SU567203A1 - Analogue-digital function converter - Google Patents

Description

the outputs of the additional counter are connected through a register to the control inputs of the controlled frequency divider, the control input of the register is connected via a memory block to the bit outputs of the additional counter t to the outputs of the decoder section number, which are connected to the “About trigger” input via the OR element.

The drawing shows a block diagram of the proposed analog-to-digital functional Converter.

The analog-digital function converter contains a series-connected pulse generator 1, a controlled frequency divider 2, a counter counter 3, a digital-analog converter 4 whose output is connected to the first input of the comparison element 5, the second input of which is connected to the analog sensor 6, and the output Comparison element 5 is connected to the recording record control input of the output register 7, the setup inputs of which are connected to the bit outputs of the current counter 8; its function value is parallel to the inputs azovatel 9 codes, and the counter count input Tekushev, its value function connected to the output of the generator 1 pulses.

The converter 9 of codes contains a decoder 10 of the section number, the outputs of which are connected to the first group of inputs of the memory block 11, the second group of inputs of which are connected to the discharge outputs of the counter 12, the input connected via the And 13 element to the generator 14 of high-frequency pulses and to the output "On the trigger 15, the input “1 of which is connected to the overflow output of the counter, 12, and the input“ O is connected through the short pulse shaper 16, the OR element 17 to the outputs of the decoder 10 of the segment number, and the output of the memory AND block is connected to the recording control input register 18, the setup inputs of which are connected to the bit outputs of the counter 12, and the outputs of the register 18 are connected to the corresponding inputs of the controlled divider 2 frequency.

Unit 11 contains a series of valves 19 and the element OR 20.

Analog-to-digital functional converter works as follows.

The code in the counter 8 of the current value of the function is cyclically changed from zero to maximum, this code is converted by the converter 9 of the codes into a division code corresponding to the approximation section fed to the corresponding inputs of the controlled frequency divider 2. The pulse sequence from the output of the controlled frequency divider enters counterbalance counter 3, the overflow output of which is connected to the input of the setting "About the counter 8 of the current value", with this connection synchronization of the counters 3 and 8 is performed. The outputs of the digital-analog converter 4 and the sensor 6 at the output of the comparison element 5 appear a "Record" pulse which rewrites the code from the counter 8 of the current value of the function into the output register 7, where it is stored until the pulse appears. Record in the next measurement cycle.

Converter 9 codes works as follows. When the code at the inputs of the decoder 10 of the area number 10 becomes equal to the code of the beginning of the next section of the approximation, Ra corresponds to the output bus (the number of output lengths corresponds to the number of approximation sections), the pulse, the duration

15 which is determined by the pulse repetition period of the pulse generator 1. The impulse from the output bus of the decoder 10 of the parcel section opens at its entrance the corresponding valve in the valve group 19 and at the same time through the OR 17 element, the shaper 16 short pulses sets the trigger 15 to the “O” state, and the 13 element opens. 14 high-frequency pulses start to flow to counter 12. When the code in counter 12 changes from maximum to zero, a pulse appears at its output overflow, which flips trigger 15 to state "1 and element And 13 closes before the start of approximating portion. The pulse frequency of the high-frequency generator oscillator 14 is selected so that the time to fill the counter. 12 would be shorter than the pulse period of the generator of 1 pulses. The number of valves in a group of valves 19 is equal to the number of possible division codes (each division code corresponds to a certain vent1il), and the number of inputs and outputs of each valve is l + 4 (n is the number

0 binary bits of the division code). The outputs of the valves located in the group of valves 19 are connected via the element OR 20 and are connected to the control input of the register 18. The pulse at the output of the element OR 20

5 appears at the time when the code on the bit outputs of the counter 12, therefore, on the setup inputs of the register 18, is equal to the division code on this section, and this code is stored in register 18 before the start

0 the next section of the approximation.

In the analog-digital function converter, the unified nodes (counters, registers) are used to the maximum extent, which do not depend on the type of reproducible

5, and therefore, when changing the functional dependence, it is enough to change the connection between the decoder of the area number and the valve group, and the converter circuits themselves remain the same. In addition, the converter is made entirely on elements of the same type (from the point of view of design).

Claims (2)

1. USSR author's certificate No. 398985, cl. G 06J 3/00, 05.06.72. 2. USSR author's certificate number 247642, cl. N OZK 13/02, 01/25/68.