SU598237A1 - Multichannel frequency-to-code converter - Google Patents

Claims (2)

The converter consists of N channels 1-3, each of which contains the logical element “prohibition 4, conversion device 5, unit 6 for setting the conversion factor, trigger 7, generators 8, 9 single pulses; generator 10 with calibrated frequency, measuring: counter-11, block 12 of logic elements And, block 13 of memory, multi-input logic element And 14, block 15 of managements. The inputs 16-18 served input convertible signals. The principle of operation of the converter is as follows. Before starting the measurements, depending on the frequency ranges of the input signals and the required conversion accuracy, the corresponding coefficients for the scaling devices are set in each channel using the conversion factor block. In each measurement cycle, unit 15 generates a signal that resets the recalculation devices of the channels, the channel triggers and the measuring counter 11 to the initial states. In this case, each channel of the converter works as follows. The scaling device permits the measured signal to pass through the prohibition element on the recaller's input and trigger, and the measuring counter 11 starts counting the oscillator pulses 10. The channel trigger captures the moment when the first pulse appears at the bar element output, allowing the generator to pass the calibrated frequency shifted phase relative to the counting pulses. through the generator 8. to the corresponding address input of the memory block. At the same time, the same pulse of the generator 10, through block 12, at a given address, records the code of the measuring counter in the memory block. At the end of the counting of the counting device, the corresponding code of the measuring counter 11 is similarly recorded in the memory and the signal is prevented from passing through the corresponding prohibition element. At the time of termination of the counting on the scaling devices, in all channels at the output of the element 14, a measurement end signal is generated, which arrives at block 15. The calculation of the measured frequency values is performed: According to formula f. - F 1 -1 - NU-NO, where fi is the measurement result in the i-th channel; FK -. calibrated frequency; n-L is the conversion factor in the i-th channel; Noi .- code of the measuring counter at the moment of reference in the i-th channel; Nii - code. the measuring counter after filling the scaler in the i-th channel. The use in the converter of elements that ensure the fixation of the moments of the appearance of signals in the channels at the beginning of each measurement cycle makes it possible to reduce the measurement time with a given conversion accuracy. The use of conversion factor setting schemes allows a more efficient use of the converter in the range of measured frequencies and a reduction in the memory size. Multi-channel frequency converter into a code containing a memory block, the control inputs of which are connected to the outputs of the logic block I, some inputs of which are connected to the outputs of a measuring counter, and other inputs to the first output of a calibrated frequency generator, the other output of which is connected to one the input of the meter, the second input of the meter is connected to the output of the control unit; N channels, each of which consists of a “ban” logic element, one input of which is connected to the source of the signal being converted, and the output and second input of the element “ban” are connected respectively to the input and output of the scaler, and two generators of single pulses, one of the inputs of each which is connected to the output of the calibrated frequency generator, the second input of one of the single pulse generators is connected to the output of the counting device, and the outputs of the single pulse generators are connected to the corresponding named for the inputs of the memory block, characterized in that, in order to increase the speed, a multi-input logic element AND is additionally introduced into it, the inputs of which are connected to the outputs of the timers of each channel, the output of the additional logic element AND is connected to the input of the control unit, and each of the N channels is additionally introduced a conversion factor setting block, the output of which is connected to the corresponding input of the counting device, and a trigger, one of the inputs of which is connected to the output of the logic element " apret, a trigger output connected to a second input of the second single-pulse generator, wherein the second inputs of flip-flops and third inputs of counting devices of all N channels are interconnected and connected to the output of the control unit. Sources of information taken into account in the examination: 1. USSR author's certificate number 296051, cl. G 01 R 23/02, 1971. 2. Acceptance of UK application No. 1301568, cl. G 4 N. 29.12.71.