SU479257A1 - Multichannel pulse counter - Google Patents

Description

shapers 18i-18n are connected via the encoder of channels 1 to memory 2 and through a collection circuit 19 to frequency measuring unit 7 and to memory 3 of memory 2, which are also connected to the outputs of frequency measuring unit 7. The output of reference generator 16 is connected through control unit 4 with frequency measurement units 7 and with scaling circuits 17i-17p. In addition, the multi-channel counter contains a readout block 20 consisting of a register of 21 and a reference node 22; the transmission circuit 23. The inputs of the transmission circuit 23 are connected to the output of the reference generator 16 and to the control unit 4, and the output of the transmission circuit 23 is connected directly to the counting input of the offset unit 20 and through the series-connected And 24i-24 and OR 25i circuits 25p with inputs of scaling circuits 17i-17 ". The outputs of the reference unit 22 of the offset unit 20 are connected to the inputs of the gates 3 of the memory unit 2.

The proposed multi-channel pulse counter as follows.

The input pulses of each channel through the circuits OR 25i-25p are fed to scaling circuits 17i-17 ", which start the drivers 18i-18". The capacity of all scaling circuits is the same, and their reset is carried out simultaneously before each new measurement loop. The time interval between the discharge of each scaling circuit and the appearance of a pulse at its output characterizes the measured value and is inversely proportional to the measured counting rate. The pulses from the I8i-18p drivers are sent to the encoder of channel 1. In encoder 1, the channel number is formed in the required code, from which the required number is selected from memory block 2. At the same time, the pulses from the I8i-18p drivers come to the acquisition circuit 19 and then to the frequency measurement unit 7, in which the signal first goes to the frequency former 8, to the other inputs of which from the distributor 5 the time intervals characterizing the end of each range are supplied. Thus, upon the arrival of any pulse from the collection circuit 19 in the range former 8, the range to which this count rate corresponds corresponds. The signals from the frequency former 8 are fed to the register of the order in which the code of the range number is generated, and to the frequency switch 10. The latter performs a synchronous switch: the frequencies coming from the distributor E to the counter 11. As a result, the maximum number recorded in the counter 11, which characterizes one measurement range, is the same for all ranges, although time intervals are inversely proportional. So, for example, with the decimal numbering system, although the intervals characterizing the ranges differ ten times, the number of pulses for each range recorded in the counter is the same and is determined by the required accuracy of the representation of the values. The number code from counter 11 is fed to a block with an inversely proportional characteristic 12, which, in turn, consists of decoders 13 and 14 and a matrix 15, for example, ferrite-diode. Moreover, the numbers removed from the block with the inversely proportional characteristic 12 are inversely proportional to the numbers removed from the counter 11. According to the signal from the collection circuit 19, the matrix 15 selects the number corresponding to the measured count rate of this channel, which through the adjusting block 20, consisting from the register of 21 and the code 22 node, together with the number from the register of order 9, is supplied to the gates 3 of the memory 2 at the address selected by the channel 1 ticker. Thus, if an overflow of the scaling circuit of any channel has occurred aster than ended yet measuring cycle, the storage unit 2 is recorded numbers is directly proportional to the measured count rate. If the overflow does not occur, then the impulse from the collection scheme 19 is no longer present, and in the corresponding recalculation scheme there is a recorded number that characterizes the quantity being measured, but with less accuracy. It is necessary to rewrite the numbers written in the scaling schemes alternately in the register of the number 21 with their binding to the corresponding channels. This is done as follows. At the end of the measurement cycle, the distributor 5 receives a signal overturning the control trigger 6. The latter gives permission to the transmission circuit 23. As a result, pulses are sent to the reference circuits 17i-17 "through the" And 24i-24p "circuits channel switch, and the scheme "OR 25i-25". The other inputs of the “AND 24i-24” circuits are associated with the pass-through circuit 23 and with the counting input of the register 21.

Thus, for each recalculation circuit, additional pulses are counted, which are counted by the register of the number 21. When an overflow pulse appears, the acquisition circuit 19 gives permission to retrieve information in the reverse code from the 21 register through the code address node 22. As a result, the number written in memory block 2 is provided in the forward code. Thus, the proposed multi-channel pulse counter allows extending the measurement range towards small values, reducing both measurement time and information processing time and presenting information in a convenient form.

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Subject invention

A multichannel pulse counter containing a channel encoder, a memory unit with input gates, a control unit, a frequency measurement unit with automatic measurement range selection, a reference oscillator and in each channel interceptors with output drivers, the output of the drivers being connected via an encoder channels with a memory unit and through a collector circuit with a frequency measurement unit and with memory unit valves, which are also connected to the outputs of the frequency measurement unit, the output of the reference generator is connected through the unit board with a frequency measurement unit and scaling circuits, characterized in that.

that, in order to expand the range and shorten the measurement time, an additional unit of the offset is added to the processing node, the output code and the transmission circuit, the inputs of the transmission circuit are connected to the output of the reference generator and the control unit, and the output of the transmission circuit is connected to the inputs scaling circuits and a counting input of the doschetka unit, the outputs of the reference node whose code is connected to the inputs of the gates of the memory unit.