SU656202A1 - Device for matching coarse and precise readings of phase-to-code converter - Google Patents

Description

The invention relates to an analog-to-discrete conversion, in particular to cyclic sequential counting converters, and can be applied, for example, to digitize data on the current range of a two-channel radio range finder, where the "reduction between scales is provided electronically (using ), or for information sources with coarse and accurate phase shifters (reduction between the chambers is provided mechanically).

A two-digit converter is known that contains phase-interval converters on coarse and fine scales. The source of phase change is 2 phase shifters, interconnected by mechanical reduction. Matching circuits and counters are included in series with the specified converters for each scale. The counters through the coincidence circuit receive counting (quantizing) pulses, and the counting pulse frequency, received at the counter roughly q) of the counting, is twice as large as is necessary at a given reduction ratio, and niar quantization corresponds to

2

half a turn of the phase shifter coarse count C

For the operation of the sample matching logic, the coarse scale reference is shifted by a quarter of the exact readout scale using the coarse counting phase stator. A logical matching device is turned on at the input of the coarse count counter.

However, the sample matching circuit is unsuitable when using decimal meters.

The aim of the invention is to expand the field of application of a coarse and accurate phase matching device of a phase-code converter.

The goal is achieved by the fact that

Claims (3)

5 into a coarse-frequency matching device for converting a phase-code converter containing a phase-interval converter according to an exact scale, the output of which is connected to the first input of the first element AND connected to the first input of the exact counter counter, the frequency divider whose first output is connected with the second input of the first element I, the phase converter on a coarse scale, the output of which is connected with the first input of the second element I connected to the first input of the coarse count counter, a pulse generator reset, the input of which is connected to the phase-interval converter on a coarse scale, and the output is connected to the second inputs of the coarse and accurate readout counters, a trigger, three AND elements, two delay elements, a pulse blanking element, an OR element, and the exact counter counter outputs are connected with the setup inputs of the trigger, the input of the zero setting of which is connected to the outputs of the reset pulse generator, and the outputs to the inputs of the third and fourth elements And, the second inputs of which are connected to the second output of the frequency divider, the outputs of the third and the fourth And elements are connected to the inputs of the Halls of the holders, while the output of the first delay element is connected to the first input of the fifth And element, the second input of which is connected to the output of the damping element connected to the output of the phase-interval converter on a coarse scale, the second the delay element is connected to one of the inputs of the OR element, to the second input of which the output of the fifth element AND is connected, and the output of the OR element is connected to the second input of the second element I. The drawing shows a block diagram of devices . It includes a 1-phase-interval converter on a precise scale, the first element I 2, an accurate count counter 3, a divider 4 frequencies, a generator 5 and reset pulses, a 6 phase-interval converter on a coarse scale, a second element I 7, a rough count counter 8 , trigger 9, third element. And 10, fourth element. And 11, first delay element 12, second delay element 13, pulse suppression element 14, fifth element 15, AND element 16. Before starting work (cycle conversions) counters 3 and 8 and trigger 9 and pulse "reset are reset, n A trigger 9 at the same time forms a resolving potential for an element 11. The element 7 receives counting pulses of the second sequence, which are shifted relative to the reference impulse of the exact reference by 0.75 Mt.o. (where Mf, 3. is the scale of the exact reference. Consider the operation of the device for two values of the distance D equal to 2475 and 2900 conventional units of the scale of t. 1.D. 2475 units. First, from the initial phase shift along the exact scale is formed the number-pulse the code that enters the input of the counter 3. The counter measures 475 ± 1 units, which is less than 0.5 Mt. units. In this case, the trigger 9 remains in the initial state, and the counting pulses of the second sequence arrive at the input of the element And 7. At the other input element And 7 enters the gate of the time interval g. At the same time, the end of the time interval (the position of the phase pulse according to a rough count) is removed from the last counting by the value of 0.25 Mt.o. which eliminates the error of discreteness, and the value on a scale g. equals 2, i.e., the count, taken from two counters, is equal to 2475 ± I units. 2. Dg 2900 units First, a pulse number code is formed from the initial phase shift on an accurate scale, which is fed to the input of the counter 3. Counter 3 records a value of 900 ± ± 1 units, which is greater than 0.5 Mt.o. (500 units). In this case, a signal is generated from the second output of the counter 3 (in the transition junction from less than 0.5 to more than 0.5 Mt.o), which transfers the trigger 9 to the state when the resolving potential arrives at one of the inputs of the element 10 and is formed counting pulses of the first sequence. When forming the first counting sequence at the beginning of the cycle with the leading edge of the strobe of the time interval of the GO. Element 14 is triggered, which forms a strobe pulse that blocks the passage through element I 7 of the first counting pulse. relative to the reference impulse g. At the other entrance comes the gate st. At the same time, the end of the time interval is removed from the last counting pulse by a value of t 0.25 Mt.o. that eliminates the discrete error in g.o., when the value with more than 500 and less than 1000 units. (where q - the current value of the distance on the counter 3). If, during the formation of the first counting performance, the first counting pulse did not quench, then in this case there would be an error in the counter readings per unit of discreteness with the sign "- g. At the end of the counting on a rough scale and retrieving data from the counters to the information consumer, a pulse is generated and the cycle repeats. When changing the proposed scheme, sample matching allows you to: - use any frequencies selected as the reference voltages of the scales, based on the convenience of forming scale values of scales and reduction coefficients between scales; do not use as a counting frequency on a coarse scale twice the increased frequency; use counters with a conversion factor of, for example, two or ten. The invention of the device for coarse and accurate readings of a phase-code converter, containing a phase-interval converter on a precise scale, the output of which is connected to the first input of the first element I connected to the output of the first input of the exact counter, the frequency divider whose first output is connected to the second input of the first element I, the phase converter on a coarse scale, the output of which is connected with the first input of the second element I connected to the first input of the coarse count counter one, a generator of reset pulses, whose input is connected to a phase-interval converter on a coarse scale, and an output to the second inputs of coarse and accurate counters, characterized in that, in order to extend the functionality, s, a trigger is entered, three elements And, two delay elements, a pulse blanking element, an OR element, and the outputs of the counter of the exact count are connected to the trigger setup inputs, the zero setting input of which is connected to the outputs of the reset pulse generator, and the outputs to the third and fourth inputs And, the second inputs of which are connected to the second output of the frequency divider, the outputs of the third and fourth elements of AND are connected to the inputs of the delay elements, while the output of the first delay element is connected to the first input of the fifth And element, the second input of which is connected to the output of the blanking element a pulse connected to the input with the output of the phase-interval converter on a coarse counting scale, the output of the second delay element is connected to one of the inputs of the OR element, the second input of which is connected to the output of the fifth AND element , and the output of the element OR is connected to the second input of the second element I. Sources of information taken into account in the examination 1. A. Zavolokin. Sequential converters of continuous quantities into numerical equivalents. M., “Energie, 1962. p. 59-63, fig. 4.3.