CS220934B1 - Connection for switching single sections of the d.c.source - Google Patents

Abstract

The invention relates to electrical engineering in the field switching power supply sections respectively. current. Individual same sections source for its better use or for the change in output voltage and current are connected in series, parallel, or serial-parallel. It is an object of the invention to reduce the number of contactors needed to switch sections. General the n-sections of the power supply can be arranged scheme with n-1 contactors and 2 (n-l) diodes. The invention can be applied to accumulator batteries vehicles, on diesel-electric vehicles drive, in the industry where it is requires variable output unidirectional voltage etc.

Description

The invention relates to a circuit for switching the sections of a DC power supply, respectively. current.

So far for two sections of the source is known schematic with three contactors, which allow to connect them in parallel or in series. For more sections, the number of contactors increases, which increases maintenance, control and reduces the reliability of the scheme.

It is an object of the invention to reduce the number of contactors. For the four sections of the DC power supply, this is achieved according to the invention in that the positive terminal of the first section is connected to the cathodes of the first, second and third diodes and forms the positive pole of the output. The negative terminal of the first section is coupled to the cathode of the fourth diode and one contact of the first contactor, the second contact to the anode of the first diode and the positive terminal of the second section of the source. The negative terminal of the second source section contacts the cathode of the fifth diode and one contact of the second contactor, the second contact of which contacts the anode of the second diode and the positive terminal of the third source section. The negative terminal of the third source section is coupled to the cathode of the sixth diode and to one contact of the third contactor, the second contact of which is coupled to the anode of the third diode and to the positive terminal of the fourth section of the source. The negative terminal of the fourth section of the source is coupled to the anodes of the fourth, fifth, and sixth diodes to form the negative pole of the output.

Advantages of the solution according to the invention are that the diodes are, in comparison with the contactors, respectively. virtually maintenance-free by electronic switches, which can also be considered in the switching section of the power supply section; in most cases, they are cheaper, especially when it comes to retracting. Reducing the number of contactors reduces the need for maintenance and control.

The drawing shows a wiring diagram for four equal sections of a DC power supply that allows four different output voltages to be generated using three contactors.

The wiring of the power supply consists of four sections 1, 2, 3 and 4 with polarity + and - marked. These sections are connected in series via contactors 5, 6 and 7. The contacts of the contactors that are connected to the + poles of the power section are also connected to the anodes of the diodes 8, 9 and 10. The cathodes of the diodes 8, 9 and 10 together with the positive field of the power section 1 form the positive terminal 14. and 13, together with the negative field of the source section 4, form the negative pole of the output voltage of the source.

At equal voltages of the power section and open contactors 5, 6 and 7, all sections are connected in parallel and the voltage at the output terminals 14, 15 is equal to the voltage of one section.

With contactors 5 and 7 switched on, the power supply sections will be connected in parallel and the output side voltage will be twice the voltage of one section. When all contactors 5, 6 and 7 are switched on, all power supply sections 1, 2, 3 and 4 will be connected in series and the output voltage will be quadrupled or respectively. the sum of the voltages of each section of the source. In the unbalanced switching of the individual power supply sections, for example with contactors 6 and 7 switched on, the power supply sections 2, 3 and 4 will be connected in series and generate triple voltage of one power supply section on the output side. The power supply section 1 will be blocked by a higher voltage and the diode 11 will prevent it from overcharging.

The mentioned connection enables to work with unequal voltages of individual power supply sections. In fact, the output will be the voltage corresponding to the highest voltage of the section or group in the series of connected sections.

Analogous connections can be derived for any number of power supply sections. For n any number of source sections, the wiring diagram will include n-1 contactors and 2 (n-1) diodes. The source of voltage, respectively. current can be accumulator battery, outputs of galvanically isolated rectifiers etc.

The present invention can be applied to battery-powered vehicles, diesel-electric power transmission vehicles, where two alternator windings connected to separate rectifiers would serve as a source; further in industry where variable output unidirectional voltage is required and the like.

Claims (1)

SUBJECT Connection for switching individual sections of a DC power supply, characterized in that the positive terminal of the first power supply section (1) is connected to the cathodes of the first diode (8), the second diode (9) and the third diode (10). a terminal of the first source section (1j) is connected to the cathode of the fourth diode (11) and to one contact of the first contactor (5) whose second contact is connected to the anode of the first diode (8) and to the positive terminal of the second section of the source (2) connected to the cathode OF THE INVENTION a fifth diode (12) and one contact of a second contactor (6), the second contact of which is connected to the anode of the second diode (9) and to the positive terminal of the third section of the source (3); one contact of the third contactor (7), the second contact of which is connected to the anode of the third diode (10) and to the positive terminal of the fourth section of the source (4), the negative terminal of which is connected to the anodes of the fourth diode (11), the fifth diode (12) and the sixth diodes (13j and represents the negative pole of the output).