SU963047A1 - Multichannel switching device - Google Patents

Description

(34) MULTICHANNEL SWITCH

The invention relates to electrical signal transmission systems and is intended for telemetric information transmission systems, as well as for automatic control systems (ACS).

A multi-channel content switch is known, the control unit, the output of which is connected through a delay element to the input of the conversion unit, the memory unit and the decoder 1.

The disadvantages of this switch are low speed and complexity.

Smaller to the proposed technical value is the switch containing the control unit, the output of which is connected to the input of the delay element and the first input of the group recovery unit, the other inputs of which are connected to the output of the corresponding digits of the conversion unit, and the output of the delay element is connected to the input a pulse count and a zero input of the first trigger of the first group, as well as a block of through transfer consisting of AND elements sequentially connected at the first input, and the output of the element that the delay is connected

to the first input of the first element of the end-to-end transfer unit, the single inputs of the triggers of the first group are combined into groups, and the single outputs of the triggers are connected to the outputs of the multipath co-switch 2.

However, the known switch has limited functionality due to the fact that it does not allow interrogation of individual groups of sensors, which leads to excessive loading of information channels, as well as insufficient performance due to the IS delay time in the end-to-end transfer unit.

The purpose of the invention is to expand the functional capabilities of the device and increase its speed.

The goal is achieved by

Claims (2)

20 that in a multi-channel switch containing a pulse generator, the output of which is connected to the first input of the block for selecting groups of sensors. and to the input of the delay element, the output 25 of which is connected to the input of the pulse counter, the outputs of which are connected respectively to the second inputs of the sensor group selection unit and the trigger group, the outputs of which are connected to 30 outputs of the multi-channel switch. , a block of commands, elements OR and groups of elements AND are entered, the outputs of the block for selecting groups of sensors are connected to the first inputs of the elements OR, to the second inputs of which are connected respectively the outputs of the command block, the outputs of the elements OR are connected to the first inputs of the respective groups of triggers, the second outputs which are connected to the first inputs of the corresponding elements AND of each group, the output of the delay element is connected to the second inputs of the first trigger and the first element AND of the first group, the outputs of the sensor group selection unit are connected respectively It is actual with the second inputs of the first trigger and the first element of each group, starting with the second one, the outputs of the elements AND of each group are connected to the WTO1ZHMMI inputs of the subsequent And elements and triggers, the outputs of the last elements And of each group are connected to the second inputs of the triggers of each group. The drawing shows a block diagram of a multi-channel switch. The multichannel switchboard contains a generator of 1 pulses, a delay element 2, a block 3 for selecting a group of sensors, a counter for 4 pulses, triggers 5 combined into groups, elements A and B, combined into groups, block 7 commands and, according to the number of groups, elements OR 8. A multichannel switch works in the following way. In the initial state, the corresponding outputs of the block of 7 commands to the second inputs of the elements of OR 8 receive a signal Log, O, which corresponds to the command to turn on the groups. The first pulse of the generator arrives at the first input of block 3, from the corresponding outputs of which through the elements OR 8 it acts on a group of inputs of the trigger 5 and sets them to a single state. The same clock pulse through delay element 2 tilts the first trigger 5 to the zero state, which ensures the interrogation of the sensor corresponding to this trigger 5. At the same time, the counter 4 starts working. The following clock pulses cause the sequential switching of the triggers 5 of the first group, which is the highest frequency using the corresponding And 6 group of elements, which ensures the sequential interrogation of sensors connected to the output of this group until until counter 4 counts the number of pulses equal to the polling period of sensors of the same group. Further, block 3 is triggered from the next clock pulse, which causes the appearance of its not the first pulse output, which tilts the first trigger 5 of the second frequency group to the zero state and switches the triggers 5 of the first frequency group to the single state, s, The operation of the switch continues until the counter 4 counts the number of pulses equal to the polling period of the sensors of the second frequency group. In this case, the triggers 5 of the first and second frequency groups will be restored to a single state and the first trigger 5 of the next frequency group will overturn to the zero state, and so on, until the lowest frequency group will restore all the frequency groups to a single state during the polling period of the lowest frequency group. etc. After each triggering of block 3, the sensor survey begins with the highest frequency band. When any frequency group is disconnected, the triggers 5, the single inputs of which are combined into these groups, are held in one state by these inputs by the Log 1 signal, which sorts to the shutdown command, received by the corresponding output of the command block 7 via the OR element 8. Disabling any groups does not lead to a change in the work of the rest of the switch group. The proposed switch has a wide functionality / because it allows you to collect information from any sensor groups, and also simplifies the block of end-to-end transfer to exclude elements from it and by number, sensor groups. The performance of the proposed switch is illustrated by the following example. Let the first group consist of five triggers 5, and the corresponding group of elements And b - of the four elements And, the second group consists. Of the eight triggers 5, the corresponding group of elements AND 6 is of the seven elements And, a third group consists of eleven triggers, the corresponding group of elements And 6 is of the ten elements. Let us determine the switching time when polling the sixth sensor of the third group in the known and proposed switches. In the known switch, the switching time is T, G1 trL "(1) H yost opr (2). Where the switching time of the trigger is; fp is the response time of one element AND of block 3. onp-V where usfl is the response time of the section from the first to the eighteenth element AND, which is determined from the ratio (5+ +6) -1 and from the output of which a tilting impulse arrives at the zero in sixth trigger third group. It is known that the switching time of the trigger is equal to the sum of the switching times of the two logic elements on which the trigger is executed, i.e. 2G "(4 K2TH% i4 ,, In the proposed switch, the switching time is V ecxarr + onp., Bosstr and Sealy - switching time of the element" IA "and OR, which is generally equal to Tj, C) (6) - response time plot. ka of the third group, the number of elements And in which is determined from relation (6-1); tj, is the response time of the counter, which is then equal to (4) M CMAV (Ti - 2Gi StM + V From the given example it follows that the proposed switch has a smaller switching time than the known one. The application of the proposed multi-channel switch allows you to collect information from groups of sensors, which leads to a smaller load on the information channel and makes it possible to transmit information with less distortion while at the same time improving its speed. A multi-channel switch containing a generator pulse pulse, the output of which is connected to the first input of the sensor group selection unit and to the input of the delay element whose output is connected to the pulse counter input, the outputs of which are connected respectively to the second inputs of the sensor group selection unit and the trigger group, the outputs of which are connected to the multi-channel switch outputs, This is so that, in order to expand the functionality of the multi-channel switch to increase its speed, a block of commands, OR elements and groups of AND elements are introduced into it, the outputs of the sensor group selection unit are connected to the first inputs of the inputs OR, to the second inputs of which; respectively, the outputs of the command block are connected, the outputs of the OR elements are connected to the first w holes of the corresponding trigger groups, the second outputs of which are connected to the first inputs of the corresponding elements AND of each group, the output of the delay element is connected to the second inputs of the first trigger and the first element of the first group, outputs The unit for selecting groups of sensors is connected respectively to the second inputs of the first trigger and the first element AND of each group, starting with the second, the outputs of the elements AND of each loop are connected to the second inputs after The driving elements And and the triggers, the outputs of the last elements And each group are connected to three "lm inputs of the triggers of each group. Sources of information taken into account in the examination 1. Authors' witness C1 SBO USSR 299864, cl. G 08 C 19/16, 1969. 2. Authors certificate of USSR 543972, cl. G 08 C 15/06, 1975 (prototype).