SU1035569A1 - Parameter checking device - Google Patents

Abstract

A DEVICE FOR MONITORING PARAMETERS, containing a matrix of parameter sensors, a program-logic block, the first and second blocks of the AND elements and a series-connected block of the first elements OR, a memory block, a pulse generator and a counter, as well as an alarm unit, in order to improve the reliability of the device, the first and second blocks of switches, the decoder and the second OR element, whose output is connected through a counter to the inputs of the decoder, n pBHie whose outputs are connected through normally open, are entered into it e contacts of the first block of switches with the inputs of the columns of the matrix date.-. parameters taps connected via normally closed contacts of the first block of switches with the first outputs of a program-logic block, the second output of the decoder is connected to the control inputs of the first and second blocks of switches, the third and fourth outputs are connected to the first inputs of the first and second blocks of the And, the fifth outputs are with the second inputs of the memory unit, the sixth outputs are with the inputs of the alarm unit, the second output of the software-i logic unit is connected via one of the normally closed contacts in the first block of switches to the input of the second element OR ,, the inputs of the program-logic block are connected via normal Zs1-closed contacts of the second block of switches to the outputs of rows of the matrix of parameter sensors connected via normally closed contacts to the second inputs of the blocks of elements I.

Description

The invention relates to computing and can be used in automated control systems 1 and. A multichannel device for collecting discrete information is known that contains a sensor switch, made in the form of a rectangular matrix, connected to horizontal and vertical buses, information change detection nodes, a control unit, a communication unit, an information processing device (DVR). 1, Such a device has low reliability, since it fails to function when a digital computer fails. Duplication of a digital computer in a number of applications is impractical due to a significant increase in cost. The closest to the technical essence of the invention is a device for monitoring parameters, which includes a counter, an OR element, a perforator, a pulse generator, the output of which is connected to the first input of the first And element, the switch, the time setting C2 J. To the disadvantages of this The devices include the lack of means for automatically detecting a malfunction in the main (redundant) information-gathering equipment and for switching sensors to the backup drive, as well as the lack of means providing av onomnost operation of the device, in particular means of automatic restart when recovering a power, and for storage in the presence signalizatsiio maximum permissible quantity of information .. The purpose of the invention - to increase .dezhnosti device. The goal is achieved by the fact that a device for controlling parameters, containing a matrix of parameter sensors, a program-logic block, the first and second blocks of elements AND, and the series-connected block of the first elements OR, a memory block, a pulse generator and a counter as well as an alarm unit, are entered and the second block of switches, the decoder and the second element OR, the output of which is connected through a counter to the inputs of the decoder, the first outputs of which are connected via normally open contacts of the first block of switching sensors with inputs of columns of the matrix of parameter sensors, connected via normally closed contacts of the first switch block with the first inputs of the software unit, the second output of the Decoder is connected to the control inputs of the First and second blocks of switches, the third and fourth outputs - with the first inputs of the first and second blocks, respectively And, fifth outputs of the elements - with the second inputs of the memory block, the sixth outputs with the inputs of the alarm unit, the second output of the software-logic block. connected through one of the normally closed contacts of the first block switch to the input of the second element OR, the inputs of the program-logic block are connected through the normally closed contacts of the second block of switches to the outputs of rows of the matrix of parameter sensors connected through normally closed contacts with the second inputs of the blocks of elements I. block diagram of the proposed device. The device will hold parameters sensors 1, included in a two-dimensional matrix 2, the first and second blocks 3 of the elements AND, the outputs of which are connected to the inputs of the block 4 of the first elements OR, the pulse generator 5, the counter 6, the decoder 7, the second element OR 8, the driver 9, the block memory 10, block-signaling 11, block of amplifiers 12. Blocks 3 contain elements AND 13, block 4 - elements OR 14. In addition, the device includes a program module 15 and the first 16 and second 17 blocks of switches, as well as outputs 18 -23 decoder 7, outputs 24 and inputs 25 of program-logic About block 15, contact 26 and control units 27. The device operates as follows. In good condition, block 15 is connected to matrix 2 via switch blocks 16 and 17. Periodically, at intervals of time T, block 15 interrogates sensors 1 from outputs 24 and removes information from sensors 15 to inputs 25-15. At the end of each polling series The unit 15 generates a signal at the output 24, which through the normally closed contact 26 of the unit 16 and the element OR 8 produces the cancellation of the counter 6. The counting input of the counter 6 from the pulse generator 5 receives signals, each of which increases its content by one. Therefore, during normal operation of block 15, the contents of counter 6 (due to its periodic blanking) do not exceed a value close to T. A sign of failure of block 15 is the absence of a blanking signal for a specified time longer than Tj). In this case, the counter status code 6 takes the value C ,. According to this code, the decoder 7 starts the signaling unit 11, which supplies a signal (for example, an audible) about the faulty state of the block 15. From the output 20, the decoder outputs a signal to the control nodes 27. The latter switches the test buses of the matrix 2 to the 12-amps buses to blocks 3. At the end of the time of the fault signal, block 11 is turned off. Counter 6, as it goes to the appropriate states through the decoder 7, ensures that the memory block 10 is periodically turned on, the time delay for engine acceleration is sequential polling of sensor groups 1. As far as polling groups of sensors is polished, gates 3 are sent to issue information to the block, generate the service signals necessary for the memory block to work, output the decimal signs to the media (punched tape) and reset the counter 6. If the block is not ready, the data to the information source 1I, for example, due to the rupture of a punched tape, the latter delays the operation of the counter until a ready signal appears, i.e. until the cause of the fault has been eliminated. When accumulation in the counter 6 of the content corresponding to the maximum allowable amount of output information, the output of the decoder 7 generates a signal for restarting the signaling unit 11. According to this signal, the operator performs information separation on the media (for example, punched tape run) and a complete reset of the counter 6. On the basis of two main blocks (a counter and a decoder), it is not only the collection of information (interrogation of sensors, gating of information output to the memory block, setting the duration of intervals EIW), but also function control and reserves | Hovhan (control operation of the main device, switching it on standby). Automatic recovery after a power failure and control over the allowable amount of output information increases the reliability of the device and the convenience of its operation. The economic effect can be obtained by reducing the cost of hardware redundancy of information collection sets, this device, in particular, allows you to refuse to install additional computers.

Claims (1)

DEVICE FOR CONTROL OF PARAMETERS, comprising a matrix of parameter sensors, a program-logic block, a first and second block of AND elements, and a series-connected block of the first OR elements, a memory block, a pulse generator and a counter, as well as an alarm unit, characterized in that, in order to increase reliability of the device, the first and second blocks of switches, the decoder and the second OR element, the output of which is connected through the counter to the inputs of the decoder, the first outputs of which are connected through normally open cycles of the first switch block with inputs sen- column matrix. parameters, connected through normally closed contacts of the first block of switches with the first outputs of the program-logic block, the second output of the decoder is connected to the control inputs of the first and second blocks of switches, the third and fourth outputs are with the first inputs of the first and second blocks of elements And, fifth outputs - with the second inputs of the memory unit, sixth outputs - with the inputs of the alarm unit, the second output of the program <g logic unit is connected through one of the normally closed contacts of the first block of switches to the input of the second element OR, the inputs of the program-logic block are connected through normally closed contacts of the second block of switches to the outputs of the rows of the matrix of parameter sensors connected through normal closed contacts with the second inputs of the blocks of elements I. SU .. „1035569>