DE1563166B2 - Magnetic voltage stabilizer with a single ferromagnetic core - Google Patents

Description

Constant keepers limited upwards by the increasing magnetizing current of the primary winding. The primary current then rises so much that the heat generated by it in the winding becomes inadequate ^! permissible values are reached and, on the other hand, the switching elements (semiconductors) of the upstream inverter are endangered if they are not significantly oversized. On the other hand, the control properties of the stabilizer are extremely good in the upper limit range of the applied voltage. An increase in the primary number of turns, i.e. a decrease in the magnetic induction of the input winding would reduce the increase in the magnetization current in the overvoltage range, but on the other hand affect the control properties in the undervoltage range so unfavorably that an extension of the entire control range cannot be achieved in this way.

Another property of the well-known stabilizers, which is used, for example, in inverters difficult and which is also due to their high primary induction, is the high inrush current (Rush), which occurs when the stabilizer is switched on, especially in the zero passage of the applied alternating voltage occurs and which also endangers the upstream semiconductor elements.

From the theory of the low loss transformer it is known that the flux is at least twice that must reach its steady-state value when it has the required counter voltage when switching on the Should generate zero crossing of the mains voltage. If there is no remanent flux, this flux will be accurate twice as large as the steady flow after the switch-on process has subsided.

However, if the phase position of a possibly existing remanence flux is unfavorable, it can double The value of the steady flow can still be exceeded by its amount. Taking into account that the induction of known stabilizers to achieve good control properties at nominal voltage around 16 kG, one must reckon with the fact that the inrush current can reach maximum values that correspond to an induction of about 35 kG. That means a current surge of more than 50 times of face value. To reduce this current surge, you can basically use an upstream Switch a resistor or a throttle, which at the moment of switching a high percentage of the pressed Take up tension. After the transient process has subsided, however, the resistance must then or the throttle z. B. be short-circuited again with a timer. That means additional Effort and may have a second inrush in the event of a short circuit in the ballast result, which can also endanger the upstream semiconductors.

The above-mentioned high switching induction of around 35 kG with an unfavorable phase position of the remanence flux and when switching in the zero crossing of the mains voltage exceeds the saturation induction of the stabilizer plate quite considerably.

The object of the invention is to provide a magnetic stabilizer for square-wave input voltage and sinusoidal output voltage for use in to develop an inverter that enables the input voltage to fluctuate by —20 to + 25% to keep the output voltage constant at a value of around ± 1.5%. Farther the inrush current is to be greatly reduced in the stabilizer according to the invention.

This object is achieved according to the invention with a magnetic voltage stabilizer of the type mentioned at the beginning solved by the characterizing features of claim 1.

According to the invention, a possibility for the creation of an additional flow is created, which is linked to the primary winding and its amount

ίο equal to the difference from the required switching induction, d. H. the maximum value of the induction reached during the switch-on process, and the saturation induction of the iron used. This results in a significant reduction in the inrush current.

Such an additional flow can be an air flow through an additional air flow cross section, but it can also be an iron flow if the additional cross section is filled with a magnetic material, preferably a high permeability. The ampere-turn requirement of this additional flux is the smaller, and thus its rush-reducing effect, the greater, the smaller its mean line of force length is.
Tests have confirmed that both a considerable reduction in the inrush current and a substantial reduction in the magnetizing current in the area of ^: the upper line voltage tolerances and thus an expansion of the control range of both types of stabilizers is possible according to the invention by the following measures:

a) by creating an additional cross-section, in which an additional flux can develop which is linked to the primary winding and its amount the excess of the required switching induction compared to the saturation induction of the used Iron covers,

b) by shortening the mean length of the lines of force of this additional flow by means of suitable constructive measures Measures.

To a) An enlargement of the cross section required by the additional flow is according to the invention thereby achieved:

l.d that the compensation winding 7 according to

Fig. 2 not above but below the Primary winding 2 is wound. Since the inrush current only flows through the primary winding is, the tubular volume offers between core 1 and primary

winding located compensation winding space for the formation of an additional Air flow and thus increases the air flow cross-section. The core 1 also carries the Secondary winding 3 and the neutralization

winding 8 (Fig. 2).

2. The air flow cross-section can be further enlarged in that, as shown in FIG the coil former 61 for the windings 2 and 7 is made longer than the layer

height of the core 1 corresponds. This gives you additional space on both sides of the core 63, which is required for the training of the constant holder when switching on Air flow is available. In

Fig. 2 shows the force line course of the air flow schematically. He educates in such a way that he takes the shortest route

5 6

re-enters the iron, so that its magnetizing current peak, which is at least 5 times as The mean length approximately through the line of force 74 is large as the peak value is given at 20% below. ■ voltage. .

The inrush current that occurs during normal con-

Regarding b) A further shortening of the length of the line of force 5 stantholders at nominal voltage more than 50 times of the air flow according to the invention can thus be the steady-state value (when switching achieved that the additional space 63 in Fig. 1 in the O-passage of the mains voltage) is through the gemit ferromagnetic enclosures 81 from a described measures under otherwise the same conditions material high magnetic conductivity results at around 2.5 times the steady-state value fills, the length of which is reduced to exactly the coil width 15 io. This slight rush can be an example Primary winding in Fig. 2 corresponds. The way through a suitable input filter of the change-original line of force 74 is thus still reduced by the judge to such an extent that an over-doubled The amount of the coil width 15 is shortened. dimensioning of the semiconductor elements becomes superfluous.

A further shortening of the air flow length is to be noted that the sinusoidal shape is still possible according to the invention by the fact that the output voltage of the Konstantman according to the invention according to FIG. 20% at full load to a value of material designed so that if possible all ± 2% of the nominal voltage is kept constant. Lines of force of the original air flow must be taken into account that voltage is absorbed and re-enter the main core of the unavoidable voltage drop in the change-over stabilizer, i.e. the transition from rectifier switching elements (chokes , semiconductors or core) the arrival C \ from the additional field in the coil region for iron given voltage fluctuation of the battery is surpass arcuately with ferromag'netischen essential.

Enclosures 81 completed. 25 On the network, the same stabilizer shows one

Change in mains voltage from + 25% to

The measures just described affect —20% an even better stability of the initial voltage.

in no way the control and short circuit behavior. voltages, namely '± 1%. The described inventive

At the same time they serve both to reduce the appropriate measures are not only of great importance

Inrush current as well as the extension of the 3 ° direction for the operation of inverters but also

Control range in the direction of a positive battery - for mains operated stabilizers. Your stake is

Voltage tolerance. The oscillograms of Fig. 4 are always advantageous when the control range is normal

may prove this. Both oscillograms show the constant holder of ± 15% of the mains voltage

Primary currents of a 250 VA Kon according to the invention is not sufficient. The reduction according to the invention

constant holder in inverter operation and in fact, the rush is one of many applications

the curve 91 at a battery voltage of V ^ enn mains-operated stabilizer for its use

+ 25 %, curve 92 recorded at V ^ do -20%. of vital importance.

The magnetism, which is clearly visible in the event of overvoltage, is caused by the compensation winding

peaks do not exceed the volume occupied by the apex in addition to the formation

value of the constant current at undervoltage, 4 ° of an additional flow is used, can with the same

what solely on the measures of the present invention external dimensions of the constant holder for the

dung is due. A normal stabilizer additional flow total available transverse:

a stationary section has to be enlarged at a 25% overvoltage.

1 sheet of drawings

Claims (1)

1 2 den, at which the output reaches a maximum patent claims: value, d. H. the ratio W / kg should be as large as possible. According to this German usage 1. Magnetic voltage stabilizer with pattern, this is achieved in that the tongues of a single ferromagnetic core, which is a 5 wide of the wider section of the I-shaped central primary winding, one with the primary winding partly 7/4 the width of the narrower section of this coupled compensation winding and at least the middle part. carries a secondary winding and the at least one constant holder according to this German law Stray field shunt that has between utility models is not for use in one Primary winding and secondary winding are arranged in the emergency power supply containing the inverter, and a device suitable for the secondary winding, since it is not the case with the emergency power supply capacitor is connected in parallel, thereby identifying the sinusoidal output voltage required by devices, that the compensation winding delivers, at least not without additional sounding (7) radially inside the primary winding (2). A lesson to reduce the and that radially within the compensation 15 rectangular input voltages are very large winding (7) ferromagnetic shims (81) inrush current is this German utility are. sample not to be taken. 2. Voltage stabilizer according to claim 1, furthermore from the USA. Patent 2,930,964 characterized in that the ferromagnetic is a transformer with a single ferromagneti-shims (81) the line of force curve 20 see core and a stray field shunt adapted to are. connection to a capacitive voltage divider known, within the primary winding two secondary windings are arranged radially. Such a trans- formator is not for use in inverters 25, especially since the inrush current that occurs with such a transformer The invention relates to a magnetic switched semiconductor element at risk. Voltage stabilizers according to the generic term are the following properties of a stabilizer Claim 1. Such a voltage stabilizer for its economical use in inverters is already known (U.S. Patent 2,694,177). 30 essential: The purpose of the invention is to _{keep the control range independent of the} output voltage. known Konstanthal «arrangements to expand ie; _{from fluctuations in the} input voltage and the range within which the feed-in grid load change is to be kept constant, voltage may fluctuate without the output _{2 its} short-circuit current behavior, which both the voltage exceeds the usual tolerances. 35 _network . _{also limits the load current and} Furthermore, when switching on the constant ₃ _ _{in the} case of the sine stabilizer, the ability to current surges that occur when switching> _{my sinusoidal} output voltage, Zero crossing of the mains voltage maximum values - _{even if the net voltage is ending} reach, reduced to harmless values are _{not sinusoidal) but} rectangular. the. 40 i Magnetic voltage stabilizers consist of the control of the inverter in its original form from the combination of an output voltage and the current-limiting circuit, saturated air gap choke with a high-seeded element, which in the event of a short-circuit on the output side of the transformer, the semiconductor elements of a parallel-connected inverter, whose semiconductor elements are disrupted in this way is strongly magnetized that he 45 protect against interference. If, in addition, largely independent of the magnitude of the inverter, a sinusoidal output voltage supplied by the mains voltage emits the voltage that is sufficient, the filter that corresponds to the saturation induction of its core is saved. The angular inverter voltage is therefore converted into an approximately output voltage that is approximately constant sinusoidal output voltage,
On the other hand, the use of constant limits requires independence. On the other hand, the holders generated in this way, for example in inverters, have some more constant voltage because of the high iron saturation properties which the known constant holders with considerable odd harmonics do not have and which are the subject of this invention and thus have an approximately trapezoidal curve. form, which, however, is suitable for subsequent rectification. 55 For example, the voltage of the alternating ideally suited. self-driving battery within very wide limits Will one more or fluctuate for other applications, namely “from the final discharge voltage requires less sinusoidal output voltage, up to the voltage that can be used during Stark this occurs through additional filters that charge the battery's harmonics; In the worst case reduce to the desired extent, are generated. 60 means a fluctuation range around the battery From the German utility model 1 950 267 the nominal voltage is from -20% to + 25%, within a constant voltage transformer is known which is the output voltage of the inverter Has laminated core whose primary cross-section should be practically constant larger. It is therefore important to use the is designed as the cross-section of the secondary control range of the known stabilizers through ge winding receiving leg part. This invention to expand 65 suitable measures, The task is based on the given range of primary fluctuations within Main dimensions of the fully assembled constant - whose output voltage is within small limits Voltage transformer that core shape remains too fin-constant, is known in the case of the described