CS199024B1 - Connexion of monophasic half-wave rectifiers of alternating voltage - Google Patents

Description

The invention relates to the connection of single-phase one-way AC rectifiers with collector capacitor filters to obtain two equally-sized, galvanically isolated DC voltages from a single secondary winding on a line transformer.

At present, mostly DC power supplies with single-phase AC rectifiers with a collecting capacitor are used for supplying electronic circuits. In particular, there is a growing need for DC sources of symmetrical stabilized voltage with a common center for powering operational amplifiers. The hitherto used AC voltage rectifier (Greinacher) connection to obtain symmetrical DC voltage from a single secondary winding on the mains transformer only works if the common center given by the conductive connection of the collecting capacitors can be maintained. This condition cannot be met if the obtained voltages are stabilized for one type of voltage polarity. Therefore, a wiring with two conductively isolated secondary windings on a mains transformer has been used so far. The alternating voltages from these windings are separately rectified, filtered, stabilized and the formation of a common center of a symmetrical DC voltage source is realized only at the output of both stabilizers by appropriate interconnection.

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These drawbacks are eliminated by the invention, which is based on the fact that the AC mains voltage is applied to the primary winding of the mains transformer and the first collecting capacitor is connected to the cathode of the first diode and through the first diode to the first terminal of the secondary winding of the power transformer. the second diode and through the second diode to the second terminal of the secondary transformer of the line transformer, while the second collector capacitor is connected with its positive pole to the cathode of the third diode and through the third diode to the second terminal of the secondary winding of the screening transformer and its negative pole to the anode of the fourth diode to the first winding terminal of the transformer secondary winding.

It is an advantage of the invention to obtain two galvanically isolated one-way rectified DC voltages from a single secondary winding of the mains transformer. Thus, the formation of a common center of a symmetrical DC voltage source can be realized according to the need and quality of the rectified voltage. When using stabilizers that can operate in both source-to-consumer mode, both voltages can also be read and a very low voltage source can be realized. Finally, both DC voltages can be used separately to create two galvanically isolated voltage sources, possibly with different output voltage values. These options can be considered as a major technical asset. The main economic benefit is the replacement of a more labor intensive transformer with two identical insulated secondary windings with a simpler type of transformer with a single secondary winding.

The circuit according to the invention will be explained in more detail in the following example of a possible embodiment by means of a drawing showing the circuit diagram.

The primary winding of the mains transformer TR is mains powered. Two one-way rectifiers are connected in parallel to the secondary winding Ng of the mains transformer TR. The first rectifier consists of a series connection of the diode D1, the condensate collector C1 and the diode Dg and connected by the anode of the diode D1 to the terminal 1 of the secondary winding Ng and the cathode of the diode Dg to the terminal 2 of the secondary winding Ng. The collecting capacitor C1 is connected to the cathode of the diode D4 with its positive pole and the negative pole to the anode of the diode Dg. The second rectifier consists of the series connection of the condensate collecting diode Cg and the diode D 4 and connected by the anode of the diode D ^ to the development of 2 secondary windings Eg and the cathode of the diode D ^ to the terminal 1 of the secondary winding Ng. Collecting capacitor Cg is its positive pole connected to the cathode of the diode D ^ and the negative pole on the anode of the diode D ^ · The manifold kondenzétoru is a DC voltage on the collecting condensate Cg is a direct voltage Ug and between terminals 1, £ is the AC secondary voltage U _g.

When the first polarity of the AC voltage U _g, wherein the terminal 1 winding Ng js positive and terminal £ winding Ng is negative, the charged collecting condenser (gj through diodes Dp Dg. This charge will end up in the most extreme case, before changing the polarity of the terminals 1 and 2 of their complete conducting detaching the collecting condensate from C ^. In a second polarity of the AC voltage JJ _g where

The winding terminal Ng is negative and the winding terminal Ng is positive, as described above for the diodes D1, D4 and the collecting capacitor Sg. During the entire period of the alternating voltage U _g Ng winding of the transformer TR so that there is a conductive connection between the accumulating capacitors C ^, Sg and this electrically insulated from one another and the voltage U ^ Ug them can be used independently.

The proposed wiring enables an economical solution of a double DC voltage source with a power transformer with a single secondary winding.

Claims (1)

Connection of a single-phase one-way AC rectifier characterized by alternating the power voltage is applied to the primary winding (N ^) of the transformer (TR) and the first collector capacitor (C ^) is connected to the cathode of the first diode (D ^). the anode of the first diode (Dg) is connected to the first winding terminal (1) of the transformer (TR) and the cathode of the second diode (Dg) is connected to the second winding terminal (2) of the transformer (TR). Ng) of the transformer (TR) and the second collector capacitor (Cg) is connected to the cathode of the third diode (D ^) and its negative pole to the anode of the fourth diode (D ^), the anode of the third diode (D ^) being connected to the second the winding terminal (2) of the transformer (TR) and the cathode of the fourth diode (D) are connected to the first winding terminal (1) of the transformer (TR).