Wednesday, August 10, 2022

Farhans' DAYLIGHT Radio

 Unfortunatly I was not able to make it to FDIM this year, but was able to watch the streamed presentations.  All of themwere good, but the one tht interested me the most was Farhans' DAYLIGHT RADIO.  The design is interesting because the input and ouput impedances of the different stages were not all designed to be at 50 ohms. This can make the design a little easier in some cases.

Farhans' design is for an all analog system including the VFO.  Not sure if I will go that way or use a micro-controller and a SI 5351 instead.  There are some ideas  I want to try that would require the micro-controller.  But if everything is in modules, they can be swapped out with the analog stages as desired.  If I went with the Analog VFO I still have enough parts to use one of the small frequency counter boards I built up years ago.

http://kv4qb.blogspot.com/2015/03/dl4yhf-frequency-counter-re-package.html

Farhan resently uploaded a hard-copy of his presentation to his  web site.  https://www.vu2ese.com/index.php/2022/08/04/daylight-an-all-analog-radio/  This has a lot of good information about some of the considerations that went into the design.

Lets start with the AF Filter and amplifier.  Farhan has a nice desription in his presentation so I will just ashow his schematic. Everything is the same except I am using  seperate opamps for the AF amplifier, and the product detector.  Because of this I  shorted the unused opamp  + input  to the common reference used by the AF amplifier, and the - input to the output . This is left to float,  and as just a precaution to prevent any possible instability of the unused opamp from affecting the AF amp.



I laid out the board using through hole components, but I might make another using MUPPET style, or shrink it down even more and use SMD components.

I will etch the board using Toner Transfer, but since I also have a CNC I can use it to pre-drill all the holes.  Then it is very quick to align the toner image to the board using the holes as s guide.  This makes the whole process very quick and easy. 

Since the board is fairly siimple I decided not to bother with doing a silk-screen . If wanted I could just print  it on a laser printer, and iron this on the same way as you apply the toner image for etching.

This board turned out pretty nice, so now I can finish the layout of the product detector and balanced modulator board, and get them built.



With as long as it takes to get some of the  components these days, it is nice to have several home brew projects going. at the same timr.  And speaking of home brew, I have a two gallon batch of beer ready to bottle..  Thats always handy to have on hand when it takes toooooo long for the electronic components to arrive.



VWS DC Receiver Low Noise Amplifier

Getting back to working  on the VWS DC Receiver, I decided to combine the AF mplifier and the low noise amplifier on the same board to cut down on size.  Because I have been thinking about having separate Low Pass filters for SSB and CW, I will put them on another circuit board instead of with the LNA.


To better match the low impedance of the of the Low Pass filter, the LNA uses a common base amplifier feeding a common emitter stage.  To provide power supply decoupling, Q2 and the associated components are commonly called a cpacitance multiplier.  This provides a capacitance value to the input stage of approximatly the value of  C3 times the gain of Q2.

This configuration along with the LM-386 stage has over 90 dB. total gain, therefore a separate gain adjustment is added to prevent possible overload distorton.  


I decided to make the board MUPPET style, instead of using through hole.  To reduce the board size I installed the resistors vertically.  I

etched a board using toner transfer, and dipped it in some 'liquid tin' to provide a better soldering surface than just bare coppper.  One of these days I will try one using the CNC router to see if there is much of a difference in the quality I can get.


Waiting on an assortment of inductors, that seem to be taking forever to get here so I can finish the LowPass filter board.