EA025461B1 - Multi-channel pulse modulator - Google Patents

Abstract

The invention relates to multi-channel high-voltage power sources having a pulsed shape of output voltage, and can be used for modulation of various types of devices by rectangular voltage pulses in a broad range of variation of pulse duration and frequency. A multi-channel pulse modulator comprising a DC voltage source with a positive, negative and common (neutral) terminals, connected in series the first and the second switch elements wherein the input of the first switch element is connected to the output of the second switch element and with the terminal of the first load of the device, the third controlled switch element having an input connected to the input of the second switch element and an output connected to the anode of the first diode and the terminal of the second load of the device, and a control unit for sending signals to control inputs of the switch elements, further includes the second diode connected in parallel to the second switch element and having an anode connected to the output of the second switch element, the cathode of the first diode being connected to the input of the third switch element, connected in series with the fourth switch element and the first resistor, the input of the fourth switch element being connected to the terminal of the second load of the device, the terminal of the first resistor being connected to the negative terminal of the source, the second resistor connected to the output of the first switch element, to the first resistor and to the negative terminal of the source, a modulation cascade connected between the positive and negative terminals of the source and including connected in series the third limiting resistor, the fifth and sixth controlled switch elements and the fourth limiting resistor, the fourth limiting resistor being connected to the negative terminal of the source, and the output of the fifth controlled switch element being connected to the inputs of the second and sixth controlled switch elements. The multi-channel pulse modulator allows independent modulation of N loads and, in case of using specified delays in switching, provision of a decrease in dynamic losses and, as a result, a decrease in the volume occupied by the cooling system.

Description

The invention relates to multi-channel high-voltage power supplies with a pulsed form of the output voltage and can be used to modulate various devices with rectangular voltage pulses in a wide range of changes in their duration and frequency.

Known pulse modulator (AS 8I 932610, IPC N03K 7/02, publ. 05/30/1982) containing a power source, two series-connected modulator lamps, the first of which is connected by anode to the positive bus of the power source, and the other by anode - load, a control pulse generator connected via threshold elements to the inputs of two control keys. The start pulse is transmitted to the input of the control keys via an LED, a photoresistor and a threshold device.

The disadvantage of this device is the ability to work on only one load (control grid of the microwave device). To control the loads on two or more channels, it will be necessary to use, respectively, two or more known pulse modulators, which is not economically feasible.

Known high-voltage pulse modulator with stabilization of the pulse amplitude and an electronic key for it (patent KI 2339158, IPC Н03К 3/57, Н02М 3/07, publ. 20.11.2008) containing a power source, a first capacitor, a second capacitor, a control circuit, a sensor voltage, a control circuit and a modulating device, the output of which is the output of a high voltage pulse modulator, and the control input is an input of a high voltage pulse modulator, while the power source is connected in parallel with the first capacitor, the output is a voltage sensor is connected to one of the inputs of the control circuit, the other input of which is connected to a reference voltage source, and the output of the control circuit is connected to the control input of the control circuit, which is made in the form of a key element, while the first output of the first capacitor through the control circuit is connected to the first output the second capacitor, with one of the inputs of the voltage sensor and with the power input of the modulating device, and the second output of the first capacitor, the second output of the second capacitor and the second input of the sensor Voltage indicators are connected to a common bus. The modulating device is made in the form of a series-connected key block and a key block control circuit, the output of the key block control circuit being connected to the control input of the key block, while the power input of the key block is the power input of the modulating device, the output of the key block is the output of a high-voltage pulse modulator, and the input of the key block control circuit is the input of a high-voltage pulse modulator. In addition, the key block is made in the form of 2Ν electronic keys based on field-effect or insulated-gate bipolar transistors connected in series with each other, and the middle of the transistor sequence between the drain of the last key of the first half of the sequence and the source of the key of the second half of the sequence forms the output of the key block.

The disadvantage of this device is the ability to work on only one load. If necessary, control of two or more loads will require the use of two or more known devices, respectively, which increases the dimensions, weight and cost of the equipment.

The closest technical solution to the claimed invention is a pulsed multimode modulator (patent KI 2153763, IPC Н03К 7/02, publ. 07.27.2000), containing three output keys, the first and third output keys connected to the positive bus of the power source by inputs, and the output of the second output key is connected to the negative bus of the power source. The input of the second output key is connected to the output of the third output key, the output terminal is load 2, the first discharge resistor and, through the isolation diode with the output terminal, load 1 of the pulse modulator, the output of the first output key, which is connected through the second discharge resistor to the negative bus of the power source. The control inputs of the output keys are connected to the outputs of the three starting devices PU1, PU2 and PU3, respectively, consisting of matching devices, LEDs, optical fibers, photodiodes, key amplifiers and boost circuits. The input PU1 is connected to the output of the switch. The input PU2 is connected to the output of the shaper. Trigger pulses and gate pulses from the source of external control pulses are supplied to the first and second inputs of the switch, to the shaper and PU3.

The disadvantage of the prototype is the limitation of its operating modes. This limitation is caused by the impossibility of the key 2 supplying a negative blocking voltage to the second load at the time the public key 1 applies a positive voltage to the first load due to the appearance of a short circuit current through the keys 1, 2 and diode 6, turned on in the forward direction. This disadvantage is caused by the features of the power circuit of the device.

The objective of the invention is to enable independent control of two or more loads, as well as to improve overall dimensions by reducing the volume and mass of the cooling system of the device.

The problem is solved in that in a multi-channel pulse modulator containing a constant voltage source with positive, negative and common (zero) terminals, the first and second controlled key elements are connected in series, the input of the first

- 1 025461 key element is connected to the output of the second key element and the output of the first device load, the third controlled key element, the input of which is connected to the input of the second key element, and the output is connected to the anode of the first diode and the output of the second device load, the control unit for supplying signals to control inputs of key elements, a second diode is introduced, connected in parallel with the second key element and connected by its anode to the output of the second key element, the cathode of the first diode is connected to the input the third key element, the fourth key element and the first resistor connected in series, the input of the fourth key element is connected to the output of the second load of the device, the output of the first resistor is connected to the negative output of the source, the second resistor connected to the output of the first key element, with the first resistor and negative source output modulation cascade connected between the positive and negative terminals of the source and containing a third limiting resistor in series Fifth and sixth controllable key elements and the fourth limiting resistor, and a fourth limiting resistor connected to the negative terminal of the source, and the output of the fifth key managed element connected to inputs of the second and sixth driven key elements.

In FIG. 1 is a functional diagram of a multi-channel pulse modulator.

The multi-channel pulse modulator (Fig. 1) contains a constant voltage source 1, which generally has positive, negative, and common (zero) outputs. The device contains N outputs for connecting loads. In the general case, each of the N loads can be connected between one of the outputs of the device and the positive, negative, or common output of the source. In a particular case, the general conclusion of the source may be absent. Between the positive and negative terminals of the source, a modulation cascade is included, containing the fourth limiting resistor 2, the sixth and fifth controllable key elements 3, 4 and the third limiting resistor 5 connected in series. The fourth limiting resistor 2 is connected to the negative terminal of the source. Between the common output of the series-connected key elements 3, 4 and the negative output of the source, a first switching stage is connected, which contains a second limiting resistor 6, a first controlled key 7 and a second controlled key 8 and a second diode 9 connected in parallel with its cathode to a common terminal key elements 3 and 4 connected in series. Subsequent (N-1) switching stages are connected in parallel with the first switching stage. To connect the load, each switching stage contains an output connected to the anode of the diode 9. The control unit 10 is designed to supply signals to the control inputs of the key elements. The limiting resistors 2, 5 and 6 are designed to reduce inrush currents through the key elements during recharging of capacitive loads, as well as during short circuits and breakdowns in loads.

A multi-channel pulse modulator operates as follows. In the initial state, the managed key 4 and the managed keys 8 of the switching stages are open, and the managed key 3 and the controlled keys of 7 switching stages are closed. In this case, the negative voltage of the source will be connected to the loads. This state can be maintained as long as desired, regardless of the length of the pause between control pulses. When a modulating pulse of the k-th channel is supplied from the control unit 10, the keys are controlled in the following order. When the pulse front is formed on the load of the k-th channel, the key 7 of the k-th switching stage and the key 3 of the modulation cascade open, and the key 8 of the k-th switching cascade and the key 4 of the modulation cascade closes. This state can be maintained for an arbitrarily long time, providing the formation of a peak of a pulse of positive polarity at the load of the k-th channel. When the pulse decays, the key 4 opens and the key 3 closes. In this case, the negative voltage of the source will be applied to the load through the diode 9, key 3 and resistor 2. After the completion of the switching processes in the load, the key 8 opens and the key 7 closes.

Several modes of operation of the device are possible: modulating pulses enter the load of one of the channels; any two or more channels are modulated synchronously; sequential modulation of channels by their numbers and in time according to a certain law. In the mode when only one channel is working, its keys 7 and 8 are switched in accordance with the control pulses, in the remaining stages the keys 8 are open, and the keys 7 are closed and supply negative voltage to the corresponding loads. In the mode when several output channels operate simultaneously, the keys 7 and 8 of these channels are switched synchronously with the keys 3 and 4 in accordance with the duration and frequency of the control pulses, in the remaining stages the keys 8 are open, and the keys 7 are closed and supply negative voltage to the corresponding loads .

In FIG. Figure 2 shows the timing diagrams of the operation of a multi-channel pulse modulator, where I1 are the synchronization pulses of block 10 for controlling the k-channel, I2 are the synchronization pulses of block 10 for controlling the t-channel, I3 are the control pulses of the 7 channel key, I4 are the control pulses of key 8 k-channel, I5 - control pulses of the key 7 of the t-channel, I6 - control pulses of the key 8 of the t-channel, I7 - control pulses of the key 3, I8 - control pulses of the key 4, I9 - modulation pulses on the load of the k-channel, I10 - modulation pulses at the t-channel load.

- 2 025461

From the time diagrams it is seen that the inclusion of the keys 8 in the switching stages occurs with some lead relative to the inclusion of the key 4, and the inclusion of the keys 7 occurs with some delay relative to the inclusion of the key 3. The application of these delays leads to the closure of the key elements 7 and 8 in all switching stages occurs for all modes at a voltage close to zero. Moreover, for real key elements, such as lamps, series-connected high-voltage bipolar, field-effect or bipolar transistors with an insulated gate, the discharge currents of their own output capacities are significantly reduced and, as a result, switching (dynamic) losses in these elements are reduced, especially at high repetition frequencies of modulation pulses.

Thus, the claimed multichannel pulse modulator allows you to independently modulate N loads and in the case of applying the specified delays in switching keys to provide a reduction in dynamic losses and, as a consequence, a decrease in the volume occupied by the cooling system.

Information sources.

1. A.S. 8I 932610, IPC N03K 7/02, publ. 05/30/1982.

2. Patent KI 2339158, IPC Н03К 3/57, Н02М 3/07, publ. 05/20/2008.

3. Patent KI 2153763, IPC Н03К 7/02, publ. 07.27.2000 (prototype).

Claims (2)

CLAIM 1. A multi-channel pulse modulator containing a constant voltage source with positive, negative and common conclusions; the first and second controlled key elements are connected in series, the input of the first key element is connected to the output of the second key element and the output of the first device load; a third controlled key element, the input of which is connected to the input of the second key element, and the output is connected to the anode of the first diode and the output of the second device load; a control unit for supplying signals to the control inputs of the key elements, characterized in that it contains a second diode connected in parallel with the second key element and connected by its anode to the output of the second key element, the cathode of the first diode is connected to the input of the third key element, the fourth key element is connected in series and the first resistor, the input of the fourth key element is connected to the output of the second load of the device, the output of the first resistor is connected to the negative output of the source, the second a resistor connected by its first output to the output of the first key element, and its second output with a negative output of the source, a modulation cascade connected between the positive and negative terminals of the source and containing a third limiting resistor, fifth and sixth controlled key elements and a fourth limiting resistor connected in series, moreover, the fourth limiting resistor is connected to the negative terminal of the source, and the output of the fifth controlled key element is connected to the input mi second and sixth controlled key elements. 2. The multi-channel pulse modulator according to claim 1, characterized in that it contains N parallel-connected switching stages, each of which contains a second resistor in series, a first key element and a second key element and a second diode connected in parallel, the anode connected to the output of the second key element and load output.