SU974495A1 - Thyristorized converter protection device - Google Patents

Description

(54) DEVICE FOR PROTECTION OF THYRISTOR TRANSMITTER

Claims (3)

12 The invention relates to converter technology and can be used in devices for protecting thyristor converters. Devices for protecting thyristor converters are known, which include emergency state sensors, a threshold element on an operational amplifier, and potentiometric setting devices 1. The disadvantage of such devices is low reliability. The closest technical solution to the invention in terms of means and results achieved is a protection device for a converter, comprising an emergency state sensor block, a threshold element, a sawtooth generator, a current source, a protection contactor, a potentiometric voltage detector, a resistive voltage divider A thyristor and five resistors. A disadvantage of the prior art converter device is low reliability. The aim of the invention is to improve the reliability of the device to protect the converter. The goal is achieved by the fact that the threshold element is made on an operational amplifier, the direct input of which is connected via a pei resistor to its output connected to the output terminal, and simultaneously through the second resistor to the output of the sawtooth voltage generator, and the inverted input of the amplifier through the third resistor to the setpoint potentiometer engine, mechanically connected with the protection protection contactor, to one of the resistive voltage dividers and the thyristor cathode, the control electrode of which is connected n with a midpoint divider, and the anode through the emergency state sensor unit with the second output of the resistive divider, and the terminals of the potentiometric setting unit are connected via the fourth and fifth resistors to the positive and negative power supply lines and through the contacts of the protection reset contactor to positive and negative current source terminals connected to the power supply terminals of the sawtooth generator; the protection reset contactor is made on the basis of a bipolar switch; the wick-up resistor is made peMEHHbJM, and sm i f; ton: 7o, n, kl1ochen to the anode of the thyristor. On fchg. 1 P {.Estap. The basic electrical circuit of the proposed device for protection of the thyristor converter; ng; FIG. 2 Temporary reprints that show his work. . The device contains a current source 1, a saw-tooth voltage generator 2, a threshold element 3 on an operational amplifier, resistors 4-11, thyristor 12, an emergency condition unit 13, a reset contactor 14, the device operates as follows. Pot €: Initial Chg If the relative lc-pcpol -i (Fig. 2), conditionally accepting a zero signal, received from the output of the II-output generator to the non-inverting input 2 of the operational amplifier 3, exceeds the reference potential applied to its inverting the first input from the potentiometer setter to the resistor: torus 8, then for positive feedback through the resistor 4, the operational amplifier 3 instantaneously switches and when sharply decreasing the potential at the second input at the end of the saw stroke. with then set. In the converter operating mode, by varying the level of the reference voltage taken from the potentiometric setter on the resistor 8, set the required phase shift of the leading edge of the pulses from the output of the device, which then with a given phase will generate the control thyristor control pulses. In the event of an accident by closing the corresponding contact sensor or contact of the protection relay of the emergency condition sensor unit, instantaneous opening of the blocking thyristor 12 occurs and the voltage at the first input of the operational amplifier 3 sharply increases to the value set with a tuning potentiometer on the resistor 7 in the setting circuit of the resistor 8. If this level voltage covers all possible voltage levels of the sawtooth generator at the second input of the operational amplifier, then the pulses from the output of the device oxidized. If it is necessary not to block a certain cfasoBoro shift of the leading edge of the pulses in emergency mode5 with the aim, for example, of converting the thyristor transducer into the inverter re, by changing the resistance of the voltage output resistors 7 and S d the front voltage operating impulse output pulses 3. Since the drive of the bipolar contactor 14 is reset, the protection is implemented through a mechanical connection with the rotary knob of the potentiometer to the resistor e 8, then resetting the protection memory by opening the contacts of the contact 14, the movable contact of the potentiometer. On the resistor 8 lsr "; it should be in such a position that then by closing the contacts of the contactor 14 it is ensured when turned on (-; 151Spatel requires of the front of pulses from the output of the operating room YcHJurrejiH 3 and, accordingly, the need for the level of april on the load. At the same time, exclude; -: spurious triggering from b {; The use of the invention provides an increase in the reliability of an armature device to protect the converter. The mechanical connection of the potentiometer phase setting knob to a two-pole contactor of protection protection in the power supply circuit of the device provides the elimination of the erroneous switching on of the converter with 1-: acceptable output voltage. The use of a potential three control unit and the inclusion of the anode of the blocking thyristor through a voltage divider in the control unit circuit, in addition to controlling the phase of the output pulses, allows either blocking them or shifting them to a predetermined phase angle, since the leading edge of pulses from the output of the device, fixed with a given shift in the emergency mode, are blocked by the blocking thyristor very easily, for example, by a differentiating RC circuit in the pulse of any polarity. Claim 1, A device for protection of a thyristor converter containing an emergency state sensor unit, a threshold element, a sawtooth generator, a current source 1.k, a reset contactor, a potentiometric voltage setting device, a resistive voltage divider, a thyristor, and five resistoron, s: tl and so that, in order to show reliability, to it the threshold element is made on an otragog.iionny amplifier, the direct input of the ssyrogo is connected through the first resistor to its output, coe, .vfn .- :: ncho . g MY, and simultaneously through the second resistor to the output of the sawtooth generator, and the inverted input of the amplifier is connected via a third resistor to the engine of the behind-sensor potentiometer mechanically connected with the protection reset contactor to one of the terminals of the resistor voltage divider and the cathode of the thyristor, the control electrode of which is connected to the midpoint of the divider and the anode through the emergency state sensor unit — to the second input of the resistive divider, and the output of the potentiometric unit is connected, respectively Erez fourth and fifth resistors to positive and negative power buses and through the contacts of the contactor reset protection - to positive and negative current source terminals connected to the power supply terminals of the sawtooth generator. 2. The device according to claim 1, about tl and one that the contactor of protection reset in it is made on the basis of a bipolar switch. 3. The device according to claim 1, characterized in that the fourth resistor in it is made variable, and its slider is connected to the thyristor anode. Sources of information taken into account in examination I 1. Authors certificate of the USSR 19 672697, cl. H 02 H 7/10, 1979. 2. USSR author's certificate number 213710, cl. H 02 H 7/10, 1979. but L