DE622980C - Receiving arrangement for a large frequency range - Google Patents

Description

Receiving arrangement for a large frequency range is the subject of Invention is a frame receiver, especially for direction finding purposes, the reception over allows a relatively wide waveband.

If the receiving frame R, as shown in Fig.r, in conjunction with a variable capacitor C, forms the tuned input circuit of the first amplifier stage V, which is coupled to the further receiving reproducer W, a wide waveband cannot be covered with such an arrangement. If, for example, the receiving frame R 'is designed in such a way that it is suitable for receiving the shortest waves, then the capacitor C must assume a very large value for receiving the longest waves of the receiving band. While the frame self-induction with the tuning capacitance of the capacitor C for the short received waves are in a desirable relationship to one another, the large value of the tuning capacitor when tuning for the long waves means that only small high-frequency voltage values can develop on it, so that the reception for long waves has poor sensitivity. In order to cover a wide waveband, it would therefore also be necessary to change the frame self-induction in order not to have to counter the disadvantages described above. The change of the inductance of the input circuit would be possible in different ways, once it would be possible to change the receiving frame. Such a method would naturally be undesirable from a constructive point of view, particularly in the case of large commercial devices, in view of the cost of materials. A second possibility is to include series inductances between points A, A 'or B, B' or parallel inductances between points A and B. Such arrangements allow the inductance to always be in the input circuit. to be kept at a suitable value in relation to the capacity. However, such arrangements would also not have optimal sensitivity, since such a sensitivity can only be achieved if the entire input inductance is made usable for the absorption of radiation, that is to say is laid completely into the antenna frame.

Another option that does not have these latter disadvantages would have, the application of a receive frame with different taps would be, so that a group and series parallel connection for different wavebands the winding sections of the frame is made possible. Also has such an arrangement technical disadvantages; namely, they are the mutual inductions of the group-wise interconnected winding sections undesired phenomena, which in turn affect the sensitivity of the receiving device.

These disadvantages are avoided by the invention Avoided young, which provides for an unmatched receiving frame of only a few turns, if necessary, only one 'turn, tuned via a transformer on its own' Oscillating circuit to be coupled @ xf, and the setting on different shaft = ;: areas solely by changing the number of turns of the secondary coil of the coupling transformer make, while the frame circle including the primary winding essentially unchanged - remains.

The inductive coupling "of a frame to a matched input circuit is known. On the other hand, it is known to have an antenna with the tuned input circuit via exchangeable or switchable on the secondary side with regard to their number of turns Couple coils. Applying the same procedure to a loop antenna has but very different effects. While the high antenna "as an E: M: K. with a capacitive internal resistance is to be understood by the loop antenna .An E.M.K. with an inductive resistor. The loop antenna is therefore regardless of the frequency, a constant fraction of the recorded voltage lying on the coupling coil with the input circuit, while when switching on the The high antenna is the fraction of the voltage with the frequency that it absorbs changes greatly. This results in a limitation of what can be received with a high antenna Wave range, which is by no means the case with the loop antenna.

The decrease in sensitivity when receiving long waves occurs due to the low number of frame turns, is due to the increase in the transmission ratio of the coupling transformer as = the balanced, so that over the whole huge. Wave range results in a constant reception effect.

Exemplary embodiments of the invention are shown in FIGS. Z and 3.

Again, R means the receiving frame, which consists of only a few turns and may have a self-induction L. The receiving frame is connected to the primary side of the transformer T. The secondary side of the same, together with the capacitor C, forms the tuned input circuit of the tube V. The self-induction L2 of the primary coil of the transformer is expediently to be selected so that its ratio. for: self-induction of the frame L1 lies between the values 0.5 and 5. It can be shown mathematically "that such values are useful for achieving a favorable match. The capacitor C is chosen in its range of variation so that he is only part of the whole Allowed to cover the rear area. Uin to cover the entire usable area, it is the secondary coil of the transformer train mators T switchable. The primary coil of the transformer T can be left unchanged here. - For structural reasons, it may be advisable not to switch to the different parts receiving areas by switching the secondary sink of the transformer T, but to provide exchangeable transformers.

Such an arrangement is shown in Figure 3, with the three optional Switchable transformers T1, T2, T are provided. By closing the appropriate Each switch can be one of the transformers for coupling the frame with the Input circuit of the tube V can be used. The self-inductions of the primary coils the transformers are kept the same.

Claims (1)

.YAT CLAIMS: i. Reception arrangement for a large. Frequency range, in the case of an unmatched frame via a transformer with a matched Oscillating circuit is coupled, characterized in that a frame with a or a few turns is used and 'the adjustment to different wave ranges solely by changing the number of turns of the secondary coil of the coupling transformer takes place during the. Frame circle including the primary winding essentially remains unchanged. z. Arrangement according to claim i, characterized in that the Secondary coil of the coupling transformer is provided with taps with which the one voucher of the tuning capacitor can be connected alternately. 3. Arrangement according to claim i, characterized in that exchangeable transformers with essentially the same primary inductance and different secondary inductance intended ; are. q .. Arrangement according to claim i, characterized in that the Ratio of. Self-induction of the frame for the primary self-induction of the transformer is between 0.5 and 5.