SU809223A1 - Analog signal divider - Google Patents

Description

The invention relates to analog computing, in particular, to devices, the pulse time determining the ratio of two electrical signals. The open-type pulse devices are known that perform the division operation by forging a sawtooth voltage from the divider signal and then comparing it with the dividend signal, at. The duration of the time interval from the beginning of the formation of the sawtooth voltage to the moment of dynamic compensation of the level divisible by the sawtooth voltage is proportional to the determined ratio of the signals Lll. Devices with two comparison circuits are known, the first of which generates a pulse at the time of sawtooth voltage transition through a predetermined voltage Ug, called conditional zero, and the second .- at the time of equality of sawtooth voltage or sum of divisible and conditional zero signals. The time interval between the operation of the first and second comparison circuits, fixing & trigger, is proportional to the determined ratio 2. The closest technical solution to the proposed is a voltage dividing device, which is designed to determine the ratio of two electrical signals in the form of voltage and includes a controlled linear voltage generator, the output of which is connected to the nepBotlQr, the controlled voltage of the linear voltage generator, the source of the divider signal, the output of which is driven by pervsmu entry controlled gene; linear voltage generator, generator TaKTOttix impulses, the output of which is connected to the second input of the controlled linear voltage generator, the first and second comparison blocks, the first inputs of which are connected to. are connected to the output of the controlled linear voltage, the source of the dividend signal , a resistive voltage divider, the output of which is connected to the second 1 input of the first, comparison block, the trigger, whose inputs are connected to the outputs of the first and second comparison blocks, and the output is the output of the device sj. A disadvantage of the known device is the low accuracy of voltage division. The purpose of the invention is to increase the accuracy of voltage division. The goal is achieved by introducing an adder and a reference voltage source into a known device, the output of which is connected to the first input of the adder and to the input of a resistive voltage divider, the second input of the adder is connected to the output of the divisible signal source, the third input of the adder is connected to the output of the controlled linear voltage generator, the output of the adder is connected to the second input of the second unit of comparison. FIG. 1 is a block diagram of a device for dividing analog signals; FIG. 2 - diagrams, according to the principle of operation of the device. A device for dividing the anhorshign signals contains a controlled linear voltage generator 1, to the first input of which the output of the source 2 of the divider signal is connected, and the second input is connected to the generator of 3 clock pulses. The output of the generator 1 is connected to the first inputs of the two blocks of comparison 4 and 5. The second input of the second block 4 of the comparison is connected to a resistor divider voltage 6, and the second input of the block 5 of the comparison is connected to the output of the adder 7 The second input of the adder 7 is connected to the output of the source 8 The signal of the dividend and the first. The input of the adder 7 is connected to the output of the source 9 of the reference voltage and to the input of the resistive voltage divider b. The outputs of the comparison blocks 4 and 5 are connected to the installation inputs of the trigger 10, the output of which is the output of the device. A device for dividing analog signals works from l to dim. At the time of the appearance of the clock pulse (Fig. 2a) generated by the generator 3, the output voltage of the controlled generator 1 of the linear voltage produces a sawtooth voltage U (t) (Fig. 26), whose slope is determined by the voltage of the source 2 of the divider . Kj-U, v t; "Uj - c (i where K is a constant coefficient t is the current time value, starting from the moment of the occurrence of a clock pulse Uj {- voltage of the source of the dividers. Voltage U (t) is fed to the first inputs of the comparison blocks 4 and 5. The second input of the comparator unit 4 is supplied with voltage and (Fig. 2b) taken from the resistive voltage divider b, where Kj is the level conversion factor. The reference voltage UQ removed from the reference voltage source 9. At the output of the adder 7 voltage Uj (Fig. 26). 3 4 О where K, are the constant coefficients of the adder 7, and is the voltage taken from the source of the dividend signal 8. Comparison unit 4 produces an impulse (Fig. 2c) at time t, which is determined from equation (4) where Uj, is the response threshold of comparison unit 4. Block 5 Comparison produces a pulse (Fig. 2d) at time t, which is determined from the expression K3U4 - "-, jp, (5) where and is the zero bias voltage of adder 7 (zero drift); UQJ is the threshold of the comparison unit 5 that determines the response delay. The output pulse of the comparison unit 4 sets the trigger 10 to the state of logical 1, and the pulse removed from the output of the comparison unit 5 returns the trigger 10 to the initial state of logical O. The duration of the pulse D1 (Fig. 2e) corresponds to the time interval between the moments t. and t, and is expressed by the following / image KjU + K UptUca-Uci Ugp-XtUq Z KiUi When setting the coefficient Kj. resistive voltage divider in such a way that K lUo Uc2-Uci 9P (7) Oo, the duration of the pulse generated by the trigger 10 will be strictly proportional to the ratio of the two voltages, c) The device functions for the duration of the clock pulse. With the arrival of the next clock pulse, the computational cycle repeats. At К - 1, expression (6) corresponds to the output signal generated by a known device, hence the determination of the voltage ratio in the known device occurs with a relative error o (K, -1), RjUA

Thus, the proposed device allows determining the ratio of two electrical signals with greater accuracy.

This makes it possible to use the proposed device in computing, in industry, in measuring circuits of photometric systems in determining transmittance, reflection, scattering and other factors, as well as in radio devices using the definition of two electric signals, and in other areas of technology, where A two-analog signal ratio with a high degree of accuracy is required.

Claims (3)

1.zylinskas R.-P.P. Ratio meters. M., Soviet Radio, 1975, p. 79. 2. Reference book on the angular computational technique. Edited by G.E. Pukhov, Kiev, Technique, 1975. 3. USSR author's certificate in application number 2648425, cl. G 06 G 7/16, 11.07.78 (prototype). 0