DE20207495U1 - Switched-mode power supply with inputs for at least one primary DC voltage or for at least one primary AC voltage - Google Patents

Description

15889/mj/mi
Utility model application

.Doepke . Schaltgeräte GmbH & Co. KG,
Stellmacherstr. 11, 26506 North

Switching power supply with inputs for at least one primary DC voltage or for at least one primary AC voltage

The invention relates to a switching power supply with inputs for at least one primary direct voltage or for at least one primary alternating voltage and with at least one output for a secondary direct voltage.

The generic power supply unit is intended to provide a direct current for a consumer. If this consumer is, for example, a residual current protection or signaling device that obtains a direct voltage required for active residual current evaluation from a power supply unit, the power supply unit must provide a direct voltage over a very wide input voltage range.

For example, the relevant standards stipulate that an AC-DC sensitive residual current device or signalling device must operate in an input voltage range of 50 to

400 volts AC voltage, both single and multi-phase, must ensure safe operation. The DC voltage required for the evaluation device of the residual current protection or signaling device to function safely must be provided by an integrated power supply unit, which is fed from the load lines to be monitored.

There is also a requirement that the residual current protection or signaling device must respond very quickly during normal operation and when connected to a faulty consumer. For example, a residual current protection or signaling device for protection against direct contact (personal protection) must respond within 40 milliseconds if the residual current that occurs is greater than or equal to 5 times the rated residual current of the protective device. The power supply for such a residual current protection or signaling device must therefore provide the operating voltage for the evaluation device quickly after the input voltage is applied.

Power supply circuits consisting of a transformer, rectifier and a simple longitudinal regulator are known from "Semiconductor Circuit Technology", Tietze, Schenk, 10th edition, p. 542ff. However, these circuits have two disadvantages: Firstly, the efficiency is low due to the use of a simple longitudinal regulator and the

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transformer is low and secondly the variation range of these power supplies is l,x : 1 (they do not reach 2:1). The variation range indicates the ratio of the highest input voltage to the lowest input voltage at which the required output voltage value is still provided.

Switching power supplies that work according to the flyback converter or forward converter principle are known from Tietze, Schenk. These power supplies have the advantage of being relatively efficient. The disadvantage of these "normal" switching power supplies, in relation to the requirements of a residual current protection or signaling device, is the small range of variation. Switching power supplies with a maximum input voltage range of 4:1 (mostly in the range of single-phase voltage "230Vac" e.g. 85Vac to 264Vac) are also state of the art. Switching power supplies that only work in the range of multi-phase voltage ("4 00Vac").

However, the residual current protection or signaling device must operate at an input voltage of 50Vac (touch voltage limit) to 400Vac (+ 10% expected overvoltage). This corresponds to an input voltage range of 9:1.

The invention is based on the object of providing a power supply unit of the type mentioned at the beginning, which in single or multi-phase operation can generate a direct voltage

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over a wide input voltage range.

This object is achieved according to the invention in that the actual switching power supply is designed for a defined input voltage range and that the actual switching regulator of the switching power supply and a voltage-controlled longitudinal regulation circuit are connected in series.

The voltage-controlled longitudinal regulation circuit forms a multiphase circuit extension, which enables the switched-mode power supply to be operated with higher input voltages, e.g. through a multiphase connection, without exceeding the breakdown voltage of the switching regulator. This advantageously achieves a variation range of > 10:1. An upper limit of the input voltage is determined by the dielectric strength of the components used.

For example, it is intended that the voltage-controlled longitudinal regulator is low-impedance, i.e. conductive, up to an input voltage of approx. 160V. The power losses up to this voltage level via the voltage-controlled longitudinal regulator are not high, since the longitudinal regulator is low-impedance and therefore only a very small voltage drop is generated across it.

If the voltage rises above 160 volts, for example, two switching states are set by the switching function of the voltage-controlled longitudinal control. These

Switching states are set depending on the switching state of the switching regulator of the switching power supply.

A switching power supply works according to the following principle: A DC voltage is chopped, transformed and rectified again using a switching regulator with a frequency above the audible range. The switching regulator has two states for chopping the DC voltage:

In one state, the switching regulator of the switching power supply switches. In this case, the voltage-controlled longitudinal regulation is low-impedance and a current can be passed through the switching regulator of the switching power supply.

In the other state of the switching power supply, when the switching regulator has its current flow break, the voltage at the switching regulator is set by the voltage-controlled series regulation circuit so that the breakdown voltage of the switching regulator is not exceeded. This value is limited by a Zener diode and a resistor contained in the series regulation circuit to prevent the switching regulator from being destroyed. There is almost no power loss at the series regulator because only a very small current flows.

According to a further development of the invention, it is provided that the switching power supply has at least one rectification module on the input side. With this module, input alternating voltages can be rectified and thus fed to the switching power supply.

Preferably, at least one overvoltage protection module is arranged in the line path before or after the rectification module, with which the subsequent circuit is protected against transient overvoltages.

Furthermore, at least one smoothing module can be arranged in the line path between the rectification module and the longitudinal control circuit, with which the pulsating direct voltage is smoothed. This module can also ensure EMC protection so that the interference and the clock frequency of the switching power supply are not radiated via the mains supply.

An embodiment of the invention, from which further inventive features emerge, is shown in the drawing. They show:

Fig. 1 shows a schematic structure of a switching power supply according to the invention, and

Fig. 2 a circuit diagram of the switching power supply according to Fig. 1

The switching power supply 1 in Fig. 1 is inserted into a line path to which an alternating voltage with the phases L1 to L3 and neutral conductor N is applied on the input side and from which a direct voltage +UB is taken on the output side.

The switching power supply 1 has a transformer 2 and

has on the primary side of the transformer 2 a

voltage-controlled longitudinal regulation circuit 3, which prevents the breakdown voltage (arrow 6) of a switching regulator 5 from being exceeded. A control module 4 is assigned to the longitudinal regulation circuit 3. Furthermore, a switching regulator 5 of the switching power supply .1 is connected downstream of the longitudinal regulation circuit 3.

The switching regulator 5 is connected to the secondary side of the transformer 2 via a line 7, whereby the connection is made to a rectification and smoothing module 8.

A rectification module 9, an overvoltage protection module 10 and a smoothing module 11 are arranged in the electrical line path upstream of the switching power supply 1.

The switching power supply 1 works with the upstream rectification module 9 even if only two of the active supply lines of the mains supply carry at least 50Vac. For example, Ll with N > 50Vac is sufficient. The switching power supply 1 works with the upstream rectification module 9 even if all active supply lines of the mains supply carry voltage.

Fig. 2 shows a circuit structure of the switching power supply according to the invention.

Claims (8)

1. Switching power supply with inputs for a primary direct voltage or for at least one primary alternating voltage and with at least one output for a secondary direct voltage, characterized in that the actual switching power supply ( 1 ) is designed for a defined input voltage range and that the actual switching regulator ( 5 ) of the switching power supply ( 1 ) and a voltage-controlled longitudinal regulation circuit ( 3 ) are connected in series. 2. Switching power supply according to claim 1, characterized in that the actual switching power supply ( 1 ) is designed for an input voltage range of approximately 50 Vac to approximately 160 Vac. 3. Switching power supply according to claim 1 or 2, characterized in that it has at least one rectification module ( 9 ) in the conduction path. 4. Switching power supply according to one of claims 1 to 3, characterized in that the switching power supply ( 1 ) is integrated into a residual current protection and/or signaling device. 5. Switching power supply according to one of the preceding claims, characterized in that at least one control module ( 4 ) is assigned to the longitudinal control circuit ( 3 ). 6. Switching power supply according to one of claims 2 to 5, characterized in that at least one overvoltage protection module ( 10 ) is arranged in the line path between the rectification module ( 9 ) and the longitudinal control circuit ( 3 ). 7. Switching power supply according to one of claims 2 to 6, characterized in that at least one smoothing module ( 11 ) is arranged in the line path between the rectification module ( 9 ) and the longitudinal control circuit ( 3 ). 8. Switching power supply according to one of the preceding claims, characterized in that it has a rectification module ( 8 ) on the output side.