DE2020095C3 - Circuit arrangement for controlling the electronic circuit breakers of DC voltage dividers or converters regulated according to the switching regulator principle - Google Patents

Description

Voltage to the base of one of the two power transistors is given. Both power transistors work in push-pull

With this principle of the release of the half-waves of the alternating control voltage, which is addressed therein the half-wave released by a control intervention can no longer be stopped. This can there is an additional dead time.

The invention is based on the task of a Realize circuit arrangement of the type mentioned first with simpler means. The solution is there in that the control path of each circuit breaker on the one hand to a tap on the secondary winding of the Control transformer and on the other hand via a series resistor to one end of this secondary winding is connected and the transistor or thyristor arrangement in parallel to that with the series resistor connected connection of the control path of the circuit breaker and the tapping of the secondary winding of the control transmitter is connected in such a way that when conducting the transistor or thyristor arrangement that given off by the winding part between the tap and the other end of the secondary winding Voltage is present as reverse voltage on the control path of the circuit breaker. The advantage of the invention is compared to the version known from US-PS 34 08 553 is that the control terminal of the circuit breaker required to block it without the aid of a additional DC voltage source is generated by the driving half-wave itself. aside from that the modulating switching elements are only loaded with the control voltage and the control current of the circuit breaker Circuit breakers offer an asymmetrical control voltage or only one of two half-waves and still maintain the electrical isolation of the control circuit.

The invention is explained with reference to the figures and the associated description below

F i g. 1 shows a diagram for a DC voltage divider regulated according to the switching regulator principle without galvanic isolation,

F i g. 2 a scheme for a switching regulator principle regulated DC voltage converter with galvanic isolation in mid-point connection,

F i g. 3 a scheme like F: g. 2, but in bridge circuit,

F i g. 4 shows an exemplary embodiment of a modulator circuit for a circuit arrangement according to the invention with two half-waves shifted by 180 ° pulse width for controlling a DC voltage divider or converter according to FIGS. 1 and 2,

5 shows a special embodiment of a modulator for controlling a DC voltage divider according to Fig. 1,

6 shows an embodiment for one or several voltage converters according to Fig. 2 with actuators acting in parallel,

F i g. 7a the non-modulated control voltage,

F i g. 7b a control voltage from which a half-wave is modulated (control according to FIG. 2),

F i g. 7c a control voltage in which both half-waves are modulated for control according to FIG. 1.

In the longitudinal branch of FIG. 1, a switching transistor T which chops the input DC voltage LJi is provided as an electronic power switch, which is controlled by the voltage differences between a nominal voltage and the voltage LJ2 at a load resistor (not shown). In series with this switch is a storage inductance L. A diode D is switched on as a cross member with its one pole at the connection point inductance L and switching transistor T in such a way that the diode is in the blocking range when the transistor switch is closed and due to the back EMF when the switch is open Inductance is in the pass band. The circuit arrangement mentioned also contains a filter capacitor Q which serves to suppress the alternating voltage components that arise as a result of the periodic switching on and off

As can be seen from the following figures, the control connections for the circuit breakers are denoted by el, 2 and bi, 2 in the control part St. 4—6 can be seen, the terminals zi, ζ 2 the connections for the input winding of an ignition transformer LJz. The control section St and the control amplifier R V can of course also be combined in one component. The F i g. 1 is merely an example, as indicated by the feedback via the variable gain amplifier to influence the control part takes place, the power switch T is turned on in this manner by means of a pulse width modulated control voltage so that after the filter element LC a constant output voltage U2 sets

In contrast to FIG. 1 shows the Fig. 2 a scheme for a regulated DC voltage converter. The main difference is that in FIG. 2 two power switches Ti, T2 are available, which alternately switch pulse-width-modulated half-wave voltage to the primary winding of the power transformer Tr , and that the output winding of the transformer, galvanically separated via the rectifier diodes Di, D2 and the filter element LC, generates a constant output voltage t / 2 Diode D 3 corresponding to the diode Din in FIG. 1 as a freewheeling diode, provided that this function is not performed properly by the diode Di, D 2.

As shown in FIG. 3, the power output stage is constructed in a bridge circuit with the transistors Ti to T4 and the power transformer Tr . Each of the output stage transistors can be assigned a Darlington circuit driver to amplify the control signal in the control part Si. The Darlington transistors and thus the power transistors are alternately driven diagonally in pairs. The driving is preferably carried out by two Darlington stages with the full half-wave and the two other Darlington stages with the pu'swidth-modulated half-wave. Since the power transformer Tr only input voltage when a diagonabs transistor pair is conducting is determined at the output of the power transformer Tr by the pulse-width-controlled Darlington the pulse width modulation of the driving voltage is an AC voltage, whose half wave pulse width changes at the output depending on the magnitude of the DC voltage This AC voltage is rectified and integrated and screened via a downstream LC filter element.

The Fig. 4 to 6 show the internal circuit of the control part. In these figures, G denotes a control generator, which preferably consists of an inverter equipped with transistors, which can be fed back. With LJg is the transformer for the

Output voltage of the control generator and Uz denotes the transformer for the ignition voltage to block the power switch. The thyristors 51 ... act as modulators in conjunction with a series resistor r \ ... rn or r, / - ".

From Fig. 4 to 6 the galvanic separation can also be seen. The control generator G hangs in terms of potential at the input. The control voltage is in terms of potential at the control inputs of the power switch and the control amplifier and modulator, in terms of potential at the output, galvanically separated by the transformer Uz and from the input by the transformer Ug. If square-wave voltage (see F i g. 7a) at the output winding of the transformer Ug in the gating ligand direction is applied (k \\ z. B. the circuit breaker Ti upper is turned on the resistor RL. If during this, by controlling timing of an ignition pulse top the ignition transformer Uz and the resistor rz is applied to the gate input of the thyristor _{switch or control thyristor 51 1} , then it ignites, switches through and short-circuits the control voltage of the control generator. At the same time, when the control thyristor is switched through, a blocking voltage is applied to the base input of the Darlington stage, not shown is generated by the fact that the control thyristors do not short-circuit to the emitter potential of the Darlington stage (kl), but to a blocking potential which is tapped at control windings ^ Jt 3). This blocks the Darlington stage and the current flow of the circuit breaker is interrupted. The Darlington stages that are not activated receive blocking voltage from the control windings via base resistors for the duration of the entire half-wave. A part of the half-wave transmitted to the output of the control part is cut off, as shown in FIGS. 7b and 7c can be seen.

The F i g. 4 shows an embodiment of the modulator circuit with two half-waves shifted by 180 ° pulse width. Provided that the windings I and II have the same poles at the ends marked by dots, the shift takes place by 180 °. The ignition pulses are offered simultaneously, with that switch S 1 not being ignited.

which just has a negative anode voltage. When the control voltage is short-circuited by the thyristor switch 51, the blocking potential of Ar 3 is applied to ύ 1. As a result, the control voltage bi, ei appears reversed in the reverse direction. When the potential changes in the next half-wave, the thyristor switch 51 extinguishes. The normal blocking potential is then across the resistor r 1 at the terminal b 1. The processes on the transformer winding 1 are accordingly! 180 ° out of phase.

The Fi g. 5 shows a special embodiment of the control part, the mid-voltage being fed to terminals b 1, 2. The control voltage is therefore in the open state via the diodes i / l, Dl and the resistor r positive at the terminals b 1, 2 The thyristors Jl, 52 are blocked If a thyristor 51 or 52 is ignited, then the voltage «; · divider ratio of the resistance: r.'r ' the emitter connection el, 2 shifted so far in the positive direction that the control voltage b 1, 2Ie 1,2 reverses the polarity. The blocking voltage is determined by the ratio of the resistors r / r' . When the polarity is changed, the corresponding thyristor 51/52 extinguishes and terminal b.'e receives control voltage again.

FIG. 6 shows an application of the circuit arrangement according to FIG. 4 with multiple outputs. The extension refers to the output: - windings of the transformer Ug and the associated modulator components.

The invention is not restricted to the exemplary embodiments or application examples described and shown. Instead of a thyristor, a field effect transistor can of course also be used. In this case, the transformer Uz must be able to fully transmit the square wave voltage.

Instead of a thyristor with galvanically separated control or a similar semiconductor arrangement can also be a known light-controlled semiconductor device, for. B. the combination of a light emitting diode and a light-controlled transistor bwz. Thyristor, can be used. The galvanic Separation in this case is caused by the transmission of light

For this purpose 3 sheets of drawings

Claims (1)

Claim: Circuit arrangement for controlling the electronic circuit breakers of DC voltage dividers or converters regulated according to the switching regulator principle, with a control generator serving to control the electronic circuit breakers ^{via a control transformer, which supplies a symmetrical square-wave alternating voltage, | 0} which is pulse-width modulated via a regulating and control part and from of each half-wave aufsteuert a the regulating and control part downstream circuit breaker, each aufsteuernde half-wave is terminated by means of a group consisting of a transistor or ^'5 thyristor modulator part dependent on the influence of the control arrangement in its duration by turning on the transistor or thyristor, while a Blocking voltage is applied to the control path of the respective conducting power show and this circuit breaker is blocked as a result, characterized in that the control path of each circuit breaker (T ₁ Ti, to 74) ei on the one hand to a tap (kl) of the secondary winding of the control transformer (Ug) and on the other hand via a series resistor (ri, r2 to rn, r, r ") to one end of this secondary winding and the transistor or thyristor arrangement CThyristors 51, 52) parallel to the connection (b 1, b2 to bn) connected to the series resistor for 1, - «/ * 2 to rn, r, if ) of the control path for the lever switch (T, Tt to 74) and the tap (k3) the secondary winding of Steuerübertragers (Hg) is connected, such that when passing the transistor or - ¹⁵ thyristor (SCR 51, 52) to that of the coil portion between the tap (k2) and the other end of the secondary winding output voltage as a reverse bias to Control path of the circuit breaker (T, Ti to 74) «is present 45 As is known, a control device with a switched actuator is referred to as a switching regulator Switch, the control element of the controller, can only assume two states. Either it is closed (Transistor conducting) or it is open (transistor so locked). The so-called switching regulator principle is based on the averaging of successive DC voltage pulses with constant pulse or pause length and variable frequency (frequency modulated) or variable pulse length and constant frequency (pulse width modulated). This well-known principle applies to both regulated DC voltage dividers without galvanic isolation between input and output as well as regulated DC voltage converters with galvanically isolated «> Output applicable. A DC voltage divider is to be understood as meaning a circuit arrangement that starts with With the help of a switched actuator, a larger input voltage to a smaller output voltage With a DC converter, on the other hand, one describes a self-contained assembly, with the help of a switched actuator, an input voltage through the use of a transformer converts it into a galvanically isolated, possibly also higher DC voltage the electronic circuit breaker, preferably transistors, with different pulse-pause ratios can only be galvanically isolated from the input or output circuit under very unfavorable conditions be performed. However, this is the case with DC voltage dividers with a high input voltage Dielectric strength of the control transistors advantageous and with DC voltage converters with any Output potential is practically necessary. The invention relates to a circuit arrangement for controlling the electronic circuit breaker of DC voltage controllers regulated according to the switching regulator principle or converters, with one for controlling the electronic circuit breaker via one Control transmitter serving control generator, which supplies a symmetrical square-wave alternating voltage, the is pulse width modulated via a regulating and control part and each half-wave is one of the regulating and Controlled downstream circuit breaker opens, with each open half-wave with HiVe a modulator part consisting of a transistor or thyristor arrangement regardless of the influence the duration of the level arrangement is ended by switching the transistor or thyristor arrangement on and at the same time a reverse voltage to the control path of the respective conductive circuit breaker placed and this circuit breaker is blocked. Mainly used as circuit breakers Power transistors and thyristors in Question. From US-PS 3408553, such a circuit arrangement for controlling the electronic circuit breaker of DC-DC converters regulated according to the switching regulator principle is known.In this known circuit arrangement, each Aufsteuemde half-wave with HiIK, a modulator part consisting of a transistor or thyristor arrangement, depends on the influence of the control arrangement in its duration By making the transistor or thyristor arrangement conductive, a blocking voltage is applied to the base of the transistor serving as a power switch, thereby blocking the power switch. For this purpose, a thyristor or a transistor with an upstream Graetz bridge short-circuits the control voltage source via the magnetic coupling of the control transformer. From this moment, the DC voltage source in the control circuit supplies reverse voltage to the base terminals of the switching transistors In US-PS 33 24 377 a circuit arrangement for controlling the electronic circuit breaker is described a DC / DC converter regulated according to the switching regulator principle, for the control the power switch consisting of transistors, a control generator is provided, which has a Regulation and control section supplies galvanically separated, symmetrical square-wave alternating voltage, which is pulse-width-modulated will. In this known arrangement, a reverse voltage is generated by means of the tapped secondary winding of the control transformer on the base circuit of the power transistors made available until during a half-wave an associated thyristor is ignited in the control section, via the aufsteuemde