CS213958B1 - Inverter Resource Restart Delay Circuit Wiring - Google Patents

Abstract

When switching on the power supply again, certain time sequences must be observed, the same as when switching on after a long time since switching off. In the control circuit of the switching pushbutton, the closing contact of the first auxiliary relay is connected in parallel, which closes when the auxiliary voltage for the control electronics is OK, and the opening contact of the second auxiliary relay, which monitors the discharge of the input capacitors of the converter. This does not allow immediate switching on, but automatically shifts it so that the switching cycle always takes place with the same time sequences.

Description

The present invention relates to the recovery of the restart of the inverter power supplies, while maintaining a certain time sequence.

Large power converters are equipped with slow start reversals to ensure a slow charge of the capacitor on the primary 1 secondary side. Without these surges, a large mere collision would be put on the line, which would compromise the semiconductor elements of the power supply. bump radio interference · Slow start recovery derives time sequences from capacitors that must be discharged after shutdown to ensure the same time sequence when turned on again · Shutdown and instantaneous on-off, unused timing circuit capacitors cannot provide the desired start time sequence.

So far, this problem has been solved for example by a time limitation, i.e. after switching off, it may take a new turn on after a certain period of time and if the switch on was earlier, the source did not switch. This solution is not perfect and places increased demands on the operator.

This drawback eliminates the reboot delay circuit according to the invention, characterized in that the first mains input of the circuit is connected via the switching contact of the two-pole mains switch to the second electrode of the triac main path and to one limiting resistor, through the parallel connection of the switching contact of the first relay and the opening contact of the second relay on the triac control electrode · The first triac main electrode is connected to the first alternating input of the two-way rectifier and the first auxiliary power input. second AC input of two-way rectifier and second input of auxiliary power supply · Positive output of two-way rectifier It is connected to the first power input of the converter and to the positive electrode of the capacitor as well as to the first The second cone of this relay is connected to the negative output of the two-way rectifier, the anode of the Zener diode, the negative capacitor electrode and the second power input. . The first auxiliary power output is connected to the first power input of the drive, while the second auxiliary power output is connected to the second power input of the drive and to the first winding connector of the first relay. The second con- nection of this relay is connected with the auxiliary output of the auxiliary power supply ·

The advantage of this wiring is its simplicity and reliability * The wiring follows the same time sequence every time it is switched on and does not impose increased demands on operation ·

Relay Start Delay Circuit Invention According to the Invention Sohematlocs are shown in the attached figure. The first mains input 2 of the circuit is connected through the first switch contact 31 of the two-pole mains switch 2 ^{to the} second electrode of the triac main path and to one of the limiting resistors 10. A second cone of this resistor is connected via a parallel connection of the make contact 41 of the first relay 6 and the break contact 51 of the second relay 2 ^Da controlling the triac electrode 2, the first electrode of the triac main path 6 is connected to the first AC input 61 of the two-way rectifier 6. and with the first input 71 of the auxiliary power supply 2 · The second mains input 2 is connected via the second switching contact 32 of the two-pole mains switch 2 ^{to the} second AC input 62 of the two-way rectifier 6 and to the second input 72 of the auxiliary power supply. a second input of this resistor is connected to the cathode of the Zener diodes 12 and 8 with one end of the winding of the second relay 2. The second cone of this relay is connected to the negative output 64 two-way rectifier 6, with an anode of Zener diode 12 ^with inc and the second power input 82 of the converter 8. The first power output 73 of the power supply 2.

It is connected to the first power input 83 of the converter 8. The second power output 74 of the power supply 2 is connected to the second power input 84 of the converter 8 and to the first end of the winding of the first relay.

Turning to the longer time interval since the last shutdown occurs so that after power-pole power switch 3 via a resistor 10 and rozpínaoí contact 51 closed řídíoí circuit triac 2 · Triac immediately turns so ryohle volley auxiliary source 2 ^and if všeohna tensions that the auxiliary power supply produces within the prescribed range, attracts relay 8 and with its contact 41 ensures closed triac control circuit 1 after later opening of contact 51. triac closing is also via rectifier 6 and limiting resistor / not drawn / charges input capacitor 13, where voltage gradually increases until relay 2 connected in parallel to Zener diode 12 is closed. Relay 2 opens its contact 51. but the triac remains closed via closed contact 41.

After switching off the device with the two-pole switch 3, the relay 4 drops off quickly and opens its contact 41. The relay 2 remains energized for a certain time due to the charge of the capacitor 12, so that if the two-pole switch is switched on restart the source. Switching on occurs automatically after a certain time delay to the relay 2 relay. · By this time all timed circuit capacitors are discharged, so that the starting cycle will have approximately the same switching on sequence as when switching on a longer time interval since the last trip.

The circuitry of the invention can be used to turn on power supplies that are equipped with slow ptart circuitry, but generally, the circuitry can be used to switch any appliances that do not allow immediate reclosing.

Claims (1)

FOR DMETS OF THE INVENTION Circuit of a restart delay of inverter power supplies, characterized in that the first mains input (1) of the circuit is connected via the first switch contact (31) of the two-pole mains switch (3) to the second electrode of the main trickle path. 10), wherein a second cone of this resistor is connected via a parallel connection of the switch contact (41) of the first relay (4) and the switch contact (51) of the second relay (5) to the triac control electrode (9) and the first triac main path electrode (9) is connected to the first AC input (61) of the two-way rectifier (6) and to the first input (71) of the auxiliary power supply (7), the second mains input (2) of the circuit is connected to the second switch contact (32) of the AC input (62) of the two-way rectifier (6) and to the second input (72) of the auxiliary power supply (7), while the positive output (63) of the two-way rectifier (6) is connected to the first a power input (81) of the transducer 8 and a positive capacitor electrode (13) as well as a first resistor of resistor (11), the second resistor of which is connected to the cathode of the Zener diode (12) and one winding connector of the second relay. 5), while the second configuration of this relay (5) is connected to the negative output (64) of the two-way rectifier (6) and to the anode of the Zener diode (12) as well as to the negative electrode of the capacitors (13). 8) and that the first power output (73) of the * ^! It is connected to the first power input (83) of the converter (8), the second power output (74) of the auxiliary power supply (7) is connected to the second power input (84) of the converter (8) and to the first winding 4 /, while the second con- nection of this relay (4) is connected to the auxiliary output (75) of the auxiliary power source (7).