DE499341C - Device for keeping the frequency of a tube generator constant - Google Patents

Description

Particularly sensitive wave measurements can be carried out with the help of two oscillation structures, which are so detuned against each other that the nominal wave between the resonance positions of the two vibrational structures. In principle, wave measurements with such means are known (see patent 367 618). The oscillation structures do not need to be coordinated, as described in this patent specification Circles exist, but there can also be quartz crystals, their sensitivity is much larger than the vibrational structures used. Such measuring devices can also be used with advantage to correct the transmission wave if it has deviated from its setpoint values. the The present invention relates to various circuits and devices using piezoelectric Crystals that are

ao borrowed purpose are particularly suitable. There are two basic possibilities here. Firstly, the simultaneous effect of the above-mentioned two coordination structures on two rectifiers; secondly, the alternating effect Effect of the two voting structures on a rectifier.

The switching devices belonging to the first section are described below will. Fig. 1 shows the basic circuit diagram of this group The circle of the tube transmitter to be controlled is above circle 2 the actual measuring device coupled. It consists of the two vibrational structures 3 and 4, which are crystal circuits in a bridge arrangement. The resonance situation of the both vibrations should be so close to each other that the descending one Branch of the resonance curve of one circle with the ascending branch of the resonance curve of the other circle in their centers. The electrical AC voltages are rectified by the rectifiers 5 and 6 that the DC voltages arising between points 8 and 9 are opposite to each other act on the instrument 7 in between. If the transmitter works with the nominal wave, the device is dimensioned in such a way that that the pointer of the instrument is on zero, with the zero position in the middle of the Scale is. If the transmitter wave deviates from the target value, depending on whether the operating shaft is too big or too small, the pointer of the instrument after the one or the other side. The instrument 7 can have contact devices be provided when the pointer deflects to one side or the other be operated. The contacts can be easily made in any known manner use to determine the self-induction or capacity of the wave-determining generator circuit to change and thereby obtain corrections. The movement of the pointer could also be done without using any contact devices used, can be used directly to change capacitance or self-induction

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to be achieved by coupling a variable capacitor or a variometer to the pointer axis will. Of course, the instrument can, as shown in the figure, directly connected behind the rectifying means or with the interposition of amplifiers will.

Instead of the self-induction change, as described above, with the help of a me-ίο to carry out a mechanical movement (by the instrument 7), it can also be carried out To use the rectified currents equal to the self-induction of a premagnetized To influence high frequency iron choke. Of course, in this case it is advisable to use the high-frequency iron choke not to be connected directly after the rectification, but via amplifier tubes, or even better to combine rectifiers and amplifiers. A circuit suitable for this is shown in Fig. 2 illustrated, ι ο and 11 are supposed to be something against each other KristaUkneise coupled with the transmitter to be controlled. The two tubes 13 and 14 are connected in push-pull and fed by the battery 15. 12 is a grid bias battery. The heating batteries are for the sake of simplicity not shown. The anode current of tubes 13 and 14 is in the winding 16 together via the iron core represents a high-frequency choke 17 led. After the anode current has flowed through the winding 16, it is divided and fed to each tube individually via the special windings 18 and 19. The windings 18 and 19 are opposite Winding sense. In the normal operating state, the coil 16 acts as a premagnetization. The coils 18 and 19 work in opposition to one another. You cancel as long as the high-frequency voltages supplied to the grids of the tube are the same. However, if they deviate from one another, the magnetization of the iron core and thus the self-induction of the winding 17 located in the frequency-determining high-frequency circuits is changed.

If you only work with a rectifier, you have to use the one mentioned above use the second method, namely the alternating effect of the two coordination structures.

A circuit according to Fig. 1,

which works according to this principle is shown in Fig. 3.

Here are the two crystal circles 3 and 4 by the coupling coils 1 and 2 to the Transmitter coupled; the rectified by the rectifier 5 current passes through the Changeover switch 6 z. B. to the windings 7 and 8 of a differential relay, also in In this case directly with this instrument, which, by the way, also has an electrostatic differential relay can be the capacity or self-induction of the wave-determining transmitter circuit will be changed. The effect of this arrangement is as follows:

If you work on the intersection of both resonance curves, so that in both positions the switch 6 the same current flows, the differential relay remains in rest. Changes however, if the wave moves, the current becomes smaller to one side or the other and activate the relay. About the tension on the two halves of the differential relay during the switchover to be kept approximately constant parallel to this the capacities 9 and 10. Instead of the differential relay, this If a high-frequency choke is used as shown in Fig. 2.

Claims (5)

Patent claims: 1. Device for keeping the frequency of a tube generator constant Use of two piezoelectric ones that differ only slightly from one another in terms of their eigenwaves Crystals, between whose natural waves the nominal wave lies, thereby : In that a differential on '> effective based regulator is arranged, which is actuated by the rectified and amplified under Umständein piezoelectric voltages. 2. Device according to claim 1, characterized in that the voltages both crystals affect the regulating device at the same time. 3. ' Device according to claim 1, characterized characterized in that the tensions of both crystals alternately influence the regulating device one after the other. 4. Device according to claims 1, 2 and 3, characterized in that the Reguh'erungsvorrichtung from a There is a high-frequency choke, the variable inductance of which is the wave-determining factor for the transmitter. 5. Device according to claims 1, 2, 3 and 4, characterized in that the regulation device is connected to the rectifier via amplifier is. 1 sheet of drawings