DE493453C - Circuit for the wireless transmission of documents - Google Patents

Description

Circuit for the wireless transmission of documents The Belin method for wireless photo transmission (cf. Patents 220 549, 227 56o and 228 625) is based on very fine elevations which a gelatin layer obtained by printing from an ordinary negative using a special process. These elevations act on the membrane of a particular microphone and allow the strength of the weak current passing through this microphone to vary proportionally to the strength of these elevations and consequently proportionally to the photographic values of the cliché to be transmitted. It is now a matter of amplifying this microphone current in a suitable manner in order to allow it to act on the wireless transmission point. The amplifier used according to the invention for this purpose is an amplifier with resistors without capacitors or transformers through which the continuous current of the microphone circuit flows, which current only fluctuates in its strength according to the course of the elevations of the scanned light image.

The circuit used for this purpose (Fig. I) is as follows: The microphone M , whose membrane experiences the deflections imposed by the various elevations of the layer and Blessen's resistance fluctuates as a result, is connected in a bridge between the grid and the filament of a first tube, 41 . In the anode circuit (Heizfa (lenanode) of this tube .41 a large resistor R is connected. The resistance fluctuations of the local circuit of the microphone. -11 result in voltage fluctuations at the terminals of this resistor R. These voltage fluctuations are fed to the grid of a similarly connected second tube A2 It goes without saying that the grids of the tubes making up such an amplifier are brought to appropriately sized negative potentials by voltage sources B. are biased in order to avoid the kinks resulting from the characteristic curves of the tubes and so that the voltage drops occurring across the resistors recur at the terminals of the successive tubes. In practice, a verse composed of three or four well-balanced stages is sufficient stronger of this kind in order to eliminate a wireless transmission woe of a few watts, «-> at (when the resistance of the microphone used fluctuates by pressure only uni a few ohms (3 or 1 ohms at most), which is very weak potential fluctuations at the lattice of the first hell.

Such an amplifier is only possible if the microphone is powered by direct current is fed. It will be shown later that (° s is not possible to use alternating current use the amplitude of which varies with the pressures exerted on the microphone, and that this alternating current with the help of ordinary amplifiers with transformers or Resistance and hapa.cities can be increased, as is the case with ordinary people Find transmitting stations of wireless telepliony use.

In the device with direct current, however, the modulation of the carrier wave cannot be compared to what happens in wireless telephony. It finds namely, there is no superposition of a wave of musical frequency that causes the high-frequency oscillation modulated. It should simply be the fluctuations touching the experiences of the document in fluctuations in amplitude and frequency - or both at the same time - of the high-frequency oscillation implemented. You can get there by any of those in wireless telephony control procedures used.

It should be here in A! Bb. 1 as a non-limiting embodiment given one of the circuits used with particular preference that does nothing represents other than the absorption circuit known in wireless telephony.

The resistor located in the anode circuit of the last gain stage R is between the filament and the grid of a R; its group Ah of so-called absorption tubes switched, the internal resistance of which also caused the filament anode to fluctuate will. Negative voltage sources h um are applied to the grid of these tubes in this way to achieve a suitable and as proportional as possible modulation. It takes then only four discharge space filament anode i these absorption tubes << 3 h with the terminals of a high-frequency circuit of the wireless transmitting station (grid circuit coil S1, anode circuit coil S ° of the exciter or scluving generator E, grid capacitor G, high voltage source HT, air conductor ze tisw.) To be connected to a part of the vibrating energy (from the transmission point in the inner resistance of the absorption tubes to absorb a proportional amount, «with this internal resistance itself corresponding the surveys of the 'document to be transferred fluctuates. Through this procedure one also brings the impedance of the high frequency circuits to fluctuate which affects the absorption, and this results in a change in wavelength, which exerts a particularly favorable influence on the reception, which will be described later shall be.

While now in wireless telephony reception without heterodyne takes place as the high-frequency wave of vibration of audible frequency that the Reproduces language, only serves as a means of conveyance-1, you access the when you receive the documents submitted according to the above procedure to a Hetero.dyn, which is associated with the received high frequency vibration interferes. It has already been mentioned that this Vibration always changes in amplitude, like that exerted on the microphone Pressures fluctuate, and that these amplitude changes become proportional again low frequency, which makes the use of a heterodyne necessary. On the other hand, it is true that the wavelength of the transmitting station fluctuates very little with the modulation, so that the low frequency oscillation generated by the entry of the heterodyne even fluctuates in amplitude and frequency. The received situation is z. B. in that Fall, where you press the microphone, from 150o periods to a position of d.oo up to 50o periods. It is known that the receipt of photos by facility B e 1 i n (see patent specification 22o 549, 22; 56o and z88 62.5) on an oscilloscope goes on with the color gamut penetrated by the beam, and it is easy It is understandable that the apparatus of such an oscilloscope is due to its inertia very sensitive to frequency fluctuations of the received energy, far more than on changes in intensity, that energy. For the higher frequencies (over 1500) the shift is very small for a given receive current strength. For the low frequencies the deviation can be considerable, and between both limits you get all the desired orders of magnitude, which it after the with .the apparatuses B e 1 in commonly used procedures enable the changeable Received currents in also changeable: e to implement light intensities.

On the other hand, it is easy to understand that there is a possibility to add both effects, intensity and frequency changes, to the reception, and that in turn the modulation generated by the light spot of the oscilloscope has in hand, by changing the altitude of the heterodyne by one uses devices, whose proper period is% variable, or more or less like-minded receiver builds, etc., and finally you can work in the positive or in the negative by using the frequency of the heterodyne or below the frequency of the transmitting station.

It has already been pointed out above that the supply of the microphone circuit for transmission with an alternating current of audible frequency would then be possible with the help of ordinary, in the transmission points for wireless Telephony commonly used amplifiers would have to be amplified. In this case (Fig. 2) becomes a small heterodyne H of musical frequency (e.g. 600 periods) used, which, by mediating an adjustable potentiometer P accordingly his inner resistance the photographic microphone: 17 feeds. The local The microphone circuit is now the first in the bridge between the grid and the filament Amplifier tube or in the primary winding of a transformer Tr, which is connected to this tube works, switched, as illustrated schematically in Figure 2. The amplifier is similar to the ones used for wireless telephony transmission points: amplifiers, and the modulation method is arbitrary. In this case, however, the facility corresponds exactly that of wireless telephony. The reception is accomplished without heterodyne, and with an ordinary receiver with or without feedback one gets immediately the 1N low frequency oscillation to 600 through the microphone modulated part periods.

It was said above that the apparatus of the oscilloscope for frequency changes is particularly sensitive; ; by means of the device described last, one achieves only amplitude fluctuations of the received low frequency oscillation. One can also the frequency of the multi-frequency heterodyne of the i% transmission in the same way Influence rope, as in the case of the first device described above with the transmitting station happened.

Claims (3)

PATENT CLAIMS: i. Circuit for the wireless transmission of documents, whose weak experiences of arbitrary values through mechanical action on the The membrane of a microphone causes fluctuations in the resistance of the microphone circuit, which is flowed through by direct or alternating current, characterized by amplifier arrangements to reinforce the changes in the elevation of the scanned document in its Microphone currents depicting current strength except for fluctuations that are sufficiently strong are. do a wireless transmitter to modulate. 2. Microphone circuit according to claim r. characterized by such switching on of the microphone in the potentiometer a heterodyne tube that the microphone is fed by alternating current and on the amplification device modulates directly or by means of a transformer. 3. Reception method for modulated waves according to claim i and 2, characterized in that that a heterodyne tube with adjustable frequency and one for frequency fluctuations Received current sensitive oscilloscope are used to perform the conversion which allows fluctuations in variable light intensities. .I. For alternating current supply receiving circuit suitable for the modulator microphone for the method according to claim 3, characterized by; the use of an ordinary receiving station for receiving of the modulated low frequency wave with or without feedback.