SU465712A1 - Adjustable amplifier - Google Patents

Description

one

This invention relates to the field of radio engineering and, in particular, can be used in high frequency amplifiers for radio receivers.

Adjustable transistor amplifiers are known, including elements with non-temporal resistance, such as diodes, which are connected in alternating current to parallel load resistors.

The disadvantage of such amplifiers is the limited dynamic range of the input signal, since it is inevitably limited due to the characteristics of the input characteristics of transistors when a large level signal is applied to the input of the amplifier. When using such transistor amplifiers in high-frequency amplifiers of radio receivers for undistorted transmission of high-level signals, an attenuator must be turned on in front of the radio receivers, which inevitably leads to an increase in noise figure and, consequently, leads to a decrease in the sensitivity of radio receivers.

In order to broaden the dynamic range while maintaining the maximum sensitivity of the transistor amplifier, the connection point of the coupling capacitor and the shunt diode of the collector circuit through an additional diode, and a similar point

emitter circuit through a resistor connected to the output device.

The drawing shows a diagram of the proposed device.

5 The input source 1 is connected to the base of transistor 2, the resistor 3 is connected to the emitter circuit, and a resistor 4 is connected to the collector circuit. Parallel to the emitter resistor 3, a shunt diode 6 is connected through a coupling capacitor 5, in series with which an additional resistor 7 is connected, diode 8, shunt diode 9 and resistor Ø, connected to collector of transistor 2 by means of separate capacitor P. Total point of additional resistor 7 and diode 8 through separation capacitor 12 connected to output m of the amplifier to which the load resistance 13 is connected. The source of control voltage is connected to terminals 14 and 15 connected to the apodes of the shunt diodes 6 and 9, and the minus of the source of control voltage is connected to the common bus.

5 Adjustable amp operates as follows.

The input signal is fed to the base of transistor 2. When amplifying weak signals, "plus control voltage" is applied to terminal 14, and "minus - to terminal 15."

In this case, a current flows through a chain consisting of a series-diode 6 of resistor 7, diode 8 and resistor 10, with the result that the differential resistance of open diodes 6 and 8 will be small. Diode 6 is connected via alternating current parallel to the emitter resistor 3. If the differential resistance of the open diode is much less than the resistance of the emitter resistor 3, the magnitude of the negative feedback on the alternating current of the amplifier is determined by the differential resistance of the open diode 6, which, with sufficient control voltage have little value. A voltage drop across resistor 11 closes the diode 9, connected, like the resistor 10, by alternating current parallel to the collector resistor 4.

Thus, the alternating current load of the amplifier is in parallel with the included resistors 4, 10, the differential resistance of the diode 9 and the load 13.

Since the differential resistance of the locked diode 9 is large, it has no effect on the total load of the amplifier. If you choose the resistance of the resistor 10 is much greater than the resistance of the collector resistor 4, then the total load of the amplifier, as usual, for the common emitter circuit will be determined by the collector resistor 4 and the load resistance 13. If the differential resistance of the open diode 8 is much less than the load resistance 13, then the input the signal after amplification by the transistor 2, but connected to the common emitter circuit, will be allocated with almost no attenuation at the output of the amplifier stage.

If a high level input signal is supplied to the base of transistor 2, then the plus of the control voltage is applied to terminal 15 and the minus to terminal 14. At the same time, the current flows through a circuit consisting of a series-connected diode 9 and a resistor 10. The voltage drop across the resistor 10 inhibits diodes 6 and 8. The small differential resistance of the open diode 9 shunts the collector resistor 4, and the large differential resistance of the locked diode 8 cuts off the residual voltage on the collector from the load 13. Differential resistance The locked diode 6 is much higher than the resistance of the emitter resistor 3. Thus, the transistor 2 is turned on according to a common collector circuit. The input signal is separated at the emitter resistor 3 and through the additional resistor 7 and the coupling capacitor 12 is separated

at the output of the amplifier stage. If the value of resistor 7 is much larger than the value of load resistance 13, an additional signal attenuation occurs, which is proportional to the ratio of the value of resistor 7 to load resistance 13. Therefore, when weak signals are amplified, the proposed amplifier is switched on with a common emitter, which allows for a large factor gain

and ensure maximum sensitivity of radio receivers. When a large level signal is applied to the input under the influence of a control voltage, the common emitter circuit is transformed into a circuit with

a common collector providing undistorted transmission of significant voltages with simultaneous attenuation of input signals. In addition, this reduces the risk of a transistor

due to the large voltage applied to its base.

Subject invention

An adjustable amplifier on a transistor connected in a split load circuit containing shunt diodes connected to the load resistors via coupling capacitors, the second electrodes of which are connected via a coupling capacitor to a common bus and directly to a source of antiphase control board, characterized in expanding dynamic

while maintaining maximum sensitivity, the junction point of the coupling capacitor and the shunt diode of the collector circuit is through an additional diode, and a similar point of the emitter circuit is connected to the output of the device via a resistor.

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