EA028369B1 - Pulse modulator with enhanced reliability - Google Patents

Abstract

The invention relates to high-voltage power supplies and can be used for obtaining voltage pulses on a load, stabilized by the amplitude over a wide range of variation in the duration and frequency of pulses generated. The proposed high reliability impulse modulator comprising N series connected modules each of which contains a constant voltage source connected to the first and second controllable key elements connected in series, the first diode connected in parallel to the first controllable key element, the cathode of the first diode connected to positive terminal of a constant voltage source, the second diode connected in parallel with the second controlled key element and the second diode anode is connected to the negative terminal of the constant voltage source, the first output terminal of the first module is connected to the first terminal of the device load, the second output terminal of the first module is connected to the first output terminal of the second module, etc., in each module the anode of the first diode connected to the second output terminal of the module, the second load terminal of the device is connected to the second output terminal of the Nth module, and also the control unit for the key elements of the modules, differs in that in each module additional diode is injected, the cathode of which is connected to the positive terminal of the constant voltage source, and the anode is connected to the second output terminal of the module, and the third key element connected in parallel with the third diode. Introduction of an additional diode into each module, the cathode of which is connected to the positive terminal of the constant voltage source, and the anode is connected to the second output terminal of the module, and an additional key connected in parallel with the third diode, improves reliability of operation of the pulse modulator by maintaining serviceability of the device in case of violations of different kind in the operation of the key elements and diodes of the modules.

Description

The invention relates to high-voltage power sources and can be used to obtain voltage-stabilized amplitude pulses of voltage pulses over a wide range of changes in the duration and frequency of the generated pulses.

Known pulse modulator (US patent No. 5710520, CL 330/10, IPC Н03Р 3/38, published 01/20/98), containing an AC voltage source connected to a transformer having several secondary windings forming several modules, connected in series to obtain the output voltage. Each module contains a rectifier, the positive terminal of which is connected to the first terminal of the key, and the negative - with the anode of the diode, the cathode of which is connected to the second terminal of the key and with the anode of the diode of the next module. The anode of the diode of the first module is connected to the first output terminal, and the cathode of the diode of the last module is connected to the second output terminal.

The disadvantage of this device is its low reliability due to possible failures of key elements and module diodes due to overvoltages caused by the spread of the parameters of these elements and the spread of time delays in the control circuits of each key.

Known pulse modulator (patent EP0557599, IPC Н03Р 3/20, published 01.09.93.), Containing an AC voltage source connected to a transformer having N secondary windings forming N modules connected in series to obtain the output voltage. Each module contains a rectifier, the positive terminal of which is connected to the first terminal of the controlled key, and the negative - with the anode of the diode, the cathode of which is connected to the second terminal of the controlled key and with the anode of the diode of the next module. The anode of the diode of the first module is connected to the first output terminal, and the cathode of the diode of the last module is connected to the second output terminal. The controlled keys are controlled by a control pulse generator.

The disadvantages of the device are low reliability due to possible malfunctions of diodes and module keys, as well as insufficient performance when disconnecting the load.

The closest technical solution to the claimed invention is a Pulse modulator (Eurasian patent No. 019770, IPC Н03Р 3/217; Н03К; Н02М, published 03/29/2013) containing a controllable AC voltage source connected in series with a transformer having N secondary windings, each secondary the winding connected to the rectifier forms N series-connected modules, the positive output of the rectifier is connected to the first output of the first controlled key, and the negative to the anode of the diode, the cathode of which is connected with the second terminal of the first managed key and the anode of the diode of the next module, the anode of the diode of the first module is connected to the first output of the load, and the cathode of the diode of the last module is connected to the second output of the load, each second managed key is connected in parallel with the diode of the corresponding module, the control inputs of the first controlled keys direct output of the control pulse generator, each of N voltage sensors is connected between the positive terminal of the rectifier and the first output of the load, and the output of voltage sensors from the 1st by (N-1) modules is connected to the first input of the summing device through a third controlled key, the output of the voltage sensor of the N-th module is connected directly to the first input of the summing device, the second input of the summing device is connected to the output of the set voltage source, and the output to the control input AC voltage source, the inverse output of the control pulse generator is connected to the control inputs of the second and third controlled keys, the common output of the source of the driving voltage is connected to the first output load and, in each module introduced a voltage limiter connected between the positive and negative terminals of the rectifier, and a protective diode connected in parallel with the first controllable switch and connected at its cathode to the positive terminal of the rectifier.

The disadvantage of the prototype is the deterioration of reliability due to failure of the entire device with possible malfunctions of the keys and / or diodes of one or more modules.

The objective of the invention is to increase the reliability of the device during its operation by maintaining operability in case of possible malfunctions of keys or diodes by introducing additional controlled key element and diode into each module.

The problem is solved in that in a pulse modulator of increased reliability, containing N modules connected in series with their output terminals, each of which contains a DC voltage source connected to the first and second controlled key elements connected in series, the first diode connected in parallel with the first controlled key element, the cathode of the first diode is connected to the positive terminal of the DC voltage source, the second diode connected in parallel with the second control To the key element, the anode of the second diode is connected to the negative terminal of the DC voltage source, the first output terminal of the first module is connected to the first output terminal of the device load, the second output terminal of the first module is connected to the first output terminal of the second module, etc., in each module the anode of the first the diode is connected to the second output terminal of the module, the second output terminal of the load of the device is connected to the second output terminal of the X-th module, the control device of the key elements of the modules, in addition to each module the third diode is connected, the cathode of which is connected to the positive terminal of the DC voltage source, and the anode is connected to the second output terminal of the module, and the third key element is connected in parallel with the third diode.

The introduction into each module of an additional diode, the cathode of which is connected to the positive terminal of the DC voltage source, and the anode is connected to the second output terminal of the module, an additional switch connected in parallel with the third diode, improves the reliability of the pulse modulator by maintaining the operability of the device in case of various kinds of violations in the operation of key elements and module diodes.

The drawing shows a schematic diagram of a pulse modulator of increased reliability.

The increased reliability pulse modulator contains N modules connected in series with their output terminals, each of which contains a DC voltage source 1 connected to the first 4 and second 5 controlled key elements connected in series, the first diode 2 connected in parallel to the first controlled key element 4, the cathode of the first diode 2 is connected to the positive terminal of the DC voltage source 1, the second diode 3, connected in parallel with the second controlled key element 5, the anode of the diode and 3 is connected to the negative terminal of the DC voltage source 1, the cathode of the diode 3 is connected to the second output terminal of the module, an additional diode 6, the cathode of which is connected to the positive terminal of the constant voltage source 1, and the anode is connected to the second output terminal of the module, additional key 7 connected parallel to diode 6, the first output terminal of the load 8 of the device is connected to the first output terminal of the first module, the second output terminal of the first module is connected to the first output terminal of the second module, etc., the second output terminal narrow 6 connected to the second output terminal N <0 the module, the control device 9 key elements modules.

Pulse modulator increased reliability works as follows. In the initial state, the managed keys 4 are open, and the managed keys 5 are closed. At the same time, a blocking voltage is present on the load. Managed key 7 with one-sided or two-sided conductivity is open and is in hot standby. This state can be maintained for an arbitrarily long time, regardless of the length of the pause between pulses, voltage fluctuations, and other destabilizing effects. When a signal is sent from the inverted output of the control device 9 to turn off the controlled keys 5 and from a direct signal output to turn on the controlled keys 4, a forced discharge of the load capacity occurs. The voltage at the load becomes zero.

If the keys 4 are closed according to a given law, then a stepwise discharge of the load capacitance is provided with energy recovery through diodes 3 to the DC voltage sources 1 of those modules in which the key 4 is not turned on.

Then again, a cycle of closing the keys 5 in those modules where the keys 4 are open is possible. Thus, the formation of step voltages with a different shape of the envelope is possible. When all keys 5 are closed, the device returns to its original state.

The power source 1 of each module is stabilized and regulated by the output voltage, contains a sensor for monitoring the load current, and is also included in the operation by the signal of the control device 9. In addition, each module contains a pulse amplitude sensor at the output of the module.

The additional keys 7 are controlled by the signals of the control device 9. The initial information for such control is the signals of the output current sensors of the sources 1 of the modules and the signals of the pulse amplitude sensors at the output of the modules. When synchronously controlling the keys of the modules and equal voltages of the sources of the modules, significant deviations of the instantaneous values of the output current of the source 1 and / or the amplitude of the output pulse of the module indicate violations in the operation of the module.

In the event of a malfunction in the keys 4 and / or 5 (or diode 2) of any of the modules in the form of a significant increase in the resistances of these elements in a conducting (closed) state due to a malfunction in the control circuit or for another reason, a significant decrease in the pulse amplitude at the output of the module and the average value of the output current of source 1 of this module. At the same time, a signal is generated in the control device 9 to turn off the power source 1 of this module from operation. Also in this module, the key control signal 5 is turned off and a signal is generated to turn on the additional key 7 synchronously with the key 4. In this case, the charge current of the load capacitance 8 will be closed through the additional diode 6 of the failed module, which will not interfere with the operability and speed of the device. In this case, it is possible to regulate upward the output voltages of the power supplies of serviceable modules in such a way as to compensate for the drawdown of the total output voltage caused by the shutdown of the faulty module.

In case of malfunctions of the keys 4 and / or 5 and / or diodes 2 or 3 of any of the modules in the form of a significant reduction in the resistances of these elements in a non-conductive state, an overload of the power supply of this module will occur due to the appearance of through currents. This will lead to an increase in the sensor signal of the output current of this module in comparison with the sensor signals of other modules. In addition, there will be a significant decrease in the amplitude of the pulse at the output of the module according to the sensor signal. At the same time, a signal is generated in the control device 9 to turn off the power supply of this module from operation. Also in this module, the key management signal 5 is turned off and a signal is generated to enable the additional key 7 in synchronization with the key 4 control, which will not interfere with the device’s performance. In this case, it is possible to regulate the output voltages of the power supplies of serviceable modules in such a way as to compensate for the drawdown of the total output voltage caused by the shutdown of the faulty module.

In the event of a malfunction of the keys and / or diodes of the module in the form of a short circuit (for example, the appearance of a constant signal to turn on the control circuit or a breakdown of the key or diode) in the DC voltage source 1, overload protection will work and it will be switched off from the signal control devices 9. In this case, the voltage at the load 8 will decrease by the voltage value of the failed module. At the same time, it is possible to regulate the output voltages of the power supplies of operational modules in the direction of increasing in such a way as to compensate for the drawdown of the total output voltage.

In the particular case of violations in the operation of the additional key 7 in the control device 9, a signal is generated to disconnect the power source of this module from work. Also in this module, the key management signal 5 is turned off. Since the additional key 7 is controlled in synchronization with the key 4 control, the device will remain operational. In this case, it is possible to regulate the output voltages of the power supplies of serviceable modules in such a way as to compensate for the drawdown of the total output voltage caused by the shutdown of the faulty module.

Claims (1)

CLAIM A pulse modulator comprising N modules connected in series with their output terminals, each of which contains a DC voltage source connected to the first and second controlled key elements in series, a first diode connected in parallel with the first controlled key element, the cathode of the first diode connected to the positive terminal of the source DC voltage, a second diode connected in parallel with the second controlled key element, the anode of the second diode being connected nen with a negative terminal of a DC voltage source, the first output terminal of the first module is connected to the first output terminal of the device load, the second output terminal of the first module is connected to the first output terminal of the second module, in each module the cathode of the second diode is connected to the second output terminal of the module, the second terminal of the device load connected to the second output terminal of the No. module; and also a control device for the key elements of the modules, characterized in that each module contains additional parallel-connected controlled key element and a diode connected between the output terminals of the module, the cathode of the additional diode connected to the positive terminal of the constant voltage source of the module.