SU1182637A1 - Function generator - Google Patents

Abstract

FUNCTIONAL GENERATOR,. containing the first pulse shaper, whose input is connected to the first pulse generator output, and the output is connected to the first input of the adder, the first memory element, characterized in that, in order to achieve accuracy, a second memory element is inserted into it, the second pulse shaper, the driver write pulses, an inverter and a memory unit, the bit outputs of which are respectively connected to the bit inputs of the first and second memory elements, and the memory block input is connected to the second output of the pulse generator and to the input a write driver, the first and second outputs of which are connected respectively to the control inputs of the first and second memory elements, the output of the second memory element is connected to the bit inputs of the second pulse driver, and its output is connected to the second input of the memory mat, the output of the inverter is connected with the control input of the second pulse array, and the inverter input is connected to the input of the first pulse array, the bit inputs of which are connected to the bit outputs of the first memory element. ace inp o) od

Description

The invention relates to a pulsed technique and can be used to synthesize a signal of complex form of modeling processes in measuring and computing complexes requiring 5 conversion of digital signals to analog.

The aim of the invention is to improve accuracy by reducing the amplitude-time-distortion of the signal based on the summation of normalized smoothing pulses.

The drawing shows a structural diagram of a functional generator.

The functional generator contains 15 pulse generator 1, a memory unit 2, first and second memory elements 3, 4, a write pulse generator 5, the input of which is connected to the second output of the pulse generator 1 and the input of the memory unit 2, the first output is connected to the control input of the first memory element 3, and the second output with the control input of the first memory element 3, and the second output 25 - with the control input of the second memory element 4, the bit inputs of which are respectively connected to the bit inputs of the first 3 memory element and bit the moves of the memory unit 2, the first, second pulse shapers 6, 7, an inverter 8, an adder 9, the first and second inputs of which are respectively connected to the outputs of the first and second pulse shapers 6, 7, the bit inputs of which are respectively connected to the bit outputs of the first and second elements 3, 4 of the memory, the first output of the pulse generator 1 is connected to the control input of the first pulse shaper 6 and the input of the inverter 8, the output of which is connected to the control input of the pulse shaper 7.

Functional generator operates as follows.

The pulse generator 1 at the first output generates a sequence of pulses of the required shape, repetition rate, which serve as the initial smoothing pulses, and at the second output - a sequence of rectangular pulses that are frequency-setting pulses when normalizing the parameters of smoothing pulses and time clocks to form them37 2 recording pulses . The pulses of the generator 1 in its first and second outputs are rigidly tied in time and have the same repetition rate.

When generating periodic signals, the number of periods of smoothing pulses is an integer number of times fit into one period of the output signal, and in other cases when pseudorandom and other signals are generated, this criterion is not required. The generator pulses are fed to the signal inputs of the first pulse shaper 6, and to the second pulse shaper 7 through an inverter 8. In each pulse shaper 6, 7, the input pulses are normalized by discrete control of their transmission coefficients so that the pulse amplitudes are equal to the instantaneous values of the output signal at relevant times. The amplitude value in each of the shapers is set through their bit inputs using the first and second memory elements 3.4 at the beginning of each period. The value of the code recorded in elements 3.4 is stored over the entire period of the pulse formation. The new values of the codes are recorded in them from the memory unit 2, which contains in code form the values of the instantaneous amplitudes of the output signal. The order of recording from the memory block to the elements 3,4 is controlled by the shaper 5 of the recording pulses. At the beginning of the next 40 impulses by a pulse from the second output of the generator 1, the next code is read from the memory block, however, the code will be written to one or another memory element. In which of them it is 45 to write the code determines the shaper of the recording pulses. In one of the memory elements, the code is written, read at even addresses, and in another - at the odd memory block.

Recording control signals come from the first or second outputs of the recording pulse generator. Normalized pulses from the outputs of the shapers 6, 7 are fed to the inputs ₅ 5 of the adder 9, the output of which appears an analog signal whose shape is recorded in encoded form in the memory unit.

Claims (1)

FUNCTIONAL GENERATOR,. comprising a first pulse shaper, the input of which is connected to the first output of the pulse generator, and the output is connected to the first input of the adder, a first memory element, characterized in that, in order to improve accuracy, a second memory element, a second pulse shaper, a write pulse shaper are introduced into it , an inverter and a memory block, the bit outputs of which are respectively connected to the bit inputs of the first and second memory elements, and the input of the memory block is connected to the second output of the pulse generator (? in and to the input a recording pulse generator, the first and second outputs of which are connected respectively to the control inputs of the first and second memory elements, the output of the second memory element is connected to the discharge inputs of the second pulse shaper, and its output is connected to the second input of the adder, the inverter output is connected to the control input of the second pulse shaper and the inverter input is connected to the input of the first pulse shaper, the bit inputs of which are connected to the bit outputs of the first memory element. SU ... 1182637 1182