DE3437031A1 - Uninterruptible AC power supply - Google Patents

Abstract

The uninterruptible AC power supply contains a rectifier (4), to whose input an AC voltage is applied, a filter device, a DC/DC converter (5) and an inverter (6) at whose output the AC voltage is emitted. The output of the DC/DC converter (5) is connected in series with the filter device in order to obtain DC voltage at the input of the inverter (6), which DC voltage is higher than the peak values of the input and output AC voltages. <IMAGE>

Description

PRINZ, LEISER, BUNKE &. PARTNER

P; itf nt.iMwalte. Fljircipf-'in P-ilc.wM "'At" K «i (; y:>

Munich "Stuttgart"

3.

ATELIERS D'ELECTRONIQUE October 9, 1984

ET D'AUTOMATISME A.E.A.

46, rue du Marechal Leclerc

27700 Les Andelys / France

Our reference: A 1930

Uninterruptible AC power supply

The invention relates to an uninterruptible AC power supply.

Numerous electronic devices must be fed by a reliable, sinusoidal supply voltage, in which no vibration trains should be missing. The ones from the AC network AC voltage supplied generally does not meet this requirement. The electrical power supply for such electronic devices is therefore mostly made from AC power supplies, the output side provide a sinusoidal supply voltage, which with that of the network is completely identical, but in which there are no losses of oscillation trains.

The currently available power supplies of this type are essentially formed from an inverter on whose Input terminals an AC / DC converter and a battery are connected in parallel. the

Batteries that are commonly used supply, for example, a voltage of 48 or 100 volts and are permanently on the connections of the inverter are connected. To adjust the tension between the various elements AC transformers are used to produce an AC voltage that corresponds to the mains voltage at the output provided at the input of the converter and at the output of the inverter. The currently available uninterruptible AC power supplies

, Q therefore have various defects. You are particular heavy and bulky, especially due to the use of AC transformers, which in general are designed for 50 Hz. There is also a risk of battery overload due to the way they are

-P- is connected. Namely, the battery charging current depends on the output power, because it is the difference between the maximum current that the converter can deliver and the power consumed by the inverter. In addition, the overall efficiency is poor.

The invention is based on these deficiencies

to remedy this and to create an uninterruptible AC power supply, which is particularly light and space-saving and has a good overall efficiency.
25th

The uninterruptible AC power supply according to the invention contains a rectifier, the input of which is supplied with an alternating voltage, a screening device,

a DC / DC converter and an AC 30

judge, the output side an uninterruptible Outputs AC voltage, and is characterized in that it further includes means for at the input of the inverter to get a DC voltage that is higher

than the peak values of the input and output 35

side alternating voltages.

Further features and advantages of the invention emerge from the following description of exemplary embodiments and from the drawing. In the drawing show:

Fig. 1 is a block diagram of a conventional one

uninterruptible AC power supply; ·

Fig. 2 is a block diagram of an uninterruptible alternating current according to the invention

care;

FIG. 3 shows different circuit arrangements of the uninterruptible shown in FIG. 2 AC power supply; and

Fig. 4 is a signal diagram showing the signals sent to the gates

shows the control voltage applied to the switching transistors of the inverter.

In the following description, a sinusoidal one is used as an example Effective voltage of 220 volts assumed at a frequency of 50 Hz, corresponding to the values more common AC networks. However, other voltage and frequency values can just as well apply.

The conventional uninterruptible power supply shown in Fig. 1 is composed of an AC / DC converter 1, which contains the

3Q converted 220 volts alternating voltage into a direct voltage of converts about 50 volts. At the output connections of the converter 1, an inverter 2 is connected, which from the DC voltage applied to its input connections has an AC voltage of 220 volts on the output side and

gg 50 Hz generated without interruption.

As shown schematically in FIG. 1, the inverter used preferably contains a bridge circuit

four switching transistors Q ^, Q ₂ , Q ₃ , Q ₄ , the function of which will be described in detail with reference to FIG. _{A transformer T 1 is} connected between the AC connections B and D of the bridge, through which an AC voltage of 220 volts and 50 Hz is obtained from the DC voltage via a filter circuit. In the embodiment shown, the filter circuit is formed by a choke L ₁ connected in series with the secondary side of the transformer T .. and a capacitor C ₁ , which is connected in parallel between the choke L. and the other terminal of the secondary winding of the transformer T ₁ is. The transformer T _{1 used} is of a 50 Hz type, which has the disadvantage that it is very space-consuming.

A battery 3 with a voltage of, for example

48 volts is continuously connected between the input connections of the inverter. The only function of this battery is to bridge a power failure. _on However, since the battery remains permanently connected, it is operated under unfavorable conditions, as described in more detail at the beginning.

Referring now to Figures 2 and 3, a

Uninterruptible AC power supply described, 25

by which the shortcomings of the AC power supply of Fig. 1 are eliminated.

This AC power supply according to the invention, which is shown in Fig. 2 is shown, contains as essential components a rectifier and filter device 4 through the one from a 220 volt alternating voltage from the network DC voltage of at least 280 volts, but generally a DC voltage of about 310 volts, obtained

connected to a DC / DC converter 5 35

is applied, which supplies a DC voltage of about 50 volts on the output side. According to the invention is the Output of the converter 5 in series with the screening device

switched so that a DC voltage of at least 330 volts is obtained at the output terminals EF. An inverter 6 is connected between the connections E and F and is formed in a manner similar to the inverter 2 according to FIG. 1 by a bridge circuit comprising four switching transistors Q ₁ , Q ₂ , Q and Q. However, since the DC voltage applied to the input of the inverter is selected in such a way that it corresponds directly to the AC voltage which is to be obtained on the output side, it is no longer necessary to connect a transformer between the AC connections B and D of the bridge. A filter circuit comprising a choke L ₂ in series with a capacitor C ₂ is connected between the connections B and D in order to obtain the desired alternating voltage _{at the connections G and H of the capacitor C 2.}

A battery 3, which is, for example, a cadmium-nickel battery, is via an interrupter K is connected between the input terminals A and C of the inverter. The breaker K is only closed in the event of a power failure. It is also a constant current source GI intended for battery charging and connected to the terminal plus of the battery 3 to open when the Interrupter K to ensure battery charging.

As shown in detail in FIG. 3, the rectifier and filter circuit is constructed from a conventional bridge circuit with four diodes D ₁ , D ", D ^, D ₄ . the

OQ AC mains voltage is applied to connections A ¹ and C of the bridge circuit via a noise filter 7 and a fuse f. The noise filter 7 is. formed in a known manner from two chokes L and L ¹ , each in series with an input terminal of the equal

gg are connected to the rectifier bridge, as well as two capacitors C, C, which bridge the input ^{connections on one or the other side of the chokes L, L 1.} Further

two capacitors C ", C" are provided, each connecting an input terminal to ground.

The voltage obtained at the connections B ¹ and D ^{1 of} the rectifier bridge is filtered by the filter capacitor C ₃ , which is connected in parallel between the connections B 'and D ¹ . A DC voltage of approximately 310 volts is thus obtained at the output of the rectifier and filter circuit.

This voltage is applied to the input of a direct current / direct current converter 5 which, in the embodiment shown, is designed as a rollback oscillator. This converter contains in a known manner a switching transistor Q _{5 of} the NPN type, which is connected in series with the primary side of a transformer T ^ between the terminals B 'and D ^{1 of} the rectifier and filter circuit, and a rectifier on the output side, the is connected to the connections of the secondary side of the transformer T ₂ and consists of a diode D ₁ -. which is in series with one of the secondary connections, and a capacitor C. which is connected in parallel between the cathode of the diode D ₁ - and the other output connection of the secondary side. The base of the transistor Q ₅ is connected to a control circuit 8, which ensures _{the blocking or activation of the transistor Q r.} While the transistor Q, - conducts, the energy is stored in the primary winding of the transformer T_ and then during the blocking of this transistor on the secondary

OQ side of the transformer to generate a DC voltage of about 50 volts at the terminals F and I of the capacitor C ₄ , the value of which depends on the various components from which the converter is formed.

O ₅ To facilitate the switching of the transistor Q ₅ , a suitable circuit arrangement is also connected in parallel between the collector and emitter of the transistor. These

- j.

Circuit arrangement consists of a diode D _{fi in} parallel with a resistor R in series with a capacitor C ₅ .

According to the invention, the output of the converter is arranged in series with the filter circuit. Between the connections E and F will therefore receive a DC voltage that is at least 330 volts.

This DC voltage is applied to DC connections A and C of the inverter. This inverter is designed as a bridge circuit made up of four switching transistors Q ₁ , Qp, Q_ and Q. In particular, this bridge circuit consists of two power MOS transistors Q ₁ and Q ₉ , which are controlled with the chopper _{frequency, and two bipolar transistors Q 3} , Q ₄ , which are switched with the output frequency, i.e. with one frequency in the example described of 50 Hz. The gates of the two MOS transistors Q ₁ , Q ₂ are connected to a control circuit which supplies a chopper voltage as shown in FIG. The transistors Q and Q. are controlled via transistors T ^, which supply square waves with a frequency of 50 Hz.

To compensate for the phase difference between current and voltage at the output of the inverter, diodes D ₇ , Dg, D_ and D _{10 are connected} between the terminals of the transistors Q-] 1 Q ₂ / Q ₃ and Q ₄ , respectively.

As already mentioned with reference to Fig. 2, 3Q includes the inverter of FIG. 3 between its ac terminals B und.D a filter which is formed of an inductor _L2 in series with a capacitor C _2, so that the desired AC voltage between the connections G and H of the capacitor C _{0 is} obtained.

Since the mode of operation of such an inverter is known per se, it is not described in detail here.

ΙΦ>

The power supply described with reference to Figures 2 and 3 has the advantage that it does not have a 50 Hz transformer owns. It is therefore considerably lighter and more space-saving than conventional comparable power supplies, moreover, it has a very good level of efficiency.

In the example described above, a certain Circuit arrangement for the rectifier and filter circuit, for the DC / DC converter and for the Inverter used. Numerous modifications are possible within the scope of the invention, in particular one embodiment with a converter in the form of a forward flip-flop circuit instead of the aforementioned flyback circuit.

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Claims (4)

PRINZ, LEISER, BUNKE & PARTNER l'iitont.-inw.-ilt "ruro <> oiin I .Unfit AJtornoys Munich Stuttgart O 4 O / U 3 I ATELIERS D'ELECTRONIQUE October 9, 1984 ET D'AUTOMATISME AEA 46, rue du Marechal Leclerc 27700 Les Andelys / France Our reference: A 1930 Paten ta η s ρ r ü c he 1. Uninterruptible AC power supply with a Rectifier (4), which receives an AC voltage on the input side, a filter device (C.,), a direct current / DC converter (5) and an inverter (6), the output side an AC voltage without interruption outputs, characterized in that it further comprises means to at the input (A, C) of the inverter (6) a DC voltage greater than the peak values of the AC input and output voltages. 10 2. AC power supply according to claim 1, characterized in that the means for obtaining a DC voltage at the input of the inverter (6), which is greater than the peak values of the input and output AC voltage, through the series connection of the output of the DC / DC converter (5) are formed with the sieve device (C ₃ ). 3. AC power supply according to claim 1 or 2, characterized in that an LC filter (L ", C") is provided directly between the AC connections (BD) of the inverter (6) and the output AC voltage at the connections of the capacitor (C ₉ ) the LC filter is removed. 4. AC power supply according to one of claims 1 to 3, characterized in that a battery (3) Is connected in parallel between the input connections of the inverter (6) via an interrupter (K), which is only closed while the AC voltage on the input side is interrupted.