DE1588775C - Circuit arrangement for the selective regulation of level fluctuations from an AC input voltage - Google Patents

Description

3 4

shaded, which essentially from a transistor diodes GrI and Gr 2 can not influence and

Ts 4 and one in the output circuit of the Tran- on the other hand, the down regulation of the input

sistor inserted relay 2 consists. This relay alternating voltage when occurring in frequency

closes or opens with a contact 3 one "of the resonance frequency of the series resonant circuit

DC circuit through which the evaluated signals 5 deviating AC voltages are still fast enough

control corresponding facilities. takes place to a through-control of the transistor Ts 4

To prevent getting from the transmission line 1 to the signal evaluation stage,
The input of the amplifier signal alternating voltage. In the idle state of the control device, both genes, that is alternating voltages, the frequency of which with layers "of the capacitor 5 has the same potential, the resonance frequency of the series resonant circuit C6, io eg OV. By one at the input of the Tran- Ü3 , so affect this effective "voltage spike over the sistor TsI, the transformer Ü2 at the same time the transistor TsI in such a way, capacitor over the Zener diode 4 on z. B. -10 V that the diodes GrI and Gr 2 are so far conductive, charged. Then causes the voltage at the series bis the level of the now lower alternating voltage, which is now again lower at the series resonant circuit, to correspond to a predetermined level value 15 voltage, which corresponds to an increase in the continuity resistance. Since the resistance of the transient state of the transistor Ti 1, so .that, for example, the Kolgen resonant circuit is relatively low, the electrical energy passed on by the transformer Ü3 through the transformer U3 assumes an amount, then the Zener diode4 can be large enough to control the transistor Ts 4 for the duration of the charged capacitor 5 in the forward direction of a character. , 20 are switched. She does not discharge it now

For input voltages that differ in frequency from the resonance frequency via the diodes GrI and Gr 2 of the series oscillating circuit until there is only one alternating voltage on the capacitor, the series oscillating circuit has a voltage of IV. The "resistor" must have a relatively-very high resistance value. Initially, the choice is therefore small enough to discharge the capacitor quickly enough again to voltage level at the series resonant circuit C 6, U3 with approximately the same input alternating voltage 5 after charging.

build up high tension. Via the control device A following a transient voltage peak

Ü2, TsI, GrI, Gr 2 is now the input level of high signal alternating voltage level has a relative

so far reduced until the frequency-deviating amplified through-connection of the transistor TsI for

corresponding alternating voltage has the same voltage sequence. But this can have the effect that part of the

causes drop in the series resonant circuit, as via the transistor on the diodes GrI and Gr2

one in the frequency with the resonance frequency of the sweeping potential - not in the desired

Oscillating circuit matching alternating voltage. Measures can be effective because it is additionally over

The of the transformer Ü3 in this case the Zener diode is partially removed. The We-

The electrical energy supplied to the signal evaluation stage is 35 the degree of efficiency of the control is worsened as a result, now very small. It is sufficient to control the. It is therefore suggested that instead of the Zener

Transistor Ts4 by no means off. - Diode, if necessary, a simple diode can be used.

The · series resonant circuit C6, Ü3 behaves in the opposite way. A circuit arrangement with a diode on alternating voltages, the frequency of which is the same as the Zener diode, is shown in FIG different at first, because a through the Tran frequency, which causes "that during the Einschwing- sistorTsl reaching potential over the Zener process of the control device the presence of diode replacing diode 8 (Fig. 2) is reduced for so long About level of the AC input voltage upstream 45 is, to the capacitor 6 is applied to the collector deceived. to prevent now that the voltage of the transistor ΓίΓ charged, has. however, the ¹ control means during a transient resistor 6 can now be made so large, the The level of the AC input voltage is reduced so that the d The charge brought about by a voltage spike is a charge that can be discharged by means of a resistor 6. of the capacitor S over the entire length of a capacitor 5 via a Zener diode 4 to the collector 50 characters is approximately retained and so the diode of the transistor ZsI and thus to the feedback path for the Iungsweg7 following the transient voltage peak. If the transistor - the lower KoUektorp'otential of the transistor TsI TsI as a result of a on the 'oscillating circuit C6; U3 opens . The capacitor can only be switched through when the high voltage occurs, so the resistor 6 is discharged, but the zener diode 4 In Fig . 2, the internal resistance of the Tranleitend is made with Ri , and the sistor TsI is initially indicated for as long as possible. If one reduces this charged by capacitor 5, until the Zener voltage of the corresponding selection of the transistor or switches Zener diode 4 is again undershot. Only now is a resistor R 2 in series with the diode 8, this can be achieved via the collector-emitter path of the 60 so that a potential effective as a result of the transistor TiI, the diodes GrI appear on the series resonant circuit C6, U3 - and Gr2 of the short-circuit and influence the overvoltage across the transistor TsI so that, if necessary, the same potential in addition to the charge of the condenser input voltage can be reduced via the short-circuit. The meter 5 can also immediately influence the short-circuit circuit of the zener diode or the capacitor 5 and 65. In this way, the timing of the control resistor 6 must be done so that on the one hand, when overvoltages occur on the series resonant circuit for a short time as a result of a resonant circuit C 6, Ü3 "the respective transient requirements occur. Depending on the overvoltages that are adapted.

Claims (4)

1 2 of the more or less matching alternating claims: voltage is present, across the resistor, e.g. B. a downstream signal evaluation stage that is responsible for the 1. Circuit arrangement for selective control of this stage sufficient electrical control of level fluctuations of an input 5 energy are passed on, alternating voltage, especially for tone selection .- Frequency-dependent resistors, especially receivers, with an amplifier that at least need resonant circuits, however, as is known in the a frequency-dependent output resistance, "resonance frequency, a certain time to settle, in particular a series resonant circuit, and gene. During the settling process, the resistance value of such a resistor changes via a feedback path depending on the output resistance. A series resonant circuit initially has a very high voltage drop by influencing the resistance, so that z. B. at one in a frequency amplifier. and / or the input AC-selective control amplifier as output resistance, the "series resonant circuit used at the output resistance falling at the beginning of a voltage at the beginning of a voltage from exceeding a certain 15 alternating current symbol a so-called transient-predeterminable level value occurs. The control device of the amplifier is characterized in that an over evaluates this transient voltage peak as a resistor (6) discharge capacitor (5) overvoltage level, so that it reduces the amplifier's voltage by an element with a voltage-dependent degree of voltage of the amplifier or the input alternating resistance characteristic at the amplifier's 20 voltage ) CONNECTED in the way off Rückkopplungsweg'i? output voltage to sen and is sized to bring briefly on education to the prescribed value. As a result, but the Einschwingzeitdauer will contact resistance (U3, C6) occurring surge extended, for The consequence is that in a subsequent period there is no effect on the control element. switched. Signal evaluation level an impermissible 2. Circuit arrangement according to claim 1, that 25 delay in the beginning of the character can occur, characterized in that, as an element with, the object of the invention is, therefore, a form-dependent volume resistance character. arrangement for the selective regulation of teristics a Zener diode (4). is used. Fluctuations in level of an AC input voltage 3. Circuit arrangement according to claim 1, to create in which the influencing of the control by characterized in that as an element with clamping device by transient voltage peaks and . voltage-dependent transition resistance character - thus an impermissible delay in the start of the teristics one. Diode (8) is used. "Evaluation time, e.g. of a tone dialing signal, avoided 4. Circuit arrangement according to claim 3, there is. _ ■ -. ■ characterized by - that in series with the diode To solve this problem is a circuit "(8) an ohmic resistor (R 2) is connected. 35 An arrangement of the type mentioned at the beginning according to the. ·. Invention designed in such a way that a '' Resistance of a discharge capacitor via an EIe- . ' 'ment with, voltage-dependent volume resistance • - Stands characteristic, an.the feedback path in The invention relates to a circuit 40 connected and dimensioned in such a way that it is short for the selective adjustment of; Level, ', early fluctuations at the output resistance, an input AC voltage, ins- "" voltages have no effect on the control element, special for tone dialing receivers, with an In the following are based on two figures stronger, which has at least one frequency-dependent exemplary embodiment of a circuit arrangement according to output resistance, in particular series oscillating 45 of the invention explained in more detail, circuit and one, via a feedback? -. 1 shows a transistorized tone dialing path as a function of a voltage dropping at the output receiver, as it is for receiving and evaluating resistance, by influencing it. of 'tone-frequency signals in telephone systems' amplifier and / or the input alternating voltage ^: is used, with a Darlington circuit voltage, the "50 running input amplifier at the output resistance ■ regulating element hindering the level value that can be given .._. dialing pulses arrive via a transformer Ül Such frequency-selective amplifiers, such as. the input of one of the .Transistors Ts 2 and Ts 3 are known from German Patent 939 820, existing amplifier. The - output resistance, a control device for regulating 55 of the amplifier consists of a series resonant circuit, level fluctuations and have the advantage that the capacitor C6 and the over- "with the help of the control device, an additional selector U3 is composed. A transformer £ / 2 is connected in parallel with this output resistance effect, which is outside the range in terms of frequency, whose AC voltage at a receiving frequency, rectified output voltage can be achieved via ^{a transistor. These amplifiers have an effect of 6} ° TsI, namely the collector-emitter path of this At least one frequency-dependent output transistor acts as a controllable resistor via the input resistance, which consists, for example, of a series oscillation, a potential on two circuits blocked in the idle state / If the voltage applied to the output resistance diodes GrI and GrI is now more or less strong regardless of who acts Both diodes are inserted into a short-circuit instantaneous resistance value by the control circuit, which is kept approximately constant by means of the transformers in the device, so that the output circuit of the amplifier can be coupled. With the help of only when ani output resistance is in that of the transformer Ü3 , the amplifier via a frequency with the resonance frequency of the resistor rectifier circuit is a signal evaluation stage after-