DEF0014546MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: April 24, 1954. Advertised on December 13, 1956

GERMAN PATENT OFFICE

It. a method was already proposed in the patent application F 10367 Villa / 21a ¹ , which to achieve phase-locked synchronization with any adjustable phase position between the. Synchronous motor of a television film scanner and a control voltage occurring at vertical frequency is used. It is characterized in that the control voltage generates pulses with steep flanks of the same frequency and these are fed as ignition pulses to a circuit operating with grid-controlled gas discharge tubes, in whose output circuit the excitation field of the synchronous motor is located.

In particular with television studio systems now arises the problem that several devices from one AC power source are to be operated, the frequency of this power source being phase-locked should be a control frequency. Since a control generator is usually not able to produce larger Surrender services, it causes particular difficulties, engines, as they are in the FiImzeriegerapparat be used, or similar

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borrowed consumer of high energy with the control frequency to synchronize rigidly and without feedback. . .

It was therefore given the task of being a special one to create simple and reliable circuitry, which enables a complete network system for a television studio by electronic means to create which can be controlled by a quartz generator with low power.

ίο An arrangement according to the main patent application but cannot be used without further ado as a power supply unit that is able to work with to work with changing loads, because the current through the power gates is allowed to have a certain range not exceed the top and bottom.

In further training, / des. Inventive concept of The main patent application is therefore an arrangement for achieving phase-locked synchronization with arbitrarily adjustable phase position between that fed to the synchronous motor of a television film scanner AC voltage and a control voltage occurring with vertical frequency suggested, in which the control pulses derived, for example, from a quartz generator steep flank in opposite phase are alternately fed to the control grids of two flow gates. The anodes of these current gates are capacitively coupled to one another and in their anode circuit there is an inductance designed as an output transformer, through which an essentially sinusoidal current is generated. The license plate of the invention is to be seen in that as a function means regulated by the load are provided which cause the output voltage to rise is kept constant.

It is particularly useful to use a choke whose premagnetization is dependent is regulated by the withdrawn service.

In special cases it can also be advantageous to arrange the primary winding of a (further) transformer parallel to the output circuit, its secondary side by electron tubes controlled depending on the consumer side is more or less heavily loaded. The transformer then takes over the load instead of when the consumer load 'is smaller than intended, so that the total load is always approximate remains constant.

■ 5 ° The invention is described on the basis of the drawings showing the exemplary embodiments.

Fig. Ι shows the various voltages and currents as they occur in an arrangement according to FIGS. The signal sequence α generated by the control generator (clock generator) in FIG. 1 may have a pulse repetition frequency of 50 Hz. It is fed to a multivibrator, for example, which generates a meandering voltage b with a symmetry ratio of 1: 1. By differentiating in a ¹ term with a short time constant, the sequence c results from the pulse sequence b. The latter becomes once the. Ignition grid of power gate 1 in Fig. 2 via terminal 2 and, after phase reversal, the ignition grid of power gate 3 via terminal 4, so that an ignition pulse occurs alternately at the left and right power gate with a pulse repetition frequency of 100 Hz. The anodes of the current gates are coupled to one another via the primary winding 5 of the output transformer 6. The supply of the anode voltage takes place via the choke 7 in the middle of the primary winding of the transformer. Depending on which tube has ignited, a current flows, its. Direction is indicated by arrow 8 or 9. When the first ignition pulse arrives at the current gate 1, this tube ignites, due to the steepness of the pulse edge, essentially independent of the amplitude of the ignition pulse, as long as it is so large that the ignition voltage is always reached. If a sinusoidal voltage were used for ignition, the instant of ignition would depend on the amplitude of the control voltage, that is, an undesirable phase shift would occur depending on e.g. B. from mains voltage or pulse voltage fluctuations. When using control pulses with a steep edge, however, the time of ignition is practically independent of changes in the mains or pulse voltage. Initially, a current indicated by the direction of arrow 8 flows. When the second ignition pulse arrives, which is fed to the ignition grid of the current gate 3, the flow through the PfeiLo also flows. indicated stream. Since it starts suddenly, a negative pulse occurs at the anode of the current gate 3, which via the inductance 5 and the capacitor 10 to the anode .des .Stromtores 1; is transmitted and this blocks. Due to this mutual coupling, only one of the two current gates is permeable to current. The natural oscillation period of the output circuit, which is caused by the capacitances 10 and all inductances, is matched to a frequency which is roughly the same as the frequency of the control oscillations. The choke 7 in the anode feed has the task of acting as an energy store during the circuit and contributing to increasing the efficiency. It is expediently dimensioned so that the maximum of the 'current lies in the middle of the ignition period of a current gate. .

On the secondary winding 11 of the output transformer 6, the output voltage is taken from terminal 12. The output frequency is practically independent of the load decoupled at terminal 12, since the Ignition impulses, which determine the frequency, non-reactive to a separately controlled impulse generator can be removed.

According to the invention, special means are provided for the voltage at the terminal 12 of to make the load independent. For this purpose, the throttle 13, which is dimensioned so that it is used at minimal drawn load absorbs the main part of the generated electricity. This arrangement enables but only a regulation in a relatively small area. It will therefore be a

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second winding 14 attached, with which the direct current bias the throttle can be changed. The one taken from the direct current source 15 DC voltage can either be regulated manually, or it is, whichever is more convenient likely to be made dependent on the load.

Another embodiment, which can be advantageous in certain cases, is shown in FIG. 3. The primary side of the transformer 6 is identical to the circuit according to FIG. 2 and has therefore been omitted. The primary winding is parallel to the output circuit of the transformer 6 16 of a further transformer 17 is arranged.

Its secondary winding 18 becomes more depending on the grid control voltage of the tubes 19 and 20 or less heavily loaded by the anode current of these tubes. The control voltage that is applied across the terminal 21 is supplied, is made dependent on the load.

The invention is not limited to the exemplary embodiment described, but can For example, other measures for voltage stabilization can be used in an analogous manner without thereby exceeding the scope of the invention.

Claims (3)

PATENT CLAIMS: i. Arrangement for achieving phase-locked synchronization with an arbitrarily adjustable phase position between the alternating voltage fed to the synchronous motor of a television film scanner and a control voltage occurring at a vertical frequency, the control pulses derived from a quartz generator, for example, being fed alternately with a steep edge in antiphase to the control grids of two current gates, their anodes are capacitively coupled to one another and in the anode circuit of which there is an inductance designed as an output transformer, through which an essentially sinusoidal current is generated, according to patent application F 10367 VIIIa / 21 a ¹ in application as a frequency-controlled power supply for a television studio, characterized in that depending on The load-regulated means are provided which have the effect that the output voltage is kept at a constant value. 2. Arrangement according to claim 1, characterized in that that in order to keep the output voltage constant, a choke (13) is arranged parallel to the output circuit, the bias of which is adjustable. - 3. Arrangement according to claim 1, characterized in that that in parallel with the output circuit, the primary winding (16) of a transformer (17) is arranged, its secondary winding (18) through depending on the withdrawn Power controlled electron tubes (19) and (20) is more or less heavily loaded. 1 sheet of drawings