Re: [Amps] W8ZR Autotune Amplifier Progress Report

[N4ZR <n4zr@comcast.net>]

Please, no more parallel port stuff - that's so 1990's, and increasingly 
hard to find.  Much better ways are available.  N1MM, for example, puts 
a lot of relevant information out via UDP, and the OTRSP (Open Two Radio 
Support Protocol) is also available for serial comms or USB, via 
USB-to-serial converters.
73, Pete N4ZR
Check out the Reverse Beacon Network
at <http://reversebeacon.net>, now
spotting RTTY activity worldwide.
For spots, please use your favorite
"retail" DX cluster.

On 12/23/2020 10:53 AM, Jim wrote:
> Jim
> What about an input for band selection to help speed up auto tuning. 
> Such an input would be from a logging program (parallel port on a PC), 
> or simply band data from a transceiver in the form of a single input 
> line (active low) per band, or the Icom band data voltage, to "preset" 
> the band switch but also the tune and load caps.
> Looks great, and thanks for the timing on this!  I'm thinking that I 
> want to build a remote station, but not being forced into using a 
> solid state amplifier.
> Icom band data voltage:
>
> 10     0V
> 50 (unofficial)     1.0 ~ 2.0V
> 28 & 24     2.0 ~ 3.0V
> 18 & 21     3.0 ~ 4.0V
> 14     4.0 ~ 5.0V
> 7     5.0 ~ 6.0V
> 3.5     6.0 ~ 7.0V
> 1.8     7.0 ~ 8.0V
>
>
> Thanks
> 73
> Jim W7RY
>
> On 12/19/2020 8:40 PM, MU 4CX250B wrote:
> > Hi gang
> > Here’s a response I made to a question from my friend Paul W9AC. Paul 
> > and I
> > have known each other for years, and he is a very savvy, technically
> > competent ham (as you probably already know).  I hadn’t intended on 
> > sharing
> > this exchange  with the List because it’s pretty technical, but I’m 
> > happy
> > to go do so.
> > 73,
> > Jim w8zr
> >
> > Sent from my iPhone
> >
> > Begin forwarded message:
> >
> > *From:* Jim Garland <4cx250b@miamioh.edu>
> > *Date:* December 19, 2020 at 5:14:17 PM MST
> > *To:* Paul Christensen <w9ac@arrl.net>
> > *Subject:* *Re: [Amps] W8ZR Autotune Amplifier Progress Report*
> >
> > Good question, Paul. I'm using five of the eight available
> > microprocessors, or "cogs" as  Parallax calls them. Currently, COG0 
> > is the
> > "base" cog, which manages the entire program and offloads chores to 
> > other
> > cogs when necessary or convenient. I've loaded COG0 with some chores 
> > I'll
> > eventually direct elsewhere. For example, at the moment when RF at 
> > the amp
> > input is detected and authenticated (to verify it's in a valid range, 
> > that
> > the amp is on-line, etc.), then the bandswitch, tune, and load caps are
> > moved sequentially. That works fine for the tune and load caps, since 
> > they
> > adjust in a fraction of a second, but depending on circumstances, the
> > bandswitch may take a couple of seconds. My plan is to move that 
> > tuning to
> > other cogs so the three steppers readjust simultaneously.  Ditto for the
> > initialization routine which zeros the steppers at power up and 
> > starts the
> > warmup countdown. I want to add some timing features to a dedicated 
> > timing
> > cog, COG2, along with an intelligent power up and power down routine for
> > blower control and temperature measurement. All COG2 does now is count
> > seconds and blink an LED to tell me the circuit is working.
> >
> > COG7 is dedicated to computer interfacing. It outputs and inputs serial
> > data to a USB port, which is used to download firmware into the 
> > Propeller
> > and to display messages and data onto a PC monitor. It also controls the
> > 4-line LCD, as shown on the YouTube video.
> >
> > COG 1 is dedicated to manual tuning, including managing the 
> > band-stacking
> > register. Implementing manual tuning turned out to be my hardest
> > programming challenge.  Reading and updating memory when the tuning 
> > buttons
> > were pressed, along with the Save feature, interfacing manual tuning 
> > with
> > autotuning so the two modes didn't fight each other, etc., took a 
> > couple of
> > months to work out.
> >
> > COG3 is a system frequency counter, which runs all the time.  It detects
> > and measures RF at the amplifier input with a sensitivity of 250uV and a
> > resolution of 1 kHz, then passes the measurement as a variable to COG0
> > which makes sure the frequency is in a valid ham band. The frequency
> > counter works better than I expected. I initially had planned to use a
> > Schmitt trigger to clean up the input RF, but didn't need to do that. I
> > measure every signal twice, with measurements spaced out 100mS, and 
> > require
> > both measurements to agree before deciding the result is valid.
> >
> > I made a design decision early-on not to arbitrate or control QSK and
> > ordinary T/R switching. There's plenty of spare capacity in the 
> > Propeller
> > to do that, as well as to measure RF power, SWR, plate voltage and 
> > current,
> > grid current and safety trip features, but for now I'm not going down 
> > that
> > road. Most of these extra functions are easily controlled with 
> > standard or
> > dedicated circuitry (e.g., we each have our own QSK designs) and already
> > exist in commercial amplifiers. By avoiding them in this project, 
> > it's easy
> > for other builders to use the Propeller as an add-on to existing
> > amplifiers. All that's really needed is to sample the RF at the input of
> > their amplifier, and mechanically connect stepper motors to the 
> > switch and
> > variable capacitor shafts. It's tempting to look at all the available
> > programming space and start adding features, but for now anyway I 
> > want to
> > make the project as easy to implement as possible!
> >
> > I hope to start laying out a PCB based on my breadboard within the next
> > week or so. The basic circuit seems to work well, so I don't foresee any
> > major problems lurking in the shadows. Famous last words, probably.
> > 73,
> > Jim W8ZR.
> >
> > On 12/19/2020 3:12 PM, Paul Christensen wrote:
> >
> > "The PX32A is a sophisticated device containing eight fully independent
> >
> > 32-bit microprocessors that share 31 read/write IO ports and a common 
> > memory
> > for storing variables.
> >
> >
> > Jim, what amplifier functions are being divided across the eight 
> > independent
> > microcontrollers?  For example, does one exclusively manage the T/R
> >
> > function?  Perhaps another is dedicated to monitor power supply 
> > parameters,
> > etc.?
> >
> >
> > My 8877 amp uses an Arduino Mega 2560 but I cram the code for all 
> > functions
> > into one loop.  To make this work with one microcontroller, delay 
> > commands
> > are invoked by comparing time registers. The main loop never stops 
> > running
> > at full speed no matter what delays are present.
> >
> >
> > Within the constraints of memory, it's possible to load unrelated 
> > programs
> > into the same microcontroller.
> >
> >
> > Paul, W9AC
> >
> >
> > _______________________________________________
> >
> > Amps mailing list
> >
> > Amps@contesting.com
> >
> > http://lists.contesting.com/mailman/listinfo/amps
> > _______________________________________________
> > Amps mailing list
> > Amps@contesting.com
> > http://lists.contesting.com/mailman/listinfo/amps
> _______________________________________________
> Amps mailing list
> Amps@contesting.com
> http://lists.contesting.com/mailman/listinfo/amps
_______________________________________________
Amps mailing list
Amps@contesting.com
http://lists.contesting.com/mailman/listinfo/amps