SU744639A1 - Function generator - Google Patents

Description

(54) FUNCTIONAL TREATMENT

The invention relates to automation and computing and can be used to implement functional dependencies of the form 2 yf (x), where Z, y, x are values represented in analog form. A functional converter is known, which contains an input analog-digital converter, a decoder, a memory block of ordinates of even and odd approximation nodes, digital-analogue multiplying blocks, a digital-to-analog converter, switches, a driver, and an output amplifier 1. This device performs only functional conversions of one variable and does not allow the product of one variable to be multiplied by another, which limits its functionality. It is also known a device for functional conversion comprising a pulse generator, a counter, an encoder, a sawtooth generator. voltage, comparator, variable gain block and output amplifier with averaging 2. The drawback of the device is the reduced accuracy of forming the product of one variable by the second variable. The closest to the proposed is a functional converter containing a digital-analog converter, an output amplifier filter, a pulse generator connected by an output to the input of clock pulses of a linear duty cycle unit, an analog-to-digital converter whose input is connected with the first input of a functional converter, and the outputs of higher bits are connected the inputs of the address decoder connected by the outputs to the inputs of the memory unit. The second inputs of the memory unit are connected to the second input of the function converter, and the outputs of the memory unit are connected to the inputs of the output amplifier filter. The output of a digital-to-analog converter connected by digital inputs to the analog-digital converter outputs is connected to the first input of an adder, the second input of which is connected to the first input of the function converter, and the output is connected to the DUT of the linear proportion control unit connected to the read control input IN decoder 3.

The disadvantage of the known converter is the reduced accuracy of forming the product of one variable by the second variable, due, in particular, to the log form of representing the ordinates of the approximation nodes and performing the operation of multiplying by the second variable by varying the voltage on the second inputs of the memory block. The purpose of the invention is to improve the accuracy,

This goal is achieved by the fact that a functional converter, a coherent digital-analog converter, an output amplifier filter of pulses connected by an output to the input of clock pulses of a linear C1-scale unit, an analog-to-digital converter connected to the first input of the functional converter, and the outputs of older bits of the functional converters connected an address decoder connected by the outputs to the inputs of the memory block; two groups of elements AND, an inverter and a digital-to-analog converter, n Connected by the analog input to the second input of the functional converter and the analog input of the main digital-to-analog converter connected by digital inputs to the outputs of elements AND of the first group and connected by output to the input of the output amplifier of the filter and the output of the additional digital input of the LOGO1OR ... converter, digital inputs of which are connected to the outputs of the elements And the second group, connected by the first inputs through the inverter to the first inputs of the 8M elements And the first group and the output of the linear duty cycle unit, connected the control inputs of the duty cycle with the outputs of the low-order bits of the analog-digital converter, the second inputs of the elements And both groups are connected respectively to the outputs of the memory block.

The drawing shows a block diagram of the device.

The device contains a generator of 1 pulses connected by the output to the input of the clock pulses of the block 2 linear duty cycle. The control inputs of the duty cycle of block 2 are connected to the outlets of the lower bits of the analog-digital converter 3 connected by the input to the first input of the device and connected by the outputs of the higher bits to the inputs of the decoder 4 addresses. The outputs of the decoder 4 are connected to the inputs of the memory block 5 connected by the outputs respectively to the second inputs of elements AND of the first and second groups 6 and 7, the outputs of elements AND groups 6, 7 are connected respectively to the digital inputs of the main and additional digital-to-analog converters 8 and 9, analog inputs which are connected to the second input of the device, and the outputs are connected to the input of the output amplifier filter 10. The output of the linear duty cycle unit 2 is connected to the first inputs of elements AND of the first group 6 and connected via inverter 11 to the first the inputs of the elements of the second group 7.

Functional Converter works as follows.

The X function of the reproduced function in analog form comes from the first input of the device to the input of an analog-digital converter 3, the output of which in digital form goes to the control parameters of the block 2 ratio. The linear squaring block 2 converts the argument into square impulses, the ratio of which changes according to the triangular law, 0, and the frequency of the next is determined by the pulse generator 1, from the output of the analog-digital converter 3 the higher bits through the di-diffractor 4 addresses control the operation of the memory block 5 in such a way It is noted that alternately odd even ordinate codes of the nodes of the approximated function f (x) appear on the first and second of its output registers. The supply codes NS.H N2; From the first and second output registers of block 5 to digital inputs of digital-to-analog converters 8 and 9, respectively, control the groups of elements b and 7, which pass the code if there are linear porosity on the first inputs from the output of the inverter 11 and do not pass a code - in the absence of rectangular pulses. Since the squaredness of rectangular pulses varies at the output of block 2 according to the triangular law 0, and at the output of the inverter according to the triangular law 9 cc. 1 - 9, then digital-to-analog converters 8 and 9 multiply the voltage Uy from the second input of the device by linearly varying within one approximation area the corresponding codes N2i.iH N21

As a result, a voltage is generated at the output of the amplifier filter 10.

and. Uy Vj (x) N2;. + Vg (x) N2,,

where V {(x) and Vg (x) are the triangular functions of the argument X, defined by the laws of variation of the duty cycle 9 and 1 - в, i.e. the function converter performs the operation of multiplying the input signal y by the given-function f (x).

The advantage of the proposed invention in comparison with the known

Claims (1)

Claim A functional converter containing a digital-to-analog converter, an output amplifier filter, a pulse generator connected by an output to the input of clock pulses of a linear duty cycle unit, an analog-digital converter, the input of which is connected to the first input of the functional converter *, and the outputs of the '5 high-order bits are connected to the inputs an address decoder connected by the outputs to the codes of the memory unit, characterized in that, in order to improve accuracy, two groups of AND elements are added to it 20, an inverter and a digital-to-analog converter connected by an analog input to the second input of the functional converter and an analog 25 input of the main digital-to-analog converter connected by digital inputs to the outputs of the elements of the first group and connected by an output to the input of the output filter amplifier and the output of an additional digital-to-analog converter, the digital inputs of which are connected to the outputs of the elements AND of the second group connected by the first inputs through the inverter to the first inputs of the elements AND of the first group and the output block linear porosity connected entrances - / board duty cycle with yields LSBs analog-digital converter, wherein the second inputs of 'the AND obeik groups connected respectively to the outputs of the storage unit.