A Vintage Phone In 2020

When we make a telephone call in 2020 it is most likely to be made using a smartphone over a cellular or IP-based connection rather than a traditional instrument on a pair of copper wires to an exchange. As we move inexorably towards a wireless world in which the telephone line serves only as a vehicle for broadband Internet, it’s easy to forget the last hundred years or more of telephone technology that led up to the present.

The iconic British telephone of the 1960s and 1970s, the GPO model 746. Mine is from 1971.
The iconic British telephone of the 1960s and 1970s, the GPO model 746. Mine is from 1971. (That isn’t my phone number)

In a manner of speaking though, your telephone wall socket hasn’t forgotten. If you like old phones, you can still have one, and picture yourself in a 1950s movie as you twirl the handset cord round your finger while you speak.

As we move inexorably forward, it’s worth considering for how much longer we’ll be able to do this. If all goes well, I’ll be receiving a new fibre optic connection in a few weeks. Along a sliver of glass will come faster Internet that I can currently dream of, and I’m expecting that the box that our telephone provider puts on the end of it will have a telephone socket that is simply the front-end of a dedicated VOIP client. It’ll undoubtedly work with my digital answerphone, but will it still work with a 50-year old model with an old-fashioned dial designed for use with a mechanical Strowger exchange? If I’m going to have to hack on this old phone, I’d better figure it out now in case I have to hook it up to something else to keep it communicating.

Just How Does A Telephone Work?

A grotesquely simplified schematic of a dial phone. In this diagram SW2 is open and SW3 is closed, so the handset is off the cradle but the dial is not in use..
A grotesquely simplified schematic of a dial phone. In this diagram SW2 is open and SW3 is closed, so the handset is off the cradle but the dial is not in use.

The great thing about a passive device whose roots lie around the turn of the twentieth century is that its principles are relatively easy to understand. A phone like my GPO 746 contains a lot of clever circuitry to give it better audio, and to protect it from line faults, over-voltage, and other mishaps. But its most basic operation can be explained with something like the much-simplified schematic we’ve pictured.

On the left is the handset, with a carbon microphone and an earpiece in series. When the handset is off the cradle, SW3 is closed, and because the line has a standing DC voltage on it a current flows through the handset. Any audio on the line is heard in the earpiece, and any speech into the carbon microphone varies that current and creates an audio signal in return.

A telephone dial, front and rear. Daderot [CC0]
A telephone dial, front and rear. The two sets of spring contacts can be seen, on the left the one for pulse dialing and on the right the one that switches in the low resistance across the handset. The speed governor is diagonally across the mechanism, and the toothed wheel that drives it also serves to operate the left hand contact. Daderot [CC0]
When the handset is put on its cradle SW3 is opened and there is no DC current path, but through the capacitor C1 there is an AC path to the bell B1. Thus the exchange can ring the bell by sending an AC voltage on top of the DC standing voltage.

SW1 and SW2 are the contacts in the dial, and since it has become a viral meme that people below a certain age may be unfamiliar with dial phones it’s worth explaining the operation of the dial for them. A spring loaded disk is rotated to a point representing the desired number by the user before being let go. It returns at a constant rate set by a governor, and as it does so it closes a set of contacts here labelled SW2 to switch in a low resistance across the handset, and it passes its other contacts, SW1, over a toothed wheel. The effect is to interrupt the line current and create a series of pulses set by the number dialed, which were originally used in a mechanical exchange to advance the switchgear a step with each pulse.

An interesting side-effect of this circuit is that with some telephones it was possible to simulate dialing by rapidly depressing the cradle in sequence. On some payphones this offered a means to circumvent the coinbox circuit which disabled the dial. (I remember some students at my university getting into trouble for doing this.) Who needs a 2600 Hz tone to scam the telco!

The Other Side Of The Socket

Having understood our telephone, how might we simulate a telephone line to connect it to? I sat down for an evening in the hackerspace with my GPO 746 to find out.

My basic fake phone line simulator, which should serve as a template for something a little more useful.
My basic fake phone line simulator, which should serve as a template for something a little more useful.

A web search will tell you that a phone line carries a standing DC voltage and an intermittent AC voltage to operate the bell. Further searching reveals that each of those voltages can be 50 V, and that the DC current shouldn’t be more than 50 mA. A good place to start therefore is with a bench power supply set to 50 V, and a 1 kΩ resistor to limit the current and simulate the resistance of several miles of phone cable. With the resistor in place any change to the line can only cause a 50 mA current to flow, and thus the possibility for damage is reduced. Connecting this to the 746 resulted in the sound picked up in the microphone being audible in the earpiece, and had I wanted to I could have retrieved the audio after the 1 kΩ resistor.

Experimenting with driving a dial phone on the bench.
Experimenting with driving a dial phone on the bench.

Similarly, with the handset on the cradle I could apply an AC voltage and ring the bell. My AC transformer was a bit less than 50 V, but it did work with smaller volume. I still lacked any means of sensing dialing or the cradle, for which I needed to sense the presence or absence of 50 mA DC current. The real GPO exchange back in the day would have done this with a relay in series with the line, so I reached for a small relay. At this point I learned that relays have a hysteresis curve on their close and release currents so it was not as reliable or as quick as I’d hoped. I began to understand why telecoms circuits use reed relays. In the future I’ll have to use a current sensing resistor and a transistor to do the job.

To make this work as a real project, I will have to pay attention to my two 50 V power supplies with probably a little boost converter and oscillator to produce my AC bell drive, and then I’ll need to program a microcontroller to handle being on-hook and off-hook, as well as decoding the pulse streams into numbers. I may also have to pay attention to the phase relationship between my audio source and the audio from the microphone, as feedback can become a problem in some circumstances. Once I have mastered those things I’ll be able to make a unit that sits behind a standard British Telecom master socket and provides a connection to anything I choose, be it a GSM module or a SIP client on a single board computer. In that way I can still be using my GPO 746 dial phone in decades to come.

70 thoughts on “A Vintage Phone In 2020

      1. Jenny, I’m in the same boat, albeit a boat on the other side of the pond. I appreciate this article, and your reasoning. I want to use my 60’s Western Electric phones for as long as I can.

      1. Thanks for this thread, Jenny! I have a small collection of *real* phones. Bought a “telephone line simulator” off eBay ($100) to allow me to test them. I have actually done some phone line interfacing for a voice messaging system in a previous life. Nice to see the topic come up again.

        For decoding DTMF, the classic chip used to be the Mitel MT8870, but now you can probably do it with an Arduino and some DSP code :-). Good thing they didn’t have those back in the Blue Box days:
        https://classic.esquire.com/article/1971/10/1/secrets-of-the-blue-box

  1. Actually, other than decoding the dial closures it’s not that complicated. Back in the day they would connect the parts of a phone in a wall box for a ringdown circuit (like a telephone based intercom) with a 12 volt battery for carbon microphone voice and a hand cranked generator for ring voltage to ring all other phones on the circuit. You could generally connect up to a distance of 10 to 20 miles on one of these depending on wire size.
    Even though it’s obsolete today, phone technology was pretty interesting in its day.

      1. What’s called a telephone hybrid network. It consists of 2 transformers that directionally isolate the 2 paths. It is really interesting technology that is shortcut in VoIP phones. Instead of using a hybrid VoIPs use companding and compression which isn’t as good IMHO. Old analog speakerphones sounded surprisingly good when they had low noise lines. Another good education can be had by digging into how they approached engineering analog single sideband long lines, referred to as being able to speak “Debrinco”. Subcarrier groups and supergroups with baseband being inverted. First letters refer to dB and last ones refer to the Bell System weighted frequency response mask referred to as a “C” message.

        1. IIRC, Hackaday did an article about the hybrid circuit (years ago), which is where (I believe) I first learned about it. But I didn’t find it using the HaD “Search” box.

          Caleb, are you listening? B^)

      2. As someone who once attempted to design a hybrid with opamps, I’m getting a kick out of this. “a bit of phasing fun and games” is putting it mildly :-)
        Sure, it’s theoretically simple: you null out the outgoing audio from the incoming line and there’s your incoming audio. In practice, though, the level and phase of the incoming audio depends on the impedance of the line (nominally 600 ohms resistive), which changes with each call :-)
        You can, however, get pretty close. Lots of app notes out there if you search for “hybrid” or “2-wire to 4-wire”
        There used to be SLIC (Subscriber Line Interface Cards/Circuits) available back when PBXs were analog. They are probably available from scrap dealers now, already mounted on line cards with serial digital I/O

  2. Wonderful article.
    I have an identical phone (well, the label says Walkerburn rather than Stratton Audley) and it’s in use every day. The ring is priceless and can be heard all through the house and down the garden. To be sure we have a trio of cordless phones too, but they stop working when there is a powercut wheras the old 746 remains fully functional.

      1. UK ring standard frequency is 16-2/3 Hz (50 Hz divided by 3). Note that the US frequency is 60 Hz divided by 3. The ring voltage can peak at 210 V (from memory, but I cannot remember whether that includes the 50 V exchange battery).

        1. In the u.s. ring voltage is generally 16 to 25 Hertz which was the based on the output of hand operated ringing generators commonly used in early phones particularly rural ones. The 20 hertz normal frequency really has nothing to do with the 60 hertz line frequency of the power grid. in some cases 30 Hertz was used for ringing because it was a 1/2 divided from the 60 hertz power grid, in those cases a ferroresonant transformer was used to produce a sub cycle of 30 Hertz from 60 hertz powerline frequency. frequency selective ringers were sometimes used in Party line situations particularly on automatic exchanges. there are numerous variations on the frequency selective ringer depending on the manufacturer the number of extensions on the line and so forth. I’m pretty certain there are no longer any party line setup in use except perhaps in certain rural areas

  3. I still have my old phone plugged-in to an Obi200. That little box even allows you to program the ring style. Mine is connected to Google Voice through the Internet. The old phones are very comfortable on the ear.

      1. I have a 1938 model Stromberg Carlson Model 1243 (all metal not bakelite) phone plugged in to Obi200 via a pulse to tone converter from http://www.dialgizmo.com. It works well and is my primary home phone. I needed this when the kids were home alone before they were old enough for mobile phones. I did have to change the ringer to one that rings at a standard frequency (these were commonly used on party lines where everyone had a different ring frequency)

  4. You could have made it easier for yourself by using a Silvertel Ag1171 (https://silvertel.com/ag1171/) (or one of its clones : r-tone ks8035f). You can leave the old rotary phone as is. The module can be directly connected to an MCU (for pulse decoding etc). You no longer have to worry about generating HiV ringing voltages or monitoring loop currents.

      1. I can recommend this: https://www.dialgizmo.com/
        Just got one and it works great on my US dial phones.

        Also: Notes on the Network and TCI are both valuable sources of information on the (late, lamented) Bell System equipment and network.

        TCI: https://www.telephonecollectors.org/
        Notes on the Network: https://www.telephonecollectors.org/
        http://www.classicrotaryphones.com/forum/index.php

        And, if you’re ever in Seattle on a Sunday Morning…https://www.telcomhistory.org/connections-museum-seattle/

  5. “A spring loaded disk is rotated to a point representing the desired number by the user before being let go.”

    No. You would put your finger, through the hole on the disk, on the desired number (figure) on the dial, and then rotate the disk clockwise all the way untill your finger is stopped by a little bracket in its way. There, you would pull the finger out of the hole, letting the spring return the disk to its initial position.

    1. I know that you know how it works, but the description pictures it like if there were several marked points on a dial, and user would rotate the disk until some mark on the disk would reach corresponding point.

      Yes, obviously they could have made it like that as well, without changing underlying mechanism, but then the feedback would be almost entirely non-tactile, and its usage either slower or misdial prone. In a way, interface design of rotary dial is also very well thought out.

  6. Our system was similar.

    DC was 48V. AC was 60V / 50Hz

    The line was connected to two relays in the exchange.

    One relay was made to be slow release by putting a copper slug on the relay core. Eddie currents would hold the relay on when dialing.

    The other was made quick to respond by putting a piece of plastic between the relay core and the armature. This puts an air gap in the magnetic path so the the magnetic field would collapse rapidly so the dial pulses could be detected.

    When required the two audio directions were separated with a hybrid transformer. The same can be done with simple resistors. Line impedance was 600 ohms.

    1. 48V nominal – buffered by a stack of lead acid batteries. So, depending of their state of charge, something between 40 and 56V. So I see “50V”as a valid representation, could even be up to 60V, if they were fast charging the batteries for any reason or it happens to be cold.

  7. What’s even more interesting are the circuits when telephones operated on local batteries because the switch board was really just a switch board and didn’t (necessarily) supply any power to the phones.

    http://telephone.bouwman.com/Magneto-Circuits.html

    There was a magneto circuit to provide the ringing voltage with a hand crank, and the local battery was looped through the carbon microphone and a transformer to step up and inject the signal into the line that connected both earpieces in a loop.

  8. I remember one of the farmhouses I lived in as a child, had a bunch of corroded dry cells hanging between the floorboards (as seen from the basement).
    One farmhouse still had a hand crank wall phone, it worked until my cousin accidentally broke the cord that connected the transmitter (earpiece) to the main box. No one in our house (at the time) knew how to fix it. I was 5 years old at the time.

    1. Ahhh, found something in an late 30s basement, kind of a box/cradle of that industrial pressed cardboard (Vulcanised fibre???) between the beams, that looked like it had acid stains on it, near old phone wiring. Thinking now that that maybe had cells of some kind in it.

  9. I have a model 746 I picked up when our ship was Porta called in edinborough. I also have one of those little compact phones with the strangely shaped handsets the model number I cannot remember the moment. Cut my teeth on rotary dial equipment back in the early 70s dot-dot-dot good memories

  10. I was playing with this but was for other people to play with. A concern was a shock from the AC, I know it’s not lethal, but could be a bit painful? Do you plan on limiting the current into the transformer? Is it as simple as a resistor on the low side of the transformer?

    1. Once upon a time I had a room without a phone line installed, and the landlord just ran some phone cord off a splitter and gave me bare wires. I was holding the cord in my mouth while getting the plug ready to insert the wires, when it slipped and the wires came in contact with my tongue.

      I was rather surprised by the pain of the shock, it was much worse than when I fixed a TV on switch and discovered I was also touching it.

  11. Telephone services on a POTS line versus a VOIP service makes little difference on the home consumer level. The EMTA or other device which give phone service to VOIP or digital phone subscribers converts to pots at the port to continue the ability to use standard un-powered phones. Not all carriers have pulse dial, but the ability to use a rotary phone wont end that soon.

  12. In the U.S., a ‘copper-system’ Central Office contains a very powerful ring-tone generator which generates ≈ 100 vrms (280 v p-p) at 20 Hz, which is used to energize (‘ring’) the old-style high-current bells which still may be in use in, for example, Bell 500 and 2500 hand-sets. This 280 v p-p is added in series with the -48 vdc telephone-system voltage (one reason for the VERY high power ring-tone generator is that ring-tone may be required to be sent to a LOT of telephones at the same time).

    This is one reason (but you don’t see it much any more) for the warning by telcos to stay away from downed telephone lines: under the wrong set of circumstances, the Central Office’s sending of a ring-tone could be fatal.

    Whenever I work on a residential phone system, I ALWAYS make certain that one telephone is “off-hook”, because the Central Office will not send ring-tone to a telephone which is in use (is “busy”; being “off-hook” is “busy”).

    Irregardless of what you thought, telephone system voltages and currents are not benign.

  13. In rural America, they had this thing called a partyline. A number of individual subscribers (multiple houses) were all wired up in parallel on a single phone line which could have been many miles long. Any time a subscriber picks up the phone (and DC loads the line) it would light the indicator at the central office. An operator would see the indicator light and place the outbound call without really knowing which subscriber was making the call other than the caller self identifying. An inbound call to one of the subscribers would be initiated by the central office operator selecting one of the different ring voltage frequencies which would selectively ring only one subscriber’s phone(s). The bell circuits were resonant and responded selectively to only their ring frequency.
    It was quite common for rural partyline subscribers to sit in and listen to the other phone conversations from other houses as all subscribers were on the same shared phone line and each phone was an extension of the same single phone line.
    To place a phone call you would pick up the phone and wait for an operator and say “operator give me Hillcrest 362” and it would be manually set up. The rotary dial for placing a phone call was a blockbuster breakthrough technology in its time although it put tens of thousands of telephone operators out of work.

  14. It’s also possible to connect a military Field Telephone, such as an EE-8, to the network (although not really recommended). And, a friend discovered that, by tapping the hook-switch at a regular/rapid rate, he could effect dialing out on such a phone. Now, this was in the 1970s, and was a bit of a desperation move so that he could have a telephone in his bedroom. But, sometimes, desperation is the father of inventions. :-)

    1. Dave:
      In the 80’s I desperately needed to make a call on a pay phone (remember those?) in Cameron Parish on the only phone I could find for miles on a mom and pop phone company. The touchtone buttons were dead. I flipped the handset hang-up switch 10 times and got the operator who manually placed a collect call.

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