SU725204A1 - Multi-channel pulse generator - Google Patents

Description

one

The invention relates to the field of pulsed technology and can be used for pulse training of electronic devices, for example, zener diodes.

A multichannel pulse generator is known, which contains a power source, a master oscillator, a ring and a switching unit on thyristors 1. A disadvantage of this device is the dependence of the duration of the output pulses on the frequency of the master oscillator.

The closest in technical essence to this proposal is a multichannel pulse generator containing a power source, .V thyristors, whose cathodes are connected to each other, and the anodes to the terminals of the corresponding loads, the N-channel pulse distributor, whose input is connected to the output the clock generator, and the outputs are connected to the inputs of the corresponding thyristors, a delay unit and a common switching node, the output of which is connected to the output of the pulse former, and the output is connected in series with the loads a power source circuit 2. This generator does not provide sufficient accuracy to maintain vapor-etrov output pulses.

The aim of the invention is to increase

the accuracy of the parameters of the output pulses. To achieve this goal, a multichannel pulse generator containing a power source, such as thyristors, whose cathodes are connected to each other, and the anodes to the first terminals of the respective loads, is an N-channel pulse distributor, whose input is connected to the output of a clock generator,

and the pins are connected to the inputs of the corresponding thyristors, a common switching node, the input of which is connected to the output of the pulse shaper, and the second outputs of the loads are connected to each other

another, an integrator, a comparison circuit, a reference voltage source and two resistors are introduced, the comparison circuit being included between the integrator output and the pulse driver input, the reference voltage source connected to the second input of the comparison circuit, the output of the common switching node is connected between the second connection point of the load terminals connected to the positive pole of the power source through the first resistor and the connection point of the thyristor cathodes connected to the negative pole of the power source through the second a resistor in parallel to which the integrator input is turned on.

The invention is illustrated in the drawing, which shows a circuit diagram of the device.

The generator contains a power source 1, thyristors 2, the cathodes of which are connected to each other, and the anodes to the first terminals of the loads 3, the N-channel pulse distributor 4, the input of which is connected to the output of the clock generator 5, and the outputs are connected to the inputs of the corresponding thyristors 2. The input of the common switching node 6 is connected to the output of the pulse generator 7, the output of the node 6 is connected between the connection point of the second load terminals 3, which is connected to the positive pole of the source 1 through the first resistor 8, and the connection point of the cathodes thyristors 2 connected to the negative pole of source 1 through a second resistor 9, in parallel with which integrator 10 is connected. Between the output of the integrator 10 and the input of the former 7, a comparison circuit 11 is connected, to the second input of which the reference voltage source 12 is connected.

The device works as follows.

In the initial state, all thyristors 2 are closed. From the clock generator 5, a triggering pulse is applied to the input of the distributor 4. From the corresponding output of the latter, a pulse arrives at the control output of the first thyristor 2, opening it. In this case, along the circuit: the first resistor 8, the first load 3, the first thyristor 2, the second resistor 9, the power source 1 - the current flows, forming the leading edge and the top of the output pulse. From the resistor 9, a pulse voltage proportional to the current pulse in the load 3 is fed to the input of the integrator 10, from which a sawtooth voltage is supplied to the comparison circuit And. The second input of the comparison circuit 11 is supplied with the voltage t / on from the source 12 of the reference voltage. As soon as the saw-tooth voltage reaches the value of Uou, the comparison circuit 11 generates a pulse signal that is fed to the input of the imaging unit 7. The latter generates a rectangular impulse to the input of the switching node 6, which is triggered and turns off the first thyristor 2. This forms the back edge of the output momentum. The circuit returns to its original state.

Then, with the arrival of the next pulse from the distributor 4, the next (second) thyristor 2 will open. The process of forming the output pulse will repeat.

The average current in loads 3 is stabilized as follows.

During generator operation, for example, when training zener diodes, which are loads, there may be an increase or decrease in resistance

loads. In particular, during the breakdown of one or several unreliable Zener diodes, the resistance of the load 3 consisting of series-connected

zener diodes. This will lead to an increase in the pulse current through the load and through the resistor 9, and consequently, an increase in the pulse voltage on it, an increase in which will cause an increase in the inclination angle of the sawtooth voltage generated by the integrator 10. This will lead to a comparison of the ramp the reference t / on will occur faster, and the impulse will start up the former 7 earlier. The latter, in turn, will determine the moment of impulse delivery from the former 7 to the switching node L, which will quickly turn off the corresponding tiris OR 2. Thereby sokratits

the formation time of the heel and the trailing edge of the output pulse, and, consequently, its duration will decrease.

Thus, with an increase in the impulse current at the load 3, the duration of the output impulse decreases, and the average current will remain constant.

Claims (2)

1.V. A. Skarzhepa and others. Automation devices on thyristors. Kiev, “Technique, 1974, p. 43. 2. USSR author's certificate jNfo 253915, cl. H 02R 13/16, 1968.