SU1164870A1 - Multichannel single pulse generator - Google Patents

Description

The invention relates to automation and computer technology and can be used, for example, to form synchronized pulses of a given duration for multichannel monitoring and measuring systems. A device is known to form either HMnyjibcoB, which contains switches, capacitors, inverters, and elements AND, by the number of switches, the trigger and the multi-input element —OR, connected to the zero input of the trigger C -. The disadvantages of the known device are the dependence of the duration. pulses on the time of the closed state of the contacts, the dependence of the capacitor capacitance on the time of contact bounce, and also that the pulse is not formed in duration and is not synchronized with the clock series of the device, the one closest to the one proposed is the bouncer of contact pulses It contains two-position switches, inverters, and NAND output elements, a multi-input element. OR / NOT, a memory trigger, a counting trigger, an inverter, an AND-NOT element, one of whose inputs is connected to the clock bus, and an AND element, one of the inputs of which is connected to the clock inversion bus. This device allows forming single pulses on the outputs, synchronized by the clock pulses and equal in duration. The disadvantage of this driver is the relationship between the time of impact on the switch and the period of synchronization and pulsation, and reliable operation of the device is possible only if the switch state in the excited state exceeds the period of degradation of the synchronization pulses. This prevents the device in question from being used for shaping1 and relatively long pulses (more than 0.1 s), for example, in multichannel monitoring systems for frequency sensor signals. The purpose of the invention is to enhance the functionality of the device by generating synchronized pulses of arbitrary duration. . 70 Delivered DRL is achieved by the fact that the multichannel single pulse shaper, the contents switches, the middle contacts of which are connected to the common bus, the AND-NES elements by the number of switches, the outputs connected to the single-pulse issuing bus, the counting trigger, the trigger, the NAND element, the first input of which is connected to the sync pulse, and the AND element, the output of which is combined with the counting input of the counting trigger and the first inputs of the AND-NES elements, according to the number of switches, and one of the inputs is connected to the sync inversion bus pulse pulses, OR elements and triggers by the number of switches, a multi-input element AND, a two-input element OR, with a single trigger output connected to the second input of the NAND element and the first input of a two-input OR element, the output of which is connected to the first inputs of the CM elements, second inputs which are connected to normally closed contacts of switches, normally open contacts of which are connected to single inputs of triggers, by the number of switches, zero inputs of which are connected to the outputs of elements AND And, the single outputs of the triggers are connected to the second inputs of the NAND elements, by the number of switches, the zero outputs of the triggers are connected to the inputs of the multi-input element And the output of which is connected to the first input of the trigger, the second input of which is connected to the clock bus, while the output element AND-NOT connected to a single input of the counting trigger, a single output of which is connected to another input of the element AND, the output of which is also connected to the second input of the two-input element OR. FIG. 1 shows a functional diagram of the device; figure 2 timing diagrams of his work. The multichannel single pulse shaper contains two-position switches 1 (where ab is normally closed (first) switch contacts, bv is normally open (second) switch contacts), elements 2 OR, triggers 3, output elements 4 IU, whose outputs are connected to bus 5 issuing single pulses. multi-input element 6 And-, trigger 7, two-input element 8 ШШ, element 9, counting trigger 10, element 11 И, bus 12 clock pulses and bus I3 of inversion clock pulses. Triggers 3 are triggered by a negative signal, trigger 7 is triggered by negative drops in the input signal, counting trigger 10 by the counting input is triggered by a negative difference in the input signal, and by a potential input - by a negative signal. The device operates as follows. . 3 of the initial state, when the contacts of the ab of all the switches 1, the locks, the triggers 3, the trigger 7 and the counting trigger 10 are in the zero state, blocking the operation of the element 11. At the output of the element 8 OR there is a low logic level signal. This state of the device is stable and unchanged. At the moment of opening the contacts of any of the switches 1 at the output of the corresponding element 2IL, a chattering signal is formed, after which the reset signal from the corresponding trigger is removed. When the contacts of bv are closed, the chattering signal sets the trigger 3 to one state, preparing the output element 4 NAND for operation. At the same moment, at the output of the multi-input element 6 I, a low logic level signal is formed and sets the trigger 7 to the one state, preparing for operation the 9 AND-NOT element. At the output of element 8 OR, a high logic level signal is generated, blocking elements 2 or 3, which makes it impossible to reset trigger 3 if the contacts of bv are opened and the contacts of ab are closed (the switch returns to its initial state), until the end of the process of forming a single pulse. the presence of positive potential of sync pulse on bus 12 at the output of element 9 AND-NOT produces a low logic level signal that sets the counting trigger 10 to one state; minutes from the output unit of a countable three ger 10 is supplied to a second input of the element I. II After the sync pulse on line 12 of its rear edge, returns tri1ter 7 in a null state. At the same time, a high logic level enable signal on the bus 13 and at the output of element II appears. A pulse arrives at the counting input of the counting trigger 10, the second inputs of the 4 AND-NOT elements, form the output of the corresponding element 4 AND-NOT. trigger 3, the negative signal, and the input element OR 8, continuing to block the elements 2 OR, prohibiting the reset of trigger 3 until the process of forming a signal on the single impulse bus 5 is completed. The back edge of the pulse at the output of the element 11 And us returns the counting trigger 10 to the initial (zero) state, so that a bus appears on the bus 5, without a chatter, which coincides in duration and cycle with the clock on the bus 13. At the end of the pulse at the output of the element 11 and at the output of the element 8 OR - a low logic level is generated that arrives at the second inputs of the elements 2 OR. If by this moment switch I is already returned to its initial state and logical O is present at the first inputs of elements 2 OR, then trigger 3 will be reset only after a low logic level signal appears at the second inputs of elements 2LI, i.e. at the end of the process of forming a single pulse. If the pressing time of switch 1 exceeds the cycle time of pulse formation, which occurs during the formation of relatively short single pulses, a low logic level signal from the output of element 8 OR prepares elements 2 of HSS and the corresponding trigger 3k to reset upon return of switch 1 to its initial state. In this case, when opening contacts bv, the installation signal is removed from the single input of trigger 3, and upon subsequent closing of contacts ab, the chattering signal sets trigger 3 to the initial zero state. After resetting the trigger 3, all the elements 4 are AND-NOT closed, the trigger 7 and the countable three rep 10 are in the zero state, which is consistent with 1 successive impact on the corresponding switch 1,

Thus, the operation of the device does not depend on the ratio of the duration of the generated pulse and the time of action on switch 1, which allows the proposed device to be used to form single pulses of arbitrary duration determined only by the parameters of the pulses on the synchronization buses 12 and 13.

64870., 6

The performance check and the subsequent application of a device in the multichannel system for monitoring signals from scintillation sensors J confirmed its reliability and high performance. With minor hardware costs, the device allows the accumulation time of the frequency 10 signal to be varied across channels over a wide range, synchronizing the measurement periods with the operation of the remote control of its computer complex.

Pressing Release

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Claims (1)

. MULTI-CHANNEL SINGLE PULSE FORMER, containing switches, the middle contacts of which are connected to a common bus, NAND elements according to the number of switches, outputs connected to a single-pulse output bus, counting trigger, trigger, N-NOT element, per-. The output of which is connected to the clock bus, and the AND element, the output of which is combined with the counting input of the counting trigger and the first inputs of the AND-NOT elements by the number of switches, and one of the inputs is connected to the inversion bus of the clock pulses, . The reason is that, in order to expand functionality by forming synchronized pulses of arbitrary duration, OR elements and triggers by the number of switches, a multi-input element are introduced into it. And, a two-input OR element, with a single output of the trigger connected to the second input of the AND-NOT element and the first input of the two-input element OR ^ output of which is connected to the first inputs of the OR elements, the second inputs of which are connected to the Normally closed contacts of the switches, normally open contacts of which are connected to single inputs of triggers according to the number of switches, zero inputs' of which are connected to outputs of OR elements, single outputs are connected to second inputs of AND-NOT elements, according to the number of switches, zeros e triggers outputs by the number of switches connected to the inputs of multi-input AND gate, whose output soedi-. is not connected to the first input of the trigger, the second input of which is connected to the clock bus, while the output of the AND gate is connected to the single input of the counting trigger, the single output of which is connected to another input of the AND element, the output of which is also connected to the second input of the two-input OR element. 1 164870