DE1638067C3 - Arrangement for limiting overvoltages - Google Patents

Description

The written arrangements, however, indicate an input to the alternating voltage to be monitored

direction for the target / actual comparison is not up, probably monitoring body through the control resistor

but an alternating current threshold element. flows. Furthermore, the supervisory body is the

Furthermore, an arrangement like the arrangement described at the outset is not set up so that

ben proposed (T ^ utsche patent specification 5 the response threshold and thus also the control

1613 846), in which the monitoring device can be changed to equalize the pulse amplifier.

NEN on the current side through a high resistance, so that a setting of the response threshold

and a capacitance connected in parallel to it is not at all possible and cannot be controlled.

is. This capacitance is over a low resistance. The invention is based on the object

Control resistance at the DC output of the io of the arrangement described above to prevent

Connected to the rectifier bridge and to the high resistance that the pulse amplifier has already been

moderate resistance connected in parallel. Is controlled at the low-ohmic current, and the monitoring

moderate control resistance of the monitoring organ to set up organ so that its response threshold

is the control input of a pulse amplifier and is adjustable.

contains an uncontrolled half-wave as the threshold value element. According to the invention, this object is achieved by

ladder valve. the use of one between the DC side

As long as there is a regular constant rectifier bridge of the monitoring device on the transformer Regulated AC voltage is present, the capacitance and the input of the pulse amplifier are arranged about to the peak value of the transferred alternating setpoint / actual value comparator. at which a tension loaded. The resistance value of the highly changeable part of the rectified alternating resistance Resistance and the capacitance value of the voltage as the actual value of a constant voltage as Capacities are chosen so that only a weak setpoint is connected in the opposite direction.

Discharge current can flow from the capacity. The invention is further developed in that the variable portion of the rectified AC voltage becomes a weak one at the low resistance generated through which the uncontrolled 25 selvoltage on an ohmic voltage divider from valve locked and the pulse amplifier not attacked and with the working voltage of a Z-Diodc is controlled. As soon as the monitored exchange rate is compared.

voltage from an overvoltage of one or the other. device further developed, which is recharged by means of four two-pole charging voltages. In this case, the ger, through a common switch, simultaneously generates charging current at the low-ohmic accumulator resistor, a switched contact is put into operation, of DC voltage of opposite polarity and of which two contacts one through the transformer of such a size that the lock voltage of the un-formed unH by means of a potentiometer The variable controlled valve is exceeded and thus the additional AC voltage is controlled as an artificial overpulse amplifier. This now supplies voltage / ur monitored alternating voltage on the additional output side a control pulse which switches on the de. Third contact a control circuit, the controlled valves of a half-controlled DC with a control lamp and a controlled half-rectifier bridge, which connects to the actual protective element 40 conductor valve in series with the same against overvoltages (overvoltage limit) transformer and the fourth contact, which belongs, ignites practically at the same time. These DC control lines for the controlled valves of the half-rectifier bridge, which was previously blocked, are now interrupted in the controlled rectifier bridge and made conductive in both directions of polarity. This is because the controlled valve is in the control circuit. This means that a limiting capacitor is used as an overvoltage control circuit, which voltage limiter is connected to the inverter to be monitored, to a feed rectifier for the pulse amplifier, so that the overvoltage is connected and is rendered harmless when modulating the impulse. Amplifier through the transistor of the output stage

The advantage of this arrangement is that the capacitance of this amplifier is closed, the controlled one

did. the half-controlled 50 valve is ignited on the DC side and the control circuit is switched on.

Rectifier bridge is connected, receives when it is applied, and in that for the pulse switching

When an overvoltage occurs, it is always free of charge and there is a third stage as a second amplifier stage

Her briefly a very effective short-circuit bil- and is provided at the same time as an output stage.

can. The load resistance of this half- based on an embodiment that is shown in

controlled rectifier bridge does not need high-resistance 55 drawing, the following is the

to be mig, which is described in more detail in order to avoid a permanent finding.

Load of the monitored AC voltage by The drawing shows an overall arrangement for

the load resistance in the case of uncontrolled limitation of overvoltages, where the invented

Rectifier bridge would be necessary, but he essential parts of the monitoring body

can be designed with low resistance. The discharge time-60 are strongly identified. This arrangement continues

the duration of the capacity and the time until it is composed of a symmetrically semi-controlled

A rectifier bridge 1 in a Graetz circuit can therefore be used again for the arrangement

may be considerably shortened, or the two controlled semiconductor components 11 and 13,

Capacity can be reduced accordingly. which on the alternating current side to one that is to be monitored

On the other hand, the control resistor of the 65 AC voltage U must be connected and DC

Monitoring body so low-resistance measured side by an ohmic resistor 15 and

that the pulse amplifier is not already charged by the capacitor 16 connected in parallel to it.

Charging current is controlled, which is steady when applying, also from a monitoring body 2, the

is increased by means of a transformer 3 to the same alternating voltage. The so-called self-voltage is connected, an uncontrolled total voltage obtained can be measured at the measuring terminal rectifier bridge 21 as well as a circuit part located at the direct current source 53 with the aid of a suitable measuring instrument at the output of this bridge. Contact 512 is open. Which, as the setpoint / test value comparator (28, 43) 5, of the closed contact 513 is a total output. This nominal-actual value comparator consists of a controlled control circuit 54, which consists of an ohmic voltage divider 28 as 1st semiconductor valve 541 and a control lamp 542 in wcrtgcbcr, which is connected to an AC voltage-controlled rectifier bridge 21 at the direct current output of the series connected is placed, which consists of a separate secondary winding and a Zener diode 43 as a setpoint generator, which between io 34 is removed. The ignition circuit of the valve 541, which is controlled as the tap of the ohmic voltage divider, is connected to the rectifier 41 and the base electrode of the transistor is connected to the input stage 44 when the transistor is controlled. The pulse amplifier 4 of the output stage 46 of the pulse amplifier 4 can include an input stage 44 and closed. The contact 514 separates the ignition devices 45 and 46 which are connected in parallel at the output and include one or, expediently, two transistor amplifiers 15 of the pulse amplifier. An additional amplifier circuits 47, 47 'and 47, 47 "for the controlled stage (output stage 46) can advantageously be provided for valves 11 and 13 from the pulse amplifier 4 ah Total ignition current, approximately at the same time, a short-circuiter, which is to be connected to the timed ignition of several controlled valves in the ao the lead out lines 55, semi-controlled rectifier bridge 1, even if so that the test of the arrangement also with flexible valves require a higher ignition current, tem Pulse amplifier 4 can be made. According to the present embodiment by the test device 5 the Anordbcbeispiel wins at the output of the pulse amplifier 4 voltage the advantage that the level of overvoltage, two ignition circuits 47, 47 'and 47, 47 "for the 25 to which the monitoring device 2 respond and both controlled valves 11 and 13 the half-controlled rectifier bridge 1 current-conducting rectifier bridge 1 connected in parallel. That which should be made can be freely adjusted. Operating current for the pulse amplifier 4 is taken after the test device 5 with rectifier 41 with a downstream filter circuit 42 has been put into operation by means of the switch 51, which is applied to the secondary winding 33 of the 30 as follows: First, the size of the transformer 3 connected. The tapping of the growing AC voltage including the additional voltage divider 28 is set so that the Zener diode voltage is controlled with the help of a measuring instrument connected to the measuring terminals 53 43 when a certain overvoltage is exceeded and through Vernungswcrtes in the Zcncrbruchbruch. set the potentiometer 52. Then the Zener current controls the input stage 44 35, the tap of the voltage divider 28 is so far from the pulse amplifier 4 inertia-free and is readjusted until the pulse amplifier 4 is just controlled sufficiently high by the amplifier stages 45 and 46, which can be seen from the fact that the con-amplifies , so that the two controlled valves 11 trollampe 542 is ignited by the pulse control and 13 and the semi-controlled equalizer output stage 46 and by igniting the judge bridge 1 in both polarity directions 40 controlled valve 541 is connected to voltage and switched to conductive will. thus lights up. After the setting has been made, the test device 5 of the arrangement consists of the contacts 511 to 514 by means of the switch 51 several parts 52 to 58 which are brought back into the rest position by means of four through. The arrangement of a common switch 51 switched at the same time is now ready to respond and is matched to the predetermined two-pole contacts 511 to 514 in function 45 overvoltage response level,
be set. The two contacts 511 and 513 also belong to the test device 5 are each closed and the contacts 512 and adjustable resistor 57 'and 57 "as well as a measuring 514 are opened. The contact 511 switches to the over-resistance 56' and 56" , the alternating voltage monitored in the ignition circuit, which is transmitted by means of the Se- sen .for the half-controlled rectifier bridge 1 secondary winding 32 to the monitoring device 2 50 Measured who-overvoltage), which is connected to the secondary winding to the ignition currents with the help of suitable measuring instruments 35, and of which an adjustable part on a potentiometer, which is removed at the measuring terminals 58 'and 52 to connect to the over-58 " are.

1 sheet of drawings

Claims (5)

a third stage as a second amplifier stage and claims: is also provided as an output stage (46). 1. Arrangement for limiting upper span nungea, which in both polarities of an alternating 5 voltage, especially an inverter voltage, can be superimposed, with a sym- The invention relates to an arrangement metric half-controlled rectifier bridge made to limit overvoltages in both Semiconductor valves, the AC side to the polarities of an AC voltage, in particular AC voltage and DC voltage can be superimposed by an inverter voltage Ohmic resistance with parallel, with a symmetrically half-controlled synchronized Capacitor is loaded, and with a rectifier bridge made of semi-conductor valves that change one Monitoring device that is connected to the AC voltage and DC transformer by means of a current side is connected to the AC voltage on the current side by an ohmic resistor and which is loaded from a further capacitor connected in parallel to it, term, but uncontrolled rectifier bridge and with a monitoring device that by means of a and a transformer connected to the AC voltage at the DC output of this bridge Circuit part with a threshold value is sen and that from another similar, any element exists and that when an over- yet uncontrolled rectifier bridge and a voltage the controlled valves of the semi-controlled 20 located at the direct current output of this bridge There is a rectifier back-up by means of a pulse circuit part with a threshold value element Amplifier ignites at the same time, marked and drawn when an overvoltage occurs through the use of an intermediate valve of the semi-controlled rectifier the DC side of the rectifier bridge at the same time by means of a pulse amplifier bridge (21) of the monitoring body (2) and 25 ignites. the input of the pulse amplifier (4) arranged in particular, the invention relates to the over Neten setpoint / actual value comparator (28, 43), in which the monitoring element of this arrangement, namely the chem is a changeable part of the rectification - twist of a rule technology known per se th AC voltage (V) as the actual value of a Kon device made up of electrical circuit elements constant voltage is connected as the setpoint. 30 for an appropriate functional training of the 2. Arrangement according to claim 1, characterized in such a monitoring body that the response characterizes, that the variable portion of the threshold can be changed over a wide range and rectified AC voltage at a setting of the response threshold in a simple Ohmic voltage divider (28) is tapped and controllable in a manner. with the working voltage of a Zener diode (43) 35 There are arrangements for regulating and constant things will. hold a DC voltage, for example at 3. Arrangement according to claim 1 or 2, characterized by a test device (5) for which can be used, known (German patent specification 1015 905; the setting of the overvoltage response- German patent specification 1 018 515; German interpretation veaues, in which the pulse amplifier ( 4) issued 1 252 304; French patent is controlled by means of four two-pole, 1511143; "Electronik Engineering", 1952, Dec., by a common switch (51) at the same time. Pages 568 and 569; "Electronic Engineering" , 1953, tig switched contacts (511 to 514) in operation May, page 203; "Bulletin SEV", 49 (1958), No. 22, of which two contacts (511 and pages 1083 and 1084). 512) a 45 formed by the transformer (3). Furthermore, arrangements for limiting and changing a direct voltage by means of a potentiometer (52), which are comparable to the additional alternating voltage that can be described at the beginning as an artificial overwritten arrangement, are also known monitored alternating voltage (U) (German patent specification 1 233 055), FIG. 1 and 5, and to connect the third contact (513) an associated description; British Patent Control Circuit (54) with a pilot lamp 50 1044 667, Fig. 1, and related description; (542) and a controlled semiconductor valve USA.-Patent 3 355 650, Fig. 1, 8 and 9, and (541) connected in series to the same Trans- related description). Of these, only the formator (3) can be connected and the fourth contact the (514) described in the German patent specification 1 233 055, the control lines (47 'and 47 ") for the bene arrangement and the valves controlled in the USA patent specification ( 11 and 13) of the semi-controlled arrangements described 55 3 355 650 also interrupts the rectifier bridge (1) for praying 4. Arrangement according to claim 3, thereby become. In the German patent specification 1 233 055 it is indicated that the controlled valve (541) in the z. B. a device for target / actual comparison under control circuit (54) a control circuit using VDR resistors as threshold (543) , which is described on a supply equalizer, in which an AC converter (41) for the pulse amplifier (4) is compared with the knee voltage of a circuit closed by the VDR and compared with the control of the pulse resistors is stärkers through the transistor of the output stage In this device, however, a (46) of this amplifier is not as actual value closed ignited the GC usable portion of AC voltage of this operated valve (541) and the control 65 buckling entgegenschaltbar, and it can the circuit (54) gets switched on. Voltage limitation not even from a specific 5. Arrangement according to claim 1 to 4, characterized th adjustable overvoltage is made effective characterized in that for the pulse amplifier (4). The US Pat. No. 3,355,650