SU920542A1 - Device for checking pulse train amplitude - Google Patents

Description

The invention relates to measuring technique and can be used in devices for automatically controlling the amplitude of a pulse sequence.

A two-threshold voltage level monitoring device is known, comprising a voltage divider, threshold elements, triggers, differentiating circuits, a clock generator, a coincidence element, a prohibition element, and an actuator in which the outputs of the voltage divider are connected to the inputs of threshold elements, the other inputs of which are connected to the input of the device triggers included between the output of the corresponding threshold element and the input of the coincidence element · Nia, the output of which through the element za- _m preta connected to the output takes Body ceiling elements, the clock pulse generator output is connected to the second input element of prohibition and through a differentiating circuit connected to the adjusting input of flip-flops P].

A disadvantage of the device is the dependence of the accuracy of voltage amplitude control on frequency.

Closest to the invention is a device for controlling the amplitude of the pulse sequence, containing two sources of reference voltages, the first and second threshold elements and the element And, in which the first inputs of the first and second threshold elements are connected to the input terminal, the second inputs of the first and second threshold elements are connected with the corresponding outputs of the sources of reference voltages, the outputs of the first and second threshold elements are connected to the inputs of the element And, the output of which is the output of the device for trol amplitude pulse sequence (2).

However, when controlling the amplitude of the pulse sequences, its output does not contain constant potentials, but the level of logical O with the amplitude of the controlled voltage that does not correspond to the tolerance and the pulse sequence with the amplitude of the controlled voltage in the tolerance, which limits the use of the device in automatic control and measuring systems. <

The purpose of the invention is the expansion of functionality.

This goal is achieved by the fact that in the device for controlling the amplitude of the pulse sequences containing two sources of reference voltages, the first. And second threshold elements, the first inputs of which are connected to each other and with the input terminal of the device, and the second inputs are connected to the outputs of the sources of reference voltages, and the first element AND, additionally, an amplifier-limiter, the first and second triggers, the second and third elements And, the input of the amplifier-limiter connected to the first inputs of the Threshold elements, and you One amplifier-limiter is connected to the first inputs of the first and second elements And, the second inputs of which are connected respectively to the outputs of the first and second threshold elements and the first inputs of the first and second triggers, the second inputs of which are connected to the outputs of the first and second elements And, respectively, the direct outputs of the triggers connected to the third inputs of the first and second elements And, the inputs of the third element And are connected respectively with direct and inverse outputs of the first and second triggers, and the output of the third element And S THE output device.

In FIG. 1 shows a block diagram of the proposed device for controlling the amplitude of the pulse sequence ·, in FIG. 2 is a timing diagram explaining its operation.

The device contains an amplifier-limiter 1, the first and second threshold elements 2 and 3, the first and second elements And 5 and 4, the first and second triggers 6 and 7, the third element And 8, the voltage sources 9 and 10.

The device operates as follows.

The input of the amplifier-limiter 1, the first inputs of the threshold elements 2

IS

920542 4 and 3 receives a controlled pulse sequence id, x (Fig. 2), where it is compared with the reference voltages _0ppt and _{0P (Kn} from the sources of the reference voltage 9 and 10, respectively. At the output of the amplifier-limiter 1 (Fig. 2a), the voltage appears simultaneously pulses of logical level 1. At the outputs of threshold elements 2 and 3 (Fig. 2 b, c), when the controlled voltage exceeds the level of the corresponding voltages, the logical O level appears. If the pulse amplitude in the sequence Ugx is greater than the reference voltage U _{ori max} (ϋ _Βχ Chorlau ), then the voltage drop from logical level 1 to logical O level at the output of threshold element 2 transfers the first trigger 6 to logical state 1 (Fig. 2 g), which is fed to the third input of the first 'AND element 4 and to the first input of the third AND element 8, the output of which (Figs. 2 and) removed fault signal. The device is fault state until such time as the condition c _dx> and _0Pp1aH. The first pulse whose amplitude is less than the reference voltage device outputs mav

- · from the mumu state (Fig. 2 g, and), that is, the pulse of the rinse aid 1 ment And coincide with the logical 1 levels and the logical O level formed at its output (Fig. 2 e), the duration of which is equal to the switching time of the first trigger 6 ,. p. resets the first trigger 6 to its original state. '

The second part of the minimum control device, consisting of the second threshold element 3 ”of the second element And 5, the second trigger 7, works similarly. The difference is that a fault signal is supplied to the second input of the third element And 8 from the inverse output of the second trigger 7 ( Fig. 2 c, f, g, h, i).

The introduction of the proposed device for controlling the amplitude of the pulse sequence of the amplifier-limiter, the first and second element And, the first and second trigger allows you to increase its versatility, simplify its use in the automatic control and measurement at the output of the malfunction at the maxipri appearance of the amplifier-first elec

920542 6 systems, i.e. expand the functionality of the device.

Claims (2)

The invention relates to a measuring technique and can be used in devices for automatically controlling the amplitude of a pulse sequence. A two-voltage voltage level control device is known, which contains a voltage divider, threshold elements, triggers, differentiating circuits, a clock generator, a coincidence element, a prohibition element and an actuator in which the outputs of the voltage divider are connected to the inputs of threshold elements, the other inputs of which are connected with the device input, the triggers are connected between the output of the corresponding threshold element and the input of the coincidence element, the output of which is connected to the executor through the prohibition element Nogo body, wherein the clock pulse generator output is connected to the second input element of prohibition and through a differentiating circuit connected to the trigger input of a mounting device disadvantage is the dependence of the amplitude control accuracy of the voltage; m frequency. Closest to the invention is a device for monitoring the amplitude of a pulse sequence comprising two sources of reference voltages, the first and second threshold elements and the element I, in which the first inputs of the first and second threshold elements are connected to the input terminal, the second inputs of the first and second threshold elements connected to the corresponding outputs of the sources of reference voltages, the outputs of the first and second threshold elements are connected to the inputs of the element I, whose output is the output of the device control of the amplitude of the pulse sequence 12. However, when controlling the amplitude of the pulse sequences, there are not constant potentials at its output, but a logic level O at the amplitude of the controlled voltage not conforming to the tolerance and the pulse sequence at the amplitude of the controlled voltage in the tolerance that limits the use of the device in automatic test systems. The purpose of the invention is the expansion of functional capabilities. The goal is achieved by the fact that the device for controlling the amplitude of pulse sequences, containing two sources of ambient voltages, the first and second threshold elements, the first inputs of which are connected to each other and to the input terminal of the device, and the second inputs are connected to the outputs of the sources first element, the amplifier-limiter, the first and second triggers, the second and third elements AND, the input of the amplifier-limiter connected to the first inputs of the ground elements, and the output of the amplifier-limiter is connected to the first inputs of the first and second element I, the second inputs of which are connected respectively to the outputs of the first and second threshold elements and the first inputs of the first and second triggers, the second inputs of which are connected to the outputs of the first and second elements AND, respectively. the direct outputs of the triggers are connected to the third inputs of the first and second elements And, the inputs of the third element And are connected respectively to the direct and inverse outputs of the first and second triggers, and the output of the third element And is the output of the device. FIG. 1 shows a block diagram of the proposed device for monitoring the amplitude of a pulse sequence; in fig. 2 - time diagrams of us, which show his work. The device contains an amplifier-O (- a reducer 1, the first and second threshold elements 2, and 3 the first and second elements AND 5 and t, the first and second trigger 6 and 7, the third element AND 8, sources of the reference voltage 9 and 10 works as follows: The input of the amplifier-limiter 1, the first inputs of the threshold elements 2 and 3 receive a controlled pulse sequence and x figure 2), where it is compared with the reference voltages of the mio diode n. from reference sources 9 and 10, respectively. At the output of the amplifier-limiter 1 (Fig. 2a), level synchronous voltage Ugji appears, a logic level 1 impulses. At the outputs of threshold elements 2 and 3 (Fig. 2b, c), when the voltage controlled by the voltage exceeds the corresponding voltages level O. If the pulse amplitude-in the sequence Ug is greater than the reference voltage Ugn max (B (% voltage overvoltage from logic level 1 to logic level O at the output of threshold element 2, flips the first trigger 6 to the logical state .1 (Fig. 2 rj, which is fed to the third the input of the first element I and to the first input of the third element I 8, from the output of which (Fig. 2 i) the malfunction signal is removed. In the state of failure, the device remains until the condition ix onina pulse, whose amplitude is less than the reference voltage -in: op mav brings the device out of the fault state to the maximum (fig. 2 g, i), i.e. when a pulse appears at the output of the amplifier-limiter 1 at the inputs of the first element I, the logic 1 levels coincide and formed at its output logic level O (FIG. 2 d), the duration of which is equal to the switching time of the first trigger 6 ,. the re-sets the first trigger 6 to its original state. Similarly, the second part of the minimum monitoring device consists of the second threshold element 3 of the second element 5 of the second trigger 7. The difference lies in the fact that the second input of the third element 8 of the second signal is fed from the inverse output of the second trigger 7 (Fig . 2, e, g, i, i). Introducing the proposed device to control the amplitude of the pulse sequence of the amplifier-limiter, the first and second element I, the first and second trigger allows you to increase its versatility, simplify its use in automatic measurement and control systems, i.e. expand the functionality of the device. Apparatus of the Invention A device for monitoring the amplitude of a pulse sequence containing two sources of reference voltage, the first and second threshold elements, the first inputs of which are connected to each other and to the input terminal of the device, and the second inputs to the outputs of the sources of reference voltage, and , in order to expand the functionality, the amplifier-limiter is introduced into it, the first and second triggers, the second and the elements AND, we take the input of the amplifier-limiter attached to the first the moves of the threshold elements, the output of the amplifier-limiter is connected to the first inputs of the first and second elements AND, the second inputs of which are connected respectively to the outputs of the first and second threshold elements and the first inputs of the first and second triggers, the second inputs of which are respectively), the direct outputs of the flip-flops are connected to the third inputs of the first and second elements AND, the inputs of the third element AND are connected respectively to the direct and inverse outputs of the first and second three and the output of the third AND element is the output of the device. Sources of information taken into account during the examination 1. USSR author's certificate e 625167, cl. Q 01 a 19/00, 1978. 2. Analog integrated circuits .. ed. J. Connelly. M., Mir, 1977,. 150-152. fLjA / X