SU1688376A1 - Amplitude-modulated signal demodulator - Google Patents

Abstract

The invention relates to radio engineering. The aim of the invention is to expand the upper limit of the frequency range of the detected signals. The demodulator has two outputs and contains 5 transistors, six-foot diodes, 3 capacitors, eight resistors, and an input circuit consisting of a series-connected first resistor and a capacitor, an inverting amplifier on the second and third transistors, controlled current sources on the first and fourth transistors and the second and third resistors connected in series to the collector circuits of transistors of controlled current sources. The advantage of the demodulator is the expansion of the upper frequency range of the detected signals. The demodulator can be made in the form of an integrated microcircuit and can work when the supply voltage varies over a wide range, 1 sludge. + E eUjodZ (l С o 00 00 CO VI o

Description

The invention relates to radio engineering and can be used in receiving devices.

The purpose of the invention is to expand the upper limit of the frequency range of the detected signals.

The drawing shows the structural electrical circuit of the demodulator of the amplitude-modulated signal.

The amplitude-modulated signal demodulator contains the first - fifth transistors 1-5, the first - the sixth diodes 6-11. capacitor 12, the first - the eighth resistors 13 - 20.

The demodulator of the amplitude-modulated signal operates as follows.

The input signal is fed to the emitters of the first and fourth transistors 1 and 4, which serve as controlled current sources. The second transistor 2, in combination with the third transistor 3, is connected in a cascade manner and functions as an inverting amplifier. A voltage transducer is made on the fifth transistor 5.

An input voltage having amplitude modulation is fed to the output of the second resistor 14. The resistance of this resistor to obtain a wide operating band of detected signals is selected in the range of hundreds of ohms, and the input resistance of the inverting amplifier is controlled by reverse current coupling does not exceed several ohms. Therefore, the amplitude values of the input current are practically determined by the resistance of the second resistor 14. At a maximum input voltage of the demodulator not exceeding 1 V, the indicated amplitude values of the current do not exceed a few milliamperes.

At positive instantaneous values of the input voltage, current half-periods of positive polarity flow through the second resistor 14. They cause an increase in the collector currents of the second and third transistors 2 and 3 with respect to the values of the quiescent currents and, accordingly, a decrease in the voltage on the collector of the third transistor 3 and emitter of the fifth transistor 5. This leads to unlocking of the first transistor 1 and current flowing through it, instantaneous the values of which are almost equal to the instantaneous values of the current flowing through the second resistor 14. Due to the fact that the inverting amplifier of the amplitude-modulated signal has a large

the current and voltage gain, to the base of the second transistor 2, only a small part of the demodulator input current branches.

At negative instantaneous values of the input voltage, current half-periods with negative polarity flow through the second resistor 14. During such half periods, the collector currents of the second

and third transistors 2 and 3 are reduced with respect to their quiescent currents. This leads to an increase in the voltage at the emitter of the fifth transistor 5 and the unlocking of the fourth transistor 4. The emitter current of the fourth transistor 4 is almost equal to the input current of the demodulator during the indicated half-cycles of the input voltage as a result of feedback. Current collector pulses first

transistor 1 flow through the first resistor 13, and the collector current pulses of the fourth transistor 4 pass through the fourth resistor 16. Therefore, voltages proportional to the pulses of the emitter currents of the first and fourth transistors 1 and 4 and flowing respectively to the main and additional demodulator outputs are formed on these resistors amplitude modulated signal.

Since the increment of the average value of the output voltages is proportional to the modulating function of the input voltage, in order to obtain voltages proportional to the modulating function, low-pass filters must be connected to the outputs of the amplitude modulated signal demodulator.

An extended operating frequency range with a small non-linearity of the detector characteristic operating frequency range is achieved in connection with a small phase shift in the inverting amplifier and a large gain factor of this amplifier. The latter is provided by joint

using a cascade circuit and an emitter follower. Another advantage of the subject matter of the invention is the low dependence of its transmission coefficient on the voltage of the power source.

Claims (1)

Invention Formula A demodulator of an amplitude-modulated signal, containing the first, second and third transistors, a capacitor, the first terminal of which is connected to the emitter of the first and the base of the second transistor, the first resistor connected between the collector of the first transistor and the common bus, the first and second diodes, wherein The collector of the first transistor is an output of a demodulator of an amplitude modulated signal, characterized in that, in order to expand the upper limit of the frequency range of the detected signals, a fourth transistor and a fifth transistor, the collector of which is connected to the power bus, are connected in series and connected according to between the cathode of the first diode and the common bus, the third and fourth diodes, the fifth diode, the anode of which is connected to the emitter of the second transistor, and the cathode with a common bus, the sixth diode, the anode of which is connected n the second diode cathode, the second resistor connected between the second capacitor lead and the demodulator input of the amplitude-modulated signal, the third, fourth, fifth and sixth resistors, the first leads of which are connected to the power bus, the second lead of the third resistor is connected to emitters the first and fourth transistors, the second output of the fourth resistor is connected to the collector of the fourth transistor, the second output of the fifth resistor is connected to the anode of the first diode and to the base of the third transistor, the second output of the sixth resistor c one with the collector of the third and base of the fifth transistors, the seventh resistor connected between the cathode of the sixth diode and the common bus, the eighth resistor connected in parallel with the sixth diode, the base of the first transistor connected to the tap of the eighth resistor, the emitter of the third transistor connected to the collector of the second transistor, and the emitter The fifth transistor is connected to the anode of the second diode and to the base of the fourth transistor, the collector of which is an additional output of the demodulator of the amplitude-modulated signal, while the structure cheers first transistor p-n-p type and the second and third fourth and fifth transistors - n-p-n type.