SU1022183A1 - Function generator - Google Patents

Description

1 The invention relates to the automation of computing technology and can find the use of aliamental and logarithmic functional transformations of analog signals. A known function converter, a switch that contains, controllable voltage healers, a jfoiraM integrator, a comparison unit, a logarithmic converter, a threshold unit, a control unit, and a reference voltage source ijL. The above-mentioned Interactive converter, which possesses wide functional capabilities, is distinguished by reduced accuracy and speed and the complexity of the constructive implementation. A functional converter is also known, comprising per-switches, a balancing unit, a comparator, a mismatch determination unit, a reference voltage source, a control unit, and exponential and linearly varying voltage drivers 2. This transducer, which allows the logarithmic and exponential transform function to be performed, has reduced accuracy. A functional transformer is also known that includes controlled voltage targets, an analog-digital converter & Solver, cipher, code converter, source of opto voltage, and scaling and summing amplifiers. 51 A disadvantage of the known functional converter is its limited functionality, since it allows only logarithmic conversion of analog signals. The prototype of the invention is a functional converter containing controlled voltage dividers and an analog-to-digital converter connected by outputs to the inputs of the decoder and to the inputs of the converter The one connected by the outputs to the control inputs of the first controlled voltage divider, the signal input of which is connected to the output of the reference voltage source, the second controlled voltage divider connected by the signal input to the output of the summing amplifier, the output m to the output bus function and the control inputs to the outputs of the decoder, the summing amplifier being connected by the first input to the output of the first control voltage divider, and the second input to the output of the scale amplifier Connected by the input to the input argument bus and to the input of the analog-to-digital converter; And the disadvantage of the prototype is the limitation of its functionality, since it allows only the exponential functional transformation to be performed and does not allow the logarithm to transform. The purpose of the invention is to expand the functionality by performing a logarithmic transformation. The goal is achieved by a function converter containing controlled voltage dividers and an analog-to-digital converter connected by outputs to the inputs of the decoder and to inputs of a code converter connected by outputs to the control inputs of the first controlled dividend, the signal input of which is connected to the output of the reference voltage source, the second controlled voltage divider connected by a signal input to the output of the summed amplifier, and the output to the output bus function A code converter, keys, code multipliers, and a third controlled voltage divider coaxially connected by a signal input to the argument input bus and to a signal input of the first key, control inputs from the first switch of the codes, and an output to the first input. a summed amplifier, connected by the second and third inputs, respectively, to the outputs of the second and third switches, the signal inputs of which are connected to the output of the first controlled voltage divider, the first switch The code tutor is connected to the group of information inputs to the input bus of the first reference code, and the second group of information inputs to the outputs of the first multiply codes connected by the first group of inputs with the input of the second basic code, and the second group of inputs to the outputs of the cipher-mount and with the first group of inputs of the second multiplier of codes, connected by the second group of inputs to the input bar of the third reference code, and the outputs to the first group of information inputs of the second code switch, connected by the second group of information inputs with the input bus of the first reference code, and outputs with the control input of the second controlled voltage target connected to the signal input of the fourth key connected to the analogue digital converter and the output of the first key, with the control inputs of the first and second keys and the first control inputs of the code switches are connected to the control bus of the exponential conversion mode, and the control inputs of the third and fourth keys and the second control inputs of the code switches are connected Log-transform mode control bus; The drawing shows a block diagram of a T1-functional converter containing an analog-to-digital converter 1 connected by outputs with inputs of a decoder 2 and with inputs of converter 3 of a code connected by outputs to control inputs of the first controlled target 4 on April. The controlled voltage divider 4 is connected by a signal input to the BB1 INPUT of the source 5 of the reference voltage. The second controlled divider 6, the voltage is connected by a signal input to the output of summing amplifier 7, and the output to the output bus 8 of the function converter. The third controllable divider 9n 1Radiation is connected by the signal input to the input argument box 1O and to the signal input of the first key 11, the control inputs to the outputs of the first switch 12 codes, and the output to the first input of summing amplifier 7. The second amplifier 7 is connected second and third inputs, respectively, to the outputs of the second and third keys 13 and 14, the signal inputs of KOTOffctx are connected to the output of divider 4. The switch 12 codes are connected with the first group of information inputs to the input bar 15 of the first reference code, and the second group with information 's inputs to the outputs of the first multiplier 16 codes. The multiplier 16 is connected to the first group of inputs with the bus 17 to input the second reference code, and the second group of inputs to the outputs of the decoder 2 and to the first group of inputs to the second multiplier 18 codes. The multiplier 18 is connected by the second group of inputs to the bus 19 to input the third reference code, and by means of the first group of information inputs of the second switch 2 O codes. The switch 20 is connected to the second group of information inputs with the bus 15 to enter the first reference code, and the outputs - to the control of 10 34 inputs of divider 6. Divider 6 is connected to the sigal input of the four-way switch 21 connected to the input of the analog-to-digital converter 1 and with the output of the key 11. The control inputs of the keys 11 and 13 and the first control inputs of the switches 12 and 2 are connected to the control panel, 22 controlling the exponential conversion mode. neither The control inputs of the keys 14 and 21 and the second control inputs of the switches 12 and 20 are connected to a logarithmic mode control width 23. The operation of the functional converter when performing the exponential transformation (where aB is constant; X is an argument) and the logarithmic transformation Eh bx is based on the use of a polygonal approximation of these functions by functions containing a linear component (depending on the number of the approximation area and on input signal X) and a step component (depending only on the P number). The exponential (exponential) transformation is realized in -response with the equation of the form. (,. о, (i} where Л, is quantization step of the converter 1; and the logarithmic transformation is according to the equation (fx). A.) Functional converter pe6oii .. as follows: In the mode of exponential conversion, the control signal from bus 22 closes keys 11 and 13 and connects the reference code D (of strip 15) to the outputs of switch 12, and the outputs of switch 2O to the outputs of the multiplier 18. - chi 14 and 21 remain open, and for 17 and 19 of multipliers 16 and 18 are served reference codes, respectively, equal to 1 / b. The input signal X from the bus 1O arrives at the input of the converter 1 and the signal input of the divider, l 9. Depending on the magnitude of the input signal, the converter 1 determines the number n of the approximation step, by the value of which the decoder .2 generates a signal 2, and the converter 3 forms

Claims (1)

(5.7) FUNCTIONAL CONVERTER, flickering controlled. voltage healers and an analog-to-digital converter connected by outputs to the inputs of the decoder and to the inputs of the code converter connected by outputs to the control inputs of the first controlled voltage healer, the signal input of which is connected to the output of the reference voltage source, and the second controlled voltage healer is connected by the signal input to the output the sum of each amplifier, and with the output - to the output bus of the functional converter, with the exception of the fact that, in order to expand the functionality by performing a logarithmic transformation, code switches, keys, code changers and a third controlled voltage healer connected to the input signal of the argument argument with the signal input, the input of the first key, the control inputs are connected to the outputs of the first code switch, and output - with the first input of the summing amplifier, connected by the second and third inputs, respectively, to the outputs of the second and third keys, the signal inputs of which are connected to the output of the first controlled integer voltage amplifier, and the first code switch is connected by the first group of information inputs to the input bus of the first reference code, and the second group of information inputs to the outputs of the first code multiplier connected by the first group of inputs to the input bus of the second reference code, and the second group of inputs with outputs a decoder and with the first group of inputs of the second code multiplier connected by the second group of inputs to the input bus of the third reference code, and outputs - to the first group of information inputs of the second code switch, connected by the second group of information inputs with the input bus of the first reference code, and outputs - with the control inputs of the second controlled voltage healer, connected by the output to the signal input of the fourth key, connected by the output to the input of the analog-to-digital converter g with the output of the first key, and the control inputs of the first and second keys and the first control inputs of the code switches are connected to the control bus of the exponential conversion mode, and the control inputs of the third and fourth keys are also connected to The other control inputs of the code switches are connected to the control bus of the logarithmic conversion mode.