SU822203A1 - Analogue signal dividing device - Google Patents

Description

(54) DEVICE FOR DIVISION OF ANALOG SIGNALS

Claims (2)

This invention relates to electrical computing devices and can be used in analog computing devices. A device for dividing analog signals, containing cyfrMaTop, logarithmic converters, subtraction blocks, filter T, is known. However, this device possesses. low precision work. Closest to the present invention is an analog signal dividing device comprising a balanced amplitude modulator connected in series, an adder, a logarithmic converter, a first band amplifier, a first synchronous detector, and an automatic gain control unit, the output of which is a device output, connected in series to a second band amplifier and second synchronous detector, harmonic oscillator, the first output of which is connected to the control input of the first synchronous jHoro of the detector and the first input of the balanced glitplitud modulator, the second output of the harmonic oscillator is connected to the control input of the second synchronous detector and the first input of an additional balanced amplitude modulator, the output of which is connected to the second input of the unmator, the second input of the additional balanced amplitude modulator, the second input of the additional amplitude modulator, the input of the divisible device, on, the output of the second synchronous detector is connected to the second input of the automatic gain control unit; the second input is balanced of Nogo amplitude modulator coupled to the third input of the adder, inputs of the first and second bandpass amplifiers 2 are combined. The disadvantage of this device is the inadequate accuracy of operation due to the instability of the logarithmic converter at the initial part of the quasilogarithmic characteristic with a change in the ambient temperature. The purpose of the invention is to improve the accuracy of work by correcting the shape of the characteristic of a logarithmic converter depending on the level of the signal-divider. The goal is achieved by introducing a switch, a synchronous envelope detector, a generator of switching pulses and a constant voltage source into the device, the signal input of the synchronous envelope detector connected to the output of the first band amplifier, the output of the synchronous envelope detector connected to the control input of the logarithmic converter, the first input of the switch is connected to the input of the device divider, to the second input the switch is connected to the output of a constant voltage source, the output to The mmutator is connected to the second input of the balanced amplitude modulator, the control input of the switch is connected to the first output of the switching pulses generator, the second and third outputs of which are connected to the control inputs of the synchronous envelope detector and the second synchronous detector, respectively, as well as that the logarithmic converter contains an operational amplifier, to the inversion of the input of which an anode of the logarithmic diode is connected, whose cathode is the output of a logarithmic input And through tokozadayusch second resistor connected to the output of the operational amplifier, the inverting input thereof through first and second resistors connected to the scale and upravl5Poschemu signal inputs of logarithmic converter respectively. Fig. 1 shows a functional diagram of the proposed device for dividing analog signals; Fig. 2 is a block diagram of a logarithmic converter. The device contains (Fig. 1) (balanced, amplitude modulator 1, adder 2, logarithmic converter 3, first bandpass amplifier 4, first synchronous detector 5, block 6 of automatic gain control, output 7 of the device, second band amplifier 8, second synchronous detector 9, 10 harmonic generator, additional balanced amplitude modulator 11, divisor device input 12, switch 13, device divider input 14, constant voltage source 15, synchronous envelope detector 16, generator 17 co-terminating x pulses (Fig. 1} The logarithm converter (Fig. 2) includes a logarithm diode 18, an operational amplifier 19, a current supply resistor 20, large-scale resistors 21 and 22. The device for dividing analog signals works as follows: The input of the logarithmic converter 3 is supplied UexWUoli) К „id„ ЫпU), l4 “, UoWsincoji, I) de K., K - transfer coefficients of the balanced amplitude modulator 1 and additional balanced amplitude modulator 11; (e)., the frequencies of the harmonic carrier oscillator 10, which are modulated by a balanced amplitude modulator 1 and an additional balanced amplitude modulator 11, respectively; Signal-divisible voltage. , T tir + isnpH | t T, YES voltage-to-voltage, U, g is the voltage of source 15 of constant voltage; T is the repetition period of the generator signal of 17 switching pulses. The variable component at the output of the converter converter 3 contains the following components: H (t), (U4Jsinco, t when, + X ((OgriO 1 T 7 1 t + (4) P1 - ,, (,) 21 t | D T ,, (b) where (- thermal potential of the logarithmic diode; M (1)., d) is the ratio of the quasi-logarithmic and logarithmic derivatives with the value of Ud m (and, 5) is the same with the value, and (3) is allocated at the output of the second band amplifier 8, and the components (4) ij (5) at the output of the first band amplifier 4. The amplitude difference is q (4) and (5) corresponding to the signal divider and the voltage of the constant voltage source 15 are separated by the synchronous detector 16 by the bend and are used as a logarithmic transform of the 3 p1H correction of the shape of its characteristic. This correction causes the values of M (UA.) and MdJjg) differ from each other by the most significant amount, i.e., the logarithmic part of the characteristics of the logarithmic converter 3 is required. At the output of the second synchronous detector 9, a voltage is allocated that is directly proportional to the voltage determined by the relation (3) / and the output of the first synchronous detector 5 is the voltage determined by the relations (6) and (7). The automatic gain control unit 6 changes its gain in inverse proportion to its input signals. As a result, the voltage at the output 7 of the device may be. made independent of the temperature and drift of the operating amplifier. Thus, the advantage of the analog signal dividing device is to improve the accuracy of operation, which is due to the use of correction of the characteristics of the logarithmic converter 3. As a result, it is possible to work with. the input voltage of the signal separator is one to two orders of magnitude smaller than in the known device, since the distortion of the shape of the head section of the characteristics of the logarithmic converter is reduced. 3. Invention 1. A device for dividing analog signals containing series-connected balanced amplitude modulator, adder, a logarithmic converter, a first bandpass amplifier, a first synchronous detector and an automatic gain control unit, the output of which is the output of the device connected Consequently, a second bandpass amplifier and a second synchronous detector, a harmonic oscillator, the first output of which is connected to the control input of the first synchronous detector and the first input of a balanced amplitude modulator, the second output of the harmonic oscillator, is connected to the control input of the second synchronous detector and the first input an additional balanced amplitude modulator, the output of which is connected to the second input of the adder, the second input of an additional balanced amplitude modulator The puller is connected to the input of the de-7 # 1 device, the output of the second synchronous detector is connected to the second input of the automatic gain control unit, the second input of the balanced amplitude modulator is connected to the third input of the adder, the inputs of the first and second band amplifiers are combined in that with in order to increase the accuracy of work, a switch, a synchronous envelope detector, a comm. pulses and a DC voltage source, where the signal input of the synchronous envelope detector is connected to the output of the first bandpass amplifier, the output of the synchronous envelope detector is connected to the control input of the logarithmic converter, the first input of the switch is connected to the input of the device divider, to the second input of the switch the output is connected a constant voltage source, the switch output is connected to the second input of a balanced amplitude modulator, the switch control input is connected to the first output of the generator of switching pulses, the second and third outputs of which are connected to the control inputs of the synchronous envelope detector and the second synchronous detector, respectively. 2. The device according to claim 1, the difference is that the logarithm converter contains an operational amplifier, to the inverting input of which the anode of the logarithmic diode is connected, the cathode of which is the output of the logarithmic converter and is connected to the output of the operational amplifier through a current-supply resistor The inverting input of which through the first and second large-scale resistors is connected to the signal and control inputs of the log of the rhymic converter, respectively. Sources of information taken into account in the examination-e 1.Patent of France 2138206, cl. С About G 7/00, .g published.1973. 2. USSR author's certificate for application No. 2651450 / 18-24, cl. G 06 G 7/16, 01.25.79.