RU71013U1 - SIGNAL PROCESSING DEVICE FOR TECHNOLOGICAL INSTALLATION - Google Patents

Abstract

The utility model relates to process control tools based on a microprocessor controller. A signal processing device for a process plant is known, which comprises a processor module, at least one module for input and / or output of digital signals, as well as input modules for analog signals. Each of the above digital signal input and / or output modules and analog signal input modules includes first and second parts, which are connected with the possibility of transmitting information and are electrically disconnected, for example, using an isolation device installed between them. In this case, the first parts of the input and / or output modules of digital signals and input modules of analog signals are connected to the interface of the processor module by the system bus. The processor module includes a microcontroller connected respectively, an interface for input and output of digital signals, power supplies, an alphanumeric indicator and a control keyboard. The disadvantages of this device can be considered the complexity of processing several analog signals with a given accuracy, as well as a limited scope because of this. The proposed device allows you to enter all the processed analog signals simultaneously and, at the same time, synchronize their input, which ensures accurate fixation of the ratio of all analog signals. This improves the technological capabilities of the proposed device and expands the scope of its application. For this, the known device described above will be improved. In the proposed signal processing device for the technological installation, the first parts of the analog signal input modules are connected to the system bus via an adapter located in the processor module. In this case, each of the adapter inputs is connected via a separate serial bus to the output of the first part of the corresponding module for inputting analog signals. In such

In this case, digital codes from the outputs of all analog input modules are simultaneously fed to the adapter through their isolation devices and serial buses. And the adapter aligns the system bus with a set of serial buses. Moreover, in the case of interference with the inputs of this device, they do not penetrate the input and / or output modules of digital signals and input modules of analog signals and, therefore, into the system bus, serial buses and processor module, due to the presence of input and / or modules in each of or output of digital signals and input modules of analog signals of isolation devices providing electrical isolation. 1 ill.

Description

The utility model relates to process equipment control tools based on a microprocessor controller and designed to measure and control various signals, as well as their processing in the process of generating control and regulation signals.

A device for signal processing for a technological installation is known (see the patent of the Russian Federation for utility model No. 19183, M. class 7 G05V 15/00, Н02В 15/00, published on 08/10/2001. Bull. No. 22), designed to control the system maintaining thermal conditions, mainly of the building. It includes a processor module, which contains respectively connected microcontroller, an interface for input and output of digital signals, power supplies, an alphanumeric indicator and a control keyboard. The device also includes input and / or output modules of analog or digital signals. In this case, the modules comprise a first part, for example, a controller, which is connected to the second part, for example, by matching sensor elements, with the possibility of transmitting information. The input and / or output modules of analog or digital signals are connected to the processor module by a system bus for transmitting information over a single network protocol.

One of the disadvantages of this device can be considered reduced reliability, which is due to the lack of electrical isolation of the nodes of the reception and transmission of information, for example, from sensors or to executive devices. In addition, the known device has a limited scope, because It is intended to control the system of maintaining the thermal regime of a small room or building with reference to temperature controllers, indicators and electric heaters. Consequently, only a limited range of equipment and sensors can be used in this device.

The closest to the claimed device can be considered selected as a prototype control device of a technological installation (see Ukrainian patent for utility model No. 25926, M. cl. 7 G05B 15/00, publ. 27.08.2007. Bull. No. 13), designed for data collection, control and formation of control signals.

The known device contains such common essential features as the processor module, and at least one module for input and / or output of digital signals, as well as input modules for analog signals. Each of the above digital signal input and / or output modules and analog signal input modules includes first and second parts, which are connected with the possibility of transmitting information and are electrically disconnected, for example, using an isolation device installed between them. In this case, the first parts of the input and / or output modules of digital signals and input modules of analog signals are connected to the interface of the processor module by the system bus. The processor module includes a microcontroller connected respectively, an interface for input and output of digital signals, power supplies, an alphanumeric indicator and a control keyboard.

For example, in the case of organizing the control of a gas heater with a liquid coolant used against hydrate formation in the control systems of gas distribution points and stations, in the known device, the first part of the input and / or output modules of digital signals, as well as input modules of analog signals, is made in the form of a controller, and the second part is in the form of matching sensor elements.

The disadvantages of this device can be considered the impossibility of simultaneous input of several analog signals for subsequent processing, which narrows its scope, as well as the difficulty in synchronizing the beginning of the input of such signals, which reduces the accuracy of their processing. This is especially important, for example, in the process of monitoring the parameters of the electrical network, etc.

The task to which the creation of this utility model is directed is the development of such a device in which new blocks, the place of their installation, as well as new connections between new and known blocks, allow you to enter all the processed analog signals simultaneously and, at the same time, synchronize their input which ensures accurate fixation of the ratio of all analog signals. This improves the technological capabilities of the proposed device, while increasing its accuracy, as well as expanding the scope.

The problem is solved due to the fact that the signal processing device for the technological installation is being improved, containing, like the one closest to the claimed one, a processor module that includes a microcontroller, an interface for input and output of digital signals, power supplies, an alphanumeric indicator, and keyboard control. The device also contains at least one module for input and / or output of digital signals and input modules for analog signals, including the first and second parts, which are connected with the possibility of transmitting information and are electrically disconnected, for example, using an isolation device. Decoupling devices are installed between the parts of the modules, while their first parts are connected to the interface of the processor module by the system bus.

Unlike the known one, in the proposed device, the first parts of the analog input modules are connected to the system bus via an adapter located in the processor module. In this case, each of the adapter inputs is connected via a separate serial bus to the output of the first part of the corresponding module for inputting analog signals.

The proposed device is illustrated in the figure, which shows its block diagram.

The signal processing device for the technological installation contains a processor module 1, which provides high-level processing of information from external devices and control of this device. In this case, for example, logical

functions, communication of modules and external devices, control, monitoring, alarm, configuration and indication. The processor module 1 includes respectively connected microcontroller 2, an interface 3 for input and output of digital signals, power supplies (PSUs) 4, an alphanumeric indicator 5 and a control keyboard 6. The known device also contains at least one input module 7 and / or digital signal output (IECC). The digital input and / or output module 7 includes a first part 8, for example, a register that is connected to the second part 9, for example, sensor matching elements, with the possibility of transmitting information. The specified first part 8 of the module 7 input and / or output of digital signals is connected to the interface 3 of the processor module 1 by the system bus 10. The first 8 and second 9 parts of the module 7 input and / or output of digital signals are electrically disconnected, for example, using the isolation device 11, established between them.

The composition and number of digital input and / or output modules 7 of digital signals (ICEC) available in the device is determined by its purpose and functioning algorithm.

The first part 8, for example, the register, of each of the digital input and / or output modules 7 is connected by an input (output) to the system bus 10, and the output (input) is connected to the isolation device 11. The second part 9 of each module 7 by an output (input) connected to the isolation device 11, and the input (output), for example, to the external elements of the sensors (actuators), respectively.

Depending on the tasks performed, the device is equipped with the necessary number of MMVC 7, namely: x modules for input and / or output of digital signals, where x≥1.

The device also includes modules 12 input analog signals (MVA), each of which contains the first part 13, the second part 14, and the isolation device 15. The first 13 and second 14 parts are electrically disconnected, but at the same time, information is transmitted. System

the bus 10 is connected with the indicated modules 12, for example, through the adapter 16 using serial buses 17. In this case, each of the inputs of the adapter 16 is connected via a separate serial bus 17 to the output of the first part 13 of the corresponding module for inputting analog signals (MVA).

Depending on the tasks performed, the device is equipped with the necessary number of MVA 12: for example, n modules for inputting analog signals, where n≥2 for monitoring the parameters of electric networks.

In the device, the operation of which is described, registers are used as the first parts of 8 modules of 7 ... 7 ^x input and / or output of digital signals, and analog-to-digital converters are used as the first parts of 13 modules of 12 ... 12 ⁿ input of analog signals with serial output (ADC). For example, actuators are used as the second parts 9 of the modules 7 for input and / or output of digital signals 7 ... 7 ^x , and the second parts 13 of the modules 12 ... 12 ^{n for} inputting analog signals are used, for example, external sensor elements .

When connecting the power supplies 4, the initialization of the microcontroller 2 in the processor module 1, as well as the ADC and registers in the first parts 8 and 13 of the nodes 7 ... 7 ^x and 12 ... 12 ^n, respectively, takes place. Power is supplied to modules 7 and 12, for example, through interface 3, system bus 10 and serial buses 17. In modules 7 ... 7 ^x , their self-diagnostics are started and information communication is established via system bus 10 with all nodes of the device.

Further, the analog signals from the sensors connected to the second parts of 14 modules 12 ... 12 ⁿ are fed to analog-to-digital converters with serial output (ADC) located in these parts, each of which works independently, where it is converted into a digital serial code. Digital codes from the outputs of all nodes 14 of the modules 12 simultaneously through the isolation device 15, the first part 13 via serial buses 17 and the adapter 16, the system bus 10 are fed via interface 3 to the microcontroller 2 of the processor module 1. The adapter 16

aligns the system bus 10 with the set of serial buses 17.

Through the adapter 16, on the buses 17 under the control of the microcontroller 2 of the ADC of each module 12, the start time of processing the analog signal is set, as well as the clock sequence of reading information, according to which the output of the ADC receives information for subsequent processing in the form of a digital serial code. Thus, all analog signals are converted by the ADC of all modules 12 at the same time and fed to the adapter 16. Next, the adapter 16 converts a set of serial signals into parallel information for transmission to the system bus 10. At the same time, it is possible to configure criteria using the keyboard 6 and the alphanumeric indicator 5 processing information coming from modules 7 and 12, and, if necessary, its indication by indicator 5. In the process of further processing of information by processor module 1, information is output, as well as effects through the interface 3 to the system bus 10. In this case, the control actions in the form of digital signals through the first parts 8 of the output modules 7 ... 7 ^x digital signals, and the isolation device 11 are supplied to the second parts 9 of the modules 7 ... 7 ^x , associated with actuators.

In the case of exposure to the inputs of this signal processing device for the technological installation of the electromagnetic field, the resulting interference does not penetrate into the first parts 8 of the modules 7 ... 7 ^x and the first parts 13 of the modules 12 ... 12 ⁿ , as well as the system bus 10, serial buses 17 and processor module 1, due to the presence in each of the modules 7 ... 7 ^x and 12 ... 12 ⁿ isolation devices 11 or 15, providing electrical isolation. This increases the reliability of the device in adverse conditions.

Claims (1)

A signal processing device for a technological installation, comprising a processor module, which includes a microcontroller, an interface for input and output of digital signals, power supplies, an alphanumeric indicator and a control keyboard, as well as at least one digital input and / or output module signals and input modules of analog signals, including the first and second parts, which are connected with the possibility of transmitting information and are electrically disconnected, for example using an isolation device, setting between them, while the first parts of these modules are connected to the processor module interface through the system bus, characterized in that the first parts of the analog signal input modules are connected to the system bus through an adapter located in the processor module, each of whose inputs is connected using a separate serial bus to the output of the first part of the corresponding module for inputting analog signals.