George: "Yes, all the contacts were on CW. On several occasions we tried SSB but there was so much distortion that not a single word could be identified. TEP has a lot of flutter and fading and as you can hear on the tapes even the morse comes through like a breathing noise, not a clear tone. This applies to contacts between Greece and South Africa. Contacts between Japan and Australia where the distances involved are smaller, have been made on SSB."
Norman: "What about cycle 22?"
George: "see how things go. If anything is achieved it should be in 1990 or later. With modern equipment we shall be able to hear signals that were buried in the noise in 1979."
4. Dr Spyros Tsaltas SV1AT & George Delikaris SV1AM. (Mobile).
The first two licensed amateurs to make contact on 2 metres in Greece were Dr Spyros Tsaltas SV1AT and George Delikaris SV1AM. They had put together the famous Heathkit 'TWOER'. Crystals were plentiful on the surplus market, but it was not easy to find two of the same frequency. SV1AT transmitted on 144.720 and SV1AM on 145.135 MHz. The first contact took place at 13.30 local time on the 21st of December 1963.
A few days later SV1AT had a cross-band QSO with George
Vernardakis SV1AB who was transmitting in the 20 metre band on 14.250
MHz A.M. as he had not completed his TWOER yet.
At that time SV1AT was the Secretary of the Radio Amateur Association of Greece. He suggested to the Committee that the Club should apply for a temporary licence to be granted to SV1AM enabling him to transmit from his vehicle while in motion. The licensing authority gave the licence "for experimental purposes only, and for a period not exceeding one month".
And so it was that the first 'mobile' QSO took place on 2 metres between licensed Greek amateurs on the 27th of January 1965 at 19.25 local time. SV1AM was travelling in his car and SV1AT was at his home QTH.
5. Costas Tzezairlidis SV4CG. (SSTV).
In 1970 Costas Tzezairlidis SV4CG built a unique electro mechanical machine using two motors to achieve horizontal and vertical scanning. He had found a motor which rotated at 960 R.P.M. which corresponds to 16 revolutions per second, the exact speed required for the horizontal scanning. The speed of the second motor was 1 revolution per second. The reciprocal motion was produced by a cam through an 8:1 reduction gear. A weight attached to the microscope pulled it back to start the next line. The microscope was focussed sharply on the drum carrying the picture to be transmitted. Resolution was excellent.