RU159126U1 - DIAGNOSTIC DEVICE FOR ACCESS CONTROL SYSTEM AND SECURITY ALARMS - Google Patents

Abstract

1. A diagnostic device for the equipment of the access control system and burglar alarm, equipped with sound and light alarms, comprising a case with an information board on its outer front side, a processor device located in the case, and a device for interfacing the processor device with the equipment under test, characterized in that the processor device is made in the form of a small control and indication board using work algorithms, interfaces and protocols adopted in the Zirconium system, including microcontroller with software connected to a voltage converter, on the outer front side of the case, under the information board there is a keyboard connected to the control and display board, consisting of command keys and information input keys, while the information board is made in the form of a graphic display, and the devices for interfacing the processor device with the equipment under test are made in the form of three connectors connected to the microcontroller, two of which are located on the end They are made in the form of a plug and the other in the form of a telephone socket, the latter being connected to the microcontroller via a voltage converter, and the third connector, made in the form of a USB connector, is located on the left side of the case. 2. The diagnostic device for the access control system and burglar alarm system according to claim 1, characterized in that the light emitter is located on the end cover of the housing and is connected to the microcontroller of the control and indication board. 3. System Hardware Diagnostic Device�

Description

The proposed utility model relates to control and diagnostic devices for processing and displaying information and is intended to monitor the operability of equipment (matching units, code dialing devices, signal concentrators from sensors and intruder detection tools, peripheral terminals, throughput terminal, etc.) access control systems and security alarm system (SUDOS) "Zirconium". In addition, a portable device diagnostics device (hereinafter referred to as the device) can be used to automate the tuning operations during production, commissioning and maintenance, and diagnose the equipment of the ZIRKONY SUUDOS during its operation.

The prior art control and diagnostic devices, including specialized ones. For example, “A device for testing alarm equipment” (certificate for a utility model of the Russian Federation, No. 7761, IPC G08B 29/00, 09.16.1998), containing test signal generation blocks, simulator blocks, test units, device indicators containing sound and light indicators .

The device is intended for operational testing of the operability of systems of technical means of protection and supervision. The device has a number of significant disadvantages:

1. The inability to display graphical information during the testing process.

2. The need for an adapter block and many specialized cables and devices for switching.

3. The block structure of the device suggests its cumbersome performance.

4. The specifics of the hardware-software implementation of the RS485 Zirconium interface does not allow the device to be used to control the blocks of the Zirconium system.

As the closest analogue, the ML 410-50 device manufactured by NPO Mikrolog, Ukraine (ML 410-50 / 410-110 Diagnostic Control Devices for Electronic Components of Passenger Carriages, http: /microlog.km.ua) was selected for automatic performance monitoring semiconductor blocks of passenger cars with 50 V power supply, checking their serviceability and correct functioning, searching for failed elements, as well as for adjusting the blocks. The ML410-50 device, equipped with sound and light alarms, contains a case with an informational 80-character display on its outer front side, a processor device located in the case, and a device for interfacing the processor device with the equipment under test. The delivery set also includes cables for connecting to the interface device of the blocks under test. The information board is used to display the parameters of the input test signals, the output measured electrical parameters and text messages: adjustment instructions, information about the unit being checked, modes and stages of verification, its results.

The ML410-50 device implements the modes of “automatic verification”, “phased verification” and “adjustment”.

Signs of an analogue that match the features of the proposed utility model:

1. The presence on the front panel of an alphanumeric display for displaying text information.

2. The device provides for monitoring and diagnostics of checked electronic units.

The main differences of the proposed device from the closest analogue is:

1. Reduced weight and overall dimensions, allowing you to work with the device in the field.

2. The lack of a large cable set for connecting to the equipment under test - the device uses one cable (adapter cable), connected to one of the two connectors.

3. The ability to display graphical information (oscillograms) on a graphic display.

4. Advanced output of alphanumeric information.

5. Implementation of the RS485 interface using work algorithms, interfaces and protocols adopted in the Zirconium system, which allows using the device to control the blocks of the Zirconium system.

Since the production of blocks of the Zirconium complex is not a mass automated production, it is therefore advisable

organize control of units using their standard connectors and interfaces.

The objective of the utility model is to create a universal mobile diagnostic device for the equipment of the Zirconium security and access control system and security alarm system, which, through the use of unified interfaces and Zirconia protocols and appropriate software, can perform a wide range of tasks for setting up, monitoring and diagnosing peripheral units of the system.

The technical result achieved in the implementation of the proposed utility model is the creation of a portable portable small-sized device diagnostic equipment for access control and alarm systems based on the RS 485 Zirconium interface, increasing the information content of information displayed on the information board and standardizing auxiliary cables for connecting to controlled equipment.

The technical result is achieved by the fact that in the apparatus diagnostic device of the access control system and burglar alarm, equipped with sound and light alarms, comprising a case with an information board on its outer front side, a processor device and devices for interfacing the processor device with the equipment under test, the processor device made in the form of a small control and display board using work algorithms, interfaces and protocols adopted in systems “Zirconium” and including a microcontroller with software connected to a voltage converter, on the external front side of the case, under the information board there is a keyboard connected to the control and display board, consisting of control command keys and information input keys, while the information board is made in in the form of a graphic display, and the device for interfacing the processor device with the equipment under test is made in the form of three connectors connected to the microcontroller, two of which are laid on the end of the case and made one in the form of a plug and the other in the form of a telephone jack, the latter being connected to the microcontroller via a voltage converter, and the third connector made in the form of a USB connector is located on the left side of the case, in addition, a light emitter, located on the front cover of the housing and is connected to the microcontroller of the control and indication board, and the emitter of the sound signal is connected to the microcontroller of the control and indication board.

The utility model allows you to:

1. To ensure the display on the indicator (graphic display) of the device of textual and graphic information, including the status of the checked blocks and beams of the RS485 Zirconium interface, the status of the control sensors of the security system.

2. Limit to a minimum the set of auxiliary cables for connecting to controlled equipment through the use of connectors unified for the blocks of the Zirconium system under test.

3. To carry out use in the field, taking into account the reduction of the overall dimensions of the device.

The technical essence and principle of operation of the proposed device are illustrated by drawings, which depict:

In FIG. 1 shows the appearance of the device, where: 1 - base; 2 - cover; 3 - LEDs; 4 - fork; 5 - telephone socket; 6 - graphic display; 7 - keyboard; 8 - USB connector.

FIG. 2 - Block diagram of the proposed device, where: 1 - microcontroller; 2 - voltage converter; 3 - control and indication board; 4 - 1st connector (plug); 5 - 2nd connector (telephone jack); 6 - graphic display; 7 - keyboard; 8 - USB connector; 9 - cable (adapter harness); 10 - emitter of a sound signal.

The listed structural elements are as follows:

The device comprises a shockproof plastic housing consisting of a base 1 and a removable cover 2 (Fig. 1). Inside the case, a control and indication board 3 is installed (Fig. 2). At the same time, the control and indication board 3 contains inputs 4 and 5 intended for connecting controlled units and / or a beam of the RS-485 Zirconium interface. On the front side of the case there is a graphic display 6 with a resolution of 128x64, which allows displaying more than 160 characters and oscillograms of information exchange using the RS485 interface, and a keyboard 7. Graphic display 6 has a backlight, and the use of a modern element base allows the necessary adjustment of display parameters ( contrast, brightness, clarity, etc.), providing the best view. Keyboard 7 (Fig. 1) consists of command control keys, message input keys and is connected to the control board 3 (Fig. 2) for control and indication. The microcontroller 1 (Fig. 2) of the control and indication board 3 provides information output to the graphic display 6, data input / output via the RS-485 interface, control of all elements included in the device, reading and output to the graphic display 6 of the information exchange oscillograms by RS-485. It is possible to connect via a USB 8 connector to a personal computer (Fig. 1-2). In the end part of the cover 2 there are two LEDs 3 for use as a backlight (Fig. 1), switching elements for connecting the device under test with cable 9 (adapter cable), plug 4 and telephone jack 5 (Fig. 1-2). The device also contains an emitter 10 of a sound signal connected to the microcontroller 1 of the control and indication board 3 and designed to confirm the sound of pressing the keyboard keys 7. The device is powered from the secondary power supply of the units of the diagnosed equipment (20-30 V) through the voltage converter 2 in the composition control and indication boards 3 (FIG. 2). To minimize the set of auxiliary cables for connecting to the controlled equipment, the device has two connectors: plug 4 and a telephone jack 5 (Fig. 1-2) and cable 9 (adapter harness) with a telephone jack and plug, the connection to which is carried out depending on the type being checked unit, the connectors used are unified for units of the tested Zirconium system, which allows to reduce the set of auxiliary cables to a minimum.

The proposed device operates as follows:

Before connecting the device, the power of the tested equipment is turned off, then the device is connected to the tested equipment using cable 9 (adapter cable), connected either to the plug 4 or to the telephone jack 5 and the power to the tested equipment is turned on.

The device operates in interactive mode by typing commands on the keyboard 7 and displaying the results of the commands on the graphic 6. When launched to execute a command from the keyboard, the device generates a test sequence of calls to the equipment under test via the RS-485 interface, analyzes its response and, depending on the specific command, displays the test results either in alphanumeric form or in the form of oscillograms of information exchange on the RS-485 interface. The mode and tactics of the device’s operation are determined by the software stored in the permanent memory of the microcontroller located on the control and display board, using work algorithms, interfaces and protocols adopted in the Zirconium system.

Turning LEDs 3 on and off to highlight the equipment under test is done by pressing the “0” button on the keyboard 7 (Fig. 1).

After turning on the power, the microcontroller program is launched, which interrogates the tested unit of the equipment under test via the RS-485 interface and displays information on the address, type and software version of the equipment under test, the state of the device tamper and menu for further work with the device on the graphic display 6. The operation of the program is controlled by means of a hierarchical menu displayed on the graphic display 6 and allowing you to set various operating modes of the device, for example, the mode of changing the address on the RS-485 interface, checking the operability of output relays and optocouplers, checking the operation of the analog-to-digital converter, outputting the exchange waveform on the interface, etc. The provided operating modes of the device are sufficient to determine the operability of the device under test, and, if necessary, to diagnose failures of its individual parts.

Due to the small dimensions of the device, all these operations can be performed both in stationary conditions and directly at the facilities in the field, in outdoor control cabinets.

At the end of the test, it is necessary to turn off the power of the device under test, then disconnect the cable 9 (adapter harness).

The proposed device is intended to monitor the operability of the ZIRKONIY SUUDOS equipment, provides a wide range of tasks for setting up, monitoring and diagnosing peripheral units of the system by creating a portable portable small-sized device diagnostics for access control and alarm systems based on the RS 485 Zirconium interface, increases information content of the information displayed on the information board and unifies auxiliary cables for connecting to controlled equipment.

The creation of a portable portable small-sized device diagnostic equipment for access control and alarm systems based on the RS 485 Zirconium interface is achieved due to the fact that the processor device is designed as a small-sized card using work algorithms, interfaces, and protocols adopted in the Zirconium system and the fact that the device does not have a power supply, since the device is powered from the secondary power supply of the units of the diagnosed equipment through a converter yazheniya furthermore provided in the apparatus the light signal emitter is disposed on the end cap body and a sound signal transmitter connected to the microcontroller.

The information content of the information displayed on the information board is increased due to the fact that on the external front side of the case, under the information board, a keyboard is installed consisting of command control keys and information input keys, while the information board is made in the form of a graphic display.

The unification of auxiliary cables for connecting to the controlled equipment is carried out by the fact that the interface device of the processor device with the tested equipment is made in the form of three connectors connected to the microcontroller, two of which are located on the end of the case and made one in the form of a plug and the other in the form of a telephone socket, moreover the latter is connected to the microcontroller through a voltage converter, and the third connector, made in the form of a USB connector, is located on the left side of the case.

Literature:

1. Certificate for a utility model of the Russian Federation No. 7761 dated 09.16.1998, a device for testing alarm equipment.

2. http: /microlog.km.ua (ML 410-50 / 410-110 Diagnostic devices for electronic control of passenger cars) - prototype

Claims (3)

1. A diagnostic device for the equipment of the access control system and burglar alarm, equipped with sound and light alarms, comprising a case with an information board on its outer front side, a processor device located in the case, and a device for interfacing the processor device with the equipment under test, characterized in that the processor device is made in the form of a small control and indication board using work algorithms, interfaces and protocols adopted in the Zirconium system, including microcontroller with software connected to a voltage converter, on the outer front side of the case, under the information board there is a keyboard connected to the control and display board, consisting of command keys and information input keys, while the information board is made in the form of a graphic display, and the devices for interfacing the processor device with the equipment under test are made in the form of three connectors connected to the microcontroller, two of which are located on the end They are made in the form of a plug and the other in the form of a telephone jack, the latter being connected to the microcontroller via a voltage converter, and the third connector, made in the form of a USB connector, is located on the left side of the case. 2. The diagnostic device for the equipment of the access control system and burglar alarm system according to claim 1, characterized in that the light emitter is located on the end cover of the housing and is connected to the microcontroller of the control and indication board. 3. The device diagnostic equipment access control system and burglar alarms in p. 1 and 2, characterized in that the emitter of the audio signal is connected to the microcontroller of the control and indication board.

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