ある時Furunoの13MHz帯パワーソースのジャンク基板を手に入れた。終段のプッシュプルアンプ部分だけ切り出して広帯域パワーアンプにしようと考え、ベースバイアス回路や送受切換え回路とともにTA7612APのRF出力インジケータなどもアレンジしてアルミシャーシに組み込んだ。出力にはCCI社のチェビシェフ5pole
LPFを取り付けたが、コーナー周波数がぎりぎりカブっているらしく、最初の通電試験では14MHzも7MHzも電力が3dBロスってしまって危ない状態だった。LPFの定数やNFB量を一つ一つ見直したあとは動作が安定化し、ゲインも各バンド13dB内外に落ち着いた。2SC2510
P.Pは250W程度の最大出力が得られるが、ここでは100W出力時の動作効率にフォーカスして実験したので、出力トランスは変換比1:9から1:4に変更してある。効率は14MHzで58%、7MHzで52%、3.5MHzは48%。実験中に出力トランスをメガネコアタイプから純伝送線路トランスに変更してみたが効率は変わらなかった。製作は2009年。
3.5-14MHz tri-band linear power amplifier, Pout 120W, gain 13dB, spurious
less than -70dB, DC28V 8A
One day, I have got an old unit of 13MHz RF power source manufactured by
Furuno. I planned to make an experimentation on a broadband power amplifier
only using a push-pull amplifier portion of the unit, and then I arranged
a RF output indicator of the TA7612AP as well as a base bias circuit and
a stand-by controller. Finally I installed them into an aluminum chassis.
Chebyshev 5pole LPF of CCI Co. was also installed in the chassis, but the
output power reduced 3dB on 14MHz and 7MHz by the first turning on test,
and it was dangerous. The actual corner frequency of the LPF seemed to
be lower than the aim. After reconsidering the inductance and the capacitance
of LPF, working condition of the amplifier was stabilized, and the gain
was quiet 13dB on each band. It's possible to get about 250 W output from
a 2SC2510 P.P amplifier with DC28V. But here I focused on the efficiency
at 100W output and experimented. So the output transformer has been changed
to 1:4 from 1:9 of original. The obtained final efficiency was 48% on 3.5MHz,
52% on 7MHz, and 58% on 14MHz. The output transformer was changed to the
type of pure transmission line from the core type of glasses during the
experiment, but the efficiency hardly changed. Making was in 2009.
3.5-14MHz tri-band linear power amplifier, Pout 120W, gain 13dB, spurious
less than -70dB, DC28V 8A
