Getting close to completion now. Spent some time laying out the boards and making a few changes from the original layout. Can't believe with a 20" x 12" board I'm running out of space. hmm.
I thought I had all the boards done except for the rx pre amplifier. It may not be necessary, but I need to make provision for it. I need to make the board for the tx/rx relay. Wish I remembered that when I did the board for RLY3.
Pretty much ready to power up the final amplifier board. Just need decide if I chance it tonight or tomorrow. All the talk about the heat that is generated with this circuit seems to have got me concerned. Well maybe I'll record the power up and if something dramatic happens, well it's entertainment.
Wednesday, 23 December 2015
Sunday, 20 December 2015
LPF for the LBS Project
Built 4 boards the last few days.
1 LPF for 40
2 Microphone Amp
3 RLY3 board
4 Pre-driver final amplifier
The LPF 1st -3db level is at 9.250.000. Ran out of time today take a closer look at the curve and make any adjustments.
I built some flexibility in the mic board as I'm not sure which mic I'll be using. Either a Yaesu mic with some buttons on it that I may use or a Kenwood mic with no function buttons.
I still have to deal with power supply cables in an orderly fashion instead of the birds nest that's in use now. As well a pre amplifier for the rx function is still to be designed/built.
Anyway can see the light at the end of the tunnel and should be getting this rig on the air sometime in January.
1 LPF for 40
2 Microphone Amp
3 RLY3 board
4 Pre-driver final amplifier
The LPF 1st -3db level is at 9.250.000. Ran out of time today take a closer look at the curve and make any adjustments.
I built some flexibility in the mic board as I'm not sure which mic I'll be using. Either a Yaesu mic with some buttons on it that I may use or a Kenwood mic with no function buttons.
I still have to deal with power supply cables in an orderly fashion instead of the birds nest that's in use now. As well a pre amplifier for the rx function is still to be designed/built.
Anyway can see the light at the end of the tunnel and should be getting this rig on the air sometime in January.
Saturday, 28 November 2015
Continuing with the operational side of things.
Spent most of yesterday in continuing with setting up the operational side of the shack. Will carry on today as well.
The 430S is operational as is the KX3. Except for the rf grounds that is. Should get to that today. Although I will read a little more on the subject today. Can be quite complex and articles I've read recently make a lot of sense, but who can remember all of the details. Just need to find them again. At a minimum I'll install 2 ground rods and bond to that. I'm leaning towards bonding the tower on the same line and I did read where bonding the braid of the coax at the bottom of the tower was a good idea. Not sure about that one but it seems to make sense.
73, Peter
The 430S is operational as is the KX3. Except for the rf grounds that is. Should get to that today. Although I will read a little more on the subject today. Can be quite complex and articles I've read recently make a lot of sense, but who can remember all of the details. Just need to find them again. At a minimum I'll install 2 ground rods and bond to that. I'm leaning towards bonding the tower on the same line and I did read where bonding the braid of the coax at the bottom of the tower was a good idea. Not sure about that one but it seems to make sense.
73, Peter
Thursday, 26 November 2015
A few fun things
A little busy these days but managed to get some good shack time here and there and accomplished a lot.
First up is I finally got my xtal filter board working properly. Turns out, and to make a really long story short, I had one of the transistors for the receive amplifier in backwards. Wouldn't you know that it was pretty much the last thing I checked. Anyway, looking back at the bench once I fixed the problem and saw the mess the ensued, I had to post a picture. Takes a lot to troubleshoot and repair a board sometimes. Everything you can see was used except the vtvm. Missing in the picture are signal generators that were used as well.
Next up was a look at the microphone amplifier circuit and a mic to use. I was going to use a mic from an old marine vhf radio I had that I'm junking. But I think I'll go with a Yaesu MH-48 that I have spare. In fact I have one with a broken ppt button and a complete spare one as well.Might be able to jury rig something for the ppt button that will work.
The only mod needed to have a basic mic will be shorting out a resistor and diode in the ppt circuit. Circled in blue, middle right. And adding a 9v regulator to the amplifier board. I think I'll add as well some spare traces and connections in case I decide in the future to utilize some of the buttons on the mic. LSB/USB switch comes to mind for starters Frequency up and down might be nice as well. Going to be a little more complicated with this one though. It appears that Yaesu uses different voltage levels on two lines to determine which function or button has been pressed. I've messed around a little with the Arduino before in order to determine different voltage levels so it should not be too difficult. I'll laugh now.
An finally, almost there as an operational ham. Proof is in the picture. Antenna coax is in the house. I'll be working on the grounding system in the next few days or so. Great wx right now for sure. The hole in the brick took all of about 1 minute. I rented a rotary drill and 1.5" core bit. Worth every penny. Or should I now say nickle. Nothing like using the appropriate tool for the job.
Lots of room for another coax or 2 and ground. It is a 2" hole in the header but 1.5" in the brick.
First up is I finally got my xtal filter board working properly. Turns out, and to make a really long story short, I had one of the transistors for the receive amplifier in backwards. Wouldn't you know that it was pretty much the last thing I checked. Anyway, looking back at the bench once I fixed the problem and saw the mess the ensued, I had to post a picture. Takes a lot to troubleshoot and repair a board sometimes. Everything you can see was used except the vtvm. Missing in the picture are signal generators that were used as well.
Next up was a look at the microphone amplifier circuit and a mic to use. I was going to use a mic from an old marine vhf radio I had that I'm junking. But I think I'll go with a Yaesu MH-48 that I have spare. In fact I have one with a broken ppt button and a complete spare one as well.Might be able to jury rig something for the ppt button that will work.
The only mod needed to have a basic mic will be shorting out a resistor and diode in the ppt circuit. Circled in blue, middle right. And adding a 9v regulator to the amplifier board. I think I'll add as well some spare traces and connections in case I decide in the future to utilize some of the buttons on the mic. LSB/USB switch comes to mind for starters Frequency up and down might be nice as well. Going to be a little more complicated with this one though. It appears that Yaesu uses different voltage levels on two lines to determine which function or button has been pressed. I've messed around a little with the Arduino before in order to determine different voltage levels so it should not be too difficult. I'll laugh now.
An finally, almost there as an operational ham. Proof is in the picture. Antenna coax is in the house. I'll be working on the grounding system in the next few days or so. Great wx right now for sure. The hole in the brick took all of about 1 minute. I rented a rotary drill and 1.5" core bit. Worth every penny. Or should I now say nickle. Nothing like using the appropriate tool for the job.
Lots of room for another coax or 2 and ground. It is a 2" hole in the header but 1.5" in the brick.
The complete antenna system at ve3poa
Tuesday, 17 November 2015
Prelim Analysis of the R5
Here's the sna plot of my R5. Not the best looking so far. The plot run was from 7mhz to 30mhz so I may need run a more defined span of frequencies in the area of interest only. For another day though.
Antenna Install
Getting closer to being a "real"? ham now. The R5 went on top of the tower this afternoon. Just have to drill a hole through the brick wall to get the coax into the shack. I guess I'll do that next week or maybe Sunday. Looking at the last picture, I'd say not too noticeable.....XYL says different. hihi
Tuesday, 10 November 2015
Control board
Pretty good couple of days in the shack. Got a good handle on the xtal filter board and finished off the DDS control board today. Installed the 9v regulator, 2 electrolytics and a lot of 104 bypass caps. Put in the 12v connector and have to remember that I reversed the polarity on the bus on that side of the board. Put a dab of you know whose red nail polish on the new + bus. Well, at least as far as hardware is concerned I should be finished. I still have an issue with the read-out and hoping its a contrast setting in the software. The lights blink on the Nano and there is output on the Si5351 board, so that's good news.
Now just to relearn the Arduino stuff and onward and upward.
73, Peter
Now just to relearn the Arduino stuff and onward and upward.
73, Peter
Scope readings for the Crystal Filter & Bilateral Amplifier Board
Crystal Filter and Bilateral Amplifier Board
This document will outline the Lets Build Something Crystal
Filter Bilateral Amplifier board. Included are several screen shots of the
circuit taken into account both Tx and Rx modes.
One of the concerns I have is the effect the circuit has on
the input signal. I’ve included spectrum
analysis where appropriate for consideration.
As well I have concerns with the Rx mode and will need to look into this
further.
Input signals were adjusted to 1Vpp as per the reading on
the scope. The signal generator amplitude needed to be adjusted in order to
accommodate the different effect that the 2 input connections were having on
the generator. Frequency used was
4.915mhz.
Let’s start off with the Rx mode. Left to right when
looking at the board. As you can see the signal is severely distorted. I checked
the signal generator into a 50 ohm load to confirm that the output is in fact a
sine wave. The circuit is having a dramatic effect.
Below is spectrum
analysis of the input waveform. Fig. 12 is the waveform.
Schematic and board layout is at the end of the posting.
Fig.11
Fig.12
Fig. 14, A is the toroid out and B in input to the toroid.
Just under 200 mV in and 600mv out.
Fig. 15, A is the filter in and B is the filter out. Probes
are directly on the in and out of the crystal. Bypassing the 39pf capacitors in
other words. Signal cleans up nicely.
Fig. 16 has A on the input of the transistor and B the
output of the board.
So the
signal cleans up again and puts out 600mV
Questions I have:
1, Why does the circuit distort the signals as it does in a
couple of places?
2, Why the poor amplification?
It will be interesting to see what others have going on
with their boards.
Ok, onto the Tx mode.
Fig. 2, the input. Note the flattening of the sine wave at
the bottom. The circuit behaves much better here than the Rx circuit.
Fig. 1, Spectrum display.
Fig.4, B is the input to the transistor and A is output.
That is one messed up output.
Fig. 5, Spectrum display. Note the 2nd harmonic.
Fig.6 bored yet?
Another shot of the transistor output
Fig. 7, B is toroid in and A is out.
Fig.8 Xtal in is A and B is xtal out.
Fig.9 is A toroid in and B is toroid out. Signal look ok
and relative values as well.
Fig. 10, A transistor in and B is transistor out.
Tx mode, while it has its moments earlier in the circuit,
seems to work ok once the signal is through the crystal filter.
The left side of the board is a little different in layout,
but I don’t think it would be an explanation of the differences between the Rx
and Tx mode signal behaviours. Below is
a copy of the layout. The board shows an IC in the centre, this is where the
relay goes.
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