SU663098A1 - Amplitude modulator with digital control - Google Patents

Description

(54) DIGITAL AMPLITUDE MODULATOR

I

The invention relates to the field of radio engineering and, in particular, can be used in discrete devices.

Amplitude modulators with digital control are known, in which a code - voltage 1 is connected to the control input of the amplitude modulator. The disadvantage of such modulators is the low stability of their transmission coefficient.

Closest to the proposed one, the amplitude modulator with digital control is the one containing the code-voltage converter, voltage generator, and code bus 2. Such an amplitude modulator has insufficiently high transmission coefficient stability.

In order to improve the stability of the transmission coefficient, a switch, a control unit, and a decoder are inserted into a digitally controlled amplitude modulator containing a code converter, a voltage generator, and a code bus. The inputs of the decoder are connected to the outputs of the converter code - voltage, the input of the decoder is connected to one of the inputs of the control unit, the other input of which is connected to the first code bus, one of the outputs of the control unit is connected to the first input of the converter code - voltage, the other output to the first to the input of the switch, the inputs of which are connected to the antiphase outputs of the voltage generator, the output of the switch connected to the second input of the converter code - voltage, the third inputs of which are connected to the second code bus.

The control unit contains serially connected first pulse shaper, the AND element, the OR element, a trigger with a counting input, and an equivalence element and the second pulse shaper,

the input of which is connected to one of the inputs of the control unit and the second input of the element I. The output of the second pulse shaper is connected to the second input of the OR element, the second input of the equivalence element is connected to the input of the first pulse shaper and the other input of the control unit, the trigger outputs with a counting input and an equivalence element connected to the outputs of the control unit, respectively.

FIG. 1 shows a functional diagram of the amplitude modulator with digital control; in fig. 2 - functional block diagram.

The amplitude modulator contains switch 1, the converter code is voltage 2, control unit 3, decoder 4, voltage generator 5, and code buses 6. 7 and 8.

Anti-phase outputs of generator 5 are connected to the inputs of switch 1, and its output is connected to the input supply of the reference voltage of converter 2. Sign bits, buses 7 and 8 of the control code are connected to the input of converter 2, and sign bits, code bus 6 - to control unit 3 input. One output of the control unit is connected to the control, it is input to the switch 1, and the other output is connected to the sign input of the converter 2. The converter outputs are connected to the inputs of the decoder 4, the output of which is connected to the second input of the control unit.

The device works as follows.

From the output of switch 1, the voltage of the carrier frequency is fed to the input of the reference voltage supply of the converter, code - voltage 2, with which the carrier voltage is modulated according to the law determined by the code at the input of the converter. The phase of the carrier frequency at the output of the switch is determined by the sign of the voltage on its control input.

The decoder 4 controls the state of the converter 2. The signal from the output of the decoder is fed to the control unit 3, which controls the operation of the switch and the converter. At the output of the converter, a unipolar two-phase voltage of the signal frequency is obtained, and the amplitude of which varies according to the law determined by the code applied to the control inputs of the modulator. Elimination of low-frequency modulation products is performed by a filter (not shown in the drawing) connected at the output of the modulator.

The control unit 3 (Fig. 2) contains an element of equivalence 9, a trigger 10 with a counting input, a driver 11 pulses, an AND 12 element, an OR 13 element and a driver 14 pulses.

Input 15 of the character code is the input of an element of equivalence 9, and between it and the second input of an element of equivalence, a trigger 10 with a counting input is connected in series, a shaper 11 pulses, an element AND 12, an element OR 13. The output of an element of equivalence is connected to a sign input of the converter 2. Output the decoder 4 is connected to the second input element AND 12 and the input of the pulse shaper 14, the output of which is connected to the second input of the element OR 13. The output of the trigger 10 is connected to the control input of the switch 1.

The control unit operates as follows.

1.If we assume that the code sign changes at a low potential at the output of the decoder 4, corresponding to the finding of the reversible counter entering into

 Since the transducer 2 is not in the zero state, then a pulse appears at the output of shaper 11 arriving at the first input of element 12. A low (inhibiting) potential arrives at its second input from the decoder and therefore no pulse at the output of element 12 occurs. The state at the output of the element of equivalence 9 changes under the influence of a change in the sign of the code at its second input and, thus, the counting direction of the reversible counter entering the converter 2 changes.

2. A high potential appears at the output of the decoder 4, corresponding to the transition of the inverter counter of the converter 2 to the zero state. Emerged

0, the voltage drop causes the appearance of a pulse at the output of the pulse shaper 14, which triggers trigger 10 through element 13. The latter changes its state and thereby switches the carrier phase to the output of switch 1. In addition,

 the switching of the trigger 10 changes the potential at the first input of the element of equivalence, and consequently, the potential at its output, which leads to a change in the direction of the counting of the reversible counter of the converter 2.

3. The code sign changes at high potential at the output of the decoder 4 (the reversible counter of converter 2 is in the zero state). The pulse from the output, and the driver 11 pulses passes through the element 12, because the resolving potential from the decoder 4 enters its second input, and through the element 13 switches the trigger 10, and hence the element of equivalence 9.

The situation described in clause 3 can only appear soon after the situation described in clause 2 arises. Therefore, the flip-flop of trigger 10 and the switching of the carrier phase at the output of switch 1 occurs twice (once the situation arises from clause 2, and according to claim 3), i.e. the phase remains the same. And the element of equivalence 9. Changes its state in relation to the original one due to the effect of changing the sign of the code on its second input. Therefore, in the case of the successive situations described in clauses 2 and 3, the counting direction of the up-down counter of converter 2 changes. The carrier phase at the output of the switch does not.

Claims (2)

Invention Formula . Amplitude modulator with digital control, containing converter code - voltage, voltage generator, code buses, characterized in that, in order to increase the stability of the modulator transfer ratio, a switch, a control unit and a decoder are entered into it, the inputs of which are connected to the outputs of the converter code - voltage, and the output the decoder is connected to one of the inputs of the control unit, the other input of which is connected to the first code bus, one of the outputs of the control unit is connected to the first input of the converter, the code is voltage, the other output is to the first input of the switch th antiphase outputs are connected to the voltage generator, the switch output is connected to the second input of the code converter - voltage, the third inputs of which are connected to second word lines. 2. Amplitude modulator according to claim 1, characterized in that the control unit comprises first connected in series pulse generator, AND element, OR element, trigger with counting input and equivalence element and second pulse shaper, whose input is connected to one of the inputs of the control unit and the second input of the AND element, and the output of the second pulse shaper is connected to the second input of the OR element, second input the equivalence element is connected to the input of the first pulse generator and another input of the control unit, the trigger outputs with the counting input and the equivalence element are connected to the outputs of the control unit, respectively about. Sources of information taken into account in the examination 1. Klebansky R. B. Code to voltage converters, M., 1973, p. 76. 2. Handbook radio amateurs under. ed. A. A. Kulikovsky, Gosenergoizdat, ML., 1958, p. 335-336.