SU900337A1 - Multichannel programmed timer - Google Patents

Description

(54) MULTICHANNEL PROGRAM TIME RELAY

one

The invention relates to the field of automation and can be used in master software devices.

A device for generating a series of pulses is known, comprising a clock pulse generator, to the input of which a control trigger output with two separate inputs is connected, n channels connected in parallel with each other, each of which contains a comparison element with one output and two inputs, one of which is connected to the output of the binary counter, and the other to the output of the master element, while the inverter is connected to the output of the comparison element. An additional element coincides with one output and n inputs, each of which It is connected to the output of the comparison element of each channel, and its output is connected to one of the inputs of the control trigger, and n elements coincide with two inputs, one of the inputs of each matching element is connected to the inverter output of each channel, and the output of the coincidence element is connected to the input binary counter and with load 1.

The disadvantage of this device is the formation of a single series of pulses

Software for any channel, which, in some cases, is not enough to build complex software devices.

The closest to the technical essence of the present invention is a time relay containing N control channels, each of which is made on a time element, an And element and a memory element, with the inverse output of each N-1 memory element connected

10 to the reset input of the memory element of the next channel and to the first input of the AND element of its channel, the direct output of each memory element of N-1 channels is connected to the second input of the AND element of the next channel, and the direct output of the memory element of the N-ro channel - with the reset input of the memory element of the first channel, the output of the time element of each channel is connected to the input of the memory element of its channel 2.

20

The disadvantage of this time relay is that the cycle time of the device operation does not exceed the sum of the exposure of the time elements and the sum of the release time of the memory elements, which leads to a decrease in the functionality of the time relay and an increase in hardware costs for its implementation. The purpose of the invention is to extend the functionality of a multichannel software time relay by forming a time delay whose value exceeds the sum of the time delays of the time elements entering the device. The goal is achieved by the fact that in a multichannel software time relay containing N channels, where N is an even number greater than or equal to 4, each of which contains a time element, an Inhibit element whose output is connected to an input of a time element The main inputs of the “Prohibition” element are connected to the input of a time relay, which prohibits the input of the “Prohibition of each of the first N-1 channels connected to the output of the time element of the next channel, and the prohibiting input of the“ Prohibit N-ro channel ”element is connected to the output of the the first channel with the elements of time having the possibility of decreasing the maximum delay time T by steps T, the delay time of the time element N-ro channel is T - f the delay of the time element N-1-th channel is T, and the delay time of the remaining time elements N-2 channels is equal to T-t (N-K), where K is the channel number. FIG. 1 shows a functional electrical circuit of a multichannel software time relay; in fig. 2 - the schedule of operation of the time relay at N 4 and T 9 units of time. A multi-channel software time relay consists of N channels 1–4, where N is an even number greater than or equal to 4, each of which contains a time element 5–8 and the element “Prohibition 9–12, the output of which is connected to the input of the time element of its channel. The main inputs of the elements “Prohibition 9-12 are connected to the input 13 of the time relay, prohibiting the input of the element“ Prohibition 9-11 of each of the first N-1 channels is connected to the output of the time element 6-8 of the next channel, and prohibiting the input of the element “Prohibition 12 N- The ro channel is connected to the output of the time element 5 of the first channel. The outputs of the time elements 5-8 are connected to the outputs 14-17 of the time relay. The description of the operation of the multichannel software time relay is carried out for the case of N 4, T units of time. In this case, the values of Ti, Tr, T3, T + are delivered in accordance with the claims, the values of 6, 7, 9 and 7 units of time, respectively. In the initial state, the value of the signal at the input 13 of the time relay and, as a consequence. at the inputs and outputs of elements of time 5-8 is equal to "O. When the signal "1 to input 13 of the time relay is applied, the signal" I (pos. 18, fig. 2) appears at the outputs of all elements of the Inhibit 9-12 and the inputs of all elements of time 5-8. The first time element 5 (pos. 19, fig. 2) will work, and the signal at the input of time element 8 will take the value “O. Then the time element b will work (pos. 20, fig. 2), as a result, the signal at the input of time 5 will take the value “O and, as a result, the signal at the input of time 8 will take the value“ 1. Then the element of time 7 will work (pos. 21 of Fig. 2). Its operation will result in the appearance of the signal “O” at the input of the time element 6 and, consequently, the appearance of the signal “1. The next step is to trigger the time element 8 (pos. 22, fig. 2), which will result in the appearance of the signal “O at the input of the time element 7 and, therefore, the appearance of the signal“ 1 at the input of the time element 6. Thus, at the end Already the first period of the multichannel software time relay, the instants of the appearance of the signal “1 at the inputs of the elements — time 5–8 do not coincide, as it was at the beginning of the first period. The second period of operation of the time relay starts with the operation of time element 5 (pos. 23, fig. 2). At the same time, the signal "O" appears at the input of the time element 8, which causes the appearance of the signal "1 at the input of the time element 7, etc." In all subsequent periods, the operation of the multichannel program time relay is clear (Fig. 2) that the operation the second meters and the subsequent periods are similar to the functioning in the first period, however, the moments of the appearance of the signal “1 at the inputs of the time elements 5-8 are shifted relative to each other in different ways in each period. This happens until the triggering times of the elements of time 7 and 8 coincide (pos. 24, fig. 2). After coincidence of the timing of the elements of time 7 and 8, the time relay goes into a stable state, characterized by the presence of the output signal "1 for the time elements b and 8 and the presence of the output signal" O for the time elements 5 and 7. This moment is determined by the formula (T2 + T4) () - (T2-tT) From Formula 1 and FIG. 2 it follows that the duration of the relay program significantly exceeds the sum of the delays of the elements of time 5-8. The above algorithm for constructing a multichannel program relay time is also valid for large even N. At

This duration of the time program is determined by the formula

lTu (ZTHM-T)

GTNch -ZT ,,

where 1X4 is the sum of the time element delays of even channels,

1Tnch - the sum of the delay elements of the time of odd channels. Note: In FIG. 2 positions 25-32 indicate the presence of the signal “1 at: input of time element 5 (pos. 25), output of time element 5 (pos. 26), input of time element 6 (pos. 27), output of time element 6 (pos. 28 ), the input of the time element 7 (pos. 29), the output of the element 7 (pos. 30), the input of the time element 8 (pos. 31), the output of the time element 8 (pos. 32).

Claims (2)

1. USSR Author's Certificate No. 493902, cl. H 03 K 3/64, 10.24.73. 2. USSR author's certificate number 438057, cl. H 01 H 43/04, 07.08.72. sixteen 18 1321 23 I I I Iiq Th A ipq about 22 2 A 26  28 29 w J2 FIG. 2