SU417903A1 - - Google Patents

Description

one

The invention relates to electronic computing and can be used to convert a series of pulses of one type into a series of pulses of another type, for example, in correlators and in devices for indicating errors according to schemes based on the use of an error-correcting binary code with an even number of specified values of bits .

A device for determining parity is known, which contains several resistor-transistor groups in different conversion ranks with a decrease in each rank of the number of resistor-transistor groups by half against previous ones, and it is performed on the OR-Exclusively logic circuits.

Due to the large delays in the resistor-transistor groups, each rank, the number of which can be relatively sick with them, is transformed.

The purpose of the invention is to improve the accuracy of the transform of Rademacher functions in the Walsh function.

The goal is achieved by the fact that in the proposed converter, the resistor adder of the Rademacher functions, linear and nonlinear voltage converters - current, linear current converter - voltage, zero-organ and sources of reference voltages, one of the inputs of the zero-organ are connected to one of the sources of the reference voltage, and the other to the output of the linear current transducer is a voltage connected through a linear and nonlinear voltage transducer — a current to the output of a resistive summator of Rademacher functions; ny converter is connected with the other inputs from other sources of reference voltages.

Walsh functions are removed from the output of the null-organ.

A schematic diagram of the transform function of the Rademacher function in the Walsh function is shown in the drawing.

Signals of Rademacher functions are supplied to the input terminals 1 of a resistive adder 2, the output of which is made at the emitter follower 3 connected to the inputs of the linear voltage converter 4 - current, which also represents the emitter follower, and nonlinear voltage converter 5 - current, of which the switches 6. Switch 6 consists of two transistors 7 and 8 and a resistor 9 connected at one end to the combined emitters of transistors 7 and 8, and the other to a power source.

The collectors of the transistors 7 are connected to the source of nannan -Ea, the collectors of the transistors 8 are connected to the input 10 of the converter 1 current - voltage. The bases of the transistors 8 are connected via terminals 12 to external voltage sources, which differ from one another in negative voltage levels.

Current-to-current converter 11 is made, for example, on a transistor 13, the base of which is connected to a reference voltage source Ui, and its output is connected via a resistor 14 to a power source EZ n input 15 of the zero-body comparison 16, the second input 17 of which is connected to the source of the reference voltage Uz. The proposed device operates as follows.

Signals in the form of voltages varying according to the laws of the Rademacher function from zero to some negative level are fed to inputs 1 of a resistive adder 2, from output 3 of which a signal equal to the sum of the incoming signals divided by the number of inputs is output.

The voltage on the output 3 of the adder 2 takes a series of discrete values, evenly spaced along the voltage axis, starting from zero and ending with the value of the negative voltage level of the input signals. In this case, the step between the discrete values of the output voltage is equal to the magnitude of the negative voltage level of the input signals divided by the number of inputs. The sequence of alternation in time of discrete values of the voltages at the output 3 of adder 2 depends on the sequence of alternation in time of the values of the voltage of the input signals. The voltage of each source (at terminals 12) is equal to the average value of the even and odd (but not vice versa) discrete values, indicated by sequence numbers, starting with one and increasing in the direction of increasing negative voltage, i.e., -EI, - EZ,, -Ei.

From output 3 of adder 2, the signal is fed simultaneously to the inputs of the linear converter 4 and nonlinear converter 5. From the output of converter 4, the current, which is proportional to the voltage at the output of adder 2, enters input 10 of converter 11 simultaneously with the current from the output of nonlinear converter 5 In converter 5, the relationship between the input voltage and the output current has a graph view of the descending stepped broken line with a constant step length along the voltage drop and a constant height of the string along the axis of the currents. Ratio of the height of the step to its length is equal in magnitude and opposite in sign to the same ratio of change in output current to the change in input voltage in converter 4 that caused it. Input voltages at which sharp changes in output current of converter 5 occur, corresponding to each actuation of their switch 6, the reference voltage m-EI, -EZ, ..., -E {, which is different for each switch 6, comes from external source 12.

The relationship between the sum of the currents at point 10 and April at output 3 of adder 2 has the form of a periodic sawtooth line of straight lines, oscillating between maximum and minimum current levels with a smooth rise of the front and a sharp drop in the falling front. The length of the broken line is constant for the entire device, the difference in voltage values on two adjacent terminals 12. From point 10 of the output currents of converters 4 and 5, in the form of two different levels, enters the input of converter 11, where the current is transformed into directly proportional to it the voltage is also of two levels supplied to the null organ 16, where they are compared with the average level of voltage f / 2 of the source between them 17. The output of the null organ 16 is all even numbered samples

voltages are given in the form of zero voltage, and odd in the form of a single voltage.

Thus, the proposed converter of Rademacher functions in Walsh functions

has an increased speed due to the lack of multi-stage construction, causing different output signal delay times.

Subject invention

The Rademacher function in the Walsh function, containing a resistive adder, a linear and non-linear voltage-current transducers, a linear current-voltage transducer, a zero-organ and sources of reference voltages, so that conversion accuracy, one of the inputs of a pul-orgap is connected to one of the sources of the reference voltage, and the other to the output of a linear current-voltage converter is connected to voltage through a linear and non-linear voltage converter voltage-current with output

Rademacher function resistive adder, while the nonlinear converter is connected by other inputs to other sources of reference nationalities.