|
Steampunk VFO?
All,
I'm currently considering a design for making a steampunk radio. I just had an idea for the VFO that I want to run by those who have a far better grasp of the abstract mathematics of harmonics than I do. Suppose I have a DC motor running steady at 1000 RPM. Through a X100 set of planetary gears I create a shaft spinning at 20,000 RPM, which is pretty much the upper limit for small drills anyway. On the shaft is a disk that is an etched circuit board with a star pattern, that is, 500 conductors etched radiating from the center to the edge of the disk. Now I have a wiper that is laid across the edge of the disk to make or break contact with the outside of the star pattern, with 12 Volts DC potential on the wiper. Assuming the shaft was conductive and made firm contact with the center of the star pattern, should I see a 10 Mhz square wave, suitable for say a switching mixer? Question: How bad are the phase noise and harmonics likely to be? Thanks in advance, The Eternal Squire |
Steampunk VFO?
The Eternal Squire wrote:
All, I'm currently considering a design for making a steampunk radio. I just had an idea for the VFO that I want to run by those who have a far better grasp of the abstract mathematics of harmonics than I do. Suppose I have a DC motor running steady at 1000 RPM. Through a X100 set of planetary gears I create a shaft spinning at 20,000 RPM, which is pretty much the upper limit for small drills anyway. On the shaft is a disk that is an etched circuit board with a star pattern, that is, 500 conductors etched radiating from the center to the edge of the disk. *** 20,000 rpm, so how many revs a second? 20000 rev/minute x 1/60 minutes/second = 333 rev/second How many spokes? 333 rev/sec x 500 spokes/rev = 167000 spokes/sec Now I have a wiper that is laid across the edge of the disk to make or break contact with the outside of the star pattern, with 12 Volts DC potential on the wiper. Assuming the shaft was conductive and made firm contact with the center of the star pattern, should I see a 10 Mhz square wave, suitable for say a switching mixer? No, you would see a 167kHz square wave, with plenty of odd harmonics: 500 kHz, 833kHz, 1170kHz etc. Question: How bad are the phase noise and harmonics likely to be? The harmonics speak for themselves. Mechanical rotation is hard to keep constant. Thanks in advance, The Eternal Squire You'rte most welcome Brian W |
Steampunk VFO?
The Eternal Squire wrote:
Now I have a wiper that is laid across the edge of the disk to make or break contact with the outside of the star pattern, with 12 Volts DC potential on the wiper. Assuming the shaft was conductive and made firm contact with the center of the star pattern, should I see a 10 Mhz square wave, suitable for say a switching mixer? Question: How bad are the phase noise and harmonics likely to be? Really bad, but the harmonics you can filter. Phase noise is going to be way too high for anything but CW and your frequency stability won't be anything to write home about. However, the system you describe was built by Federal Electric in the 1920s, so it's at least practical. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
Steampunk VFO?
On Apr 25, 1:28*am, The Eternal Squire
wrote: All, I'm currently considering a design for making a steampunk radio. *I just had an idea for the VFO that I want to run by those who have a far better grasp of the abstract mathematics of harmonics than I do. Suppose I have a DC motor running steady at 1000 RPM. *Through a X100 set of planetary gears I create a shaft spinning at 20,000 RPM, which is pretty much the upper limit for small drills anyway. * *On the shaft is a disk that is an etched circuit board with a star pattern, that is, 500 conductors etched radiating from the center to the edge of the disk. Now I have a wiper that is laid across the edge of the disk to make or break contact with the outside of the star pattern, with 12 Volts DC potential on the wiper. * Assuming the shaft was conductive and made firm contact with the center of the star pattern, should I see a 10 Mhz square wave, suitable for say a switching mixer? Question: *How bad are the phase noise and harmonics likely to be? Thanks in advance, The Eternal Squire Instead of mechanical contacts I would try an optical sensor but this may not be very Steampunk. I have a friend who built a small steam engine, for demo purposes he would run it on compressed air at 40K RPM. Jimmie Jimmie |
Steampunk VFO?
Richard Knoppow wrote:
I think Federal used the Poulsen arc converter, a steady arc where this thing is more closely related to the rotary arc, also used in early wireless. There were two types of rotary arcs but both operated at much lower interuption rates, typically at around 400 hz, and generated the RF energy by means of tuned tank circuits. The tuned tank circuit isn't generating the RF energy, it's just selecting the energy you want. Interrupt an arc and you get lots of harmonics tied to the interruption rate, going way up. Run it through an RC filter and you can select the particular harmonic you want to transmit, shunting the others to ground (and throwing most of your power away in the process). The Poulsen used a continuous arc which generated white noise.... you filter that noise out and you get a signal that is narrowband... and the narrower you filter it, the more power you lose. It's a lot less efficient than the rotary, even. Federal Telegraph held Poulsen patents and exploited them in series of wireless telegraph stations mostly on the West coast of the USA. The rotary arc is not to be confused with the Alexanderson alternator, a mechanical generator of low RF energy. The alternator put out fairly pure CW. The Alexanderson patents were controlled by General Electric and were one of the main reasons for the founding of RCA after WW-1, that is, to maintain wireless in the US under US control. The Alexanderson puts out a very nice note.... the problem with it is keeping it on frequency, not phase noise. Oh, also keeping it from flying apart and exploding is another issue. It's a far higher tech device and much more difficult to make... and also not so effective at higher frequencies. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
Steampunk VFO?
On 25 Apr 2010 14:57:32 -0400, (Scott Dorsey) wrote:
The Alexanderson puts out a very nice note.... the problem with it is keeping it on frequency, not phase noise. Oh, also keeping it from flying apart and exploding is another issue. It's a far higher tech device and much more difficult to make... and also not so effective at higher frequencies. There is still one functional station (operated one day each year) http://en.wikipedia.org/wiki/Grimeton_VLF_transmitter |
Steampunk VFO?
On Apr 25, 4:16 pm, Paul Keinanen wrote:
On 25 Apr 2010 14:57:32 -0400, (Scott Dorsey) wrote: The Alexanderson puts out a very nice note.... the problem with it is keeping it on frequency, not phase noise. Oh, also keeping it from flying apart and exploding is another issue. It's a far higher tech device and much more difficult to make... and also not so effective at higher frequencies. There is still one functional station (operated one day each year)http://en.wikipedia.org/wiki/Grimeton_VLF_transmitter Hey OM: From: http://en.wikipedia.org/wiki/Alexanderson_alternator "Because of the limits of the number of poles and rotational speed of a machine, the Alexanderson alternator is at most capable of transmission in the lower mediumwave band, with shortwave and upper bands being physically impossible." Says it all? 73 OM de n8zu |
Steampunk VFO?
raypsi wrote:
Hey OM: From: http://en.wikipedia.org/wiki/Alexanderson_alternator "Because of the limits of the number of poles and rotational speed of a machine, the Alexanderson alternator is at most capable of transmission in the lower mediumwave band, with shortwave and upper bands being physically impossible." Says it all? The number of poles is part of the issue, but you'd think with modern machining technology you could make a big rotor with maybe a thousand poles. Problem is that if you do this, the capacitance kills you. One possibility to run an Alexanderson alternator would be to run it into a nonlinear device and then select one harmonic out. Again, it's very inefficient.... --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
Steampunk VFO?
It's been done: Have a look at:
An electro-mechanical RX for VLF. http://www.wireless.org.uk/mechrx.htm .............. Zim |
Steampunk VFO?
On Apr 25, 6:51*pm, "Graeme Zimmer" wrote:
It's been done: Have a look at: An electro-mechanical RX for VLF.http://www.wireless.org.uk/mechrx.htm ............. Zim Very elegant! And no, I believe that photo etching a thousand poles or more on a copper-clad should be very possible with laser printing of the master. The manufacturing technology wouldn't be steampunk even if the results are :) |
Steampunk VFO?
On Apr 25, 11:31*am, brian whatcott wrote:
The Eternal Squire wrote: All, I'm currently considering a design for making a steampunk radio. *I just had an idea for the VFO that I want to run by those who have a far better grasp of the abstract mathematics of harmonics than I do. Suppose I have a DC motor running steady at 1000 RPM. *Through a X100 set of planetary gears I create a shaft spinning at 20,000 RPM, which is pretty much the upper limit for small drills anyway. * *On the shaft is a disk that is an etched circuit board with a star pattern, that is, 500 conductors etched radiating from the center to the edge of the disk. *** * * 20,000 rpm, so how many revs a second? 20000 rev/minute *x *1/60 minutes/second = 333 rev/second How many spokes? 333 rev/sec x * 500 spokes/rev = 167000 spokes/sec Now I have a wiper that is laid across the edge of the disk to make or break contact with the outside of the star pattern, with 12 Volts DC potential on the wiper. * Assuming the shaft was conductive and made firm contact with the center of the star pattern, should I see a 10 Mhz square wave, suitable for say a switching mixer? No, you would see a 167kHz square wave, with plenty of odd harmonics: 500 kHz, 833kHz, 1170kHz etc. Question: *How bad are the phase noise and harmonics likely to be? The harmonics speak for themselves. Mechanical rotation is hard to keep constant. Thanks in advance, The Eternal Squire You'rte most welcome Brian W- Hide quoted text - - Show quoted text - Sounds like re-inventing the Alexanderson? rotary alternator transmitter in Scandinavia? By the way 167 thousand cycles (167 kilohertz). Is right in the European 'Long Wave' broadcasting band! For example BBC is on 198 kilohertz just slightly longer than 1500 metres wavelength! (1515 metres). Not sure what is the point of electromechanical frequency generation? |
Steampunk VFO?
Not sure what is the point of electromechanical frequency generation?- Hide quoted text - Steampunk is an art movement all its own. Working artifacts are collectible. |
Steampunk VFO?
"terry" wrote in message ... On Apr 25, 11:31 am, brian whatcott wrote: The Eternal Squire wrote: All, I'm currently considering a design for making a steampunk radio. I just had an idea for the VFO that I want to run by those who have a far better grasp of the abstract mathematics of harmonics than I do. Suppose I have a DC motor running steady at 1000 RPM. Through a X100 set of planetary gears I create a shaft spinning at 20,000 RPM, which is pretty much the upper limit for small drills anyway. On the shaft is a disk that is an etched circuit board with a star pattern, that is, 500 conductors etched radiating from the center to the edge of the disk. *** 20,000 rpm, so how many revs a second? 20000 rev/minute x 1/60 minutes/second = 333 rev/second How many spokes? 333 rev/sec x 500 spokes/rev = 167000 spokes/sec Now I have a wiper that is laid across the edge of the disk to make or break contact with the outside of the star pattern, with 12 Volts DC potential on the wiper. Assuming the shaft was conductive and made firm contact with the center of the star pattern, should I see a 10 Mhz square wave, suitable for say a switching mixer? No, you would see a 167kHz square wave, with plenty of odd harmonics: 500 kHz, 833kHz, 1170kHz etc. Question: How bad are the phase noise and harmonics likely to be? The harmonics speak for themselves. Mechanical rotation is hard to keep constant. Thanks in advance, The Eternal Squire You'rte most welcome Brian W- Hide quoted text - - Show quoted text - Sounds like re-inventing the Alexanderson? rotary alternator transmitter in Scandinavia? By the way 167 thousand cycles (167 kilohertz). Is right in the European 'Long Wave' broadcasting band! For example BBC is on 198 kilohertz just slightly longer than 1500 metres wavelength! (1515 metres). Not sure what is the point of electromechanical frequency generation? More like the rotary arc. The Alexanderson was a high-frequency alternator producing pretty pure CW. Several very large ones were built (200KW) operating at long wavelengths, perhaps up to a couple of hundred Khz. Some remained in service for decades. Rotary arcs were used to generate modulated waves, so called MCW so that the detected code could be read without a modulator at the receiver. Typically they had interruption rates on the order of 500 hz. They were often called "rock crushers" because of the terrific mechanical noise they made. -- Richard Knoppow Los Angeles WB6KBL |
| All times are GMT +1. The time now is 08:22 PM. |
Powered by vBulletin® Copyright ©2000 - 2025, Jelsoft Enterprises Ltd.
RadioBanter.com