SU826834A1 - Phase-dependent converter - Google Patents

Description

one

The invention can be used in the measurement and calculation, engineering, radio-engineering devices and electrical equipment.

A phase-conjugate ontron transducer is known, made in the form of a four-beam star, each of the beams of which contains an oppositely connected ontron and a diode, and two optocouplers with positive electrodes of the controlled diodes are connected to the center of the star, and two each are connected in the opposite direction, each two opposite electrodes the included opto-stars are connected in parallel with each other and in series with the source of the useful signal, the midpoint of which is connected to the load of the converter, and its other output to the penter is ride away

The drawback of such a neutron converter, despite its numerous high parameters, is the absence or insignificant value of the input current of the control diodes of the Hpir ontrons and their voltages are less than 1 V and, therefore, the absence of illumination of the control diodes, i.e., their influence nn on dvd. This does not lead to a decrease in the transmission coefficient of the useful signal, since some of the switching voltage Nernod is controlled

the diodes remain in the nonconducting state of 1H1H, and as a result, to a decrease in diamine conversion dianazone.

The purpose of the invention is to increase the transmission coefficient of the converter, both in the switching circuit and in the useful circuit, reducing the residual stress at the output of the converter for the conversion range.

The goal is achieved by the fact that in a well-known converter, made in a four-beam star, each of which contains an ontron and a diode, the ontrons of every two and parallel-connected beams of the star are connected in parallel and according to each other, the two shunt and one included and included are included in the two rays of the parallel-connected rays. , one of which contains a series of co-detector nodn in series, the negative electrode of which is connected to the positive electrodes of the above-mentioned optocouplers s, and the other includes a diode, which polozhnteliy electrode soediien otrntsatelnymi electrodes with steering diodes same oitronov and the negative electrode of the diode is connected to the positive elektrodamn steering diodes of photocouplers.

moreover, the source of the switching circuit and of the switches to the positive electrodes of the control diodes of the ontroys of both circuits, and the negative electrodes of the diodes mentioned are interconnected. ,

This made it possible to control the diodes to detect photons during the entire no. No of the first switching voltage and, as a result, increased the controllability of the photodiodes of the optocouplers called diodes.

Prichplipa converter circuit shown pa drawing.

Controlled dpoda ontropov connected to a four-star. Opposite to each of the optocouplers 1–4 are semi-conducting diodes 5–8. Every two wind meters of ontron controllable ontrons 1, 2, 3, 4 are connected in parallel with each other n in series with source 9, among the points of the spngn: 1a connected to the load resistor 10 of the converter, the other output of the star is connected to the star circuit.

Control optic diodes 1, 2, 3, 4 of each two parallel channels of the star are connected parallel and consistent with each other and are bridged by two parallel connected circuits, one of which is connected in series with the first 11 sensors, 12 (12), diodes 13, 14 (15, 16). The negative electrode of the diode 13 (15) is connected with the positive electrodes of the control dpod of the optocouples 1, 2 and 3, 4.

Both circuits are connected in series to a switching voltage source, and the negative electrodes of the ontrop control diodes 1, 2 are connected to the negative electrodes of the optropes 3, 4.

In the considered time, the pa.E.vods A of the control diodes of the opto-switches 1, 2 acts as a switching voltage, which is the result of the modulation of the paprins, whose frequency is the frequency of the useful signal, the voltage of the luminous frequency, of which they want to get useful output at the output converter

The first (positive) semiperiodic switching voltage will pass through the parallel connection of the Ontron filing diodes 1, 2, capacitor 11, diode 13, and also in series with pimp connector 16.

In this semiperiodine, the control diode of the optocouplers 3 n 4 and the diode 15 are locked. Capacitor I will charge up to the voltage {1 direct papade of the control pins of the opto-switches 1 and 2 with the current passing through the bottom 13. The diodes 13 p 14 are selected so that the direct padeip and the circuit have more optocouplers than the controlled diodes of the optrons 1 -four. The controllers of the optroi 1 n 2 will be

Jump on the photons, under the action of which the controllable data terminals will open.

If now a positive loophole is observed in the left output source, then the current can only be generated from the middle pin by an inaccurate signal, which has a positive half wave voltage from the left side and the source through

BUT the load is 10, according to the included semiconductor dpod 15, the open controlled bottom of the opto-drop 1 and the resistor 17 to: the left terminal of the signal source. Through the open) controlled diode of the opto-optic current 2, the current 15 will not pass, since in series with the GP1M, the opposite is connected to the sub-6.

In the control circuit of the controlled diode 3 diode, the current of the signal ne will pass the oppositely switched on diode 7, and in the control circuit of the controllable day of the optotrophe 4, the controllable controllable dpod of the optotrophe.

The next полуп п ерп полуп комму ерп ерп commutating switch on the optical circuit will have an iro5 current through controlled diodes 3, 4, co-detector 12 and diodes 14, 15. The capacitor 12 will charge up to the remote controller, and it will go right. 3, 4 current optocouples, a gateway through the dO at one 14. The capacitor 11 can be switched off for a negative zero sweep, because its positively charged ambient is connected to the positive

5 electrode of the electrode 13 through the open diode 15.

In this half-period, the processor voltage of the resistor 10 will be called through the control field of the opto-switch 3.

In the third (pololptelny) lateral circuit, a current that can cause a sufficient emission of photos, will pass through the controller

5 electrodes from the self-starting half-cycle, since from the previous positive direction a cop-detector And remained charged until the direction of the direct control board governing the bottom; 1х opt) op 1, 2. Now

The control inputs of the opto-switches 1, 2 from the beginning of the half-cycle are in agreement with the following two pairs: the charged co-indicator 11 and the voltage of the switching source. Consequently, the photodiases of the indicated optocoupling state are controlled during the entire duration of the optical half-cycle of the commutation and injection.

The same phenomenon of the PA controlled ontron dpods 3, 4 will be observed in

0 tepepps nextupe; his otrppatelpogo half-cycle commuting panrhepi.

During the considered iodine period, the frequency papp frequency frequency ipir on the load resistor 10 will be

5 caused tokamn, irohod schimp through the pack

Claims (1)

Claim A phase-dependent converter made in the form of a four-beam star, each of whose rays contains an optocoupler and a diode, which are turned on, characterized in that, in order to increase the transfer coefficient of the converter both along the switching voltage circuit and the signal circuit, to reduce the residual voltage at the output of the converter and expansion of the dynamic range of the conversion, the control diodes of 5 optocouplers of every two parallel connected beams of the star are connected in parallel π according to each other and are shunted by two I have parallel-connected circuits, one of which contains a polo-sequentially connected capacitor and diode, the negative electrode of which is connected to the negative electrodes of the said optocoupler control diodes, and the other consists of a diode whose positive electrode is connected to the negative electrodes of the control diodes of the same optocouplers, and the negative the electrode of this diode is connected to the positive electrodes of the control diodes of these optocouplers, when the switching voltage source is connected to the positive m electrodes that control diodes of photocouplers both strands, and the negative electrodes of said diodes soe25 dineny together.