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There is almost no commercial equipment for the 4m band and certainly almost nothing from the traditional Japanese manufacturers, although the IC7100 and the IC7300 SDR based transceiver just released have 4m coverage.
So, to get on the band it was necessary for me to design and build a simple transverter. 4m is not a difficult band to build for and I already did a transverter design some years ago for 6m, so a 4m one has been straightforward. However, I lacked test equipment for that part of the spectrum other than a signal generator. My scope does not go that high and I don't have a proper receiver for the band yet. So, some improvisation was needed to check the build as it progressed. I still need to check it on a spectrum analyser at a friends house.
MRF237 TO39 RF PA (also ex-PMR). The TX strip was aligned initially using a 70MHz drive signal from a signal generator with trimmers between each stage. When optimised, some of the trimmers were measured with an LC meter and replaced by fixed value caps. This could also be done in the PA output PI filter too. Output is about 1W pep. More may be possible by optimising the PA load. Adding the TX mixer and driving from the 28MHz source the power was the same with just a minor change of position of the tuned circuit in the pre-driver output. The TX strip is both stable and linear although the bias resistor values may need optimising. keep the diodes used to bias the driver and PA in thermal contact with their respective transistors. A relay is used to switch RF paths between RX and TX and this is activated by a DC 5V available at the FT817 after a simple mod to the rig. This mod requires the addition of one wire from the TX 5V line, a 10nF capacitor and a 10k resistor. It is described visually on this site http://www.bergtag.de . Power output is greater than 1W pep, but by careful design improvements more than 2W should be possible.
At present, the TX DC supply voltage remains on during RX and the RX voltage during TX. In due course I may address this with some DC switching too at a later date.
Several people have asked me about L1. L1 was a small 2 pin 4mm diameter coil with around 10turns of 0.2mm wire with an F29 core. It came from a PMR portable made by Philips. Its purpose is to ensure the crystal oscillates at 3rd harmonic on the right frequency. A technique that can be used is to remove the crystal (short it out) and make an LC tuned circuit (L1 and C1) that makes the "free running" oscillator oscillate at 42MHz. Then reconnect the crystal back in circuit and adjust either the L or C to bring back to 42MHz. It should be very close.
For initial tests I put a wire dipole in the loft. A wire halo built in a similar way to my Homebase10 halo for 10m may be erected later. In fact I may nest a 6m and 4m halo within the existing 10m halo. These antennas work well and are ideal for summer sporadic-E openings. Sporadic-E openings can be strong. With stations on 4m widely spaced across Europe an omni-directional antenna at a reasonable height should be a good choice. A small yagi and more power would help inter-UK QSOs but I have no plans for this and will be content with local QSOs when the band is dead. Commercial yagis, HB9CV 2el beams and halos are available for the 4m band from several sources including Vine, Moonraker and Wimo to mention just 3. A 4m band halo is available from Waters and Stanton for under £30 when I last looked. In the short term, I am erecting a horizontal wire dipole in the loft.
Dom M1KTA pointed me to http://www.mydarc.de/dk7zb/Transverter/4m_Transverter.pdf which in turn links to http://www.qsl.net/dl5dbm/50MHzTr/50MHz1.htm but that has broken links on it. The web archive pages still has this information at http://web.archive.org/web/20100901080709/http://www.qsl.net/dl5dbm/50MHzTr/50MHz1.htm
The best source of information about the band is at the Four Metres Website. Here there are tips on operating on the band and an up-to-date list of countries with access to the band. This list is growing rapidly with many more countries now having access to the 4m band. See also the Wikipedia article on the 4m band.
This was feedback from Mark MI0BDZ who has built a 4W and 45W derivative version of this transverter.
My name is Mark (mi0bdz) and I was browsing the net for 70mhz projects when I came upon your site. I could hardly believe the simplicity of the little 70mhz transverter you designed and built. I decided to copy it. I started on Friday afternoon after gathering the bits together and completed it by Saturday evening. I could not have done this without thanking you for sharing the project, which I class as the best usable project I have come across in many years.
I have found that by careful selection of the TX transistors and bias resistors that 3 watts is possible. I did have to alter the values of the bias resistors quite a bit, but that is all. Everything else is as your schematic. Thankyou again for a wonderful little project. This is a gem. The sensitivity is also excellent. You were right about packing a lot into a chip indeed. Thanks again Roger.
I have eventually been able to make two videos just to show the potential of your great little design. One with the 4 watt version and the other showing a 45 watt version. They give a little authority to your design, as I described earlier but with the alteration of the three pole filter section on your TX section now with 5 turns @ 6mm dia. and not 6 turns @ 6mm dia. as I stated previously. The bias values are good for those transistors and I was able to replicate the transverter twice as you can see with identical results of 4 watts plus with both before the addition of the 45 watt PA on one.