SU708485A1 - Amplitude modulator - Google Patents

Description

The invention relates to radio engineering and can be used in transmitting and other devices for generating amplitude-modulated.j signals.

An amplitude modulator is known that contains a serially connected master oscillator and a buffer cascade, as well as an adder, to the corresponding inputs of which the outputs of the first and second amplifiers are connected, and an inverter [1].

However, this device does not provide a sufficiently wide range of operating frequencies, it requires complex tuning during the transition from one frequency of the carrier oscillation to another.

The purpose of the invention is to increase the range of operating frequencies.

To do this, in an amplitude modulator containing a serially connected master oscillator and a buffer stage, as well as an adder, 2 'the outputs of the first and second amplifiers are connected to the corresponding inputs, and an inverter is connected in series between the direct output of the inverter and the input of the first amplifier in series 2 but connected to the first a comparator and a first trigger, and between the inverter output of the inverter and the input of the second amplifier, a second comparator and a second trigger are connected in series, while the inverse outputs of the first and second mparatorov connected respectively with another yhodami first and second flip-flops, inverter input connected to the output buffer stage, and the modulation signal supplied to the signal inputs of first and second comparators.

In FIG. 1 presents a structural electrical diagram of the proposed device; in FIG. 2 - time diagrams of the operation of the device.

The amplitude modulator contains a master oscillator 1, a buffer stage 2, an inverter 3, a first comparator 4, a first trigger 5, a second comparator b, a second trigger 7, a first amplifier 8, a second amplifier 9 and an adder 10.

The amplitude modulator operates as follows.

The signal from the master oscillator 1 passes through the buffer stage · to the inverter 3. From its direct output 3 and to one input of the comparator 4, the signal 11., = Vu> cascwt, and the modulating signal U _a = V _sl 5>' n ^ 't (Fig. 2, a).

From the inverted output of the inverter 3, the signal enters 5 to one input of the second comparator 6, to the other input of which a modulating signal is supplied (Fig. 2, b).

The first comparator 4 forms a sequence of straight (Fig. 2c) | Q and inverted Uj (Fig. 2, e) rectangular pulses whose duration is determined by the moments of equal voltages and and _A and can be found by the formula: <5% ^s p · arc cos where T * period of high-frequency * oscillation; 20

E _t - constant voltage, which determines the duration of the voltage pulses Uj and Uj at the telephone point.

The second comparator 6 generates 25 sequences of straight lines and _b (Fig. 2 g) and inverting 0 / (Fig. 2, f) of rectangular pulses.

The first trigger 5 is overturned by a negative voltage drop 1¾ jq and is returned to its initial state by a negative voltage drop Uj. In this case, voltage Uj is formed at its output. - forks of the meander (Fig. 2, g). 35

Similarly, the second trigger 7 is overturned by a negative voltage drop U _t and returned to its initial state by a negative voltage drop Uj. At the output of the trigger 7, Voltage 40 U4 is formed - a meander shape (Fig. 2, h). ^;

Signals from trigger outputs? and 7, amplified respectively in amplifiers 8 and 9, go to the inputs of the adder 10, where the summation of the amplified voltages 11d and U ' _A

The amplitude of the first harmonic of the resulting voltage U _s (Fig. 2, and) varies in proportion to the modulating signal.

Thus, through the use of key mode, the proposed device provides an increase in the range of operating frequencies.

Claims (1)

The invention relates to radio engineering and can be used in transmitters and other devices for generating amplitude-modulated signals. The amplitude modulator is known, which contains a series-connected master oscillator and a buffer cascade, as well as an adder, to the corresponding inputs of which the outputs of the first and second amplifiers are connected, and inverter 1. However, this device does not provide a sufficiently wide range. when switching from one frequency carrier to another. The purpose of the invention is to increase the operating frequency range. To do this, in an amplitude modulator containing a series-connected master oscillator and a buffer stage, as well as an adder, to the corresponding inputs of which the first and second amplifiers are connected, and the inverter, between the inverter's direct output and the first the amplifier is sequentially connected to the first comparator and the first trigger, and between the inverted output of the inverter and the input of the second amplifier are introduced in series the second comparator and the second trigger, the inverted outputs of the first and second comparators respectively connected to the other yhodami first and second flip-flops, inverter input connected to the buffer stage vyhsdu and modulating siZgnal fed to the signal inputs of first and second comparators. FIG. Figure 1 shows the structural electrical circuit of the proposed device; in fig. 2 - timing charts of the device. The amplitude modulator contains a master oscillator 1, a buffer cascade 2, an inverter 3, a first comparator 4, a first trigger 5, a second comparator 6, a second trigger 7, a first amplifier 8, a second amplifier 9, and an adder 10. The amplitude modulator works as follows. The signal from the master oscillator 1 is fed through the buffer stage 2 to the inverter 3. From its direct output, one input of the comparator 4 receives the signal Ui USB I to the fovroft input - the modulating signal UJJ Vs S n5lt (Fig. 2, a). From the inverted output of the inverter 3 signal and V (, COs () is fed to one input of the second comparator b, to the other input of which a modulating signal is fed (FIG. 2, b). The first comparator 4 forms a sequence of straight Uj (FIG 2 and inverted Uj (Fig. 2, e) rectangular pulses, the duration of which is determined by the moments of equality of the voltages U and Ujj and can be found by the formula: Et-VnbmRi 5: pqrcco5 where t is the period of high-frequency oscillation; E- is the constant voltage that determines the duration of the voltage pulses U and Uj at the telephone point. The mapper 6 generates sequences of forward Uj (Fig. 2 and inverted and (Fig. 2, e) rectangular pulses. The first trigger 5 is tilted by a negative voltage drop and returned to its original state by a negative voltage drop Oj. At the same time, the output its voltage U4 is formed. - Forks of a meander (Fig. 2, g). Similarly, the second trigger 7 is detected by a negative voltage drop Ui and returns to its original state by a negative voltage front U4. At the output of the trigger 7, in this case, the {Hapreng O - forms of the meander are formed (Fig. 2, e). The signals from the outputs of the flip-flops and 7, amplified respectively in amplifiers 8 and 9, are fed to the inputs of the adder 10, where the amplification of the amplified voltages 114 and U occurs. The amplitude of the first harmonic of the resulting voltage Uj (Fig. 2,) varies in proportion to the modulating signal . Thus, by using the key mode, the proposed device provides an increase in the operating frequency range. Claims Amplitude modulator comprising a series-connected master oscillator and a buffer stage, as well as an adder, to the corresponding inputs of which are connected the outputs of the first and second amplifiers, and an inverter, characterized in that, in order to increase the operating frequency range, between the forward output of the inverter and the first comparator and the first trigger are connected in series with the input of the first amplifier, and the second connected in series between the inverted inverter output and the input of the second amplifier The comparator and the second trigger, in this case, the inverted outputs of the first and second comparators are connected to the other inputs of the second and first triggers respectively, the input of the inverter 71 is connected to the output of the buffer stage, and the modulating signal is fed to the signal inputs of the first and second comparators. Sources of information taken into account in the examination 1. US Patent No. 3170127, cl. 332-41, published. 1965 (prototype). S 8