EA037680B1 - Service radio communication control panel - Google Patents

Abstract

The invention relates to the field of the monitoring and control of the operation of devices and processes and is intended to provide service communication, organize operator interface, process information, and solve maintenance tasks in the management systems of facilities. The communication and control panel contains a processor, a random access memory (2), a read-only memory (3), a display (7), and a GLONASS/GPS satellite navigation receiver module (15). It additionally includes a built-in Ethernet transceiver module (14), a Wi-Fi transceiver module (16), an interface for microSD cards (18), an audio codec (17), an audio signal switch (19), and a piezospeaker (20). The module of GLONASS/GPS satellite navigation receiver (15) is implemented inside the housing of the communication and control panel, the display (7) is designed as a touch-screen device, and the processor is part of a programmable logic device (PLD) (1) connected to the inputs of the touch-screen display (7), the inputs/outputs of the GLONASS/GPS satellite navigation receiver module (15), the inputs/outputs of the Ethernet transceiver module (14), the inputs/outputs of the Wi-Fi transceiver module (16), the inputs/outputs of the interface for microSD cards (18), and the inputs/outputs the audio codec (17) connected to the piezospeaker (20) via the audio signal switch (19). The proposed technical solution has expanded functionality in comparison with analogs and reduced weight and size characteristics.

Description

The invention relates to the field of monitoring and controlling the operation of devices and processes and is intended to provide service communication, organize an operator interface, process information and solve maintenance problems in object management systems.

Known control panel (see patent RU 127888, publ. 05/10/2013, F41G 3/00), containing fixed in the case and connected to the system bus, a central processor module, random access memory, read-only memory, video controller with display, controller keyboards with keyboards, navigation satellite receiver adapter with navigation satellite receiver. In this case, the control panel is configured to connect an external monitor with a keyboard and external storage media and is equipped with an internal power supply, a peripheral bus and associated bus arbiter, video interface, video grabber, at least one external communication interface and an interface for communication with navigation equipment, in this case, the bus arbiter is connected with its first input-output to the system bus, and the second - to the bus of peripheral devices, and the interface for communication with the navigation equipment is connected by its second input with the adapter of the navigation receiver, and the video interface is connected to the video controller, while the case is made with the possibility of withdrawal heat through its walls, and the control panel is made with the possibility of combined connection of external communication interfaces.

The closest technical solution (prototype) is a control panel (see patent RU 2308070, published 10.10.2007, G05D 1/00), containing a central processor module fixed in the case and connected to the system bus, random access memory, read-only memory a device, a video controller with a display, a keyboard controller with a keyboard, an adapter for a navigation satellite receiver with a navigation satellite receiver, an adapter for connecting a reconnaissance device, an adapter for a digital radio communication unit with a digital radio communication unit and an antenna for a digital radio communication unit. At the same time, a microprocessor and a power switch are additionally introduced into it, and the microprocessor is connected to the central processor, the input of the power switch is connected to the microprocessor, and the output to the software device, while the adapter for connecting the intelligence tool is made in the form of a digital input-output information converter and is connected to the programming device.

The disadvantages of the analogue and the prototype are the inability to interface with the equipment via Ethernet and the inability to work in wireless networks of the Wi-Fi standard, the implementation of navigation equipment in the form of an external device connected with an adapter, the formation of the output data of the device control parameters using the keyboard, as a result, such execution affects the weight and size characteristics of the device.

The technical result, which the invention is aimed at, is to expand the functionality of the console and increase its autonomy from external equipment due to the implementation of the GLONASS / GPS satellite navigation receiver module built into the case and the additional introduction of the built-in Ethernet transceiver module, Wi-Fi transceiver module, interface for microSD cards, an audio codec, an audio signal switch and piezodynamics, as well as a decrease in weight and size characteristics due to the implementation of the remote control in a single case and a display for entering touch control commands.

The technical result is achieved due to the fact that a built-in Ethernet transceiver module, a Wi-Fi transceiver module, an interface are additionally introduced into the communication and control panel, which contains a processor, a random access memory, a read-only memory, a display and a GLONASS / GPS satellite navigation receiver module. for microSD cards, audio codec, audio switcher and piezo speaker. In this case, the module of the satellite navigation receiver GLONASS / GPS is made inside the housing of the communication and control panel, the display is made of a sensor type, and the processor is part of a programmable logic integrated circuit connected to the inputs of the touch display, the inputs-outputs of the module of the satellite navigation receiver GLONASS / GPS, inputs - outputs of the Ethernet transceiver module, I / O of the Wi-Fi transceiver module, I / O of the interface for microSD cards and the I / O of an audio codec that is connected to the piezo speaker through an audio signal switch.

The essence of the proposed technical solution is illustrated by the functional diagram shown in the drawing.

The communication and control panel (PCU) contains a programmable logic integrated circuit (FPGA) 1 with a processor (not shown in the figure), random access memory (RAM) 2, programmable read-only memory (PISA) 3, reference frequency generators (GOC) 4 and 5, auxiliary microcontroller 6, touchscreen display 7, which consists of sensor 8, sensor controller 9 and liquid crystal display (LCD) 10 connected by its input to the FPGA output 1, light sensor 11, internal battery 12, switching voltage stabilizers 13, module Ethernet transceiver 14, GLONASS / GPS 15 satellite navigation receiver module, Wi-Fi 16 transceiver module, audio codec 17, microSD card interface 18, audio signal switch 19, piezodynamic speaker 20, real time clock 21 and power supply circuit 22. The PSU may additionally contain USB transceiver module 23.

- 1 037680

FPGA 1 with its inputs-outputs is connected, respectively, to the inputs-outputs of the GLONASS / GPS 15 satellite navigation receiver module, Wi-Fi 16 transceiver module, 17 audio codec, interface for microSD cards 18, RAM 2, EPROM 3, real time clock 21, auxiliary microcontroller 6, USB transceiver module 23, Ethernet transceiver module 14. GOCs 4 and 5 are each connected with their outputs to the inputs of FPGA 1, the output of which is connected to the LCD input 10. The USB transceiver module 23 by its input-output is connected to the input-output of the sensor controller 9, which by its input-output is connected to the input-output of the sensor 8. The Ethernet transceiver module 14 is connected by its input-output to the input-output of the power supply circuit 22, which is connected by its output to the input of one of the switching voltage stabilizers 13 connected by its output to internal storage battery 12. The internal storage battery 12 is connected with its output to the input of one of the impulses voltage stabilizers 13, connected by the output to the input of another switching stabilizer 13. The audio codec 17 is connected by its input-output through the audio signal switch to the input-output of the piezodynamic speaker. The auxiliary microcontroller 6 is connected with its output, respectively, to the inputs of two pulse voltage stabilizers 13, and the input-output is connected to the input-output of the internal battery 12, connected by its output to the input of the real-time clock 21.

A PSU is a hardware and software unit built on the basis of a system on a chip (SoC), implemented in the form of FPGA 1 with a built-in processor that performs software processing of digital data. RAM 2 is intended for temporary storage of data and instructions required by the processor to perform operations. EPROM 3 is an internal non-volatile memory designed to store information. GOC 4 and GOC 5 provide the PSU nodes with the necessary clock frequencies. An auxiliary microcontroller 6 is provided for low-level control of the operation of the nodes of the FPGA 1 motherboard, in particular, for controlling the charging of the battery 12 and adjusting the brightness of the backlight of the touch display 7.

The control of the PSU is carried out by means of a touch screen 7, which consists of an LCD 10 that controls the operation of objects, indication of their states and data entry by the operator, a capacitive-type sensor 8 and a sensor controller 9, which calculates the coordinates of the point of contact. The light sensor 11 is provided to automatically adjust the brightness of the image depending on external conditions.

The possibility of autonomous operation of the PSU is provided by an internal rechargeable battery 12. To power the microcircuits, illuminate the screen and charge the rechargeable battery 12, several pulse voltage stabilizers 13 are installed in the circuit.

Interfacing and communication with the control object is carried out via the Ethernet interface, which is provided by the Ethernet 14 transceiver module. Phantom power of the NMC is also provided through the Ethernet interface circuits, followed by the separation of the supply voltage and signals using filters (not shown in the figure). The reception of signals from satellite communication systems is carried out by the GLONASS / GPS 15 satellite navigation receiver module 15. The ability to work in wireless Wi-Fi networks is provided by the Wi-Fi 16 transceiver module. The PSU is equipped with slot antennas integrated into the metal case for the GLONASS / GPS 15 satellite navigation receiver module and for Wi-Fi transceiver module 16.

Expansion of the storage capacity is carried out through the microSD card interface 18, designed to use memory cards of the microSD type. Audio codec 17, audio signal switch 19, piezodynamic 20 are designed to provide the operator of the PSU with voice service communication. The piezo speaker 20 is also used as a microphone. Audio codec 17 converts audio signals from analog to digital and vice versa. To provide voice communication, a handset (MTT) can also be connected to the NMC.

The use of the real-time clock module 21 allows for lower power consumption and higher data accuracy. Control and exchange of information with FPGA 1 occurs via the bus for communication I ² C, and power is supplied by the battery 12. Power allocation circuit 22 allows the use of the same cable conductors to connect the NMC to the controlled object to exchange information and supply power to the NMC.

Thus, the proposed technical solution allows you to expand the functionality of the communication and control panel, while reducing the dependence of the panel on external equipment, due to the introduction of built-in elements for voice communication and additional communication modules, the implementation of navigation equipment inside the case, a touch display for input control commands, thereby also solving the problem of reducing the weight and size characteristics of the communication and control panel.

Claims (2)

CLAIM An office radio control panel containing a processor, random access memory, read-only memory, display and satellite navigation module - 2 037680 GLONASS / GPS receiver, characterized in that it additionally includes a built-in Ethernet transceiver module, a Wi-Fi transceiver module, an interface for microSD cards, an audio codec, an audio signal switch and a piezo speaker, a real time clock and a USB transceiver module, while the module satellite navigation receiver GLONASS / GPS is made inside the case of the control panel for service radio communication, the display is made of a sensor type, and the processor is part of a programmable logic integrated circuit connected to the inputs of the touch display, the inputs-outputs of the GLONASS / GPS satellite navigation receiver module, the inputs and outputs of the Ethernet transceiver module, Wi-Fi transceiver module I / O, real time clock I / O, USB transceiver module I / O, auxiliary microcontroller I / O, RAM I / O, read-only memory I / O, two of the reference frequency generators, the inputs-outputs of the interface for microSD cards and the inputs-outputs of the audio codec connected to the piezodynamic speaker through the audio signal switch, while the input-output of the Ethernet transceiver module is serially connected through the power supply circuit, the first switching voltage regulator and the battery with the real clock time, the output of the battery is connected to the input of the second pulse voltage stabilizer, the output of which is connected to the input of the third voltage stabilizer, the output of the auxiliary microcontroller is connected to the light sensor, and the output is connected to the third pulse voltage stabilizer, the battery and the first pulse voltage stabilizer.