SU439906A1 - Multichannel pulse device - Google Patents

Description

(54) MULTI-CHANNEL PULSE DEVICE

The operating frequency of the converter, which provides increased device speed.

Each of the transducers of the four-pulse 1-pulse device contains transformers 5-8 with primary windings 9-12, feedback windings 13-16, windings 17-32 with rectifier 33 and windings 34-37, forming together with rectifier 33 output Impulse Channels. The number of windings 34-37 in the channels of the pulse device is determined by the number of loads 38 in each channel.

The time of the driver circuits is formed by adjustable resistors 39-42, the time by the drive capacitors 43-46, which are connected to the bus 47 and to the bus, the emitter point of the U-4 inverters, and the other to the midpoint of the windings of each converter .

The windings 17-19, 21-23, 25-27, 29-31 of transformers and transducers / -4, in conjunction with the output of many others. 33 and the resistors are combined into four grouses nstuchnikov tense and are connected to the common points of the feedback winding of converters P-4 with polarity, providing a breakdown of oscillations and locking of the transistors of these converters.

The first group of voltage pins is formed from windings 17, 26 p 30 of transformers of converters /, 3 p 4, rectifiers 33, resistors 48 n connected to converter 2.

A second source of voltage sources, consisting of windings 18, 22 and 31 transformers and converters, 2 and 4, and rectifiers 33 and resistors 48 are connected to the converter 3.

The third group of voltage sources, which includes windings 19, 23 and 27 of the transformers of the converters 1, 2 and 3. Rectifiers 33 and resistors 48, are connected to the converter 4.

A quarter of the voltage sources, consisting of the windings 21, 25 and 29 of the converter converters 2, 3 and 4 of the rectifiers 33 and the resistors 48, are connected to the converter /.

The windings 20, 24, 28, and 32 are connected via rectifiers 33 to adjustable resistors 39-42 and time to drive capacitors 43-46 with a signal polarity that ensures the opening and oscillation of transistors of converters 1-4.

The device works as follows.

When the source is turned on, one of the converters starts up. If converter 1 is running, converters 2, 3 and 4 are closed, because due to the presence of windings 17, 18 and 19 and rectifiers 33 with resistors 48, a positive potential is applied to the bases of transistors 2, 3 and 4 with emitters.

At this time, the driving capacitor 43 begins to charge through the adjustable resistor 39 from the power source formed by the winding 20 and the rectifier 33, and the time driving the capacitors 44 and 45 will begin to charge through the resistors 48 from the voltage source formed by the windings 7S p 19 L1 : above the switches 33, and the time specifying the capacitor 46 will begin to charge from the source of the generator produced by the feedback windings of the converter /.

Signals appear at the outputs of the first channel of a pulse device formed by windings 34 and rectifiers 33, and there are no signals at the outputs of the other channels.

In such a state, the circuit is until the voltage of the drive capacitor 43 exceeds the locking force of the winding 17 for a time.

At the midpoint of the feedback windings of the converter 2, a negative potential appears with respect to the emitters, as a result of which the converter 2 is started, which leads to a breakdown of the converter 1 oscillation due to the winding 21 of the converter 2 transformer.

The time specifying koidensator 43 recharged through resistor included in the core circuit transistors ireobrazovatel 2 from pstochiika Nair zheii formed oblsotkami feedback ireobrazovatel 2, the time zadayuidy kondeisator 44 recharged through an adjustable resistor 40 from voltage source Gennes, formed by the winding 24 and rectifying By means of a driver 33, the time of the driving condator 45 is maintained in a charge state by the voltage source formed by the winding 22, the rectifier 33 and the resistor 48, and the time of the driving capacitor 46 is recharged more than The cut-off resistor 48 is from the voltage generated by the winding 21 and the rectifiers 33. In this case, signals appear on the outputs of the second channel of the pulse device, and there are no signals at the outputs of the inverters I, 5 and 4.

At the moment when the voltage on the timing of the drive capacitor 44 exceeds the magnitude of the blocking and voltage of the winding 22, a negative potential with respect to the emitters appears at the midpoint of the feedback windings and at the bases of the transistors of the converter 3, resulting in disrupting oscillations of transformer 2 due to winding 26 of transformer and transformer 3.

The ria outputs of the third channel of the pulse device, formed by windings 36 and consumers 33, give rise to signals, and there are no signals to the outputs of the converters /, 2 to 4, and this time the capacitors 43–46 are connected through the resistors 41 × 48, as well as and when converter 2 is in operation; in hexadecimal converter 3, the transistors /, 2 and 4 are kept in the locked state. At the time when the voltage is applied to the time of the reference capacitor 45 and the height of the supply winding winding 27 in the middle point of winding obra In connection with the transponder bases of converter 4, a negative and relative emitter appears, causing the converter 4 to be triggered. At the outputs of converter 4, signals appear and signals are missing at the outputs of converters 1, 2, and 3. If the voltage With the time of the reference capacitor 46 supplied to the input of the converter, this converter starts up, and the processes described above are repeated cyclically. The cycle duration is determined by the sum of the pulses in each of the four channels of the multichannel pulsed device, and the adjustment of the pulses in the channels does not depend on each other. Loads in part of the channels may be absent, the intervals between the pulses in the channels appear pauses. The galvanic separation of the circuits in the channels in the proposed device is achieved by supplying these circuits and channels from the individual windings of the transformer. Coordination of the load and power source parameters is achieved by selecting the required transformation ratio between the transformer primary winding and the secondary winding from which the load is powered. The increase in the output signal level is achieved by the fact that the output voltage of the converter is zero when there are no oscillations in the converter, or equal to the nominal value when the converter is operating and the alternating voltage of a rectangular form is induced on the transformer windings. In order to increase the reliability of the described device, one of the plates of each time of the master capacitor 43-46 is connected to the common point of the feedback windings of the transducers / -4 through the distor 49. The operation of the pulse device is as follows. If the converter I starts up when power supply 19 is turned on, then converters 2, 3 tj 4 will be reliably closed, because of the presence of windings 17, 18 and 19 and rectifiers 33 with resistors 48 to the bases of transistors. transducers 2, 3, and 4 apply a positive potential. At this time, the driver co-detector 43 nCh1 is charged through an adjustable resistor 39 from the supply source formed by the winding 20 and the rectifier 33. At this time, the drive capacitors 44-46 are practically not charged, since the leakage current D1 of the screen is very small. In such a state, the circuit remains until the voltage for the time of the driving capacitor 43 does not exceed the maximum of the switching on of the dynistors. Since the turn-on voltage of a dynistor pitch and the winding 17 of a few volts increases, the moment the dinistor is turned on at the midpoint of the feedback windings and at the bases of the transistors of the converter 2 is negative and has a potential relative to the emitters, a significant value of the potential required for start up and converter. As a result, the clarity of the next converter is increased, and, consequently, of the device as a whole. The flow of the remaining processes in the scheme of a multi-channel device and the presence of dystors is similar to that described above. The subject of the invention 1. A multichannel impulse device containing transistor converters and aaaaaaaaaaer with a reverse link and a transformer output, which are two-stroke differential circuit, the number of which is equal to the number of channels, characterized by the fact that, in order to provide separate independent control the duration of imiuls in each of the kiaals and the increase in the steepness of the change in current in the load of the channels, part of the output windings of the transformer of each transformer is Without rectifiers connected to the load channels, the other part of the windings and connected to the source bus and through the top of the earth and resistors - to the common point of the reverse windings of each of the remaining converters, one of the windings through the rectifier and resistor is connected to the time setting capacitor, one of the plates of which is connected to the source bus of iptani, and the other of the plate is connected to the common point of the feedback windings of one of the other converters. 2. The device according to claim 1, characterized in that, in order to increase the reliability of its operation, one of the plates of the time of the drive capacitors of each converter is connected to a common point of the windings of the reversible connection through a diistor. )