RU178094U1 - Reversible pulse converter for on-board power supply system - Google Patents

Abstract

The utility model relates to electrical engineering and to pulsed power electronics and is intended for the combined bidirectional power supply of airborne main electric machine strato-generators and a rechargeable (chemical or supercapacitor) battery. The main technical result of the proposal is: to increase the functional reliability of the device by reducing (by half) the number of power electronic keys and control circuits. Additional results include: increased efficiency and reduced noise due to “soft” switching of keys. The indicated results are provided due to the fact that the device containing the first and second pairs of 1-2 and 3-4 external terminals for connecting a power source and a DC consumer , filter capacitors 5 and 6, transreactor 7 with first and second windings 8 and 9, first and second pulse modulators 10 and 11, each consisting of two diode-key electronic racks 12-13, 14-15 and 16-17, 18- 19, as well as the control unit 20 with 21, 22 feedbacks and two groups of pulse-modulator outputs 23 and 24, firstly, in each modulator two additional diodes 25, 26 and 27, 28 are inserted, connected in series and in different directions with the corresponding diode-key racks, forming with they have four-arm oblique bridges connected to each other by their first diagonal leads through the corresponding windings of the transreactor and to the corresponding pairs of external leads by their second diagonal leads, secondly, each of the modulator electronic keys is equipped with n snubber capacitor 29 through 32, charge-discharge dvuhdiodnoy rack with 33-34 and 39-40 of the damper throttle 41 to 44, and, thirdly, each of the pairs of damping throttles each modulator is adapted for their common yoke. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to electrical engineering and to pulsed power electronics and is intended for combined bi-directional power supply of main airborne electric starter-starter generators and a rechargeable (chemical or supercapacitor) battery, in particular, in the power supply system of a fully electrified aircraft.

A reversible pulse converter for an airborne power supply system (analog) is known, containing groups of external terminals, including earthed, for connecting a power source and DC power consumers, shunted by filter capacitors, a double winding inductor (transreactor), electronic modulators, consisting of diode-key racks, additional diodes, controlled electronic valves and a control unit with feedback circuits, as well as pulse-modulator and relay-signal outputs odes connected to the control terminals of electronic keys and valves (Utility Model Patent No. 126230. Reversible Pulse Converter. Reznikov SB, Kharchenko IA, Bulletin No. 8 of 03/20/2013).

The disadvantages of this device (analogue) include: low functional reliability and efficiency due to the presence of a circuit for “end-to-end overcurrents” during unauthorized switching on of keys (under the influence of electronic lightning impulse on their drivers) and due to “hard” switching of keys (at non-zero currents and voltages), as well as increased switching noise emissions.

Of the known devices, the closest in technical essence to the proposed one is a reversible pulse converter for an airborne power supply system (prototype), containing two pairs of external terminals, including ground, for connecting a power source and a consumer (in particular, a drive) of direct current electricity, shunted by filter capacitors , two-winding transreactor, two pulse modulators, each consisting of four diode-key racks, included in the four-arm bridge between the terminals of the corresponding filter capacitor and the terminals of the trans-reactor windings, as well as the control unit with feedback circuits and pulse-modulator terminals (Reznikov SB, Bocharov VV, Kharchenko IA Electromagnetic and electric power compatibility of power supply systems and secondary sources power supply for fully electrified aircraft / Edited by SB Reznikov, - M .: MAI Publishing House, 2014-160 p., p. 51, Fig. 2.2.1 g).

The disadvantages of this device (prototype) include: low functional reliability due to the large number (eight) of power electronic keys and the corresponding number of control channels, as well as low efficiency and high noise emissions of the device due to the “hard” switching of the keys with significant heat dissipation and surges in currents and voltages.

The main technical result of the proposal is: to increase the functional reliability of the device by reducing (by half) the number of power electronic keys and their control circuits. Additional results include: increased efficiency and reduced interference due to “soft” key switching.

These results are ensured due to the fact that in a device containing the first and second pairs of external terminals for connecting a power source and a direct current consumer, filter capacitors, a transreactor with first and second windings, the first and second pulse modulators, each consisting of two diode-key electronic racks, as well as a control unit with feedback circuits and two groups of pulse-modulator outputs, firstly, in each modulator two additional diodes are introduced, including the last in different directions with the corresponding diode-key racks, forming four-arm oblique bridges with them, connected to each other by their first diagonal leads through the corresponding windings of the transreactor and to the corresponding pairs of external leads by their second diagonal leads, secondly, each of the modulator electronic keys is equipped with snubber capacitor, charge-discharge two-diode rack and damper choke, and thirdly, each of the pairs of damper chokes of each modulator is made with a magnetic circuit for them.

In FIG. 1, FIG. 2 shows a circuit diagram and control channels of the proposed reversible pulse converter for an airborne power supply system.

A reversible pulse converter for an airborne power supply system contains: the first and second pairs of 1-2 and 3-4 external terminals, including ground, for connecting a power source and a current consumer, shunted by the first and second filter capacitors 5 and 6, transreactor 7 with the first and the second windings 8 and 9, the first and second pulse modulators 10 and 11, each consisting of two diode-key racks 12-13, 14-15 and 16-17, 18-19, as well as a control unit 20 with circuits 21, 22 reverse connections for external currents and voltages and two groups pami 23 and 24 pulse-modulator outputs. Each of the modulators also has an additional diode 25, 26 and an electronic controlled valve 27, 28. The control unit also has relay-signal outputs 29. Each of the modulator keys is equipped with a snubber capacitor from 30 to 33, a charge-discharge two-diode rack from 34-35 to 40-41 and damper throttle from 42 to 45.

The diode-key racks of each of the pulse modulators 10 and 11 are connected by their extreme diode terminals to the corresponding terminals of the corresponding filter capacitor 5 and 6, and by their extreme terminals are connected to the corresponding terminals of the trans-reactor windings 8, 9. Each of the controlled gates 27 and 28 is connected between the corresponding the output of the corresponding filter capacitor 5 and 6 and the extreme key terminal of the corresponding diode-key rack 14-15 and 18-19.

Each of the damper chokes 42 to 45 is connected in series with the corresponding key 13, 15, 17, 19, a shunted chain of a snubber capacitor 30 to 33 and a charging diode 34, 36, 38, 40, the common terminals of which are connected through a discharge diode 35, 37, 39, 41 to one of the terminals of the diode-key rack 18-19, 16-17, 14-15, and 12-13, respectively, of another modulator.

Pulse-modulator and relay-signal outputs 23, 24 and 29 of the control unit 20 are connected to the control terminals of the modulator keys and valves, respectively.

The key transistors or two-operational (control lockable) thyristors are used as modulating keys, and the conventional (single-operation) thyristors (or key transistors) are used as controlled electronic valves 27 and 28.

A reversible pulse converter for an airborne power supply system (see Fig.) Works as follows.

To the first pair of 1-2 external terminals connect a power source, for example, a rechargeable or supercapacitor battery. A consumer of electricity (load) is connected to a second pair of 3-4 external terminals, for example, a main electric machine starter-generator, the shaft of which is coupled to the shaft of an onboard power (traction or auxiliary) installation.

Due to the axial (mirror) symmetry of the power circuit, it is enough to consider its operation only with one direction of electric power conversion, for example, from terminals 1-2 to terminals 3-4, i.e. starter start mode of the power plant with primary power supply from the battery (supercapacitor) battery with an arbitrarily changing voltage ratio at the terminals 1-2 and 3-4.

In pulse-modulatory conclusions 23 and 24, 20 of the control unit are formed by pulse-simulated high frequency rectangular pulses with a constant period (T _PWM) and an adjustable pulse duration: t _n = γT _PWM where γ - coefficient of filling (relative duration) pulse, and relay -signal conclusions 29 - low-frequency rectangular pulses (or packs of high-frequency pulses) corresponding to the direction of conversion. Consider alternately the modes of lowering and increasing the voltage of the power supply source (U _1-2 ).

1. Undervoltage mode (U _1-2 > U _3-4 )

At each period (T _PWM ), the total flux linkage (ϕ) of the transreactor 7 first increases (stage: dϕ / dt> 0) along with the current in the circuit: 5-12-13-42-9-28-6-5, and then partially (or completely) decreases (stage: dϕ / dt <0) together with the current in the circuit: 9-28-6-25-9.

2. Voltage boost mode (U _3-4 > U _1-2 )

At each period (T _PWM ), the total flux linkage of the transreactor first increases with the current in the circuit: 5-12-13-42-9-45-19-18-5, and then partially (or completely) decreases with the current in the circuit: 9 -28-6-5-12-13-42-9.

In both modes considered, “soft” switching of electronic keys is performed (13 and 19), i.e. turning on at zero current, and turning off at zero key voltage. At the same time, snubber capacitors (30 and 33) are charged when the keys are turned off in the circuits: 12-30-34-42 and 45-40-33-18, and are completely discharged when the keys are turned on in the circuits: 30-13-42-9-45 -19-18-35-30 and 33-41-13-42-9-45-19-33, transferring the energy accumulated by them to the circuit of transreactor 7 for its further use (without significant thermal scattering).

Similarly, the reverse transformation of electricity is performed (from terminals 3-4 to terminals 1-2), i.e. charging the battery (or supercapacitor) battery from the electric starter-generator in the generation mode.

Thus, in comparison with the prototype, the proposed device provides the main technical result: increased functional reliability by reducing (by half) the number of power electronic keys and their control circuits, as well as additional results: increasing efficiency and reducing noise due to "soft" electronic switching keys (i.e., through the introduction of "non-scattering" damping-snubber inductive-capacitive chains that realize the inclusion of keys at zero currents in them and turning off the keys at zero voltages living on them.

Claims (2)

1. A reversible pulse converter for an airborne power supply system, containing the first and second pairs of external terminals, including ground, for connecting a power source and a direct current consumer, shunted by the first and second filter capacitors, a transreactor with the first and second windings, the first and second pulse modulators, each consisting of diode-key electronic racks, as well as a control unit with feedback circuits for external currents and voltages and two groups of pulse-modulator of water connected to the control terminals of the modulator keys, the diode-key racks of each of which are connected to the corresponding terminals of the corresponding filter capacitor by their extreme diode terminals, and by their extreme key terminals are connected to the corresponding terminals of the trans-reactor windings, characterized in that in each of the modulators additional a diode and an electronic controlled valve, each of which is connected between the corresponding output of the corresponding filter capacitor and the extreme key output diode corresponding key rack, and the control unit is provided with a relay-signal terminal connected to the control terminals of gates. 2. A reversible pulse converter for an airborne power supply system according to claim 1, characterized in that each of the keys of each modulator is equipped with a snubber capacitor, a charge-discharge two-diode rack and a damper choke connected in series with a key shunted by a chain of a snubber capacitor and a charging diode, the common conclusions of which are connected through a discharge diode to one of the conclusions of the diode-key rack of another modulator.

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