SU720716A1 - Functional code to frequency-time signal converter - Google Patents

Description

The invention relates to computing and can be used to build specialized digital-to-analog computing devices that implement non-linear conversions. A known functional converter of a code into a frequency contains a memory register of the code being converted, a reference frequency generator, a counter, a decoder, triggers, keys, and logic circuits OR tl. A disadvantage of the known device is to increase the complexity of the circuit while increasing the accuracy of the conversion and reducing its reliability. Also known is a functional code converter to a time-frequency signal, which contains the input code register, a bridge circuit built on elements controlled by the input code and the output pulse signal parameter (output pulse duration), the power source of the bridge circuit and connected in series. unbalance amplifier of the bridge circuit and controlled oscillator of the output rectangular pulses 2. The disadvantage of this device is the complexity of its circuit when implementing various conversion functions due to the introduction of a large number of additional devices necessary for the automatic determination and implementation of each plot of approximation . The purpose of the invention is to simplify the converter circuit with the implementation of various conversion functions, improve the workability of the device and transform the conversion accuracy. This goal is achieved in that a functional code converter into a time-frequency signal, containing an input code register, functional chi (} ro-analog converter, functional frequency-time demodulator, power source, unbalance voltage amplifier, and controlled rectangular generator. 3 pulses, and the output of the power supply is connected to the first input of the time-sensitive Gdemodulator and to the analogous input of the function of the digital-to-analog converter, the bit inputs of which are connected The output to the outputs of the register of the input code, and the output of the voltage unbalance voltage amplifier is connected to the input of the direct e of the rectangular pulse generator, the output of the latter by keys to the second input of the frequency time demodule module, the second functional digital-analog converter, the second functional frequency-frequency converter - a time demodulator and two amplifying amplifiers. Moreover, the input of the first amplifying amplifier is connected to the output of the first frequency temporary demodulator, and the output to the analog input of the second, functional qi (| ch) -analogue converter, the bit inputs of which are connected to the outputs of the register of the input code, and the output to the first input of the voltage unbalance amplifier, the input of the second decoupling amplifier is connected to the output of the first functional digital-analog converter, and the output to the first the input of the second frequency-time demodulator, the second input of which is connected to the output of the controlled square pulse generator and the output terminal, and the output to the second input of the voltage unbalance amplifier. The drawing shows the block diagram of the proposed Converter. The converter contains a register 1 of the input code, a bridge circuit formed by a functional digital-analog converter 2 and a function of a time-frequency demodulator 3, a power source 4 of a bridge circuit, decoupling amplifiers 5 and 6, a second functional digit-analog converter 7, a second functional - a time-frequency demodulator 8, a voltage unbalance amplifier 9 of the bridge circuit, and a controlled iO generator of the output rectangular pulses. The vertices of the bridge circuit referring to the measuring diagonal, i.e. the outputs of converter 2 and demodulator 3 are connected via amplifiers 6 and 5 to the inputs of demodulator .8 and converter 7, whose outputs are connected to the inputs of amplifier 9. The bit inputs of converters 2 and 7 are connected to the outputs of register 1. 164. Frequency BpeMeiiHbie, bars 3 and 8 are controlled by the duration or frequency of the output pulses of the device, generated by the easy oscillator 10, which can be performed both in the form of a controlled time pulse generator and in the form of a controlled frequency generator and pulses, and when used in the quality of demodulators 3 and 8 nonlinear pulsed voltage dividers, the generalized control variable for them is the relative duration of pulses E - proportional to both the variable duration C of pulses following a constant period. variable frequency f -7p following impulses; s of constant duration t, since with the latter case t oi the Converter works as follows. When the input code N changes, the output voltages of the converters 2 and 7 change and a bridge imbalance voltage arises, which is amplified by the amplifier O and fed to the input of the generator E. Under the influence of the amplified voltage unbalance, the generator Yu changes the duration or frequency of its output pulses so as to restore the balance of the bridge, i.e. the equality of the output voltages U-, and Ug of the converter 7 and demodulator 8 corresponds to P10. As well as if) (gsi): and -IRSM1F (.v), 12o Ii de Fj (N) and F (N) - the functional characteristics of the digital-analogue1X) Output convert the Axis .2 and 7, respectively; Ф (0) Ф, (0) - фу1: national characteristics of frequencies (10-times1, X demodulators 3 and 8; - voltage of the power supply of the bridge circuit, U Ug equality, automatically supported by the tracking system of the transducer, corresponds to Conversion characteristics proposed

Claims (1)

A functional converter of code into a time-frequency signal containing an input code register, a functional digital-to-analogue converter, a functional time-frequency demodulator, a power source, an unbalance voltage amplifier, and a controlled square-wave generator, the output of the power source being connected to the first input -temporal demodulator and the analog input of a functional digital-to-analog converter, the bit inputs of which are connected to the outputs of the input code register, and the output of a voltage amplifier 720716 6 owls, the output of the latter is connected to the second input of the time-frequency demodulator, characterized in that, in order to simplify the converter during implementation, various conversion functions, a second functional digital-to-analog converter, a second functional time-frequency demodulator and two decoupling are introduced into it an amplifier, the input of the first decoupling amplifier being connected to the output of the first frequency-time demodulator, and the output to the analog input of the second functional digital-to-analog converter a device whose discharge inputs are connected - · - ...... to the outputs of the input code register, and the output to the first input of the unbalance voltage amplifier, the input of the second decoupling amplifier to the output of the first functional digital-to-analog converter, and the output to the first the input of the second time-frequency demodulator, the second input of which is connected to the output of the controlled rectangular pulse generator and the output terminal, and the output to the second input of the unbalance voltage amplifier.