SU1202041A1 - Chatter protection device - Google Patents

Abstract

The invention relates to a pulse technique and can be used, in particular, to protect the mechanical contacts in devices for inputting digital information from chattering. The aim of the invention is to increase the reliability of operation. The device contains one-shot 1 and 2, major element 3, input bus 4. and output bus 5. Bus 4 is connected to the second input of element 3, the output of which is connected to bus 5, as well as to the direct input of one-shot 1 and inverse input of one-shot 2. The direct input of the one-shot 1 is connected to the first input of the element 3, and the inverse output of the two switch is connected to the third input of the element 3. The one-shot 1 and 2 form pulses, the duration of which is obviously longer, for example, the time of mechanical contact bounce when they are closed and open and. The one-vibration 1 triggers when the potential at its input goes from low to high, and the one-shot 2 from high to low. The output signal of the one-shot 2 § is removed from its inverse output. (L Majority 3 implements the function F A6 + BC + AC, where F c is the output signal, L, 5 and C are the input signals. Particulars of the device operation and explanatory timing diagrams are given in the description of the invention. about 4

Description

The invention relates to a pulse technique and can be used, in particular, to protect the mechanical contacts in devices for inputting digital information from chattering. The aim of the invention is to increase the reliability of operation. Figure 1 shows the functional diagram of the device; 2, timing diagrams for his work. The chatter protection device contains one-shot 1. And 2, major element 3, input bus 4 and output bus 5. Input bus 4 is connected to the second input of the majority element 3, the output of which is connected to the output bus 5, as well as to the direct input of the single-vibrator 1 and the inverse input of the single vibrator 2, the direct output of the single vibrator 1 is connected to the first input of the majority element 3, and the inverse output of the single vibrator 2 is connected to the third input of the majority element 3. The single vibrators 1 and 2 form pulses, the duration of which is more, for example, the bounce time of mechanical contacts when they are closed and opened. The one-vibrator 1 operates when the potential at its input goes from low to high, and the one-vibrator 2 operates at high level to low, and the output signal of the one-oscillator 2 is removed from its inverse output. The majority element 3 implements the function F AB + & C + LAN, where F is the output signal; A, B, C - input signals. The device works as follows. In the initial state, when there is a high potential on the input bus 4, for example, taking into account that low potential is present at the output of the single vibrator 1, high potential at the output of the single vibrator 2, at the output of the majority element 3, and therefore also at the output bus 5 high potential is present (Fig. 2). When the potential on the input bus 4 changes from a high level to a low one (for example, when the mechanical switch contacts are closed) for the first time, a low potential is set at the output of the majority element 3 (Fig. 2, 1 to), which leads to the launch of a one-shot 2, which has a low potential at its output, together with a low potential at the output of the one-shot 1, it keeps the low potential of the output of the majority element 3 for a time determined by the duration of the output pulse of the one-shot 2 (Fig. 2,). As a result, any interference that may occur for some time in the input signal (Fig. 2a,) does not cause a change in the output state of the majority element 3, and hence the output bus 5 of the device. After the formation of a pulse at the output of the one-vibrator 2, the transition from Low to High potential on It does not change the output state of the small-element 3, since a low potential is present on the input bus 4 (Fig. 2a,). Subsequently, when the potential at the input bus 4 changes from a low level to HIGH for the first time. 4 For example, when the contacts of the mechanical switch are opened) at the output of the majority element 3 a high potential is established (Fig. 2, t ti) which leads to the launch of a single vibrator 1, which has a high potential at its output, together with the high potential at the output of the one-shot 2, it keeps a high potential of the output of the majority element 3 for a time determined by the duration of the output pulse of the one-shot 1 (Fig. 26, as a result The exes that may take some time in the input signal (Fig. 2 a,) do not cause a change in the output state of the majority element 3, and hence the output bus 5 of the device. After the formation of a pulse at the output of the one-vibrator 1, the potential transition on it From high to low does not change the output state of the majority element 3, since a high potential is present on the input bus 4 (Fig. 2 a, t, tj).

Claims (1)

Formula of Absorption Chatter protection device containing two single vibrators, characterized in that, with a purpose. To increase the reliability of the device, a majority element is inserted into it, the output of which is connected to the inputs of the first and second single-shotrs, the outputs of which are connected respectively to the first and third inputs of the majority element, the second input of which is connected to the input bus of the device. a; Ill five). at). at). to tt RIJ t2 t3 of