This week's homebrew adventure was to complete the receiver side of what I am now calling the KK4DAS MB 20 transceiver - MB is a call-out to Bill, N2CQR's Mythbuster rigs which this build is both inspried by and patterned after.
First order of business was choosig the IF freqency which was easy in this case. The VFO is at 9MHz so if I put the IF at 5MHz, well my 2nd grade math teacher taught me that 9+5=14 - which puts me right in the 20 meter band.
I ordered a batch of 5MHz crystals from Mouser for the IF but they had not come in yet - and I was impatient to get started so I built the BFO and balanced modulator using a crystal from the junkbox figuring I would swap in a 5MHz crystal when it arrived. The BFO and two diode balanced modulator is copied directly from Farhan, VU2ESE's original BITX20 schematic. It went together easily. Despite conventional wisdom I did not attempt to mach the diodes - I just took the first two off the tape.
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| BFO and balanced modulator |
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| Nulling out the carrier |
To null out the carrier I injected a 2MHz signal into the AF port of the modulator and put the scope on the IF port. Using the FFT mode of the scope I was able to clearly see the carrier and mixing products. I was able to effectively null out the carrier using the trimmer cap and trimmer pot that are part of the design. The two peaks either side of the middle are the first sum and difference mixing products. The display is centered on the carrier frequency and you can see that it has been nulled out.
The crystals arrived and the next job was to build the crystal filter. I used the Dishal crystal ladder filter design software to design a 6 pole Cohn/QER filter. The advantage of the Cohn filter is that it uses a single value of capacitor between each crystal. The QER (Quasi Quasi Equi Ripple) modification to the Cohn adds an addtional crystal in parallel at each end of the filter and reduces the amount of ripple. When building a filter the recommendation is to pick crystals fom your batch that are the closest in frequency to each other and the Dishal software requires you also to know the motional parameters for the crystal. I used what is called the G3UUR method to evaluate the crystals. I had previously built the simple crystal evaluation circuit and quickly sorted the crystals. I then used the Dishal software to determine first the motional parameters and then to calculate the capacitor values and input/output impedance of the filter. The calculated input and output impedance were spot on0and I calculate the LC values needed for matching to 50 ohms.
The last board I needed for the receiver was an audio amplifier. I opened up by box of "boards that could be rigs someday" and found an audio amplifier stage I had built for Pete, N6QW's SimpleSSB a few years ago. Its a single 2N3904 pre-amp followed by an LM-386. With all the boards needed for the receiver at hand it was time to connect everything up.
I placed the crystal filter at the rear center with the MostlyDIYRF TIA IF amplifier boards on either side. I left space adjacent to the TIAs for the transmit IF amplifiers. The audio amplifier is on the lower right and just above that is the BFO / balanced modulator board. The receive band pass filter is on the upper left below the first IF amp. At the far left is the future Tx RF amplifier stage - not yet wired into the circuit. I mounted the antenna connector on a piece of single sided PCB. To keep the DC wiring straight I decided to use blue wire for DC on Rx and yellow wire for the DC on Tx. Red is used for always on DC.
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| Sorting the crystals using the G3UUR circuit |
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| The completed 5MHz, 2.5KHz filter |
The last board I needed for the receiver was an audio amplifier. I opened up by box of "boards that could be rigs someday" and found an audio amplifier stage I had built for Pete, N6QW's SimpleSSB a few years ago. Its a single 2N3904 pre-amp followed by an LM-386. With all the boards needed for the receiver at hand it was time to connect everything up.
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| The completed KK4DAS MB 20 Receiver |
I placed the crystal filter at the rear center with the MostlyDIYRF TIA IF amplifier boards on either side. I left space adjacent to the TIAs for the transmit IF amplifiers. The audio amplifier is on the lower right and just above that is the BFO / balanced modulator board. The receive band pass filter is on the upper left below the first IF amp. At the far left is the future Tx RF amplifier stage - not yet wired into the circuit. I mounted the antenna connector on a piece of single sided PCB. To keep the DC wiring straight I decided to use blue wire for DC on Rx and yellow wire for the DC on Tx. Red is used for always on DC.
A big advantage of modular construction is that since all of the modules have been tested individually it increases the liklihood that the build will work well when everything is connected. To my great pleasure that turned out to be the case and the receiver woked perfectly on first power up. There was one glitch - the tuner maxed out at 14.260 MHz about 100KHz short of covering the entire 20 meter band. I thought I was going to have to rebuild the IF with 5.2MHz crystals but Bill pointed out that Yaesu and built in a variable cap to move the VFO passband up or down. I zeroed out the capacitor and that gave me full coverage across 20 meters.
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| Adjusting the Yaesu VFO for full coverage on 20 meters |
Now that the receiver is built I will spend a few nights following Farhan's advice and take pleasure in listening to the receive I have just built.
All I need to build for the transmitter is a microphone amplifier and the final low pass filter. Then add some relays for Tx/Rx switching and then I can work on fit and finish of the cabinet.
73 from Great Falls,
Dean
KK4DAS
Dean
KK4DAS
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