RU2024047C1 - Pulse transmitter-to-data processing unit interface - Google Patents

Abstract

FIELD: automatic control and computer engineering. SUBSTANCE: interface has sensors 1, coder 2, two groups of shaping amplifiers 3, 4, data processing unit 5. EFFECT: improved design. 3 dwg

Description

 The invention relates to computer technology and automation and can be used for automated collection and processing of information.

 The aim of the invention is to increase the reliability of the transmitted information.

 In FIG. 1 shows a diagram of a device; in FIG. 2 is a diagram of an amplifier-former; in FIG. 3 is an electrical schematic diagram of an amplifier-former.

 The device for interfacing pulse sensors with an information processing unit (Fig. 1) contains pulse sensors 1, an encoder 2, the first and second groups of amplifier-drivers 3 and 4, and information processing unit 5. In FIG. 1, communication lines 6 and 7 are indicated.

 The amplifier-driver (Fig. 2) contains integrators 8, amplifiers 9, element 10 of negative feedback, elements 11 of positive feedback.

 The device operates as follows.

 The pulse signal from one of the sensors 1, passing through the corresponding wire of the communication line 6, is fed to one of the inputs of the encoder 2, which is a diode encoder for converting the signal pulse into a parallel pulse binary code, both direct and reverse (inverse). For example, if the information is input to the encoder 2 from the first sensor, then, as can be seen from FIG. 1, pulses should appear at the corresponding outputs of the encoder 2, and at the other outputs should be zero potentials. In other words, after encoder 2, one of the wires of the line of each bit of the code should always have a signal pulse (“working” pulse), and the signal (zero potential) is absent in the other.

 However, due to the mutual influence of the wires in the communication line 6, during the passage of a signal pulse from one of the sensors 1 to the encoder 2, noise pulses are induced in the other wires of the line. As a result, there are pulses at all outputs of the encoder (some have “working” pulses and others have interference pulses), which sharply reduces the reliability of the transmitted information, since the noise pulses can be close to the signal pulses in terms of amplitude and duration.

 On the other hand, as measurements show, differential interference pulses in any case have a shorter duration, so it becomes possible to completely suppress interference using the proposed amplifier-driver (Fig. 2). This is achieved due to the fact that a shorter impulse of interference, after integrating it with the help of integrator 8, has a lower amplitude and a gentler leading edge compared to the “working” impulse. As a result, the “working” impulse outstrips the interference impulse in magnitude, first launches its amplifier 9 and, through the common negative feedback element 10, closes the second input for passing (amplifying) the interference. At the same time, thanks to separate positive feedback, the “working” pulse is avalanche amplified and takes a shape close to rectangular. Similarly, suppression of interference arising in the lines of subsequent transmission of pulse codes from the encoder 2 to the information processing unit 5 (for example, in line 7 in Fig. 1) occurs.

In FIG. Figure 3 shows the complete electrical circuit diagram of the driver amplifier, where the chains R ₁ C ₁ and R ₆ C ₃ perform the functions of signal integration, the elements R ₁₀ and D ₃ are an element of the general negative feedback, and the capacitances C ₂ and C ₄ are separate elements of the positive feedback.

Claims (1)

 A device for interfacing pulse sensors with an information processing unit, comprising an encoder, the inputs of which are inputs of a device for connecting pulse sensors, characterized in that, in order to increase the reliability of the transmitted information, two groups of amplifier-drivers are introduced into the device, each of which contains the first and second integrators, the first and second amplifiers with positive feedback and the negative feedback element, the input of which is connected to the outputs of the first and second amplifiers with positive the inputs of which are connected to the output of the negative feedback element, the outputs of the first and second integrators are connected respectively to the input of the first and second amplifiers with positive feedback, the direct and inverse outputs of the encoder are connected to the first and second integrators of the corresponding amplifier-former of the first group, the outputs amplifiers with positive feedback which are connected to the inputs of the integrators of the corresponding amplifier-shaper of the second group, the outputs of the amplifiers with olozhitelnoy feedback whose outputs are devices for connecting to the information processing unit.

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