type with just a few potmeter dials for pitch and duration. I will design and build it myself, its rather an easy thing really. Rick Jansen e-mail: rick@sara.nl Amsterdam, February 1993 -- rick@sara.nl "She's a Module and she's looking good" From RICK@SARA.NL Wed Feb 17 08:27:45 1993 OHSTVMA.ACS.OHIO-STATE.EDU (LMail V1.1c/1.7e) with BSMTP id 7331; Wed, 17 Feb 1993 08:27:30 -0500 17 Feb 93 14:26 MET with BSMTP id 1001; Wed, 17 Feb 93 14:26:37 CET Date: Wed, 17 Feb 93 14:26:21 CET From: Rick Jansen Organization: SARA - Amsterdam Universities Computer Center Subject: Re: Formant synthesizer (home built) >As far as I understand, the BC107 series (BC107A, 107B, 108 ... 109C) were >the first of the series. In the sixities, they started to be replaced >by the BC147 series, which was housed in a small plastic case with three >short legs. The 147 was used for a while in consumer electronics, but has >been since superseeded by the BC547 series, which I beleive is identical >to the old BC107's. The only difference between the 107 and 147 was the >power rating 300mW vs. 220mW. Don't know the power rating of the 547 >series. Hmm.. the transistor-equivalents guides shamelessly direct you towards BC108C, BC109C etc. Those transistors are still widely available, the only family member that has been dropped is the BC107C. The 108/109 however, have too low a voltage rating, even though they are listed as equivalents.I found the BC547C/BC557C by just looking in specs tables. They were nowhere listed as equivalents though! They are indeed plastic, and *cheap*. Thats why I just wondered if there was a snag somewhere, as some people suggested that manufacturing cost of metal-canned transistors is the main reason to have dropped the BC107C. The BC107A and B, however, are still widely available, as are the 108 and 109 series. They are metal-canned, so, I still don't know why I cannot get BC107C's... BC547C seems a good replacement though. -Rick. -- rick@sara.nl "Eleganz und Dekadenz" From andrea@sihp03.si.estec.esa.nl Tue Feb 16 05:46:32 1993 From: Andrea TONI Subject: Re: the very FIRST ANALOGUE heaven post Date: Tue, 16 Feb 93 11:25:29 MET Organization: ESA-ESTEC (European Space Research and Technology Center) Keplerlaan 1 2200 AG Noordwijk (EUROPA) Phone: Int +31 1719 83606 Fax: Int +31 1719 84697 Machine: HP-UX sihp03 A.B8.05 A 9000/730 941406112 Mailer: Elm [revision: 66.33] > A: a thread in short form of what types of music you use your keyboards > (or if they are not, then why do you?) for Hi, I like to program sounds for my synths, and they should be as weird as possible but I also love the plain strings/pad/sustained efx. I don't record much but my tendency is to create always something ambient/experimental/avant-garde .. that means something a bit unusual (my formal knowledge of music is very limited). I'm very interested in alghoritmic compositions and every kind of things were *randomness* can be used ( I love M !!). > B: what kind of homemade modular synths have been built. do they use > CV/gate, sync, or MIDI at all? i want to hear about this, because > eventually i want to build my own. I was looking at the Format (Elektor) since a long time but the posting on this list has obviously discourage me a lot !! 2500$ for a monophonic synth that is not even modular (in the sense that you can not access/patch/route any of the sections VCO/VCF/VCA) is indeed too much .. I will rather buy 2 or 3 more Korg MS20 (great synth) ! Anyway I built lots of boxes (a spring reverb, tremolo box, fuzz/distortion box,a 3 VCO transistor mini-synth, and play a lot with the famous SN76477 Texas chip). I would like to build some more stuff : a bi-phaser, a simple analog sequencer for my MS20, a joystick controller for the MS20, and a Hz/oct -> Volt/oct converter box (exp to linear .. Korg had a MS-02 box that was used for that purpose .. I still have the electrical specs .. if somebody is interested .. ) I would love to hear about CV->MIDI and MIDI->CV boxes and kits. Unfortunately time is always the major constrain, If I can just make a 48 hours day long !! My gears : SYNTH - Roland JD800 Kawai K5 Oberheim Matrix1000 Roland Juno6 Yamaha TX81Z Roland D110 Korg MS20 EFX - Roland Dep5 Roland Voice processor VP70 MISC - Roland Drum computer TR626 Roland Midi-Patch-merger A880 Atari Mega Ste 4M A digital sequencer for Analog synths (German company !) Fostex Multitrak recorder 160 Fostex Mixer 2016 Ciao, ------------------------------------------------ENV---ENV---ENV---------------- Andrea TONI (andrea@sihp03.si.estec.esa.nl) | | | Planetary and Space VCO-->VCF-->VCA--> DUCATI 900SS Science Division (SI) | | | ------------------------------------------------LFO---LFO---LFO----------------