RU104800U1 - HIGH VOLTAGE PULSE MODULATOR WITH A SMALL ROTATION OF MODULATING PULSES - Google Patents

Abstract

 A high-voltage pulse modulator with a low duty cycle of modulating pulses, containing a column of N cells of the same type connected in series by field effect transistors, an RC circuit, a limiting resistor, current transformers, the number of which corresponds to the number of cells and having a primary, connected to the output of the control pulse generator, and secondary windings , each of which is connected to a cell of the column, which also contains a voltage limiter, the cathode of which is connected to the drain, and the anode is connected to the source of the field-effect transistor, which distinguishes I mean that the primary and secondary windings of the transformer are double, parallel and structurally separate, and the odd secondary windings of the transformer are connected to the first, second and next in order cells, and the even secondary windings of the transformer are connected to n, n-1 and the next in reverse order cells, the RC circuit consists of a charging resistor and a storage capacitor, and one terminal of the limiting resistor that provides the required output current is connected to the connection point of the charge ohm resistor and storage capacitor, and the second output is connected to the drain of the transistor of the first cell of the column, a voltage stabilizer is introduced, connected to the voltage stabilizer high voltage power supply and the primary voltage bus, while the input of the voltage stabilizer is connected to the primary voltage bus, the first the output is with a high-voltage power source of the modulator, the second output of the voltage regulator is connected to the second end of the charging resistor.

Description

The utility model relates to electronic equipment, in particular to pulse technology, and can be used in high-voltage pulse modulators for output generator electric vacuum devices of microwave pulse radar transmitters.

Pulse modulators for microwave generator devices, in particular, magnetrons, constructed according to the traditional scheme using field-effect transistors in key stages, are widely known [1], [2].

The disadvantages of such modulators include the fact that they do not provide stable operation of the transmitter at low duty cycle (about 3) and when changing load parameters when the output microwave generator operates in the frequency range.

Closest to the claimed utility model is a pulse modulator [3], containing a column of series-connected cells on field-effect transistors, connected via an RC circuit to the power and load buses. To increase the reliability of operation and increase the life of the modulator, current transformers are additionally introduced into it, the number of which corresponds to the number of cells, while the total primary winding of the transformers is connected to the control pulse generator, and each of the secondary windings is connected to the corresponding cell of the column, which also contains a voltage limiter, the cathode of which is connected to the drain, and the anode - to the source of the field-effect transistor, and an anti-ring resistor connected to the gate of the field-effect transistor and the first output of the secondary winding and the corresponding current transformer, a second terminal which is connected to the source of the FET.

Fundamentally, the prototype allows the formation of pulsed modulating signals of high power with a duty cycle of about 750-1000. However, it does not provide the formation of low duty cycle signals (of the order of 3) and the preservation of the parameters of the input signal of the transmitter (the duration of the output pulses, the duration of the front and the fall of the output pulses) when changing the load parameters when the output microwave generator is in the frequency range.

The objective of the utility model is to increase reliability, create a pulse modulator that generates powerful modulating pulses of duration (0.3-0.6 μs) with a duty cycle of about 3 in the burst mode for the output microwave generator operating in the frequency range.

The problem is achieved in that in a high-voltage pulse modulator with a low duty cycle of modulating pulses, containing a column of the same series-connected cells on field-effect transistors, an RC circuit, a limiting resistor, current transformers, the number of which corresponds to the number of cells and having a primary connected to the generator output control pulses, and secondary windings, each of which is connected to a cell of the column, which also contains a voltage limiter, the cathode of which is connected to the drain, and the anode is the source of the field-effect transistor, the primary and secondary windings of the transformer are double, parallel and structurally separate, with the odd secondary windings of the transformer connected to the first, second and next in order cells, and the even secondary windings of the transformer connected to n, n-1 and the next in reverse order cells, the RC circuit consists of a charging resistor and a storage capacitor, and one terminal of the limiting resistor that provides the required output current is connected to connection of the charging resistor and the storage capacitor, and the second terminal is connected to the drain of the transistor of the first cell of the column, a voltage stabilizer is introduced, connected to the voltage stabilizer high voltage power supply and the primary voltage bus, while the input of the voltage stabilizer is connected to the primary voltage bus , the first output with a high-voltage modulator power source, the second output of the voltage regulator is connected to the second end of the charge Foot resistor.

Distinctive features of the claimed solution (in conjunction with the known features) provide the specified technical result. So, due to the introduction of current transformers having two structurally separate separate primary windings and two secondary windings, and the exclusion of an anti-ring resistor, the gate charge absorption time of the field-effect transistor decreases and the circuit speed increases, which ensures the operation of a pulse modulator with a low pulse duty cycle. The introduction of a limiting resistor and placing it between the connection point of the charging resistor and the storage capacitor and the drain of the transistor of the first cell of the column ensures the installation of the required current of the output device and reduces the effect of interference arising from the operation of the modulator. The introduction of a voltage stabilizer ensures constant amplitude of the modulating pulses when the load of the output device changes when operating in the frequency range.

Figure 1 shows the electric circuit of a high-voltage pulse modulator, containing a column of the same series connected cells 1 on field effect transistors 2, an RC target, a limiting resistor 3, current transformers 4, the number of which corresponds to the number of cells and having a primary control connected to the output of the generator pulses 5, and secondary windings 6, voltage limiter 7. The RC circuit consists of a charging resistor 8 and a storage capacitor 9. An additional voltage stabilizer 10 is added to the circuit, high oltny power source 11 and the primary supply voltage rail 12. At the 2 - diagrams of voltages and currents, for explaining its operation, where U ₁ - voltage control pulse; i ₁ - current in the primary winding of current transformers; i ₂ - currents in the secondary windings of current transformers; U ₃ - voltage at the gates of field-effect transistors of the column cells; i _n - load current of the output device.

The high-voltage pulse modulator contains a column of series-connected key cells 1 A ₁ ... A _N , an RC circuit consisting of a limiting resistor R _ogre 3 connected to a high-voltage power supply 11, and a storage capacitor C _nak 9 connected to the output device bus, the limiting resistor 3, providing the required output current, one end of the limiting resistor 3 is connected to the connection point of the charging resistor 8 and the storage capacitor 9, and the second end is connected to the drain anzistora first cell 2 1 column, and the power voltage regulator 10, whose input is connected to the primary bus voltage 12, and the output of the high voltage power source modulator 11, whose output is connected to a second end of the charging resistor 8.

Each of the cells 1 A ₁ ... A _n contains a field effect transistor 2 VT ₁ ... VT _n , and a voltage limiter 7 VD ₁ ... VD _n, respectively. The number of cells 1 A ₁ ... A _n is selected from the ratio N≥U _pit / U _max , where N is the number of cells connected in series in a column A ₁ ... A _n , U _max is the maximum voltage allowed for transistors 2 VT ₁ ... VT _n . With an odd number of transistor cells, the even cell A _n ^∗ is replaced by an equivalent load instead of a field effect transistor, for example, an RC circuit, for the same load distribution between CT current transformers. Voltage limiters 7 VD ₁ ... VD _n , providing protection of transistors 2 VT ₁ ... VT _n from voltage overload, are connected to drains by cathodes, and by anodes to the sources of corresponding transistors 2 VT ₁ ... VT _n and to the first conclusions of secondary windings of corresponding transformers 4 TT ₁ ... TT _n . Other outputs of the secondary windings of transformers 4 TT ₁ ... TT _{n are} connected to the gates of transistors 2 VT ₁ ... VT _n .

The operation of the high voltage pulse modulator is as follows. From the high-voltage power supply 11 through the limiting resistor R _ogre 3, the capacitor C _nc 9 is constantly recharged. When a control signal (U ₁ and i ₁ in Fig. 1) is received at the modulator input in all secondary windings of transformers 4 TT ₁ ... TT _n simultaneously starts leak current pulse i ₂ . In this case, the capacitance of the gate capacitance of the transistors 2 VT ₁ ... VT _n occurs, and the voltage U ₃ appears at the gates of the transistors 2, when the threshold value U _then reaches the transistors 2 VT ₁ ... VT _n open. Thus on the first plate of the chain C _nak R _ogre, VT ₁ ... VT _n - common bus - an output device - second plate with _NAK will leak current i _n, rising during the time τ _f of forming the front to the maximum value Ir. At the end of the voltage pulse U ₁ , the gates of the gates of the transistors VT ₁ ... VT _n discharge. The voltage U ₃ drops to zero, the transistors VT ₁ ... VT _n close, and during the time τ _{sp the} current pulse iн decreases. Since the instantaneous values of currents i _{2 are the} same in all cells, locking and unlocking of transistors 2 VT ₁ ... VT _n occurs simultaneously, thereby ensuring a uniform distribution of instantaneous values of power losses between all cells of the column, as well as a high slope of the front (τ _f ) and decay ( τ _sp ) of the current pulse in.

An experimental check of the operability of the claimed solution was carried out in laboratory conditions on a prototype of a radar pulse transmitter with a high-voltage pulse modulator containing a column of eight series-connected cells (N = 8) on 2P829A field-effect transistors connected to a control pulse generator via four current transformers, having two primary windings and two secondary windings. An output device operating in the frequency range, having a pulse power of at least 4 kW, anode voltage of 5 kV, a pulsed anode current in the range from 5 to 7 A, a high-frequency pulse duration τ _p in the range from 0.3 to 0.6 μs. The test was carried out at a supply voltage U _pit = 4.8 kV, a pulsed current in the load In = 5 A, and a duty cycle within 3 ... 1000.

Figure 2 shows diagrams illustrating the formation of magnetron current pulses i _M , obtained as a result of an experimental test of the operability of the high-voltage pulse modulator circuit in accordance with the claimed solution.

The test results showed that the high-voltage pulse modulator, made in accordance with the stated solution, is stable and highly reliable in operation. Moreover, it, in comparison with the known ones, including the prototype, has improved characteristics of the output signal (τ _f , τ _p and τ _cn in FIG. 2), as well as significantly smaller dimensions and weight.

Sources of information taken into account when drawing up the description of the invention

1. The journal "Modern Electronics", No. 3, 2005, p.2, Fig. 1

2. Development issues of solid-state pulse modulators for microwave microwave devices. J. "Modern Electronics", No. 3, 2005, p.2, fig. 2.

3. RF patent No. 69685, IPC Н03К 17/687 (2006.01)

Claims (1)

A high-voltage pulse modulator with a low duty cycle of modulating pulses, containing a column of N cells of the same type connected in series by field effect transistors, an RC circuit, a limiting resistor, current transformers, the number of which corresponds to the number of cells and having a primary, connected to the output of the control pulse generator, and secondary windings , each of which is connected to a cell of the column, which also contains a voltage limiter, the cathode of which is connected to the drain, and the anode is connected to the source of the field-effect transistor, which distinguishes I mean that the primary and secondary windings of the transformer are double, parallel and structurally separate, and the odd secondary windings of the transformer are connected to the first, second and next in order cells, and the even secondary windings of the transformer are connected to n, n-1 and the next in reverse order cells, the RC circuit consists of a charging resistor and a storage capacitor, and one terminal of the limiting resistor that provides the required output current is connected to the connection point of the charge ohm resistor and storage capacitor, and the second output is connected to the drain of the transistor of the first cell of the column, a voltage stabilizer is introduced, connected to the voltage stabilizer high voltage power supply and the primary voltage bus, while the input of the voltage stabilizer is connected to the primary voltage bus, the first the output is with a high-voltage power source of the modulator, the second output of the voltage regulator is connected to the second end of the charging resistor.