DE1018913B - Arrangement for generating an alternating voltage of controllable frequency - Google Patents

Description

For generating an alternating voltage, the frequency of which is proportional to the magnitude of a controlling direct voltage, that is to say> for frequency modulation with direct voltage, an arrangement has already been proposed such as that shown in FIG. 1, for example. The AC voltage is taken from the terminals A of the secondary winding 2a of a transformer 2, the primary side the windings 2 c and. 2 d and other secondary windings 2 b and 2 e . The windings. 2 c and 2 d are alternately from the DC voltage source 1 via the two transistors. 3 and 4 fed. The windings: 2 b and 2 e provide the control voltage for the two transistors.

In the embodiment shown here, n-p-n transistors are in the so-called emitter-grounded. Circuit used. It is also possible that another transistor circuit, for example a base grounded: circuit that is used. Other transistor types can also be used, for example at corresponding reversal of the potentials in place of the n-p-n transistors shown, those from Type p-n, -p kick.

The mode of operation of the inverter shown is as follows:

For example, the transistor 3 is open, is located on the winding 2 in the c of switching on a voltage of the indicated polarity. The of this voltage through the coil 2 c current flowing in the windings induces b 2, 2 e and 2 d · voltages which also indicated polarity. It can be seen that the base of the transistor 3 has a positive voltage compared to the. Receives emitter and this transistor is open, the transistor 4, however, is blocked due to negative base voltage.

In Fig. 2, the hysteresis curve of an iron used in the transformer 2 is shown. At the moment when transistor 3 opens, let the iron have an induction B , which corresponds to point E. The iron core is remagnetized by applying the voltage to the windings as shown. If saturation is reached at point F , the transformer effect disappears, since there is no longer any change in induction. As a result, no more voltage is induced in the windings 2b, 2d, 2e , so that the transistor 3 closes and the magnetization of the iron core goes back to its remanence value in accordance with the hysteresis curve. However, this means a field change in the opposite direction than before, and consequently b and induces a voltage of opposite sign than previously 2e in the windings 2, 3 transistor entirely blocked, transistor 4 but opened. As a result, the battery voltage reaches the wick arrangement via this transistor to generate a
AC voltage controllable frequency

Applicant:

Siemens-Schuckertwerke

Corporation,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str, 50

Dipl.-Phys. Helmut Schwab, Nuremberg,
has been named as the inventor

ment 2 d, and the whole process now runs in the opposite direction. As is well known, the voltage-time area required for reversal of magnetization is a constant variable for every transformer. By choosing or changing the voltage of the voltage source 1, the frequency of the described. Process can be selected or changed.

In the proposed arrangement according to FIG. 1 an alternating voltage is thus generated, the magnitude of which is proportional to a controlling direct voltage is, with the help of an inductively influenced astable trigger circuit, in which the center tap of a Transformer primary winding with one pole, the ends of the primary winding over one pole each Transistor are connected to the other pole of a DC voltage source and. the mutual modulation of the transistors depending on the remagnetization of the iron core.

In Fig. 3, the dependence of the frequency / on the voltage V of the voltage source 1 is shown. It can be seen that the frequency increases almost linearly with the voltage. The modulation possibility of the frequency is limited downwards, since the tilting process can only work properly if the voltage of the voltage source 1 is so high that the base voltage induced in the windings 2 b and 2 e reaches at least a value that is so is as high as the value required for the complete opening of the transistors 3 and 4. In order to enlarge the modulation range and at the same time to achieve a linearization of the characteristic curve shown in FIG.

709 '759/147

3 4

arrange that they in. The windings 2 b and 2 e gen 2 c and 2 rf the load is coupled. The invention to support induced voltages · This can e.g. B. shows one way how to do so with extremely favorable tax in the manner shown in FIG. The control power is as small as possible and steepness. Via an additional voltage source 5 for the base, the output voltage is kept constant and the voltage of both transistors is provided. The Polari 5 can.

did this voltage source 5 is connected so that it is according to an embodiment of the invention

those induced in the windings 2b and 2e , which this is made possible by the fact that the polarity of the span transistors supports the opening of the base voltages. voltage source 5 in Fig. 4 is reversed, so that that the invention is based on the finding that the 5 find the curve of the dependence of io stapled polarity mark using shown 3, the einin Fig. for the polarity of the voltage source frequency f of the voltage V of Voltage and now the size: the voltage source 1 konquelle 1 still held a constant at low voltage values, the size of the voltage source 5 has a rising branch, ie that is changed below against. As a result of this circuit, there is a minimum the frequency increases as the voltage drops, the base bias voltage supplied by the voltage source 5, as is no longer shown, for example, in FIG. Possesses at the moment of opening of the assembly to the secondary windings 2 b and 2e transistor 3, the transformer iron induced an induction of the transformer, opens base clamping ion B, which corresponds to point E in Fig. 2, switched voltages so, so that they will be the effect of the current through the winding 2c of the transformer supports, but it is connected in the opposite direction to them. So that mators 2 corresponding to the magnetization loop 20, however, a fundamental change in the whole (Fig. 2) will increase until it reaches the saturation area single control process. While in the case of the initial loan, the sweep frequency is limited abkreisas by the ohmic resistances of the current proposed arrangement. Is pending as a result of ohmic resistance of the windings of the 2 c and 2 with the hysteresis shown in FIG. 2 d proprieties is thus in accordance with the hysteresis lying voltage which adjusts the speed beschleife increase in current, the voltage at the 25 Remove -Wicklung2c or 2 d. It will thus pass through curve currency is, this voltage and rend this increase of the current from the chip which keeps the speed in the arrangement of voltage source 1 by the winding 2 c and the transit of the invention constant. The change in the frequency sistor 3 induced in the winding 2 b , the tran- with the help of the variable base bias voltage 5 ersistor 3 holding open base voltage U _B approximately, after 30 now follows in such a way that the hysteresis loop of the curve shown in FIG get lost. In this case, the base voltage U B may no longer be passed up to saturation, ie from the point E, _{the base voltage U B may} initially be passed through to the point F or beyond that required for the transistor 3 to open completely, but rather that the magnetization value U ₁ lie. As long as the breaks off as a result of the abort, for example at point G , there are falling. Switch-on pulse falling base voltage then falls below the voltage required for complete opening of the voltage above the voltage required for complete opening of the transistor. Transistor 3 remains the required value, changes from this point G , the back magnetization takes place in the state nothing. If, on the other hand, the base voltage corresponds to the course of the dashed line corresponding to FIG. 5 at point H below the curve drawn in full.

gen opening of the transistor 3 required W ^r ert 40 with reference to FIG. 5 was already explained that the fallen, so the circuit does not tilt by immediately, ie. The tilting process is triggered the faster, depending on the transistor 3, the voltage U _B is closed quite suddenly and completely faster below that to the full, while the transistor 4 is opened. Open the associated. Transistor required This flip-over process takes place as follows: Voltage U ₁ drops. This accelerated drop when the voltage U _B is undershot for the complete opening of 45 , but the base voltage U ₁ required by the base bias transistor OTS 3 becomes controllable by closing this bias voltage in the transistor 3 somewhat, corresponding to the windings 2 & 4. and 2 t? induced voltage entdecrease of the base voltage. This increases the voltage in the opposite direction and thus the voltage losses at transistor 3 for complete opening, so that the voltage U ₁ required for the transistor is lower than that at 2c. This increases the basic bias voltage U ₁₁ . The tilting process is consequently further weakened, the transistor 3 continues to take place at point G , ie the tilting closures, etc., until the polarities of the winding process are prematurely triggered and thus the Frehingen 2 & and 2e reverse, see above that the transistor 3 increases frequency. By changing the voltage supplied by the voltage source closed by the voltage source 5, the transistor 4, however, is open. It is now repeated for the circuit 55 tipping point on the Uß-Z characteristic curve, from the voltage source 1 through the winding 2d so that the pulse length L from 100 to approximately 10% and the transistor 4 the same process as for the total magnetization time M decreases. One erStromkreis through the transistor 3 already described. knows that even small voltage changes can result in large changes in frequency. Changes the voltage at 1 - and amendments 6 ° for a more detailed explanation of this frequency change tion of the pulse size ■ - a change of frequency is shown in Figure 6, the function of frequency / to receive from, because with a smaller maximum base voltage base bias U _BV. Voltage source 5 represents Uβ the tipping point H is reached more quickly and follows. First, a change in voltage lent the pulse length decreases. The frequency Uß _V does not cause a frequency change until the change as a function of the voltage change of the preload reaches the level: the inflection point H of the characteristic curve drawn in source 1, which is much greater than in the normal part of the characteristic curve. From this line according to FIG. 3. The disadvantage of an instantaneous control, however, the frequency increases with this branch of the characteristic curve is that the transmitter base bias voltage corresponding to the voltage source 1 controlling in FIG. Course on. According to the present output power must apply, since the winding 7 ° invention is so the tilting frequency is due to the height

one of the controlling secondary voltage is determined in the opposite direction.

As already mentioned above, what is achieved by the invention is that the accumulator power required to change the output frequency is considerably smaller and, on the other hand, the change in frequency as a function of the control voltage is considerably greater. In addition, the arrangement according to the invention still has. the. Advantage that the removable on the winding 2 a. Voltage pulses are of constant magnitude.

From the. above. It is easy to see that the type of design for the transformer core iron used for the control process in the arrangement according to the invention of not unimportant Meaning is. Particularly advantageous conditions result according to the further invention, if an iron core is used for the transformer, its. Hysteresis loop in the largest possible Approximation is parallelogram-shaped, in such a way that the magnetizing current during of the magnetization process increases slightly. If the magnetizing current increases linearly the frequency change is also linear. If the magnetizing current increases very slightly, small changes in the controlling base bias, quite significant frequency changes, cause a Such a hysteresis curve has, for example, a specially treated iron-nickel alloy, which on the market under the name Permeno> rm 5000 Z is known.

The invention is suitable for all cases in which frequency modulation is carried out with direct voltage target. A particularly advantageous field of application of the invention is, for example, its use for Control of synchronous machines. In addition, the invention is also suitable, inter alia, for Modulation of an alternating voltage with a different frequency, for example by replacing the DC voltage source 5 is an AC voltage source of the desired or a variable frequency (e.g. language) is switched on.

Claims (4)

Patent claims: 1. Arrangement for generating an alternating voltage, the frequency of which is the size of a controlling DC voltage is proportional, with the help of an inductively influenced astable trigger circuit, in which the center tap of a transformer winding (primary winding) with the one pole, the ends of the primary winding each via a transistor with the other pole a DC voltage source are connected and the mutual control of the transistors takes place as a function of the magnetization reversal of the iron core, characterized in that the sweep frequency by the level of one of the controlling secondary voltage Voltage is determined. 2. Arrangement according to claim 1, characterized in that one for the transformer Iron core is used, the hysteresis curve of which is as close as possible in the shape of a parallelogram is that the magnetizing current increases slightly during the magnetizing process. 3. Arrangement according to claim 1 and 2, characterized by the use for control from. Synchronous machines. 4. Arrangement according to claim 1 and 2, characterized by the use for modulation an alternating voltage with a voltage of a different frequency. 1 sheet of drawings © 709 759/147 10.57