DE1072269B - Transistor stage with gain control - Google Patents

Description

Through these measures you get a special ·:.

large control range, because the amplifier stage at loading '.....

operation of the controller from a basic circuit "to a 2

Emitter circuit passes. Is also used for

the one or both voltage divider resistors 20 have a constant gain half of the threshold value, current-dependent resistances result, while the gain increases for larger amplitudes. Such a circuit can be used for noise suppression, for example. If, on the other hand, R _{1 is} a directional conductor or NTC thermistor and R ₂ is

) betw. Stretching circuits with a particularly large control range.

The invention is on Plane! the basic circuit

According to FIG. 1 and with reference to the exemplary embodiments, the gain of the circuit then decreases, as explained in more detail according to FIGS. 2 and 3. increasing input amplitude. Is where R ₁ em

The way of working can best be described by means of an alignment ladder with a threshold or a corresponding preload, so the gain remains constant with increasing input amplitude until the threshold value er

The prerequisite for these operating modes is that with Use of a directional ladder the same way switched

Explain Fig. 1 by considering the following limit values.
Assuming that R ₁ = 0 and R ₉ = σο , the normal basic circuit results. If, on the other hand, 30 is sufficient, and then only decreases when R ₁ = 00 and R ₂ = 0, the normal transmitter amplitude is obtained. The circuit thus acts as an emitter circuit. "If R ₁ and R _{2 are} finite, then the limiter represents an intermediate state between emitter and
Basic circuit on. 'The collector current and the gain of the circuit increase with the ratio 35 ^{is that its} resistance increases with increasing collector RJR ,. Using this principle for the current becomes smaller (pass band or Zener area). Gain control is particularly favorable. If the polarity of the directional director is reversed so that he is from the collector re ^ elei ° properties. '"electricity is blocked and you open it with a

If R ₁ and R _{9 are formed} as a potentiometer (FIG. 2), its resistance increases and the gain of the transistor in 40 increases with increasing collector current, ie it behaves like a PTC thermistor. In this case or when using a PTC thermistor, the same effects result if the resistors R ₁ and R _{2 are} interchanged. If you use one of the two resistors R ₁ and R ₂ as resistors R ₁ and 45, respectively, current-dependent A resistances with opposite R ₉ (Fig. 1) as a current-dependent resistance from a set characteristic, the control (NTC thermistor, PTC thermistor) increases or directional director), this is how the effect will be. With a correspondingly low output power amplification of the circuit automatically from the input, the controllable resistances and thus also the output amplitude can be determined. Is z. B. R ₉ a directional conductor the amplification of an external current or a thermistor and R ₁ independent of current, so grows 50 external voltage source controlled vvcrden. This An

Basic circuit is equal to a, so you can adjust the potentiometer to adjust the gain almost over the entire range from α to

change.

the gain of the circuit with increasing input amplitude. Is here R ₂ z. B. a directional guide with threshold (selenium, silicon) or corresponding bias voltage, then all input amplitudes can be subordinate z. B. use for pilot-controlled amplifiers. .

One of the two resistors R ₁ and R ₂ can also be the load resistance R _L (cf. FIG. 3). Required

909 707/233

handy if one can insert a limiting resistor Rg to protect the transistor in the collector circuit.

Claims (3)

Patent claims: 1. An arrangement for gain control of a carrier _{(ansistorstufe,} which is supplied to the signal voltage between the · f 'base and the emitter via a bias voltage source, characterized in that a variable voltage divider between the base and emitter is connected, from the tap of which the operating voltage is supplied to the collector, and that the load resistor is in the collector lead (Fig. 1 and 2) or forms a voltage divider resistor (Fig. 3). 2. Arrangement according to claim 1 for amplitude compression or expansion, characterized in that that current-dependent resistors are used for one or both voltage divider resistors are (Fig. 1). 3. Arrangement according to claim 2 with a threshold value of the control, characterized in that one the voltage divider resistor is a directional conductor with threshold or bias. 1 sheet of drawings ! ■. ί Γι !. 1 "■ '\ ■ ■ i ">. t: A ί w,: © ι 909 707/233 12.