DE2226837A1 - UHF AND SHF FULLBAND TRANSMIT-RECEIVER MIXER - Google Patents

Description

UHF and SHF - full-band transmit / receive mixer writer: The principles of all transmit / receive mixer converters that have already been used serve as a basis exist with success from 10 m to 2 m. In principle, one serves as the starting point Exciter with a continuous tuning range of more than 2 MH2.

All the higher bands available to the amateurs have a much larger bandwidth than the 2 m tape.

egap. the 70 cm bend has 10 MHz. and the 24 cm band 50 MHz bandwidth.

If you wanted to triple to 70 cm and up with so-called factor + ores 24 cm radio operation, you could only use the ranges 132 to 438 MHz or 1296 use up to 1300 MHz and only in the operating modes AM and FM, whereby through this multiplication greatly increases the bandwidth for the narrowband receivers bad effects. These basic ideas led to one consideration, the whole Modes of operation are permitted and the whole range of happiness is possible on 70 cm and 24 cm. It follows from this that the mixing principle is both sending and receiving for the processing of such a transmit-receive mixer is used ... must be grounded.

For a send / receive mixer, an existing one must be available Exciter with 2 MHz bandwidth in the next lowest amateur band available stand. Its output signal (e.g.

144 to 146 MHz) is driven by a fixed oscillator signal (e.g.

283 MHz) mixed to the next higher amateur band: e.g. (144 to 146) + 288 MHz = 432 to 434 MHz. With this principle you still only have 2 MHz bandwidth available.

Since there is a range of 10 MHz on the 70 cm band and in Future with satellites and Skaylarc operation is fully exploited, we have to Create 5 areas of 2 MHz bandwidth.

Duies can be switched around 288 MHz by switching the mixer oscillator reach. Fig .: 2 (transmitter) (144 ... 146) + 286 MHz = 430 ... 432 MHz range 1A (144 ... 146) + 288 MHz = 432 ... 434 MHz range 2A (144 ... 146) + 290 MHz = 434 ... 436 MHz range 3A (141 ... 46) + 292 MHz = 436 ... 438 MHz range 4A (144 ... 146 + 294 MHz = 438 ... 440 MHz range 5A These fixed sequences (286 ... 294 MHz) are best generated by tripling your crystal oscillator, whose frequencies are in the range 95.333 ... 98 MHz.

Reception is obtained by mixing down the 70 cm signal The same output frequency from 144 to 146 MHz via the 5 range oscillators: Receiver: (430 .... 432) - 286 MHz = 114 ... 146 MHz range 1B (432 .... 434) - 288 MHz = 144 ... 146 MHz range 2B (434 .... 436) - 280 MHz = 144 ... 146 MHz range 3B (436 .... 438) - 282 MHz = 144 ... 146 MHz range 4B (438 ... 430) - 294 MHz = 141 ... 146 MHz 3 range In this way a range of 10 MHz width is covered.

The main thing about the principle is the possibility without additional Crystals in relay operation on the 70 cm band as transmitted, e.g. area I with B switch A and receiving e.g.

preselect area 5 with switch B (Fig.: 1).

This principle saves us crystals for relay operation and have the option of all operating modes, including satellite operation. to be used on the entire 70 cm tape.

In addition, the modulation quality remains in the 2 m range proven 25 KHz channel spacing received.

I extended the same principle to the entire 24 cm tape (1 250 up to 1300 MHz) in all operating modes and 25 ranges with 2 MHz bandwidth each. However this results in a different base frequency for the range oscillator than for the 70 cm tape.

Transmitter: (430 ... 440) + 820 MHz = 1 250 ... 1 260 MHz range 1D (430 ... 440 + 830 MHz = 1 260 ... 1 270 MHz range 2D (430 ... 440 + 840 MHz = 1 270 ... 1 280 MHz Range 3D (430 ... 440 + 850 MHz = 1 280 ... 1 290 MHz Range 4D (430 ... 440 + 860 MHz = 1 290 ... 1 300 MHz range 5D received (1 250 ... 1 260) - 820 MHz = 430 ... 440 MHz range 1D ger: (1 260 ... 1 270) - 830 MHz = 430 ... 440 MHz range 2D (1 270 ... 1 280) - 840 MHz = 430 ... 440 MHz range 3D (1 280 ... 1 290) - 850 MHz = 430 ... 440 MHz range 4D (1 290 ... 1 300) - 860 MHz = 430 ... 440 MHz range 5D The switchover of the 10 MHz ranges in the 24 band can in turn be made using switches C and D for Select sending and receiving. A preselected 10 MHz range can be selected through the Subdivide 2 MHz areas of the 70 cm band further.

Frequency example for Relgisbetrieb: Transmitter: 2 m band: 15l, 25 MHz 70 cm band: 144.25 + 286 (area 1A) = 430.25 MHz 24 cm band: 144.25 + 286 (area 1A) 4 820 MHz (range 1 D) = 1250, 25 MHz receiver: 148.85 MHz (channel R6) 145.85 + 294 (range SB) = 139.85 MHz 145.85 + 294 (range 5B) + 860 (range 5C) = 1299, The various pre-selected send and receive areas are activated by pressing the send / receive button activated.

Example of operation with the same frequency: Transmitter: 2m band: 145.150 MHz 70 cm band: 145.150 + 286 = 431.150 MHz receiver: 145.150 MHz 431.150 - 286 = 115.150 MHz To simplify when scanning the entire band (70 cm or 24 cm) proves An automatic search function with electronic range switching has proven to be very advantageous and element,

Claims (1)

Claims for p 2226 937.7 Oberhee 1. UHR and SHF - full-band transmit-receive mixer For all operating modes with switchable mixer oscillators and additional bandwidths. Starting from 144-146 MHz via switchable mixer oscillators in the Freguenjsh range 430-440 MHz and 1250-1300 MHz. Namely characterizing part: characterized in that from a complete Transceivers in the frequency range of 144-146 MHz (all operating modes) are possible consists of the 70 cm band (430-440 MHz) and the 24 cm band ((1250-1300 MHz) in its the entire length of the tape in 2 NI'.z intervals. The fact that the 70 cm tape is never used to the full is that one 144-146 MHz with 286, 288, 290, 292, 294 MHz in 5 switching levels, optionally transmitting or mixes at the receiving end. The 24 cm tape is in turn in 5 switching stages, on the sending or receiving side mixed with 430-1 + 40? IlIz and 820, 830, 840, 850, 860 MHz. The five 10 MHz ranges are then again in the 430-440 Wiz range divided into 5 steps of 2 MHz each, so that the 24 cm band is divided into 25 channels of 2 each MHz bandwidth is divided. Head of the Unterausehr fuchs 2. UHF and SHF Ganband transmit-receive mixer according to claim i. Identifying part: d u r c h e k e n n z e i c h n e t that the switchable mixer oscillators for 70 cm and 24 cm (2 pcs. oscillators) each with 5 Qasrzen, with a total of 10 pieces. "BAY 94" diodes can be switched The diode BAY 94 switches the crystals in the base voltage divider of the oscillator transistor "2N 709", Fig: 2 The degree of negative feedback at the quartz oscillators is in the emitter circle determined by means of capacitance diode BA 101. L e r s e i t e