SU633125A1 - Dc-to-ac voltage converter - Google Patents

Description

one

The invention relates to the field of converter technology and can be used as a source of alternating voltage in the power supply systems of various radio engineering devices.

DC-to-AC converters are known based on push-pull zero or bridge conversion circuits.

The push-pull zero converter has low technical and economic indicators, and the output voltage varies in proportion to the input stabilization of the output voltage of the converter and is used in conjunction with linear or pulse voltage regulators 2.

The two-stroke bridge converter with higher technical and economic indicators is known.

The disadvantage of such a converter is the proportional relationship between output and input voltages. The range of input voltage can be extended for a given range of output voltage variation by setting a linear or pulsed constant-voltage regulator at the input of the converter. However, this requires a significant complication of the scheme.

The aim of the invention is to simplify the circuit and extend by a factor of 2 the range of variation of the input t: anpH for a given range of variation of the output voltage.

Claims (3)

The goal is achieved in that a DC to AC converter, made in the form of a bridge on power controlled switches, in the AC diagonal of which the output transformer is connected, and the DC diagonal is connected to the input terminals for connecting a DC power source , additionally, two controllable keys and a threshold element are introduced, the first key being connected between the input terminal and the bridge diagonal of the current; the second key is between the said input terminal and additionally in REFERENCE midpoint of the output transformer primary winding, the inputs of the threshold element connected to the input terminals of the converter, and the forward and inverse vyhodys the gate inputs of the first and second-key, respectively. The drawing shows a circuit diagram of a converter, where: 1 g are main power controlled keys, 2 is an output transformer, 3,4 are additional control keys, 5 is a threshold element. The converter operates in various ways at different power voltages. The threshold element 5 is triggered at a certain intermediate value of the supply voltage, the value of which may decrease or increase from this level. If the supply voltage is lower than the trigger voltage of the threshold element, the signals at the outputs of the threshold element are such that key 3 is open and key 4 is closed. In this case, the two upper bridge key keys are separated from the input DC terminals by a locked key 4, and the middle terminal of the primary winding of the formatter is connected by a public key to the DC input terminal to form a push-pull zero circuit and vertical alignment. When the supply voltage reaches the voltage level of the threshold element, the signals at the outputs of the threshold element are reversed, while the key 3 is closed and the key 4 is open. The middle of the primary winding of the transformer is separated from the direct current circuit with the first key 3, and the two upper ones are connected to the HfCOM input by the direct current circuit to form the bridge inverter circuit. Since the supply voltage is now applied to the entire primary winding of the transformer, the transformation ratio is halved, and the output voltage also decreases accordingly. Thus, with a low voltage supply, the converter provides proportional conversion of a constant voltage to an alternating one using a push-pull zero circuit; with a large supply voltage, a bridge conversion, while reducing the output voltage by a factor of two. The range of variation of the input voltage at a given range of variation of the output voltage is twice as wide as in a conventional bridge circuit. Claims of a DC-to-AC Converter, made in the form of a bridge on power controlled switches, in the AC diagonal of which the output transformer is connected, and the DC diagonal is connected to the input terminals for connecting a DC power source, that, in order to simplify and double the range of variation of the input voltage for a given range of variation of the output voltage, two controls are additionally introduced (& 1x key and threshold ente with direct and inverse outputs, the first switch being connected between the input terminal and the bridge diagonal, the second switch between said input terminal and the intermediate primary point of the output winding of the output transformer, the inputs of the threshold element are connected to the input terminals of the converter, and the direct and inverse outputs are with the control inputs of the first and second keys, respectively. Sources of information taken into account during the examination: 1.Sb. Electronic technology in automation, M., Sov.radio, 1976, vol. № 8, p.21. 2. In the same place 24 3. In the same place 27.