SU449688A1 - Device for protecting conversion bridge of d.c. power transmission - Google Patents

Abstract

DEVICE FOR POWERING TRANSFORMING BRANCH OF DC ELECTRIC TRANSMISSION, containing connected to the DC transformer of the bridge and to the transformers of the phase currents of the valve winding of the transformer measuring !! The organ connected in series with the threshold element reacts to the difference between the indicated currents, the memory element and the time and is connected to the input of the automatic phase selection block, characterized in that, in order to ensure the transfer of the transfer current to the gates of one of the most favorable phase of the bridge and blocking the protection after actuation, the input of the coincidence element is connected to the output of the time element, another input of which is connected to the output of the threshold element, and a prohibition element is connected between the memory and time elements, the input of which is connected with the output of the automation unit ^ s (Q

Description

The invention relates to high voltage direct current power transmissions containing bridge valve converters without special shunt valves, more precisely to devices for protecting said converters from narudeny such as misfires, direct breakdowns and t

Known and widely used on existing DC power transmissions, differential protection against misfire, made using a differential circuit comparing the rectified current of a bridge with the phase currents of a valve winding of a transformer.

A significant disadvantage of the known protection device when it is used on converter bridges without special shunt valves

using, for short-term shunting of a bridge, working valves of one phase (selected depending on the type of damage) is its action on locking the control pulses at an arbitrary time during the disturbance period, including at the moment of presence of currents in the phases of the valve winding, which in these cases, x is unacceptable about.

Violations of the type of misfire in the pilot and inverter modes of operation of the converter bridge, direct breakdowns and valve overlaps in the inverter mode are accompanied by periodic (about 1/6 or 1/3 period duration depending on the mode of operation) single-phase modes of bridge valves burning. shunt valves locking operating control pulses

it is necessary to perform precisely at the specified time intervals in order to prevent the next commutation and thus ensure the preservation of the bridge burning mode through the valves of one phase that is most favorable for ignoring the phase.

Subsequently, the remaining two gates of one bridge phase are burned by supplying special control pulses of a given duration from a separate phase control automation device. In addition, the known protection device with regard to these bridges without triggering gates after the device has been switched to one bridge phase reacts the organ is searched, detecting the presence of unbalance current between the compared currents (in this case, the rectified bridge current and the phase currents of the valve circuit transformer coils), and therefore all elements of the device do not return to their original position. This is obtained because in the indicated mode the current in the phases of the valve winding is absent and the current on the rectified current side due to the operation of other transmission bridges is retained and 4epe phase valves are flowing As a result, the protection device remains in the triggered state, despite the absence of violations, which is unacceptable because of the possible exit of protection in this case through the redundancy circuits for disconnecting the half-chain, as well as the inevitable the failure of the automatic re-entry of the Bridge, if applicable.

The aim of the invention is to create a bans device that ensures the locking of the working control JIM pulses of the ventilation valves of the bridge in Tpe6yeNtbie single-phase bridge time intervals and having an automatic return after operating the output: For this, a coincidence element is used, the input of which is connected to the output of the time element of the device, etc. the other input of the coincidence element is given by the signal of the reacting protection body, connected to the output of the measuring body, whose output signal is proportional to the difference between, n, and y the bridge current and the valve winding currents of the transformer, and the prohibition element, included) —to the memory elements and time devices of protection, and the prohibition input of this element is connected to the output of the automatic phase selection block not related to this invention and providing special control pulses of a given duration on the fan of the exact phase of the bridge that the bridge has shunted as a result of the operation of the protection device

Fig. 1 shows a block diagram of one of the possible embodiments of the security device; in fig. 2 is a diagram illustrating the operation of the device during the ignition of bridge gates.

The converter bridge 1 is connected to the AC network through a transformer 2, the valve winding of which includes current transformers 3, the secondary currents of which, together with the secondary current of the transformer DC 4 of bridge 1, are connected to the measuring unit 5 of the transmitter, whose output signal is proportional to differences in the rectified secondary currents of transformers 3 and 4; To the output of the measuring body 5, a threshold response element 6 is connected. The output of element 6 includes a memory element 7, the output of which through the prohibition element 8 is A diner is connected to the output of the time delay element 9 of the protection device, and the prohibition input of the element 8 is connected to the output of the automatic phase selection unit 10, the output element of the time element 9 is connected to the coincidence element 11, the second input of which is connected to the output of the element 6, and the output is the output of the device connected to the input of block 10,

I) the protection device offered works as follows When a breakdown occurs, such as misfiring of valves, periodic single-phase bridge modes occur with a through mount of the same phase valves, during which they are caused by the non-billing of secondary currents of transformers 4 and 3 detected by measuring body 5, element 6 triggers, at the output of which an enabling signal appears (signal 1) o Simultaneously} P) o element 7 is triggered and, if there is no prohibition signal from unit 10 output, element 8 is triggered through element 8 nt of time 9, which, after a predetermined time, supplies a signal (signal 1) to one of the inputs of the 1K coincidence element. Signal 1 at the second input of this element and, therefore, at the output of the protection device appears only in the interval of operation of element 6, m „ e "during the time of the existence of a single-phase bridge mode" From the output of element 11, a signal is given to lock the working control pulses of the bridge and to start up the automatic selection unit 10, from the output of which after some time the inhibit signal (signal 1) is fed to the input of element 8, as a result of what of member 9 returns to the initial exit-on element 11 Device for decomposition. Signals are cleared - a block of 10oPaFIGo is blocked for 1kit for it, 2 shows a diagram of operation of protection elements in case of violations, illustrating the device’s release at the output time interval of a single-phase bridge and blocking it after the operation. Thus, the proposed acquisition is sufficient simply and successfully accomplishes the task posed - providing reliable protection of the converter bridge without a shunt valve by locking the operating control pulses during the time elapsed when a single-phase bridge existed and the protection device was locked after the operation was completed, thereby improving the reliability of the transmission

Claims (1)

DEVICE FOR PROTECTING A DC CONVERTER ELECTRIC TRANSMISSION BRIDGE, containing a measuring organ connected to a bridge DC transformer and to the phase transformers of the valve coil winding of the transformer, connected in series with a threshold element that responds to the difference between these currents, a memory and time element and is connected with the choice of the automaton unit input and connected to the input of the automaton unit phases, characterized by the fact that, in order to ensure the transfer of the transfer current to the valves of one of the most favorable phases of the bridge and blocking protection after operation, the input of the coincidence element is connected to the output of the time element, the other input of which is connected to the output of the threshold element, and a prohibition element is connected between the memory and time elements, the input of which is connected to the output of the automation unit q £