SU1275790A1 - Signalling device - Google Patents

Abstract

The invention relates to communication technology, and can be used in console equipment. The purpose of the invention is to improve the reliability of signaling with short-term signals. The device contains memory elements (EP) 1, 10, 20,. And elements 5, 13, 23, optical indicator 7, delay elements (EZ) 8, 18, elements NOT 12.14, 15, 22, generator 16 pulses and a sound indicator 25. When a start signal is turned on at input 2, a high potential (HF) is generated at the output of EA 1. This VI passes through the element And 23 and turns on the sound indicator 25. In addition, the VP from the output of EP 1 allows the pulse through the element 5 to pass from the generator 16 pulses to the optical indicator 7, causing it to flash. After a time determined by the EZ 18, the EP appears at the output of the EP 20 and through the element HE 22 and the element AND 23 turns off the sound indicator 25. After the time determined by the EZ 8, the output of the EP 10 appears through elements 12, I 13, HE 14 and I 5, translates the optical indicator 7 into (L continuous glow mode. When it arrives at the switching-off input 3 EP 1 s: the signal turns off EP 1, 10, 20 and both indicators turn off. 2 Il .

Description

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Claims (1)

The invention relates to communication technology and can be used in console equipment. The aim of the invention is to improve the reliability of signaling with short-term signals. Figure 1 shows a structural electrical circuit of a signaling device; figure 2 - time diagrams of the potentials of the signal device. The signaling device comprises the first memory element 1 with an on input 2, a switching off input 3 and an output 4, a first AND 5 element with an output 6, an optical indicator 7, a first delay element 8 with an output 9, a second memory element 10 with an output 11, the first element NOT 12, second element AND 13, second element NOT 14, 1 Third element NOT 15, generator 16 pulses with output 17, second element 18 delay with output 19, third element 20 of memory with output 21, fourth element NOT 22, third element And 23 with an output of 24 and an audible indicator 25. The alarm device operates as follows them way. In the initial state of the signaling device, the memory element 1 is in the off state. At the same time, at its output 4 (Fig. 26) there is a low potential, and the element 15 connected to it, at its output, forms a high potential, which is an active signal for switching off the memory elements 10 and 20, which, consequently (also in the off state, having at its outputs 11 (Fig. 23) and 21 (Fig. 2i) low potentials. Consequently, at the output of the element HE 12 there is a high potential that does not prevent the passage of the pulse sequence from the output 17 (Fig.2e) of the generator 16 pulses through the element And 13, and gave e, invert, .che cut the element NOT 14. However, since output P4 has a low potential at the output of the element 15, there is also a low potential which keeps the optical indicator 7 off, thanks to the low potential at output 21, At the output of the HE element 22, a high potential is present, but a low potential at during 4 predetermines a low potential at the output 24 (Fig. 2k) of the AND element 23, which keeps the audible indicator 25 in the off state. At the instant t, j of the incoming on 2 input (Fig. 2a) of the enable signal, the memory element 1 goes into the on state, forming a high potential at its output 4, which causes a low potential to occur at the output of the NOT 15 element, and also passes through element 23 and turns on the audible indicator 25. In addition, the appearance of a high potential at input 4 permits the passage of a pulse sequence from output 17 through element 5 (fig.2l), which causes the corresponding DI optical indicator 7. After time t , (defined by delay element 18) a high potential appears at output 19 (fig.2d) (time t), and after time (determined by delay element 8) at output 9 (fig. 2 g) (time tj). Since there is a low potential at the output of the element NOT 15, there are no active signals, elements 10 and 20 are missing. Thus, at time t, j, a high potential appears at the output 21 of the memory element 20, causing a low potential at the output of the element HE 22, and hence a low potential at the output 24 (Fig. 2k) of the element 23, which turns off audible indicator 25. At time t, a high potential appears at the output 11 of the memory element 10, causing a low potential at the output of the element 12, which blocks the passage of the pulse sequence from the output 17 through the element 13 And thus the output of the element 13 there is a low potential causing The high potential at the output of the element HE 14, which, in turn, the passage through the element AND 5, translates the optical indicator p into a continuous luminescence mode. At time t. Upon arrival of the shut-off input 3 (Fig. 28) of the turn-off signal, the memory element 1 goes to the off state. In this case, a low potential occurs at its output 4, which, passing through the element 5, turns off the optical indicator 7. In addition, it causes the appearance of a low potential at the output of the element 15, which is the active signal for switching off the memory elements 10 and 20 ti, and the alarm device renders it in its initial state. Thus, the signal device, upon the onset of a turn on signal, provides a short acoustic signal and a short flash of the optical signal, which turns into a constant luminescence and stops only when a turn off signal is received. A signal device comprising a pulse generator, an optical indicator, an audible indicator, the first element AND, the first element NOT and the second element AND whose output is connected to the input of the second element is NOT characterized in that, in order to increase the reliability of signaling with short-term signals, the output of the inputted first memory element is connected through the inputted first and second delay elements with the enable inputs and through the input the third element NOT with the shutdown inputs inputted respectively into the second and the third memory element, the output of the second memory element through the first element is NOT connected to the first input of the second element And the second (INPUT of which is connected to the output of the pulse generator, the output of the second element is NOT connected to the first input of the first And element, the second input of which is connected to the output of the first memory element, and the output to the optical indicator, and the output of the third memory element is NOT connected to the first input of the entered third element I through the fourth element, the second input of which is connected to the output of the first element memory, and the output - to the sound indicator. 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