RU194227U1 - REPEATER OF INTERFACES FOR INSTRUMENT AND CONTROL INSTRUMENT AND MANAGEMENT OF FIRE ADDRESS AND ANALOGUE - Google Patents

Abstract

The utility model relates to the field of burglar alarm and is intended to amplify and further relay the signal received from alarm equipment connected via the CAN (Controller Area Network) interface. The technical problem that can be solved by implementing the utility model is to increase the security of data transmitted through CAN interface. A technical problem is solved by the fact that the repeater of the interfaces for the fire alarm control and control device contains the address-analog isolated nickel power supply, microprocessor, display circuit, switch, CAN interface (1), CAN interface (2), input power supply, while the four inputs of the galvanically isolated power supply are connected to a three-phase electrical network, the second microprocessor output is connected to the circuit indication, the second input of the microprocessor is connected to the first input of the CAN interface, the first output of the microprocessor is connected to the second input of the CAN interface (2), an additional power controller and encoder are introduced.

Description

The utility model relates to the field of burglar alarm and is intended to amplify and further relay the signal received from the alarm equipment connected via the CAN (Controller Area Network) interface.

The prior art various interface repeaters included in the alarm system [http://www.industrialnets.ru/can-hub-repeater]; [https://icp-das.ru/catalog/i-2534]; [http://www.industrialnets.ru/anybus-com-can-cc-link-slave]. Typically, such devices consist of a microprocessor, CAN input and output interface, display circuit, input power supply, power controller, galvanically isolated power supply.

A known electronic device for protecting a vehicle from theft (patent for utility model RU 108337 U1), including a microcontroller, a data processing unit from the CAN bus, an electromechanical relay, an accelerometer.

Closest to the claimed device and selected as a prototype is an interface repeater I-5534-M (Industrial 4-port CAN bus switch, metal case) containing a galvanically isolated power supply, transformer, microprocessor, display circuit, switch, RS interface -232, CAN interface, input power supply, while the four inputs of the galvanically isolated power source are connected to the four inputs of the transformer and connected to a three-phase electrical network, the output of the power source is galvanic decoupling is connected to the first input of the microprocessor, the first output of which is connected to the display circuit, the second input of the microprocessor is connected to the first input of the RS-485 interface, the first input of the CAN interface, the output of the input power source, the third input of the microprocessor is connected to the first output of the switch, the second output of which connected to the second input of the RS-485 interface, and the third output connected to the second input of the CAN interface.

The disadvantage of the prototype is the low security of the transmitted information due to the lack of a mechanism for protecting data transmitted via the CAN interface.

The technical problem that can be solved by implementing the utility model is to increase the security of data transmitted via the CAN interface.

The technical problem is solved by the fact that in a single-channel interface repeater for the fire alarm and analog control device, it contains a galvanically isolated power supply, a microprocessor, an indication circuit, a switch, a CAN interface (1), a CAN interface (2), an input source power supply, while the four inputs of the galvanically isolated power supply are connected to a three-phase electrical network, the second output of the microprocessor is connected to an indication circuit, the second input of the microprocessor is connected to the first input and CAN interface (1), the first output of the microprocessor is connected to the second input of the CAN interface (2), an additional power controller and encoder are introduced. In this case, the output of the galvanically isolated power source is connected to the first input of the power controller. The output of the input power source is connected to the second input of the power controller, the output of which is connected to the second input of the CAN interface (1), the first input of the microprocessor, the first input of the encoder, the first input of the CAN interface (2). The first output of the microprocessor is connected to the second input of the encoder, the output of which is connected to the second input of the CAN interface (2). The first and second output of the CAN interface (1), CAN (2) are the outputs of a single-channel data converter for connection to the CAN bus.

The utility model is illustrated by a figure, which shows a block diagram of the proposed device, which includes a CAN interface (1) 1, a microprocessor 2, an indication circuit 3, an input power supply 4, a power controller 5, a galvanically isolated power supply 6, an encoder 7, CAN interface (2) 8.

Four inputs of the power supply with galvanic isolation 6 are connected to a three-phase electrical network, the second output of microprocessor 2 is connected to the display circuit 3, the second input of microprocessor 2 is connected to the first input of CAN interface (1) 1, the output of the power supply with galvanic isolation 6 is connected to the first input of the power controller 5, the output of the input power source 4 is connected to the second input of the power controller 5, the output of which is connected to the second input of the CAN interface (1) 1, the first input of microprocessor 2, the first input is cipher ator 7, the first input of Ethernet 8, the first output of microprocessor 2 is connected to the second input of the encoder 7, the output of which is connected to the second input of the CAN interface (2) 8, the first and second output of the CAN (1) 1, CAN (2) 2 interface are the outputs of a single-channel data converter for connection to the CAN bus.

At the initial stage, a single-channel data converter is identified in the alarm system of buildings and structures, for which it is installed in one of the rooms, we connect a galvanically isolated power supply 6 to a three-phase electrical network, to power the device from an external network, and connect to a security system signaling via CAN interface (2) 8.

After the identification process, we connect the sensor we need (movement, leakage, temperature, humidity, glass breaking, etc.), for example, a room open / close sensor to the CAN interface (1) 1, an indication circuit 3 is triggered, displaying the current state of the sensor ( on, off, no signal).

The object is included in the alarm system of buildings and structures, for example, the sensor for opening / closing the premises is activated, the signal from the sensor is fed to the input of the CAN interface (1) 1, the signal is converted into a microprocessor 2 that is convenient for operation. After conversion, the signal from the first input of the interface CAN (1) 1 is fed to the second input of microprocessor 2. Microprocessor 2 analyzes the received signal and, in accordance with a given program, generates a signal about the state of the system, then the generated signal is received from microprocessor 2 output to the second input of the encoder 7. The encoder, using a certain algorithm, encrypts the input signal. After the encryption process, the received signal from the second output of the encoder 7 is fed to the second input of the CAN interface (2) 8, the received signal is converted into a message format suitable for transmission via the CAN bus.

In the event of loss of external power, the power controller 5 is activated, which automatically switches the system to the input power source 4, and an indication circuit 3 indicating the absence of external power comes into operation.

A microprocessor is a known device designed to control the operation of all other blocks and perform arithmetic and logical operations on information. As a microprocessor, mcu stm32f207 [https://www.st.com/en/microcontrollers-microprocessors/stm32f2-series.html?querycriteria=productId=SS1575] can be used.

The encoder is a known device that converts a positional code into n-bit binary code. Encryption schemes are known, for example, from [http://ivatv.narod.ru/zifrovaja_texnika/1_05.htm].

A power controller is a known device intended for a microcircuit responsible for charging a device. Power controller circuits are known, for example, from [http://www.qrx.narod.ru/tel/adp3408.htm].

A new set of essential features allows us to achieve a technical result, which consists in increasing the security of data transmitted via the CAN interface through the use of an encoder.

The analysis of the prior art made it possible to establish that there are no analogues that are characterized by a set of features identical to all the features of the claimed single-channel data converter for the control panel of the address-analog fire alarm. Therefore, the claimed utility model meets the condition of patentability “novelty”.

Claims (1)

An interface repeater for the address-analog fire alarm control and control device, containing a galvanically isolated power supply, a microprocessor, an indication circuit, a switch, a CAN interface (1), a CAN interface (2), an input power source, and four power supply inputs with galvanic isolation are connected to a three-phase electrical network, the second output of the microprocessor is connected to the display circuit, the second input of the microprocessor is connected to the first input of the CAN interface (1), the first output of the microprocessor is connected to the second input of the CAN interface (2), characterized in that the power controller and encoder are additionally introduced, while the output of the power source with galvanic isolation is connected to the first input of the power controller, the output of the input power source is connected to the second input of the power controller, the output of which is connected to the second the input of the CAN interface (1), the first input of the microprocessor, the first input of the encoder, the first input of the CAN interface (2), the first output of the microprocessor is connected to the second input of the encoder, the output of which is connected to the second input CAN interface (2), the first and second output of the CAN interface (1), CAN (2) are the outputs of a single-channel data converter for connection to the CAN bus.

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