DE1466329C - Circuit arrangement for overdrive protection of regulated high frequency amplifiers, especially for television receivers - Google Patents

Description

1 \ 2

Circuit arrangement for overdrive protection ', overdriven state - emits a control voltage, of regulated high-frequency amplifiers, in particular by appropriately dimensioning the work for television receivers. Resistance and the associated timing element can

To the output signal voltage of a high then the damping or regulating effect of the diode Keeping the frequency amplifier constant will usually predominate, as can be seen from the examples from this output signal a control voltage is derived below to clarify the effect, the one or more control stages of the way described by circuits according to the invention Amplifier is supplied. As a result, the vermin can.

Strengthening factor of the input signal voltage occurring in each case. In FIGS. In order to generate circuit arrangements according to the invention, this control voltage is used in television receivers. Bias voltage in each case from the base key regulating tubes are used, the anode of which is taken from the line transformer taken from the voltage divider of the transistor used. When a certain size is exceeded, pulses are fed so that the diode D becomes conductive between two lines of the signal voltage. Any interfering impulses that occur on the control 15 will not be able to influence the voltage generation of the DC voltage potential of the capacitor. C ₁ (timer A ₁ C ₁ ) depending on the charging currents

Amended by used in such circuits, timers polarity of the diode D, which, however, the operating point of the control voltage can in each case only comparable to the transistor T changes according to the purposes Aufzögert form, so that when switching from one Windwärts-or. a down regulation. According to the invention transmitter with weakly incident signal voltage on ao, diode D is used to obtain an immediately onset of a strongly incident transmitter of the RF amplifier control voltage and at the same time has a damping effect on is slightly overdriven, so that the collector circuit of the transistor in the amplifier output. If necessary, the RF signal may be distorted. Depending on the magnitude of the working resistance R _{1 of} the diode D as the control order of this distortion, no resistance or a resistance can be formed. .
form only insufficient control voltage, so that the as In F i g. 1 a, for example, an amplifier according to the invention remains in the overdriven state. For connection shown, in which the amplification in the sense of avoiding this effect, it is known that one or more amplifier SiStOrSr is regulated downwards in parallel to a reduction in the collector current of the Tran load resistors. Diode D '■ acts to switch biased diodes, so that a dampening effect on the collector circuit. The _{coupling capacitance C 2} to the base of the transistor T cannot exceed a predetermined value via the signal voltage at E. This diode effect can only be achieved but the signal is amplified at its collector if the internal resistances of the diode and are removed, whereby the base of a conventional bias voltage source is significantly smaller than the working voltage divider consisting of the resistors U ₁ , R ₂ , R ₃ , resistance are. It is also known to have one at the Ka-. .during parallel to the collector circuit, the diode D in the dead resistance of the last intermediate frequency circuit 35 series with a time song A ₁ C ₁ is located. The diode D is biased to the control voltage via the voltage divider R ₁ , R ₂ , R ₃ , the grid of the probe tube, bypassing the video component, depending on a certain size of the output. However, this switching measure can only be applied effectively to the voltage at the transistor T , the Diodenvorspanbei tube amplifiers. voltage exceeded, and the diode attenuates the

A circuit arrangement according to the invention is 40 gear circuit. In addition, the diode working

on the other hand, it can be used regardless of whether the resistance R _{1 is} a Richtspanriung, which the collective

Amplifier is equipped with transistors or tubes. current of the pnp used in the present case

The circuit arrangement for protecting regulated transistors is reduced. When using an npn

High-frequency amplifiers against overdrive, ins- transistor, on the other hand, results in the circuit after

especially for television receivers, using 45 Fig. 1b, in which the voltages are

one are polarized parallel to the working resistance of a regulated one.

Transistor or a regulated tube switched. The switching arrangements according to FIG. Ia and Ib as well as a diode that is biased so that it becomes conductive and If and Ig all work on the principle of damping, as long as the normal regulating "down regulation" by reducing the collector voltage as a result of the use of time-delaying 50 direct current, which means the transistor characteristics in areas of filter elements is not yet effective and the signal of lower stiffness can be controlled. If this sound voltage exceeds a certain value, identifiers are particularly suitable for transistor devices. Compared to the mentioned state of the art with low power consumption and low input technology, it is characterized by the working resistance of the conductance values. The circuits according to FIGS. 1 a and 1 b, the diode is connected in such a way that the directional voltage produced on it at Leitendwer- 55 and If are reversed, while the directional voltage produced by the diode has a conversion according to FIG. Ig is regulated forward.
If, on the other hand, the operating point of one or more are to be shifted. - regulated, ie the collector direct current increases with

The slope decreasing at the diode working resistance is used. For these cases, the reference voltage according to the invention for override control according to switching arrangements according to FIGS delayed onset of control voltage of the Ic that of Fig. la, only that now the diode /) amplifier lowers the signal level again and is polarized in accordance with an upward regulation.
Diode is blocked again as a result. 65 In the F i g. 2 and 3 are two more application

The advantage of the circuit according to the invention lies in the examples shown.

in that in the normal operating state of the amplifier After F i g. 2 goes backwards over several stages

kers the diode is not effective, but only regulated from transistor T ₃ to T _1. That at E over C ₃

The signal fed in reaches the base of the transistor T ₁ , which is connected to the voltage divider R ₁ , R ₂ , R ₃ , and after amplification in T _{1 is passed} via the coupling capacitor C ₃ to the base of the transistor T ₂ and is further amplified therein. Only in the overdriven state does the biased diode D ₁ cause a positive voltage to reach the base of the transistor T ₁ . The undistorted and not overdriven signal arrives at demodulator D _{2 via C 4} and transistor T ₃ and can be picked up at A.

Finally, with the same designations, FIG. 3 a circuit example with the same principle structure for a television picture intermediate frequency amplifier, which is protected against overload in the specified sense is.

Claims (3)

Patent claims: 1. Circuit arrangement for the protection of regulated high-frequency amplifiers against overload, especially for television receivers, using a diode connected in parallel to the load resistance of a regulated transistor or a regulated tube, which is biased so that it becomes conductive and causes damping as long as the normal control voltage is not yet effective due to the use of time-delaying filter elements and the signal voltage exceeds a certain value, characterized in that the working resistor (R ₁ ) of the diode (D) is switched so that the directional voltage generated when the diode (D) becomes conductive is shifted the working point of one or more gain stages in the sense of a reduction in the gain. 2. Circuit arrangement according to claim 1, characterized in that the size of the directional resistor (R ₁ ) of the diode (D) is adjustable. 3. Circuit arrangement according to Claim 1 and 2, characterized in that the bias voltage for the diode (D) is derived from the base voltage divider (R ₁ , R ₂ , R ₃ ) of a base-controlled transistor. 1 sheet of drawings