SU813466A1 - Function generator - Google Patents

Description

one

The invention relates to automation and computing, in particular, to devices for generating time functions that provide a rapid change in the type of reproducible function.

A function generator is known, comprising a pulse generator, a controlled frequency divider, a reversing device. digital counter, code comparison unit, memory block, ring distributor, trigger, decoder, and digital-to-analog converter G | .

Also known is a functional transmitter that contains a controlled frequency divider-15, frequencies, counters, decoders, memory blocks, a delay element, and groups of elements AND D}

The disadvantages of the known functional generators are constructive complexity and a limited class of reproducible functions.

The closest to the proposed is a functional generator containing a number of groups of elements AND, each 25th ith element AND each jth group of which is connected by the first input to the fth output of the decoder (1 ii t, where m is the number of outputs decoder) and is connected to the second input to the j-th output of the block-30

functions of the type (1 j: n, where n is the number of outputs of the function type setting block), and the outputs of all elements AND are connected to the inputs of the corresponding elements OR of two groups of elements OR, and the output of the first element OR of the first group is connected to the control input of the inverting - about the reference voltage switch, connected to the analog input of the first: a digital-to-analog converter, whose digital inputs are connected to the outputs of the remaining OR elements of the first group, with the output of the OR elements of the second group being connected digital inputs of the second digital-to-analog converter, the digital inputs of which are connected to inputs of decoder vthodami the scanning input code register and the outputs of the first and second digital to analog converters connected to the input of the output adder.

The disadvantage of this generator is constructive complexity.

The purpose of the invention is to simplify the functional generator.

This goal is achieved by the fact that the Functional generator, contains a number of groups of elements AND, each i-th element AND of each j-th group of which is connected by the first input to the I-hiM decoder output (1 4: i, 4 t, where m is the number of outputs of the decoder) and connected by the second input to the j-th output of the function type setting block (1 j 4 n, where n is the number of outputs of the function type setting block), and the outputs of all AND elements are connected to the inputs of the corresponding elements OR of two groups of elements OR and the output the first element OR of the first group is connected to the control input inverter the reference voltage switch connected to the analog input of a digital-to-analog converter, whose digital inputs are connected to the outputs of the remaining OR elements of the first group, contains a group of delay elements connected by inputs to the outputs of the OR elements of the second group and outputs to the decoder inputs, and the output Digital tax converter is connected to the output of the functional generator. The drawing shows a block diagram of a function generator. The generator contains a number of groups of 1 elements And 2, each i-th element And 2 of each j-th group of which is connected by the first input to the i-th output of the decoder 3 (1 im, where m is the number of outputs of the decoder) and is connected to the second input The j-th output of block 4 sets the function type (1 6 j p, where n is the number of outputs of block 4). The outputs of all electrical elements AND 2 are connected to the inputs of the corresponding elements OR 5 two groups 6 and 7 elements OR. The output of the first element OR 5 of the first group 6 is connected to the control input of the inverting switch 3 of the reference voltage. The output of switch 8 is connected to the input of a digital-to-analog converter 9, the digital inputs of which are connected to the outputs of the remaining elements OR 5 of the first group 6, the outputs of the elements OR 5 of the second group 7 are connected to the inputs of the delay elements 10 connected by the outputs to the inputs of the decoder 3. V The device uses piecewise approximation of time functions. The level quantization is performed by turning on the corresponding bits of the converter 9, and the time sampling is performed using delay elements 10. In the case of using the delayed potential elements 10 without fixing the action, the functional generator operates as follows. In the initial state, at the output of the decoder, a bus is excited corresponding to the zero state of its inputs, there is no control signal at all outputs of block 4, and the output voltage of converter 9 is zero. The type of generated function is selected using block 4 by applying from one of its outputs a control signal to the corresponding group 1 of elements AND 2. This signal is used to tune the device to implement the desired function (i.e. the inclusion of the corresponding, group 1 elements I 2) while simultaneously launching the device. The connections of the outputs of the elements and 2 of each group of elements AND with the inputs of the corresponding elements OR 5 of the first and second groups 6 and 7 of the elements OR form the corresponding control matrix of the quantization coefficients on the level and time discretization. From the outputs of the OR 5 elements of the first group 6, the inputs of which at the time of start-up were connected to the excited output bus of the decoder 3, a certain binary code goes to the digital inputs of the output converter 9, where it is converted into the corresponding value of the output voltage. At the same time, from the outputs of elements OR 5 of the second group 7, also connected to the excited input bus of the decoder 3, an input is applied to a specific set of delay elements 10. After a time interval equal to the shorter delay time of these elements 10, the input state changes (In decoder 3 and, accordingly, the state of outputs of decoder 3 changes. A new state of outputs of decoder 3 corresponds to a new set of included elements 5 in groups G and 7. The input code and output voltage of the converter 9 change accordingly, and the set of excited delay elements 10 simultaneously changes. Further operation of the device proceeds as described above, with the output value changing The device voltage is caused by a change in the output state of the delay elements 10. When generating a different polarity, the polarity is changed by applying the signal from the output of the first OR5 element of the first group b to the control input of the inverting switch 8 the input of the converter 9. Upon completion of the processing of the cycle corresponding to the specified Functions, the elements of the device return to the initial state and the repetition of the function begins. The generator is stopped by removing the control signal from the excited output of block 4. The generator is tuned to implement another function by applying a control signal from another output of block 4. If necessary, several blocks of the block can be simultaneously excited.

Claims (1)

Formula, inventions Functional generator containing a number of groups of AND elements, each i-th element And each J-th group of which is connected by the first input to the i-th output of the decoder (1 <ί <m, where m is the number of outputs of the decoder) and connected the second input to the jth output of the function type task unit (1 <j <η, where η is the number of outputs of the function type task unit), and the outputs of all AND elements are connected to the inputs of the corresponding OR elements of two groups of OR elements, the output of the first element OR connected to the control switch of the connected first group the input of the inverting voltage reference, the output with the analog input of the digital-to-analog converter, the digital inputs of which are connected to the outputs of the remaining elements of the OR of the first group, characterized in that, in order to simplify the functional generator, it contains a group of delay elements connected by the inputs to the outputs of the elements of the second group and the outputs to the inputs of the decoder, and the output of the digital-to-analog converter is connected to the output of the functional generator.