DE2634193A1 - TIMED POWER SUPPLY - Google Patents

Description

AKTIENGESELLSCHAFT _ 3 ^ Our reference Berlin and Munich VPA 76 P 3159 BRD

Clocked power supply

The invention relates to a clocked power supply unit with a converter, its primary winding via at least one periodically controllable transistor with a DC voltage source and its Secondary winding via a converter valve and a smoothing filter is connected to output terminals, where appropriate, each transistor together with the primary winding and the Smoothing filter together with the output terminals of one each Freewheeling diode are bridged.

Such clocked network devices are from the IBM Technical Disclosure Bulletin, Volume 17, No. 7, pages 1996 and 1997 or the Valvo Report, Volume XIIX, Issue 1/2, pages 143 to 154. Such power supplies working on the principle of the forward converter have, compared to conventional power supplies, the Mains transformer, rectifier circuit and a regulated Actuator are constructed, the advantage that the large and heavy power transformer and the considerable cooling costs for the There is no actuator, which is generally a series regulator and that the efficiency is improved. From the above Literature references are also known, clocked power supply units that work according to the flyback converter principle, compared to conventional ones Power supply units also have the advantages listed. On the one hand, it has that which works as a flyback converter Power supply has better dynamic properties in terms of regulation, but is also a relatively low power range assigned, while on the other hand with the flow

Soe 21 Shu / July 20, 1976 709885/0338

- * - 7BP 3 159 BSO

converter power supply unit, there are no special requirements to be placed on the scattering of the converter or the impedance of capacitors in the smoothing filter and this power supply unit is also suitable for higher output powers. With the forward converter as well as with the flyback converter power supply unit, however, the voltage stabilization is worse than with conventional power supply units, which has an effect especially with continuously adjustable output voltage, possibly in connection with constant output power.
10

The object is to design a power supply of the type mentioned with simple means so that an output voltage high stability is continuously adjustable.

According to the invention, this object is achieved in that the converter valve connected downstream of the secondary winding is a controllable one The converter valve is controllable as a function of the output voltage and possibly the output current is.

In the power supply unit according to the invention, a phase control of the secondary voltage of the converter takes place as a function of the comparison the output voltage and, if necessary, the output current with specified setpoints. This is advantageously suitable as a controllable The converter valve is a thyristor, as this occurs when the transistors in the primary circuit of the converter are switched off because of the Immediately demagnetization of the primary winding via the freewheeling diodes locks. With this phase control, the output voltage can be adjusted with high stability and also with constant Adjust output power continuously, whereby both positive and negative output voltages can be realized and It is also possible to regulate the output voltage to values down to zero. The above advantages of the flow converter power supply remain with the power supply unit according to the invention.

Because of the simple, fast and stable regulation, the advantages of the forward converter and the flyback converter power supply are combined. In addition to these advantages, the low cost of power components and the high efficiency of the power supply unit according to the invention should be emphasized, which is 60 to 70 %

709885/0338

as tests have shown.

It is advantageous to connect the output terminals with a thyristor bridge. This thyristor can be ignited in the event of an overvoltage, which provides an effective overvoltage protection in a simple manner for the load supplied by the power supply unit.

In the following, the power supply unit according to the invention is explained in more detail by way of example with reference to FIGS. 1 and 2.

Figure 1 shows the schematic circuit diagram of an inventive Power supply. A rectifier 1, which is shown schematically as a diode in the exemplary embodiment, is connected to terminals 2 AC or three-phase network connected. A smoothing capacitor 3 is connected downstream of the rectifier 1. The rectifier 1 is connected as a DC voltage source via the input terminals 4 to transistors 5 and 6, which the primary winding 7a one Converter 7 is connected downstream, which is used for galvanic isolation. A clock generator is used to control transistors 5 and 6 8, the high-frequency output signal of which via the indicated lines 9 of the base of each transistor 5 and 6 is fed. The frequency of the output signal of the clock generator can be approximately 20 kHz. For demagnetization of the transformer »7, the freewheeling diodes 10 and 11 are provided, with which the primary winding 7a of the converter 7 and one of transistors 5 and 6 are bridged.

The secondary winding Tb of the converter 7 is controllable with a Connected converter valve 12, which is a thyristor in the exemplary embodiment. The controllable converter valve 12 is a Downstream smoothing filter 13, which in the exemplary embodiment is a low-pass filter as an LC filter with a choke 14 and a capacitor 15 is realized. The smoothing filter 13 is bridged by a freewheel valve 16. Between smoothing filter 13 and the output terminals 17 of the power supply, to which a load is connected, is a current transformer 18 and as a sensor for the output voltage a resistor 19 is inserted. The current transformer 18 and the sensor 19 serve as an actual value transmitter for the output current and the output voltage. In the exemplary embodiment

709885/0338

3 ί 5 9 FRG

the smoothed output current is used as the actual value. In a modification the unsmoothed output current can also be used as the actual value. The current transformer 18 is then immediately after the throttle 14 to be inserted into the LC element. You are on lines 20 and 21 are connected to the inputs of a controller 22, which is given a setpoint value via a terminal 23. An exit line 24 of the regulator 22 is connected to the control electrode of the controllable converter valve 12.

In the exemplary embodiment, the output terminals 17 are also bridged by a thyristor 25, whose control electrode is also bridged is connected to an output of the controller 22 via a 26-bit line.

The mode of operation of the power supply unit according to the invention is explained in more detail using the diagram in FIG. 2, in which the voltage U ₁ at the secondary winding 7b of the converter 7, the voltage Up at the input of the smoothing filter 13 and the output voltage U _A at the terminals 17 over time t are applied.

In the power supply unit according to the invention, the line voltage is rectified by the rectifier 1 and by the transistors 5 and 6 chopped up. When the transistors 5 and 6 are switched on, the rectified input voltage is applied to the primary winding 7a of the converter 7. After the transistors 5 and 6 have been switched off, the polarity of that applied to the primary winding 7a changes Voltage around and the converter 7 is magnetized via the freewheeling diodes 10 and 11. The demagnetization energy is thereby fed back into the smoothing capacitor 3. The freewheeling diodes 10 and 11 prevent the increase in the transistors 5 and 6 lying reverse voltage over the rectified mains voltage.

The transistors 5 and 6 are controlled by the clock generator 8, the clock generator 8 having a switching stage for current limitation can be connected downstream with which the effective value of the input current and the peak value of the pulse current are limited. In order to the power supply unit is short-circuit proof. For the clock generator, a fixed clock ratio, advantageously a clock ratio of approx. Elected 1: 1.

709885/0338

In the power supply unit according to the invention, the output voltage tL · is regulated with the controllable converter valve 12. During the switch-on time of the transistors 5 and 6, the positive voltage U ₁ , which is applied to the secondary winding 7b, appears at the anode of the controllable converter valve 12 U ₂ at the input of the smoothing filter 13. When the transistors 5 and 6 are switched off, the voltage U ^ changes over immediately because of the demagnetization of the converter 7, which also leads to an immediate blocking of a thyristor as a controllable converter valve 12. Separate quenching devices for a thyristor as controllable converter valves 12 therefore do not need to be provided. The output current can continue to flow via the choke 14, which can for example be a non-linear storage choke, the capacitor 15 and the freewheeling diode 16 during the switch-off time of the converter valve 12. The ignition time of the converter valve 12 in each positive half-wave of the voltage U ^ is specified by the controller 22 as a function of the output voltage and possibly the output current. As a result, the switch-on / switch-off ratio of the voltage U _{2 is specified and the output voltage U A} , which is mean-value smoothed with the smoothing filter 13, is precisely regulated. The following relationship is obtained for the output voltage U _A:

^U E ' ^£

A _N

where U ^ the regulated output voltage, υ «the. rectified input mains voltage, N is the turns ratio of converter 7, At is the switch-on time of the converter valve and f is the clock frequency of clock generator 8.

_{This gives a regulated DC voltage U A} at the output from the square-wave voltage U ₂ via the controllable converter valve 12 and the mean value smoothing with the smoothing filter 13, which is continuously adjustable. In addition, the load current can be limited in such a way that a constant, maximum output power is not exceeded for each set output voltage. For this purpose, the current transformer 18 is received as an additional actual value

709885/0338

The measured value is fed to the controller 22, which is connected to a subordinate controller circuit carries out a voltage-dependent current limitation. In the exemplary embodiment, there is also provision in the controller 22 carry out overvoltage monitoring. When this overvoltage monitoring responds, the thyristor 25 acts as a short-circuiter ignited and thus obtained a simple overvoltage protection for the downstream load. At the same time, a Blocking line, not shown, of the regulator 22 can be locked.

It should also be mentioned that single-ended and push-pull converters can be used in the power supply unit according to the invention, but in each case a fixed switch-on and switch-off time ratio, preferably a pulse duty factor of approx. 1: 1, is to be provided. aside from that can have multiple units, such as those of the primary winding 7a of the converter 7 is connected upstream, connected in parallel and synchronized with each other.

The exemplary embodiment according to FIG. 1 also shows that a second output unit, as already described above, can be connected via a second secondary winding 7b 'of the converter 7. This enables positive and negative output voltages that are independent of each other to be achieved. Furthermore, an output unit can be connected in which a further secondary winding 7b ″ sin uncontrolled converter valve 27, a smoothing filter 13 ^fl and a free-wheeling diode 16 ″ are connected downstream. Such a starting part is known from the literature references mentioned above. An unstabilized output voltage can be tapped at its output terminals 17 ″.

In summary, it can be stated that with the power supply unit according to the invention, galvanically separated inputs and outputs are obtained, The output voltage can be adjusted as required even with a constant output power and several stabilized from each other can receive independent positive and negative output voltages. The power supply has a simple, fast and very stable control circuit and a very high efficiency and can be realized with a low power component outlay. It should be emphasized that both an auxiliary power supply for the power supply unit and the mains transformer are not required. Closing

709885/0338

TBP 3 f 5 9 SRD

borrowed is to mention that in addition to the stabilized, from each other independent output voltages also unstabilized from each other independent output voltages can be obtained.

3 claims
2 figures

709885/0338

Claims (3)

76P3T59BRD claims 1./ Clocked power supply unit with a converter, its primary winding via at least one periodically controllable transistor with a DC voltage source and its secondary winding a converter valve and a smoothing filter are connected to output terminals, each transistor optionally together with the primary winding and the smoothing filter together with the output terminals of one free-wheeling diode each are bridged, characterized in that the converter valve connected downstream of the secondary winding (7b) is a controllable Converter valve (12) which can be controlled as a function of the output current and the output voltage (U ^). 2. Pulsed power supply according to claim 1, characterized in that the controllable converter valve (12) is a thyristor. 3. Clocked power supply according to claim 1 or 2, characterized in that that the output terminals (17) are bridged with a thyristor (25). 709885/0338 ORIGINAL INSPECTED