CS251637B1 - Auxiliary feeding supply - Google Patents

Abstract

The purpose of the solution is to reduce the size and complexity of the power supply transformer. The essence is that the power supply transformer is designed for lower power, because it supplies the electronic circuits of the power supply for a few days before the power supply converter starts up. When the converter starts up, the power supply transformer is disconnected from the mains and the power supply of the electronic circuits of the power supply is taken over by the converter transformer. The subject is also the disconnection of the power supply transformer circuit from the mains voltage. The connection is intended for all types of power supplies where a power supply transformer is used to create a voltage for supplying the electronic circuits of the power supply.

Description

The present invention relates to a non-soldering source in a pulse-controlled source where the primary winding of the primary transfermeter is solved and the voltage is formed from the primary winding of the converter or the transfermeter.

The known transducers have been permanently connected to the mains power supply and the transducer must be designed for permanent boarding, which is determined by the elec- trical supply of pulse-regulated power supplies. Te leads to large dimensions of the pmecnéhe transfermater and thus also large directors of impulsively regulated health.

The aforementioned shortcomings are removed by the auxiliary power supply of the invention, wherein the first outlet of the secondary winding of the primary transfermeter is connected to the second input of the first rectifier and the first input is connected to the second outlet of the secondary winding of the primary transfermeter. and a second input is connected to a second output of the first rectifier and simultaneously to a second output of the second rectifier.

The first and second outputs of the stabilizer form the power supply outlets. The first input of the second rectifier is connected to the second terminal of the converter's converter winding, the first outlet is connected to the second input of the second rectifier, the first terminal of the converter's transfer winding is connected to the second input of the third converter converter, the first input is connected to the second converter transfermeter.

The first output of the third rectifier is coupled to the first input of the biasing transformer, the second input is connected to the second supply line and simultaneously to the second output of the third rectifier, the output of the biasing transformer is connected to the first terminal of the primary winding of the transformer. I bring the mains and the heater to the power input of the ejector.

By disconnecting the primary winding of the pmecnéhe transfermeter, it is achieved that the pmec transformer is designed to lower the permanent board, thereby reducing copper consumption for the winding, saving electricity, reducing the weight of the product and, above all, changing the size of the pmecnéhe transfermeter. The transformer feeds the board only for a period of time before the inverter starts up, and during the tute debus, it is not enough to heat the transformer to an inaccessible temperature.

In the accompanying drawings, two examples of supplying the general power supply source are shown. 1 is a block diagram of a general power supply of the present invention and in FIG. 2 is a concrete supply of the tensioning tool.

Na ebr. 1, the first outlet 11 of the secondary winding of the transfer transferor 4 is connected to the second inlet 22 of the first rectifier 2, the first inlet 21 being connected to the second outlet 12 of the secondary winding of the transfer transferor 4i; 4 ⁸ simultaneously to a first input 71 of the stabilizer 2, jehež second input 72 is připejen to the second output of the first rectifier 24 2 e at the same time to a second output 34 of the second rectifier J. first output 73 of stabilizer is 2 to připejen clamp UB first output and a second output 74 of stabilizer 2 j · attached to the second output terminal Z.

The first input 31 of the second rectifier 4 is connected to the second terminal 42 of the converter winding of the converter transferor 4, the first outlet 41 being connected to the second input 22 of the second rectifier 4, the first output 43 of the switching converter winding of the converter 4 is connected to the second input 42 of the third! the rectifier 4, the first input 44 of which is connected to the second output 44 of the switching coil of the converter transfermeter. The first output 44 of the third rectifier 4 is connected to the first input 64 of the biasing circuit 6, wherein the second input 63 is connected to the second supply line ON and simultaneously to the second output 54 of the third rectifier 6, the output 62 of the biasing circuit 6 is connected to the first terminal 13 the primary winding of the auxiliary transformer 6, the second terminal 14 of which is connected to the first supply line of the UR network and at the same time to the supply input 65 of the biasing circuit 6.

Na ebr. 2 is a particular circuit of the tensioning circuit 6, wherein the output 62 of the tensioning circuit 6 is coupled to the rainbow anode A2 of the triac 601. whose first anode A1 is connected to a second input 63 of the tensioning circuit 6 whose first input 64 is connected to the first terminal of the third edper 607. the second outlet is connected to the first terminal of the second kendenser 608 and the base of the transistor 603. the collector is connected to the control electrode G of the triac 601 and the first terminal of the second edper 605. the second outlet is connected to the first terminal of the first edger 604 and the first terminal of the first capacitor 606 The second outlet is connected to the second inlet 63 of the prewind 6 and to the second outlet of the second kensenser 608 and the emitter of the transistor 603. the second outlet of the first edp 604 is coupled to the anode of the diode 602. whose cathode is connected to the power input 65 of the prewind.

When the line voltage is applied to the first and second leads of the UR and UN networks, the triac 601 is opened by the current flowing from the power input 65 through the diode 602. the first resistor 604 the second resistor 605 de the triac control electrode G.

The triac 601 connects the first outlet 13 of the primary winding of the auxiliary transformer 6 to the second supply of the UN network. As the pulse source starts, a voltage occurs at the first and second terminals 43 and 44 of the transformer switching coil.

The voltage is rectified by the third rectifier 6 and applied through the third transistor 607 based on the transistor 603. The second capacitor 608 converts the filtration of the voltage.

The transistor 603 opens and the control electrode G switches to the first anode A1 of the triac 601 which is closed. This will disconnect the primary winding of the auxiliary transformer before the second supply of the UN network.

The invention is applicable to all types of power supplies where an auxiliary transformer is used to generate a voltage to power the power supplies of the power supply.

SUBJECT OF THE INVENTION

Claims (2)

SUBJECT OF THE INVENTION An auxiliary power supply in which a first auxiliary transformer secondary winding is connected to a second input of a first rectifier whose first input is connected to a second auxiliary transformer secondary winding, wherein a first output of a first rectifier is connected to a first output of a second rectifier and simultaneously to a first stabilizer input whose second input is coupled to a second output of the rectifier and simultaneously to a second output of the second rectifier, wherein the stabilizer output is connected to the first output terminal and a second stabilizer output is connected to the second output terminal; to a second output of the transformer auxiliary winding, the first output of which is connected to the second input of the second rectifier, characterized in that the first output of the switching transformer (4) of the switching transformer (4) is connected to a second input (52) of the third rectifier (5), the first input (51) of which is connected to a second terminal (44) of the switching transformer (4) of the converter transformer (4), the first output (53) of the third rectifier (5) connected to the first the input (64) of the biasing device (6), wherein the second input (63) is connected to the second supply line (UN) and simultaneously to the second output (54) of the third rectifier (5), the output (62) of the biasing device (6) connected to the first outlet (13) of the primary winding of the auxiliary transformer (1), the second outlet (14) of which is connected to the first supply 251637 4 (UR) and simultaneously to the power input (65) of the bias circuit (6). Auxiliary power supply, paddle 1, characterized in that the output (62) of the biasing circuit (6) is connected to a second anode (A2) of the triac (601), the first anode (AI) of which is connected to the second input (63). the first inlet (64) clinging to the first outlet of the third edger (607), the second outlet of which is coupled to the first outlet of the second capacitor (608) and the base of the transistor (603) whose collector is coupled to the control an electrode (G) of the triac (601) and a first terminal of the second resistor (605), the second terminal of which is connected to the first terminal of the first resistor (604) and the first terminal of the first capacitor (606), the second terminal of which is connected to the second input (63) the second capacitor (608) and transistor emitter (603), the second terminal of the first resistor (604) being connected to the anode of the diode (602), the cathode of which is connected to the power input (65) of the biasing circuit (6). 6).