SU692039A1 - Inverter - Google Patents

Description

one. ; The invention relates to the field of converter technology and can be used in the construction of secondary power sources of stable or variable frequency in all those cases where good weight and size parameters and improved quality of the converted current are required. Devices are known that provide the solution of the same functional problem of converting a direct voltage to a quasi-sinusoidal variable with an intermediate high-frequency conversion 4 and. A common disadvantage of the known solutions is the low quality of the output voltage and current with a wide range of regulation of its value, which, when solving the problem of improving the quality of the output current by filtration, leads to a decrease in efficiency and deterioration of mass and dimensional parameters. The closest in essence to the technical solution is the device. described in H. It contains two sets of carrier and modulating frequency generators, a phase-shifting node, a power amplifier, and through a matching transformer connected to the input of the modulator, which is fully controlled with two-sided conductivity, and directly and through the aforementioned phase-shifting unit is connected to the control inputs of the SIGNED POWER POWER, and the output of the master oscillator of the modulating frequency is connected to the control inputs of the keys modulator . The disadvantage of such a solution is already discussed in Bbiiiie. The purpose of the present proposal is to eliminate these drawbacks, namely, increasing the efficiency and improving the mass & ample parameters with a wide range of adjustments to the output voltage of the inverter. . The post goal is comprehended by the fact that the inverter is equipped with an additional phase-shifting unit, the modulator is made via bridge hehee 5, all the go-to generator of the modulating frequency is connected to the control inputs of the keys of one pair of modulator directly, Q with the control pairs of the second pair through the stage. The solution described below is also distinguished by the fact that the power amplifier is made according to a bridge circuit. The invention is illustrated in drawing. FIG. 1 is a schematic block diagram of the inverter of FIG. 2; timing diagrams of the inverter are shown to illustrate the formation of the quasi-sinusoidal voltage in FIG. 3 shows a variant of the concept of power; the left part of the inverter. A: The block diagram in FIG. 1 includes master oscillators 1 and 2, phase shifting nodes 3 and 4, in the general case, accumulators 5 and b (these blocks may be present in the case of the execution of such a device or logical elements, t, ei in case of using it as a control system), power amplifier 7, modulator 8 and smoothing filter 9. 9. The block diagram functions as follows, V. Rectangular two-pole signals HIGH. X frequencies F are received from the inputs of oscillators 1 and 2 (FIG. 2a, c). At the outputs of phase-shifting nodes 3 and 4, signals of the form of FIG. 2b, g, shifted: o | TnosnoLno input angles V and n, respectively. The signal from the output of the adder 5 of the form of FIG. 2e is a yn: equal to amplifier 7 and forms the c with the sum signal o., (Fig. 2a, b) from the outputs of devices 1 and 3, the output signal of the amplifier 7 repeats in the form of the input (fig 2d) and It is supplied to the power input of the modulator 8. To the control input. the modulator 8 is supplied with a signal from the output of the adder 6 of the form of FIG. 2e, formed by summing the signals from the inputs of devices 2 and 4 of the form of FIG. 2 v, d. The modulator 8 performs the operation over the input signals, the output signal of the form -Fig. 2 W of the frequency f (F (Dal & voltage from the output modulator) is fed to the input of the smoothing filter b, and the output of which receives quasi

Claims (1)

fi; eEr "jsAvX-t". five . sinusoidal tension (Fig. 2h) with a low Gamo Ike coefficient. The power part of the converter contains, as an amplifier, the MB-unit inverter of FIG. 3 y transistors 10–13 and diodes 14–17, controlled from generator 1 through a transformer 18 and from a phase shifter 3 through a transformer 19, and as a modulator a bridge inverter on alternating current keys, transistors 20- are included in the KOTlipbix 23 and diodes 24-39, controlled from generator 2 through transformer 40 and from phase shifter 4 through transformer 41. For agreement; ki levels of the constant voltage with the output voltage, the voltage from the amplifier output (form 2a) is fed to the external module - --.- J-. via a transformer 42. The output pins of the modulator are connected to the input of the L-shaped smoothing filter on the choke 43 and the capacitor 44. The output pins of the filter are C | I output from the converter. Formula of Shadow 1, Inverter, containing a back up of: a carrier-frequency modulating generator; The new phase-shifted node is bw with the controls of the key power amplifier, and the output is set to reHepafopod-modulated clean link by the control inputs of the keys It also differs from the tem woi in order: to increase efficiency and improve the size and size of the chassis; torus mediocreous, ac control inputs of the keys of the second pair - additional | gel phase shift | 0, node,, 2, Inverter according to n, 1, o tl and h and, also, amplify power by bridge ,.- P-L S. . , f - 5 Sources of information taken into consideration in examination 1, Patr1t USA No. 343b44, cl. 321-18, 1969. 692О396во2, U.S. Patent No. 3,514,688, cl. 321-2, 1970 3. USSR author's certificate A535694, cp.H02M7 / 48D971 (prototype). I 9 futi. :