User manual

A6 devices for a given use case can be programmed in one of four ways to choose from:
- using a PC using the IS-232 module, or the PROG-1 module and
specialized software "Programmer Ah";
- using the PR-1 programming console and the tables corresponding to it
programming;
- using the VPU-A-06 keyboard using the IS-485 module and the corresponding
programming tables;
- using the VPU-A-16 keyboard using the IS-485, KSO-A module and
corresponding programming tables.
To implement the programming of devices, it is necessary to edit a number of groups of parameters allocated to certain program pages. After editing, the changed configuration is written to the instrument's non-volatile memory by writing.

The A6 instrument contains the following program pages:

- "GENERAL" ("PARAMETERS"): set general properties instrument A6, selection is made
automated security system and type of radio channel;
- "LOOPS": the parameters of each of the alarm loops are determined;
- "ZONES": properties of arming/disarming zones and correspondence of loops to zones are set;
- "ACCESS": properties of access control systems are defined;
- "ACTIVATORS": parameters of operation of external devices (buzzer, SZU, relay) are selected;
- "KEYS": user keys ("Master", "GZ", "INSTALLER" and "MASTER") are entered.
Programming the parameters of the A6 device using a PC is one of the most convenient and intuitive ways. This programming option makes it possible to create an archive and store the program settings of each device as files on a PC, which allows you to restore the full configuration of the device at any time on any of the objects. Also, in addition to programming devices, specialized software makes it possible to monitor devices connected to the network and view all events occurring in them.
The PR-1 programming console and the VPU-A-06 keyboard are recommended for use when
programming the device or promptly making changes to its program settings directly on the site.
In the case of programming using PR-1, the parameter values ​​are entered in a hexadecimal code into the corresponding memory cells of the remote control, according to the programming table, with the subsequent transfer of the entire program from the PR-1 remote control to the non-volatile memory of the device. Also, the convenience of using the PR-1 programming console lies in the possibility of storing in the PR-1 non-volatile memory the electronic keys of the services: "GZ" and "INSTALLER" (keys of the contact method of reading DS1990A, DS1991-DS1996). And, if necessary, prompt transfer of key data codes to
device memory A6.
When programming with VPU-A-06, the program settings of the panel are first read into the keyboard memory and after editing, in accordance with the programming tables, they are entered into the non-volatile memory of the A6 device by recording.
When combining devices "A6" in the ISB "Network A" based on KSO-A, programming the configuration of devices is possible using the VPU-A-16 keyboard. When using this programming method, the program settings of the panel are read into the KSO-A memory using VPU-A-16, and after programming the device configuration for a given use case, they are entered into the device’s non-volatile memory by writing.

2 DESCRIPTION OF PROGRAMMING DEVICES "A6" ON PC
2.1 Description of software versions "Programmer Ax"
Ax (4.5.2.ХХХ*) Light.exe is a freeware program. Allows for
programming of device configurations "A6" and "A16-512".
Ax (4.5.2.ХХХ*) Full.exe is a commercial version of the program. Allows you to:
- programming of configurations of devices "A6", "A16-512" and KSO-A (controller KSO-
BUT);
- monitoring of up to 32 devices of the A6 series in the network connected to one PC COM port with
display on the monitor screen of service and alarm messages coming from devices with
description of loops, zones, ACS and keys;
- monitoring of up to 32 KSO-A in the network connected to one PC COM port. To controller
KSO-A can be connected up to 32 devices.
*NOTE: XXX software version.

Manufactured by LLC NPK "MIKROFOR" (Russia)

Thermohygrometers IVA-6A and IVA-6N are self-contained portable devices and are designed to measure relative humidity, temperature and atmospheric pressure (optional) of air in residential, warehouse and industrial premises, as well as in the free atmosphere.
Thermohygrometers IVA-6A, IVA-6N consist of an indication unit and a measuring transducer.
In the IVA-6A thermohygrometer, the measuring transducer is connected to the display unit with a flexible cable about 1 meter long, which allows you to control the humidity and air temperature in hard-to-reach places, for example, in ventilation ducts.
In the IVA-6N thermohygrometer, the measuring transducer is installed on the display unit. Thermohygrometer IVA-6N can be placed on the wall using a bracket.

Thermohygrometers can be used:

• for measuring microclimate parameters in museums, archives, libraries, pharmacies, testing laboratories, clean rooms in the pharmaceutical and electronic industries
• for attestation of workplaces in labor protection centers and TsGSEN
• for air humidity control in the printing industry
• to control the storage of products.

Designations of devices IVA-6 when ordering:

• IVA-6A: with a remote probe on a cable without registration of measured values ​​and a channel for measuring atmospheric pressure.
• IVA-6A-D: with a remote probe on a cable without recording measured values, with a channel for measuring atmospheric pressure.
• IVA-6A-KP: with a remote probe on a cable with the registration of measured values ​​on a memory card (microSD), without a channel for measuring atmospheric pressure.
• IVA-6A-KP-D: with a remote probe on a cable with the registration of measured values ​​on a memory card (microSD) and a channel for measuring atmospheric pressure.
• IVA-6N: with built-in probe without registration of measured values ​​and atmospheric pressure measurement channel.
• IVA-6N-D: with a built-in probe without recording measured values, with a channel for measuring atmospheric pressure.
• IVA-6N-KP: with built-in probe with registration of measured values ​​on a memory card (microSD), without a channel for measuring atmospheric pressure.
• IVA-6N-KP-D: with a built-in probe with the registration of measured values ​​on a memory card (microSD) and a channel for measuring atmospheric pressure.

Additional accessories for thermohygrometers IVA-6A and IVA-6N:

Bag for storage and transportation of thermohygrometers IVA-6A(N)
Bracket for mounting IVA-6A(N) on the wall
Cable KU-1 for using the built-in probe IVA-6N as a remote probe
Mini USB-A cable for reading the data accumulated on the memory card via the USB port and configuration of the thermohygrometer
Protective cap ZKF-1 made of porous fluoroplastic to protect sensors from dust and aerosols

The metrological characteristics of the IVA-6A and IVA-6N thermohygrometers are almost the same, except for the temperature measurement range: from -20 to 50°C for the IVA-6N thermohygrometer and from -20 to 60°C for the IVA-6A thermohygrometer, which is caused by permissible operating conditions display block.
When connecting the KU-1 extension cable, all metrological characteristics of the IVA-6N and IVA-6A thermohygrometers become exactly the same.

The liquid-crystal display of thermohygrometers IVA-6A and IVA-6N continuously indicates the current measured values ​​of temperature and relative air humidity. The update period is 60 seconds. When you press any button, the thermohygrometer switches to the "fast" measurement mode and the period for updating the readings on the indicator is 1 s. After 30 s, the display update period returns to 60 seconds.
The time of continuous operation when using alkaline cells with a capacity of 2 Ah and turning on the “fast” measurement mode for no more than 1 hour per day is at least 1 year.
The thermohygrometer calculates the dew point (frost) temperature from the measured temperature and relative humidity values.
At negative temperatures, the device can display the value of relative humidity over water or over ice.

Thermohygrometers IVA-6A, IVA-6N are produced in 2 modifications:

• without atmospheric pressure measurement channel (IVA-6A, IVA-6N, IVA-6A-KP and IVA-6N-KP)
• with a channel for measuring atmospheric pressure (IVA-6A-D, IVA-6N-D, IVA-6A-KP-D and IVA-6N-KP-D)

Atmospheric pressure units are "hPa" (hecta Pascals, 1 hPa = 100 Pa = 0.1 kPa) or "mmHg. Art. " (millimeters of mercury column) are selected by the user when configuring the thermohygrometer via the USB port.

Thermohygrometers IVA-6A, IVA-6N are available in 2 versions:

• with registration of measured values ​​on a microSD memory card and the ability to read the accumulated data via a USB port (IVA-6A-KP and IVA-6N-KP)
• with the function of measured value registration disabled (IVA-6A and IVA-6N)

In thermohygrometers with disabled registration function (IVA-6A, IVA-6N, IVA-6A-D and IVA-6N-D), the registration function can be activated by the user using a key purchased from the device supplier. Activation instructions and a key are supplied on a memory card or sent by e-mail (in this case, the consumer purchases a memory card on his own).

A slot for installing a memory card and a mini USB connector for connecting to a personal computer are located on the upper end of the thermohygrometer display unit.

To register the measured values ​​of relative humidity and temperature in real calendar time mode, the thermohygrometer uses standard removable memory cards microSD. A memory card for instruments with activated data logging is included with the instrument. The program is delivered on the same card datalogger.

The number of records of measured humidity and temperature values ​​is 100,000 per 1 MB of memory card capacity, which ensures continuous data recording for the entire life of the battery pack.

Reading the accumulated data from the thermohygrometer is carried out in two ways:

• from a memory card via a card reader
• via the USB port of the thermohygrometer

Software datalogger provides reading information from a memory card, forms a data archive for each thermohygrometer, creates text and graphic reports.
A memory card can be installed in any thermohygrometer, since at the time of installation a file containing information about the device number is created on it.
The data written to the card is encrypted to prevent the possibility of falsification.

Thermohygrometers IVA-6A and IVA-6N remember the minimum and maximum values ​​of humidity and temperature, the time and date of these events.

For use in low light conditions, the user can turn on the indicator light by pressing the "✱" button. The backlight is turned off by pressing the “✱” button again or automatically after 20 s. The backlight brightness is adjusted when configuring the thermohygrometer via the USB port using the DataLogger software.

Thermohygrometers have sound and visual indication of measured values ​​of relative humidity and temperature exceeding the limits set (using the DataLogger program).

When operating the thermohygrometer in highly polluted conditions, it is recommended to use a protective cap made of porous PTFE to protect the sensors from aerosols, dust and condensate.
The use of a protective cap prevents deterioration of metrological characteristics when the surface of the humidity sensor is contaminated.

Specifications

Relative humidity measurement range, %RH	0…98
Permission	0,1
Limits of permissible basic absolute error of measurements of relative humidity at a temperature of 23°С, %RH	±2% (in the range 0…90%); ±3% (in the range 90…98%)2
Temperature measurement range, °С	-20…601
Permission	0,1
Limits of permissible absolute error of temperature measurements, °С	±0.3
Atmospheric pressure measurement range, hPa	700…11003
Permission	0,1
Limits of permissible absolute error of atmospheric pressure measurements, hPa	±2.5
Time constant:	by relative humidity, min, no more than 2, by temperature, min, no more than 5
Overall dimensions, (L x W x H), mm:	display unit (IVA-6N) 25 x 70 x 135 (25 x 70 x 175); measuring transducer Ø 16 x 165
Weight, kg, no more	0,4
Nutrition	3V (2 AA batteries)

1 when using the KU-1 extension cable. Without an extension cable, the measurement range is limited by the permissible operating conditions of the display unit (-20...50°C).
2 metrological characteristics at a relative humidity above 90% are provided only for a short-term (no more than 2 hours) stay of the transducer under these conditions.
3 only for thermohygrometers in the corresponding modifications.

No. 46434-11 in State Register RF measuring instruments

"Minsk 2011 CONTENTS LIST OF ACCEPTED TERMS AND..."

Control panel device

security and fire "A6"

Manual. Part II

RUIV 170100.000 RE

Device programming

Edition 7.03

Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011

1. GENERAL PROVISIONS

2 Description of the configuration parameters of the device "A6"

2.7 User keys

2.7.1 Master keys

2.7.2 Keys "GZ"

2.7.3 "Fitter" keys

2.7.4 Master Key

3 DESCRIPTION OF PROGRAMMING USING THE VPU-A-06 KEYBOARD .............. 18

3.1 General requirements

3.2 Description of the remote control panel VPU-A-06

3.2.1 Purpose of the VPU-A-06 remote control panel

3.3 Connecting VPU-A-06 to the device and preparing for programming

3.4 Programming the configuration of the device "A6" using VPU-A-06

3.4.1 LCD keypad menu VPU-A-06

3.4.2 Registration of instrument ID numbers in VPU-A-06 memory

3.4.3 Device configuration programming mode "A6" using LCD keypad VPU-A-06

PROGRAMMING PR-1

4.1 Programming console PR-1

4.2 Purpose of the keys of the PR-1 panel

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011

LIST OF ACCEPTED TERMS AND ABBREVIATIONS

ASOS "Alesya" - automated security alarm system "Alesya".

ASPT - automatic system firefighting.

ATL - subscriber telephone line.

GTS - city telephone network.

Standby mode - the operating mode of the device after removing all received signals, in which the device as a whole and its additional devices are able to receive and transmit notifications "Alarm", "Fire", "Attention" and "Fault".

IO – security detector.

IP - fire detector.

IPD - fire smoke detector.

IPR - manual fire detector.

IPT - thermal fire detector.

ISB is an integrated security system.

ISB "Network A" - an integrated system security and fire alarm and access control "Network A".

Key "GZ" - a user key used to warn the operators of the monitoring station about the actions performed at the security object by the maintenance personnel (detention group), as well as allowing the removal of the "Alarm" and / or "Fire" state with the possibility of resetting the loops (zones) to the state "Protection" (subject to their normalization).

User key - a key confirming the user's right to perform certain actions with the device, as a user key when working with the device "A6" it is possible to use: keys of the contact method of reading DS1990A, DS1991-DS1996; Proximity contactless cards; digital PIN.

Key "Fitter" - a user key used to warn the operators of the monitoring station about the actions performed at the security object by the maintenance personnel (electrician).

Key "Master" - a user key that gives the right to carry out operations of arming, disarming zones. Also, the "Master" key allows you to remove the "Alarm" state.

round-the-clock loops and / or the "Fire" state of fire loops with the possibility of resetting the loops to the "Security" state, provided that these loops are assigned to the protection zone for this key and the detectors in the loop are normalized.

"MASTER"-code is a user key that gives the right to perform operations to change the device configuration (device programming).

Object communication line - a communication line used to connect devices into an integrated system.

User - a person who has the right to perform certain actions limited by the access level ("MASTER", "Owner", "GZ", "Fitter").

PPKOP - a device for receiving and controlling security and fire.

Software - software.

CMS - centralized monitoring console.

PC - personal electronic computer (personal computer).

RSPI - radio channel system for transmitting notifications.

SZU - light and sound device.

ACS - access control system.

SPI - notification system.

STsN - centralized monitoring system.

Tamper is a tamper sensor.

TCO is a technical means of warning.

UD - access device.

AL - alarm loop.

PIN-code - a personal identification number (digital code) can serve as a user key when performing operations with the device (on condition that the PIN-code is programmed in the memory of this device).

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 ATTENTION! Before starting work with the device, determine its modification by the label and passport.

This operating manual, part II, is intended to study the methodology for programming the A6 security and fire control device according to TU RB 101162917.006-2000 (A6 device) using the remote control panel VPU-A-06 (VPU-A-16) and PR programming console during commissioning at the facility. This document contains information necessary to ensure the fullest use of the technical capabilities of the device and its correct operation.

The installation and maintenance of the device must be allowed by persons with the necessary qualifications and permission to work with electrical installations.

This operating manual applies to the following versions of the "A6" device:

PPKOP A6-02 - control of two alarm loops;

PPKOP A6-04 - control of four alarm loops;

PPKOP A6-06 - control of six alarm loops.

Programming devices "A6" different designs identical except for the sections in which the parameters of loops and zones are programmed. These sections for devices of different versions differ only in the number of programmable loops and zones.

In connection with the constant work to improve the device, which increases reliability and improves performance, minor changes may be made to the design of the device that are not reflected in this edition of the "Operating Manual" and do not worsen the parameters of the device.

1. GENERAL PROVISIONS

Devices "A6" for a given use case can be programmed in one of four ways to choose from:

using a PC using the IS-232 module, or the PROG-1 module and the specialized software "Programmer AXX";

using the PR-1 programming console and the corresponding programming tables;

using the VPU-A-06 LCD keypad using the IS-485 module and the corresponding programming tables;

using the VPU-A-16 LCD keypad using the IS-485, KSO-A module and the corresponding programming tables.

To implement the programming of devices, it is necessary to edit a number of groups of parameters allocated to certain program pages. After editing, the changed configuration is written to the instrument's non-volatile memory by writing.

Device "A6" contains the following program pages:

«GENERAL» («PARAMETERS»).

"LOOPS": the parameters of each of the alarm loops are determined;

"ZONES": properties of arming/disarming zones and correspondence of loops to zones are set;

"ACCESS": properties of access control systems are defined;

"ACTIVATORS": parameters of operation of external devices (buzzer, SZU, relay) are selected;

"KEYS": user keys ("Master", "GZ", "INSTALLER" and "MASTER") are entered.

Programming device parameters using a PC is one of the most convenient and intuitive ways.

This programming option makes it possible to create an archive and store the program settings of each device as files on a PC, which allows you to restore the full configuration of the device at any time on any of the objects. Also, in addition to programming devices, specialized software makes it possible to monitor devices connected to the network and view all events occurring in them.

The PR-1 programming console and the VPU-A-06 LCD keyboard are recommended for use when programming the device or making changes to its program settings on-site directly at the facility.

In the case of programming using PR-1, the parameter values ​​are entered in a hexadecimal code into the corresponding memory cells of the remote control, according to the programming table, with the subsequent transfer of the entire program from the PR-1 remote control to the non-volatile memory of the device. Also, the convenience of using the PR-1 programming console lies in the possibility of storing in the PR-1 non-volatile memory the electronic keys of the services: "GZ" and "INSTALLER" (keys of the contact method of reading DS1990A, DS1991-DS1996). And, if necessary, prompt transfer of key data codes to the device memory.

When programming with VPU-A-06, the program settings of the panel are first read into the keyboard memory and after editing, in accordance with the programming tables, they are entered into the non-volatile memory of the device by writing.

When combining devices "A6" in the ISB "Network A" based on KSO-A, programming the configuration of devices is possible using the LCD keypad VPU-A-16. When using this programming method, the program settings of the panel are read into the KSO-A memory using VPU-A-16, and after programming the device configuration for a given use case, they are entered into the device’s non-volatile memory by writing.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 2 Description of the configuration parameters of the device "A6"

2.1 Program page "GENERAL"

In the “GENERAL” program page, general settings of the programmable device are specified, an automated alarm system is selected, and a communication channel is determined when using the device as part of notification transmission systems.

2.1.1 Programming the "General instrument settings" parameter:

"Restoring the state of the device after a power failure";

"Prohibition of exclusion of common loops when taking";

2.1.1.1 “Restoring the device state after a power failure” – when this parameter is set, the device saves in the non-volatile memory the current state of the armed zones (“Armed”, “Disarmed” status) at the moment of complete blackout (restart after programming, etc.). ) and restores the state of the armed zones (“Armed”, “Disarmed” status) after the device power is restored.

EXAMPLE: In case of power failure of the control panel, the zones of which were in the "Protection" state, these zones will again switch to the "Protection" state when the power supply of the device is restored.

2.1.1.2 "Prohibition of exclusion of common loops when arming" - when this parameter is set, loops that are common to several zones go into the "Protection" state when any of the zones including these common loops is first armed.

EXAMPLE: 2 security zones are programmed, including common loops 03 and 04:

zone No. 1 includes security loops: 01, 02, 03, 04 and is controlled by the “Master” key No. 1;

zone No. 2 includes security loops: 03, 04, 05 and is controlled by the key "Master" No. 2;

when programming, the mode "Prohibition of exclusion of common loops when picking up" was selected.

Upon presentation of the “Master” user key No. 2, loops 03, 04, 05 will switch to the “Security” state, while loops 01, 02 entering zone No. 1 will remain in the disarmed state.

2.1.2 Programming the parameter "Automated security system"

"ASOS type" - this parameter determines the mode of operation of the device as part of automated notification transmission systems, or in standalone mode.

When programming the parameter "ASOS Type", the following modes are available for selection:

"Autonomous" (ASOS "Alesya" - background);

2.1.2.1 "Autonomous" (ASOS "Alesya"-fon) - this mode is set when using the device in the offline security mode when displaying notifications on the control panel, annunciators and / or other control panels, it is also possible to use the device as part of the ISB "Network A ”and monitoring station of the Neva type.

ISS "Network A" is built on the basis of the processor module KSO-A with the ability to combine up to 32 devices (devices "A6", "A16-512" and up to 4 remote control panels of the VPU-A-16 series) and monitoring on a PC with installed specialized software.

The Neva-type monitoring station is an automated system for transmitting notifications and is designed to provide centralized protection of telephonized objects using existing telephone lines as information channels with their switching to the protection period.

NOTE: In the "Autonomous" operating mode, the device's loops are programmatically divided into independent arming/disarming zones. Each of the "Master" keys is assigned the right to operate with zones. Upon presentation of the "Master" key, the device will automatically set or remove the corresponding zone.

2.1.2.2 "Atlas" - this mode is set when using the device as a part of the monitoring station "Atlas".

The Atlas monitoring station is an automated system for transmitting notifications and is designed to provide centralized protection of telephonized objects using existing telephone lines as information transmission channels. In standby mode, the device sends a continuous signal with a frequency of 18 kHz to the subscriber telephone line (the device is connected to the ATL to the TEL terminals of the ISA-8 matching module through a relay), if the device registers the states "Alarm", "Fire" - a signal is issued to the subscriber line stops (the relay of the device breaks the connection circuit in the ATL).

NOTE: In the "Atlas" operating mode, the telephone line is connected through the relay contacts to the board of the ISA-8 matching module to the TELL terminals. The relay output must be assigned the parameter "Output to Atlas".

2.1.2.3 "Alesya" - this mode is set when using the device as part of the ASOS "Alesya".

Selecting the Alesya mode involves programming a number of parameters:

“Line code” – this parameter is obligatory to be entered when the device is operated as part of a KLT-type directional switch, the value of the “Line code” parameter depends on the crossover of the PBX line, input range: 0…200.

If the line is not coded, the "Line code" must be programmed: 0.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 "Start card address" - this parameter is programmed when two devices are operating on one telephone line as part of Alesya ASOS (1 - the first device on the line ( one device on the line); 2 - the second device on the line). By default, "Address of the initial card": 1.

"Number of cards" - this parameter determines the number of cards for which notifications will be sent to the ASOS Alesya monitoring station. When operating as part of ASOS "Alesya", the device allows you to transfer to the monitoring station the state of a part of the loops used in it.

EXAMPLE: 1 – state transfer of 8 loops; 2 - state transfer of 16 loops, etc., the maximum programmable “Number of cards” is 6, according to the maximum number loops 48).

NOTE: In the "Alesya" operating mode, all control loops of the device are programmatically divided into independent arming/disarming zones. Each of the "Master" keys is assigned the right to operate with zones (arming, disarming). Arming of the zone in the “Arm” state after presenting the “Master” key will be carried out only after receiving confirmation of the arming operation from the monitoring station ASOS “Alesya” (waiting for confirmation of the arming operation, the reader’s LED will pulsate).

2.1.3 Programming the "Communication" parameter

"Communication channel No. 1", "Parameters of communication channel No. 1" - the operating mode of the device as part of notification transmission systems, where the connection of additional transmission devices to the device is carried out to the communication channel No. device version A6-04, A6-06).

When programming the properties of communication channel No. 1, the following modes of operation are available for selecting the "Type of communication channel" parameter:

"Is absent";

"LIGHTHOUSE" ("STARS");

2.1.3.1 “Not available” – this mode is set when the control panel is used in offline armed mode when displaying notifications on the control panel, annunciators and/or another control panel, i.e. communication channel is disabled.

2.1.3.2 "MAYAK" ("STARS") - this mode is set when using the device as part of the RSPI "Mayak" ("STARS"), "RRT Laboratorija" where information is transmitted to the monitoring station using a radio channel. The choice of the "LIGHTHOUSE" ("STARS") mode involves programming the parameter:

"Number of controlled zones";

"Autotest (x 4.25 min)" - not used.

2.1.3.3 "CORTEX" - this mode is set when using the device as part of the RSPI "IRBIS" (CORTEX). Choice of "CORTEX" mode

"Number of controlled zones";

"Autotest (x 4.25 min)";

Device number.

3.1.3.4 "PIMA" - this mode is set when using the device as part of the Andromeda RSPI. Selecting the "PIMA" mode involves programming a number of parameters:

"Number of controlled zones";

"Autotest (x 4.25 min)";

“Instrument number” – restriction on parameter input up to 8191;

"Station number" - restriction on parameter input from 1792 to 2047;

"Number of frames in a package" - restriction on the choice of parameter: 5; 7; ten; fifteen;

"Number of parcels for one notification" - restriction on the choice of parameter: 3; 5; 7; nine;

"Use an extended set of notifications."

2.1.3.5 "Contact ID" - this mode is set when using the device as part of the SPI that supports the standard data transfer protocol Ademco Contact ID. Selecting the "Contact ID" mode

involves programming a number of parameters:

"Number of controlled zones";

"Autotest (x 4.25 min)";

"Device number";

"Phone number 1";

"Phone number 2".

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 2.1.3.6 «4+2» – this mode is set when using the device as part of the SPI supporting the standard 4+2 data transfer protocol.

Selecting the “4+2” mode involves programming a number of parameters:

"Number of controlled zones";

"Autotest (x 4.25 min)";

"Device number";

"Phone number 1";

"Phone number 2".

2.1.3.7 "LARS" - this mode is set when using the device as part of the RSPI "LARS".

Selecting the "LARS" mode involves programming a number of parameters:

"Number of controlled zones";

"Autotest (x 4.25 min)".

2.1.3.8 "IP/GSM" – this mode is set when using the device as a part of the IRS supporting data transfer using GSM/GPRS channels. IP/GSM mode selection

involves programming a number of parameters:

"Number of controlled zones";

"Autotest (x 4.25 min)".

2.1.4 When determining the type of communication channel, a number of parameters specific to the selected communication channel become available for editing.

2.1.4.1 “Number of controlled zones” – this parameter determines the number of zones (starting from the first one) through which information will be transmitted to the monitoring station. Entering this parameter is mandatory for the selected type of communication channel.

2.1.4.2 "Autotest (x 4.25 min)", this parameter defines the interval of the periodic test, with which the device will automatically send a test message to the SPI monitoring station, table. Entering this parameter is carried out if it is necessary to organize control of the device's operability at the facility.

NOTE: The interval of test transmissions is set in dimensionless units at the rate of 1=4.25 min. (4 min. 15 s.), table 1.

Table 1 – Interval of test messages Programmable Time Programmable Time value of autotest value of autotest 1 4min.15s. 8 34 min.

2 8min.30s. 9 38min.15s.

3 12min.45s. 10 42min.30s.

4 17 min. 11 46min.45s.

5 21min.15s. 12 51 min.

6 25min.30sec. 13 55min.15s.

7 29min.45s. etc. if necessary 2.1.4.2 "Device number" - this parameter defines the unique number of the device, when working as part of the SPI. Entering this parameter is mandatory for the selected type of communication channel.

2.1.4.3 "Station number" - this parameter determines the unique number of the monitoring station (monitoring station number) when the programmable device is operating as part of the Andromeda RSPI ("PIMA").

2.1.4.4 "Number of frames in a burst" - this parameter determines the number of frames in one burst when sending a notification to the Andromeda RSPI monitoring station. The entry of this parameter is mandatory for the selected type of work link ("PIMA").

2.1.4.5 "Number of messages for one notification" - this parameter defines the number of messages for sending one notification to the monitoring station. The entry of this parameter is mandatory for the selected type of work link ("PIMA").

2.1.4.6 "Use an extended set of notifications" - this parameter determines the device operation mode (A6, A16-512), provided that the zones are programmed in the device, notifications for the device zones pass through different cards to the Andromeda monitoring station, if you do not specify this mode, in this case, notifications go only on the basic card ("PIMA").

2.1.4.7 "Phone number 1", "Phone number 2" - this parameter defines the number of the first phone and the second phone for dialing, respectively ("Contact ID", "4+2").

2.2 Program page "LOOP"

In the program page "LOOP" the properties of alarm loops of the programmable device are set.

2.2.1 When programming loop parameters, the following "Types of loops" are available for selection:

"Security";

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 "Round the clock";

"Anxious";

"Firefighter for 4 states";

"Fire closed";

"Fire open";

"Fire smoke 2-wire";

"Fire control".

2.2.1.1 "Security" - this type of loop is security and is designed to monitor the status of security detectors.

It is allowed to include security devices with normally-closed contacts and / or normally-open contacts (detector relays, instrument relays, etc.) in a security loop.

ATTENTION! During programming, a security loop (a group of security loops) must be allocated to an independent zone in accordance with the required configuration of the device, the “Master” keys are assigned to the zone, which will be used to perform operations on the security zone (arming and disarming).

Any impact on the loop (break, short circuit, detector triggering) in the "Protection" state

is perceived by the device as "Alarm". Resetting the “Alarm” state of the security loop and resetting it to the “Security” state is carried out by the “GZ” key, provided that the devices in this loop are normalized, or by the “Master” key.

NOTE: If it is necessary to separate two alarm messages "Alarm break" and "Alarm sensor" in the security loop, normally-closed contacts in one case are switched on without a shunt resistor, and in the second case they must be shunted with a load resistor of 1.5 kOhm, the connection diagram is given in "Operating manual. Part I" on the device A6.

The choice of the “Security” loop type implies the possibility of programming a number of parameters:

"Loop reaction time";

"Entry Delay";

"Exit Delay";

"Linking with the previous";

"Linking to the next".

2.2.1.2 "Round-the-clock" - this type of loop is security and is intended for round-the-clock monitoring of the status of devices connected to the loop.

It is allowed to include security devices with normally-closed contacts and/or normally-open contacts (detector tampers, instrument relays, etc.) in the round-the-clock loop.

Arming the 24-hour loop is carried out automatically after the device is powered on; disarming the 24-hour loop is impossible.

Any impact on the round-the-clock loop (break, short circuit, detector activation) is perceived by the device as an “Alarm”. Resetting the "Alarm" state of the round-the-clock loop and resetting it to the "Security" state is carried out by the "GZ" key if the detectors in this loop are normalized, or by the "Master" key, if the loop is assigned to the zone and the detectors in the loop are normalized.

NOTE: If it is necessary to separate two alarms "Alarm open" and "Alarm sensor" in the round-the-clock loop, normally-closed contacts in one case are switched on without a shunt resistor, and in the second case they must be shunted with a load resistor of 1.5 kΩ, the connection diagram is given in "Operating manual. Part I" on the device A6.

The choice of the loop type "Round-the-clock" implies the possibility of programming a number of parameters:

"Loop reaction time";

"Linking with the previous";

"Linking to the next".

2.2.1.3 "Alarming" - this type of loop is alarming and is designed to control the status of alarm detectors.

It is allowed to include alarm detectors with normally-closed contacts and normally-open contacts (alarm buttons, manual call points, etc.) in the "Alarm" loop.

ATTENTION! During programming, the alarm loop must be allocated to a separate independent zone in accordance with the required configuration of the device, the “Master” keys are assigned to the zone, which will be used to perform operations on the alarm zone (arming and disarming).

Any impact on the alarm loop (break, short circuit) is perceived by the device as a "Silent alarm", when using the device as part of the SPI, a notification "Emergency call: Panic button" is generated.

Resetting the “Silent alarm” state of the alarm loop and resetting it to the “Security” state

carried out by the “GZ” key, or by the “Master” key, provided that the detectors in this loop are normalized.

Selecting the alarm loop type implies the possibility of programming a number of parameters:

"Loop reaction time";

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011 "Linking to the previous";

"Linking to the next".

2.2.1.4 "Fire for 4 states" - this type of loop is a fire and is designed for round-the-clock monitoring of the state of fire detectors.

It is allowed to include fire detectors only with normally closed contacts (thermal, manual, smoke detectors, etc.) in the "Fireman for 4 states" loop.

NOTE: Normally-closed contacts of the fire detector included in the "Fire for 4 states" loop must be shunted with a load resistor of 1.5 kOhm.

Arming of the "Fireman for 4 states" loop is carried out automatically after switching on the power supply of the device, disarming the "Fireman for 4 states" loop is impossible.

For the “Fire for 4 states” loop type, the device distinguishes the following 4 states: “Normal”, “Fire”, “Open”, “Short circuit”.

In the event of a break and short circuit of the “Fireman for 4 states” loop, the device generates a “Fault” notification, a “Fire” notification is generated only if the detector is triggered.

Resetting the "Fault" state of the loop and reinstalling it in the "Protection" state occurs automatically, provided the loop is normalized. Resetting the "Fire" state of the loop and resetting it to the "Security" state is carried out by the "GZ" key if the detectors in this loop are normalized, or by the "Master" key, if the loop is assigned to the zone and the detectors in the loop are normalized.

If necessary, for the “Fire for 4 states” type of loop, you can organize a distinction of 5 states: “Normal”, “Attention” (triggering of one detector), “Fire”, “Open”, “Short circuit”. This is achieved by programming the "Verification Time" parameter.

The choice of the type of the “Fire for 4 states” loop implies the possibility of programming a number of parameters:

"Loop reaction time";

"Verification time";

"Correction of the ADC level";

"Linking with the previous";

"Linking to the next".

2.2.1.5 "Fire closed (open circuit)" - this type of loop is a fire and is designed for round-the-clock monitoring of the state of fire detectors.

It is allowed to include fire detectors only with normally closed contacts (thermal, manual, smoke detectors, etc.) in the "Fire closed" loop.

Arming of the "Fire closed" loop is carried out automatically after switching on the power supply of the device, disarming the "Fire closed" loop is impossible.

For the "Fire closed" loop type, the device distinguishes the following 3 states: "Normal", "Fire", "Short circuit".

If the loop is short-circuited, the device generates a “Fault” notification, a “Fire” notification is generated in cases of the detector being triggered and/or the loop is broken. Resetting the “Fault” state of the “Fire Closed” loop and resetting it to the “Security” state occurs automatically, provided the loop is normalized. Resetting the "Fire" state of the loop and resetting it to the "Security" state is carried out by the "GZ" key if the detectors in this loop are normalized, or by the "Master" key, if the loop is assigned to the zone and the detectors in the loop are normalized.

If necessary, for the “Fire closed” loop type, it is possible to organize a distinction of 4 states: “Normal”, “Attention” (triggering of one detector), “Fire”, “Short circuit”. This is achieved by programming the "Verification Time" parameter.

Resetting the “Attention” state in the loop and resetting it to the “Security” state occurs automatically after the programmed verification time has elapsed.

Selecting the fire open loop type, if necessary, involves programming a number of parameters:

"Loop reaction time";

"Verification time";

"Correction of the ADC level";

"Linking with the previous";

"Linking to the next".

2.2.1.6 "Fire open (short circuit triggered)" - this type of loop is fire and is designed for round-the-clock monitoring of the state of fire detectors.

It is allowed to include fire detectors only with normally open contacts (thermal, manual, etc.) in the "Fire open" loop.

Arming of the "Fire open" loop is carried out automatically after switching on the power supply of the device, disarming the "Fire open" loop is impossible.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 For the "Fire open" loop type, the device distinguishes the following 3 states: "Normal", "Fire", "Open".

When the loop breaks, the device generates a “Fault” notification, a “Fire” notification

is generated in cases of detector operation and/or short circuit of the loop. Resetting the "Fault" state of the "Fire open" loop and resetting it to the "Security" state occurs automatically, provided the loop is normalized. Resetting the "Fire" state of the loop and resetting it to the "Security" state is carried out by the "GZ" key if the detectors in this loop are normalized, or by the "Master" key, if the loop is assigned to the zone and the detectors in the loop are normalized.

If necessary, for the “Fire open” loop type, it is possible to organize a distinction of 4 states: “Normal”, “Attention” (triggering of one detector), “Fire”, “Open”. This is achieved by programming the "Verification Time" parameter.

Resetting the “Attention” status of the loop and resetting it to the “Security” status occurs automatically after the programmed verification time has elapsed.

Selecting the fire open loop type involves programming a number of parameters:

"Loop reaction time";

"Verification time";

"Correction of the ADC level";

"Linking with the previous";

"Linking to the next".

2.2.1.7 "Fire smoke 2-wire" - this type of loop is a fire and is designed for round-the-clock monitoring of the status of fire detectors.

It is allowed to include fire detectors (two-wire current-consuming smoke detectors, heat detectors with normally open contacts, manual call points with normally open contacts, etc.) in the "Fire Smoke" loop.

NOTE: The "Fire Smoke" loop must be connected to the control board through the contacts of the relay programmed as "Reset Relay".

Arming of the "Fire smoke" zone is carried out automatically after switching on the power supply of the device, disarming the "Fire smoke" zone is impossible.

For the “Fire smoke 2-wire” loop type, the device distinguishes the following 4 states:

"Norma", "Fire", "Open", "KZ".

In the event of a loop break and short circuit, the device generates a “Fault” notification, a “Fire” notification is generated only if the detector is triggered. Resetting the "Fault" state of the loop and reinstalling it in the "Protection" state occurs automatically, provided the loop is normalized. Resetting the "Fire" state of the loop and resetting it to the "Security" state

carried out by the “GZ” key if the detectors in this loop are normalized, or by the “Master” key, if the loop is assigned to the zone and the detectors in the loop are normalized.

ATTENTION! Normalization of detectors (transition to standby mode) in the “Fire Smoke” loop

is carried out using a reset relay (the maximum waiting time for the detectors to normalize is no more than 4 minutes 15 s. - a non-programmable loop reset period).

If necessary, for the “Fire smoke 2-wire” loop type, it is possible to organize a distinction of 5 states: “Normal”, “Attention” (activation of one detector), “Fire”, “Open”, “Short circuit”. This is achieved by programming the "Verification Time" parameter.

Resetting the “Attention” state in the loop and resetting it to the “Security” state occurs automatically after the programmed verification time has elapsed.

The choice of the “Fire smoke” loop type involves programming a number of parameters:

"Loop reaction time";

"Verification time";

"Correction of the ADC level";

"Linking with the previous";

"Linking to the next".

2.2.1.8 "Fire extinguishing control" - this type of loop is technological and is designed for round-the-clock monitoring of the state of technical means of warning in accordance with the classification of warning systems SO-1 and CO-2.

It is allowed to include the following TCO in the “Fire extinguishing control” loop: light, light and sound, light and speech devices, etc.

NOTE: The “Fire extinguishing control” loop must be connected to the control board through the relay contacts (the relay is programmed according to the “Alarm” event level in accordance with the required configuration).

Control of the status of the "Fire extinguishing control" loop is carried out automatically after the device is powered on, disarming the "Fire extinguishing control" loop is impossible.

For the "Fire extinguishing control" loop type, the device distinguishes the following 3 states: "Normal", "Open", "Short circuit".

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 When the loop is broken and short-circuited, the device generates a “Fault” notification. Resetting the "Fault" state of the loop and reinstalling it in the "Protection" state occurs automatically, provided the loop is normalized.

The choice of the “Fire extinguishing control” loop type involves programming a number of parameters:

"Loop reaction time";

"No. of the executive relay";

"Linking with the previous";

"Linking to the next".

2.2.2 When you select a specific "Loop Type", a number of parameters specific to the selected type of loop become available:

2.2.2.1 "Loop response time (s)" this parameter defines the time period during which the loop must be affected (break, short circuit, load) in order for the device to detect it.

The larger the response time value, the more immune the loop is to interference.

The parameter "Loop response time (s)" is selected from the proposed range of values:

2.2.2.2 “Entry delay (s)”, this parameter defines the time period after which the loop will be disarmed, the countdown begins after the “Master” key is presented

(specified in seconds).

The Entry Delay (s) parameter is set when the reader electronic key is located inside the protected area.

3.2.2.3 "Exit delay (s)", this parameter defines the time period after which the loop will switch to the "Security" state, the countdown begins after the presentation of the "Master" key

(specified in seconds).

NOTE: When arming, the loop with the "Exit Delay" parameter must be normalized.

2.2.2.4 "Binding with the previous", "Binding with the next" these parameters determine the dependence of the activation of actuators on the state of the connected loops.

Loops with set binding parameters are recommended to be used in systems with fire automatics. The device allows you to organize the launch of output devices in case of alarm in two adjacent connected loops. If at least one of the group of connected loops is not in the "Alarm" state, the "Activator" will not start external devices. Indication of the state "Alarm" in the loop does not differ from the indication of conventional loops.

ATTENTION! The condition for the organization of linked loops is the mandatory programming of the "Activator" with the alarm level "Binding alarm".

EXAMPLE: Setting the Link to Previous option for loop #5 means that loop #5 is linked to loop #4. Setting for the loop #4 parameter "Association with the next" means that the loop #4 is connected to the loop #5.

2.2.2.5 "Verification time (s)", this parameter defines the time period during which the control panel expects confirmation of the "Fire" condition in this loop (repeated activation of the detector in the loop).

When a fire detector is triggered in the loop, the device, using the "Reset Relay", performs a 4-second power reset in this loop, thereby normalizing the triggered detector to standby mode. After the detector is normalized, the programmed verification time countdown begins, if any detector in this loop is triggered again before the verification time expires, the device will register the “Fire” condition.

ATTENTION! When programming the "Verification time" parameter prerequisite is the programming of the "Reset Relay" parameter for the relay and the corresponding connection of the loop through the relay contacts.

2.2.2.6 "ADC level correction" - changing this parameter allows you to adjust the "Fire" signal output threshold when using some types of two-wire smoke detectors.

The need to adjust this parameter may arise at the stage of commissioning, when the device incorrectly generates the “Attention” and “Fire” signals. In this situation, it is necessary to programmatically change the ADC level.

ADC levels corresponding to loop states are shown in Table 8.

The entered number is selected experimentally from the range from 1 to 255. If it is necessary to increase the "Fire" notification threshold, a number from 1 to 127 is entered (as a rule, the number is selected from the range of 10, 20, 30, etc.), and when the notification threshold is reduced "Fire" is a number from 128 to 255 (selected from 250, 240, etc.).

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011

EXAMPLE: The following parameters are programmed:

loop "Smoke two-wire";

loop verification time 255;

reset relay.

When the first detector is triggered, the power supply of the loop must be reset using the reset relay, and the device must register the “Attention” state for this loop (i.e., the ADC level when one detector is triggered should be in the range from 60 to 119).

The device will register the "Fire" state for this loop when two detectors in the loop are triggered during the verification time (i.e. the ADC level when two detectors are triggered should be in the range from 83 to 236).

If, when one detector is triggered, the device immediately registers the “Fire” state, then it is necessary to reduce the “Fire” notification threshold by experimentally selecting a value from 128 to 255 (recommended 220).

Table 2 - ADC levels of loop states Loop status ADC level Break 001 - 024 Normal 025 - 059 Attention (activation of the 1st detector) 060 - 119 Fire (activation of 2 detectors) 083 - 236 Short circuit 237 - 255 During commissioning on object for the "A6" device, the ADC level of each loop can be monitored using specialized software, which is provided upon contacting the company's service center.

2.2.2.7 "Executive relay number" - this parameter defines the number of the executive relay for the "Fire extinguishing control" loop type with TCO enabled. Through the programmed executive relay, power is supplied to the TCO when an alarm condition is registered.

The entered number of the executive relay is selected from a range from 1 to 25 in accordance with the connection of the "Fire extinguishing control" loop.

2.3 ZONE program page

In the ZONE program page, alarm loops are combined into independent security zones.

When programming security zones

"Loops entering the zone";

"Delay confirmation of withdrawal";

"Indication on access device No. 2".

2.3.1 "Loops included in the zone", loops are selected for this protection zone. Combining loops into a security zone makes it possible, by presenting the corresponding key "Master"

carry out the following operations:

arming the zone;

disarming a zone;

reinstallation of fire loops included in the protection zone from the "Fire" state to the "Protection" state;

reinstallation of round-the-clock loops entering the security zone from the "Alarm" state to the "Protection" state.

ATTENTION! Combining alarm loops into zones is mandatory for the "Security" and "Alarm" types of loops, and recommended for the types of loops "Round-the-clock", "Fire for 4 states", "Fire closed", "Fire open", "Fire smoke 2-x wired” and “Fire extinguishing control”.

There are several options for assigning loops to zones:

one alarm loop belongs to one zone;

an arbitrary number of signaling loops belongs to one zone;

the alarm loop can be assigned simultaneously to several zones (the loop is common for security zones).

If the loop is common for security zones, then arming and disarming of the common loop will be carried out depending on the state of these security zones:

the common loop will not be armed if any one of the zones to which it is assigned is not armed;

the common loop will be armed only when the last of the zones to which it is assigned is armed;

a common loop will be disarmed only when any of the zones to which it is assigned is disarmed.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 2.3.2 “Disarm confirmation delay (s)” – the parameter is assigned to the zones if it is necessary to control the authorized disarming of these zones with the “Master” keys. This parameter, in most cases, is programmed when using the device as part of the monitoring station.

Programming the “Disarm Confirmation Delay” time for a certain zone obliges the user, who has presented the “Master” key, to confirm the disarming by pressing the “Disarm Confirmation Button” within the programmed time, otherwise the monitoring station will receive an alarm “Emergency call. Withdrawal under duress.

ATTENTION! The contacts of the “Removal Confirmation Button” must be normally closed and shunted with a resistance of 1.5 kOhm. When the “Removal Confirmation Button” is set, it is located in a hidden place in the room, the location of the button should be known only to the owner.

2.3.3 "Indication on access device No. 2" - the parameter is assigned if it is necessary to indicate the status of zones on the LED of the reader connected to the TP2 reading channel. (for device A6 version A6-04, A6-06)

2.4 Program page "ACCESS CONTROL"

In the program page "ACCESS CONTROL" the parameters of the "Access Subsystems" of the device are set, for the device A6 versions A6-04, A6-06.

The maximum number of "Access Subsystems" created in the device "A6":

version A6-02 - 1;

versions A6-04, A6-06 - 2.

When creating access subsystems, the following options are available for editing:

"Zones included in the access subsystem";

"Loops with installed ACS button";

“Arming delay (s)”;

"Exit button";

"Passage by any key, if the zone is not armed."

2.4.1 "Zones included in the access subsystem" - the zones related to this access subsystem are indicated. Programming of this parameter is mandatory if it is necessary to organize the control of the security zone (arming and disarming).

2.4.2 "Loop with the ACS button installed" - indicates the device's loop, which includes the "Exit button" (if any) and the "Arming button".

2.4.3 “Arming delay (s)” – this parameter defines the period of time during which the “Master” user key must be presented to arm the zone. The Arming Delay time countdown starts after pressing the Arming Button.

ATTENTION! "Arming button" should be with normally closed contacts, shunted with a 3 kOhm resistor, the end resistor of the button loop is 1.5 kOhm.

2.4.4 "Exit button" - this parameter indicates that there is a button in the "Access subsystem" of the device, pressing which opens the door lock to exit. "Exit button" is installed indoors, and is included in the loop specified in the "Loop with the installed ACS button" parameter.

ATTENTION! The "exit button" must be with normally closed contacts, shunted with a 1.5 kΩ resistor, the terminal resistor of the button loop is 1.5 kΩ.

2.4.5 "Access by any key, if the zone is not armed" - this parameter indicates that any presented electronic key will cause the lock to be opened, regardless of whether this key is registered in the device's memory or not.

2.5 Program page "ACTIVATORS"

In the program page "Activators" programs (scripts) for the operation of actuators (buzzer, TCO outputs, relay outputs) are created in accordance with the logic of work at the facility.

The maximum number of independent programs "Activator", with different logic of work - 8.

When creating an Activator program, the following general options are available for editing:

"Event level" ("Alarm level");

"Type of reaction";

"Response delay";

"Duration of operation";

"Monitor security mode";

"Sources of activation";

"Turn off the activator";

"Loops";

Access Subsystems.

2.5.1 The "Event level" parameter indicates the level of the event on which the "Activator" must start the executive devices.

2.5.1.1 "Alarm" - the actuating devices will be launched by the "Activator" when alarm events are registered by the device, provided they are programmed for this "Activator".

The following events can be assigned to the "Alarm" event level:

"Alarm" in the loop;

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 "Fire" in the loop;

"Device tamper";

"Key selection";

"Compulsion".

2.5.1.2 “Binding alarm” – actuating devices will be launched by the “Activator” when the device registers alarm events simultaneously in two connected loops, provided they are programmed for this “Activator”.

2.5.1.3 "Fault" - the activation of the actuators by the "Activator" will be carried out when the device registers malfunctions, provided they are programmed for this "Activator".

The following events can be assigned to the "Fault" event level:

"Fault" in the loop;

"Alarm" in the loop;

"Fire" in the loop;

"Device tamper";

"Lack of 220 V network";

"Lack of battery";

"Communication channel failure";

Siren malfunction.

2.5.1.4 "Warning" - the activation of the actuators by the "Activator" will be carried out when registering an event that is in the verification stage for the fact of assigning the status "Alarm" to the event, provided that it is programmed for this "Activator".

The following events can be assigned to the Warning event level:

"Attention" for a fire loop;

"Entry delay" countdown for the security loop;

"Exit Delay" time countdown for security loop.

2.5.1.5 "Multiple alarm" - the activation of the actuators by the "Activator" will be carried out each time the device registers an alarm condition, regardless of whether this alarm condition has already been registered, provided programming for this "Activator".

The following events can be assigned to the "Multiple alarm" event level:

"Alarm" in the loop;

"Fire" in the loop;

Device tamper.

2.5.1.6 "Fault at the monitoring station" - the activation of the actuators by the "Activator" will be carried out when the device detects malfunctions, provided they are programmed for this "Activator".

The following events can be assigned to the event level "Monitoring station failure":

"Fault" in the loop;

"Device tamper";

"Lack of 220 V network";

"Lack of battery";

"Communication channel failure";

Siren malfunction.

2.5.2 The "Response Type" parameter determines the response of the actuators when events are registered by the device.

2.5.2.1 "Continuous" - "Activator" with this type of reaction after start-up will work in continuous mode for the programmed time.

2.5.2.2 "Pulsating" - "Activator" with this type of reaction after start-up will operate in a pulsating mode: turn on for 1 second with a period of 2 seconds during the programmed time.

EXAMPLE: The "Pulsating" response type can be used to output an audible signal to the buzzer and/or TCO outputs when using the device in fire alarm systems.

2.5.2.3 "Fault" - "Activator" with this type of reaction after start-up will work according to the following algorithm: issue a series of short pulses for 10 seconds with a period of 4 minutes during the programmed time.

EXAMPLE: Response type "Fault", can be used to output a sound signal to the buzzer about system faults "Battery missing", "220 V missing", etc.

ATTENTION! When selecting the type of reaction "Fault", the parameter "Response time"

must be programmed in minutes, at least 5 minutes.

2.5.2.4 "Warning" - "Activator" with this type of reaction after launch will work according to the following algorithm: turn on for 1 second with a period of 4 seconds during the programmed time.

EXAMPLE: Response type "Warning", can be used to output a sound signal to the buzzer about faulty lines, etc.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 255).

EXAMPLE: The "Response delay" parameter can be used to provide the necessary delay when fire automatic devices, etc., are triggered.

2.5.4 "Activation duration" - this parameter determines the time period of the "Activator" operation (set from 0 to 255).

By default, the time period is specified in seconds, if necessary, the "Running time" parameter can be set in minutes, for which you need to specify the "Running time is set in minutes" property.

ATTENTION! When setting the value of the parameter "Activation duration" to 0, "Activator"

will work indefinitely or until reset, subject to the programming of the “Activator shutdown” parameters (reset with the GZ key or reset with the button).

2.5.5 "Track armed mode" - this parameter is used to launch the "Activator" when arming the activating loops and disabling the "Activator" when disarming the activating loops.

ATTENTION! When programming the parameter "Track security mode", for this "Activator"

loops are necessarily programmed, the control of which must be carried out.

2.5.6 "Sources of activation" defines the parameters by which the "Activator" must turn on the executive devices.

2.5.6.1 Duress – when this parameter is selected, the Activator turns on the actuators if the control panel registers disarming of zones under duress (the Disarm Confirmation Button is not pressed within the programmed Disarm Confirmation Delay time).

2.5.6.2 "Communication channel failure" - when this option is selected, the "Activator" turns on the actuators if the device registers a loss of communication with additional modules and devices:

remote control panel VPU-A-16;

display module VPU-A-16S;

expansion module АР-16;

access device module AMC-8;

lack of communication with ASOS "Alesya";

IS-RF matching module (loss of communication with the radio transmitter);

coordination module IS-monitoring station (loss of connection with the transmitter-communicator);

IS-AD matching module (loss of connection with the transmitter-communicator);

IS-GSM matching module (loss of connection with the GSM adapter, GSM/GPRS communication channel).

2.5.6.3 "Sirens malfunction" - when this parameter is selected, the "Activator" turns on the actuators, if the device registers a malfunction of the communication line of the technical means of warning BELL.

ATTENTION! TCO communication lines (BELL1 and BELL2) are monitored for open and short circuits using a 1.5 kΩ termination resistor.

2.5.6.4 "Device tamper" - when this option is selected, the "Activator" turns on the actuators if the device registers a case opening and/or violation of the tamper loop, as well as when registering a case opening and/or violation of the tamper loops of additional modules ( VPU-A-16, VPU-A-16S, AR-16, AMS-8).

ATTENTION! The tamper loops of the device and additional modules are monitored for open and short circuits using a 1.5 kOhm terminating resistor.

2.5.6.5 "Key selection" - when this parameter is selected, the "Activator" turns on the actuators, if the device registers the presentation of a key not registered in the device's memory 5 times in a row.

2.5.6.6 "No mains supply 220V" - when this parameter is selected, the "Activator" turns on the actuators if the device registers a lack of mains power (220V).

2.5.6.7 "Battery discharge" - when this parameter is selected, the "Activator" turns on the actuators if the device registers a discharge of the backup power source (accumulator battery).

2.5.7 "Activator disable" defines the parameters under which the "Activator" disables the actuators.

2.5.7.1 "Reset by key" - when this parameter is selected, the "Activator" will turn off the effects on the actuators upon presentation of the "GZ" key (reset the TCO sound and / or buzzer, etc.).

2.5.7.2 "Reset button" - when this parameter is selected, the "Activator" will disable the impact on the actuators when the "Reset button" is pressed, connected to the control board to the KEY and "common" terminals fire automatics systems, etc.).

ATTENTION! The button to perform the "Reset button" function must be with normally closed contacts, shunted with a 3kΩ resistor, the terminal resistor of the pushbutton loop is 1.5kΩ.

2.5.7.3 "Without reset" - when this parameter is selected, the "Activator" will work out the programmed time "Activation duration" regardless of external influences on the device ("Reset by key", "Reset by button").

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 ATTENTION! The "No reset" parameter must be programmed when using the "Activator"

responsible for managing the Access Subsystems.

2.5.8 "Loops" - activating loops are introduced, by changing the state of which the "Activator"

launch is performed.

2.5.9 "Access subsystems" - the mask of activating access subsystems is entered, when using which the "Activator" is launched.

2.6 Program page "Executive devices"

To perform notification functions, enable/disable fire extinguishing systems, etc., the device is designed to use the following actuators:

2.6.1 "Buzzer". The buzzer operating device on the control boards of the A6 device is intended for sound notification of personnel about an event that has occurred.

The following options are available for editing:

"Influencing activators";

2.6.1.1 "Influencing activators" - activators are assigned, at the start of which the executive device "Buzzer" should turn on.

2.6.1.2 "Indication of the last second of the exit" - this parameter is assigned to the "Buzzer" if it is necessary to notify personnel about the last second of the exit, in cases where the "Exit delay" parameter is programmed for security loops. "Buzzer" turns on at the end of the "Exit Delay" time for 1 second;

2.6.1.3 "Output to the keypad service LED" - this parameter is assigned to the "Buzzer"

if it is necessary to duplicate the notification signal by the service LED of the device (programmable LED).

2.6.2 "Siren". The output of the BELL executive device on the control board of the “A6” device is designed to connect the TCO and provide sound, light and light-sound notification of personnel about an event that has occurred.

The following options are available for editing:

"Influencing activators";

"Indication of the last second of the exit";

"Normally powered";

"Output to the service LED".

2.6.2.1 "Influencing activators" - activators are assigned, upon launch of which a potential of 12V is supplied to the "Siren" output.

2.6.2.2 "Indication of the last second of the output" - this parameter is assigned to the output "Siren"

if it is necessary to notify personnel about the last second of the exit, in cases where the “Exit Delay” parameter is programmed for the security loops. The “Siren” output turns on after the “Exit Delay” time has elapsed for 1 second;

2.6.3.3 "Normally energized" - this parameter is assigned to the "Siren" output in cases when it is necessary to provide +12V potential at the BELL output when power is supplied to the device.

2.6.2.4 "Output to the service LED" - this parameter is assigned to the "Siren" output if it is necessary to duplicate the notification signal with the service one.

2.6.3 "Relay". The outputs of the relay actuators on the control board of the “A6” device (version A6-04, A6-06) and the relay outputs on the RM-64 module are designed to connect alarm loops, fire automation devices, TCO, etc.

The following options are available for editing:

"Influencing activators";

"Indication of the last second of the exit";

"Normally powered";

"Reset relay";

"Output to the service LED".

"Conclusion to the Atlas".

2.6.3.1 "Influencing activators" - activators are assigned, upon launch of which the output "Relay"

should turn on.

2.6.3.2 "Indication of the last second of the output" - this parameter is assigned to the outputs "Relay"

if it is necessary to notify personnel about the last second of the exit, in cases where the “Exit Delay” parameter is programmed for the security loops. The “Relay” output turns on after the “Exit Delay” time has elapsed for 1 second;

2.6.3.3 “Normally energized” – this parameter is assigned to the “Relay” outputs in cases when it is necessary to provide normally closed relay contacts when power is applied to the device.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 2.6.3.4 "Reset relay" - this parameter is assigned to the "Relay" outputs in cases where the use of outputs for organizing verification and resetting the power supply of current-consuming detectors is provided;

ATTENTION! If the "Relay" output is assigned the "Reset Relay" parameter, then the "Influencing Actuators" relay cannot be programmed for this output. Programming the "Reset Relay" parameter

mandatory, if there are two-wire smoke loops in the system.

2.6.3.5 “Output to the service LED” – this parameter is assigned to the “Relay” outputs if it is necessary to duplicate the signal by the service LED of the device.

2.6.3.6 "Output to Atlas" - this parameter is assigned to the outputs of the "Relay" in cases when it is necessary to transfer information to the monitoring station "Atlas". The relay output is used in conjunction with the telephone line connection output (when using the ISA-8 matching module). The relay with the “Output to Atlas” parameter switches 18 kHz to a telephone line controlled by the Atlas monitoring station

(when the device zone is armed, 18 kHz is fed into the telephone line and is switched off when disarming or alarming).

ATTENTION! "Influencing activators" for "Relay" outputs cannot be programmed if the "Output to "Atlas"" parameter is assigned to this output.

2.7 User keys User keys are keys that confirm the user's right to perform certain actions with the device.

Programmatically, according to the levels of differentiation of user access rights, the device supports work with the following types of keys:

keys "Master";

keys "GZ";

keys "Monter";

key "Master".

It is possible to use as user keys in the device:

keys of the contact method of reading (DS1990A, DS1991-DS1996);

proximity cards Proximity (HID, EM-MARIN, Angstrem);

numeric PIN.

There are several ways to program the key ID number:

entering an electronic code when programming the device using the AXX Programmer software, in this case, the programmable key is presented to the reader connected to the control board of the device.

manual entry when programming the device using the VPU-A-06 keyboard, this way used to enter PIN codes;

entering an electronic code when programming the device using the VPU-A-06 keyboard, in this case, the programmable key is presented to the reader connected to the VPU-A-06 keyboard.

ATTENTION! When programming the PIN code, the first digit of the key must be different from 0 (zero), the number of characters for entering the PIN code is from 1 to 7.

2.7.1 Master keys

This program page contains user keys that give the right to perform operations on the security zones of the device, provided that the security zones are assigned to this key "Master"

(arming, disarming).

The "Master" key also allows you to:

The maximum number of independent keys "Master" is 79.

When programming "Master" keys, the following parameters are available for editing:

"ID-number of the key";

"Protection zone for UD-1";

"Protection zone for UD-2";

“Passage through access subsystem No. 1 is allowed”;

"Passage allowed through access subsystem #2."

“Key ID-number” – an alphanumeric code of an electronic key or a numeric PIN code.

"Security zones for UD-1", "Security zones for UD-2" - security zones are entered, which can be controlled by presenting the "Master" key to the corresponding access device.

“Permitted passage through access subsystem No. 2”, “Permitted passage through access subsystem No. 2” – access subsystems are defined, to which the entered key “Master” belongs. The key can be assigned to two access subsystems simultaneously and, accordingly, manage both one access subsystem and two.

NOTE: If the "Master" key is set to "Security zones" and "Access subsystems", then the key controls the arming/disarming of the corresponding zone and allows passage through the Control Panel A6 subsystem Operation Manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011 accessed. If the key is set only to the access subsystem, then it will be able to allow passage if the zone is not armed. Thus, it is possible to differentiate the powers of users.

2.7.2 Keys "GZ"

Keys of "GZ" (Detention Groups, Rapid Response Groups, etc.). This program page contains user keys that give the right to remove the "Alarm" and / or "Fire" state with the possibility of resetting the loops to the "Security" state, subject to their normalization.

The "GZ" key also allows you to:

viewing the events of the "Event Log";

viewing the time and date of the built-in clock.

The maximum number of "GZ" keys is 15.

Provided that the “Reset by key” parameter is programmed for the “Activators”, upon presentation of the “GZ” key, the “Activator” will disable the effects on the actuators.

In the case of using the device as part of the monitoring station, the presentation of the “GZ” key warns the duty operators of the monitoring station about the actions performed at the security facility (arrival of a detention group, etc.).

2.7.3 "Fitter" keys

This program page contains user keys that do not have any rights in relation to the device, but allow you to:

viewing the events of the "Event Log";

viewing the time and date of the built-in clock.

The maximum number of "Fitter" keys is 15.

The user key "Installer" is used to warn the operators of the monitoring station about the actions performed at the security facility by the maintenance personnel (electrician).

2.7.4 Master Key

This program page contains a single user key with access rights that allow you to:

viewing the events of the "Event Log";

viewing and setting the time and date of the built-in clock;

device programming;

viewing the ADC level;

changing the contrast of the LCD keyboard display;

viewing the ID-number of the device;

viewing the firmware version of the instrument's central processor and the date the firmware file was created.

ATTENTION! If the changed "Master" code is lost, the device will require a complete reset of the device configuration memory, which will allow restoring the factory "Master" code (factory "MASTER" code: 1).

3 DESCRIPTION OF PROGRAMMING USING THE VPU-A-06 KEYBOARD

3.1 General requirements To be able to work on programming (editing) the configurations of devices "A6" using the remote control panel VPU-A-06, you must have available:

Programmable device "A6";

Remote control panel VPU-A-06 (LCD keypad VPU-A-06).

Interface module IS-485, for connecting the LCD keypad to the "A6" device.

Programming tables for VPU-A-06.

3.2 Description of the VPU-A-06 remote control panel 3.2.1 Purpose of the VPU-A-06 remote control panel serves to monitor the state of security, fire and alarm alarm loops (AL). Using the VPU-A-06 LCD keypad, arming/disarming loops (zones) is carried out by selecting the panel number in the A6 instrument system and dialing an individual arming/disarming PIN code, resetting alarms, programming the instrument configuration; sound notification in the presence of system alarms and malfunctions.

Connecting the VPU-A-06 LCD keypad allows you to control up to 8 devices connected via the IS-485 interface modules into a single network via the RS485 communication line.

Appearance LCD keypad VPU-A-06 is shown in Figure 1.

3.2.1.1 Functional purpose of the keys of the VPU-A-06 LCD keypad.

Numeric keys "0" ... "9" are used to enter data.

"FORWARD" - moving forward through the pages of the program, moving forward within the page, moving forward through the "Menu" modes.

"BACK" - moving back through the pages of the program, moving back inside the page, moving back through the "Menu" modes.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 "ENTER" - entering the current "Menu" mode, entering the address page (cell) of the program, confirming the entry of the user's PIN code.

"CANCEL" - exit to the top level in program items (for example, from a cell to a page).

"#" – selection of a zone for indication on the screen.

In addition, in the "Program" section for entering data in a hexadecimal code, some keys correspond to letter values ​​printed on the keyboard case:

"FORWARD" - "B";

"BACK" - "C";

"ENTER" - "D";

"CANCEL" - "A";

"#" - "E";

"*" - "F".

Pressing any key on the keyboard is accompanied by the illumination of the LCD display and keys, as well as a short buzzer.

Figure 1 - External view of the remote control panel VPU-A-06 (VPU-A-16) 3.2.1.2 Indication modes of the status LEDs of the device "A6" on VPU-A-06 are shown in Table 3.

–  –  –

NOTE: if there is a malfunction in the device, the keypad buzzer will emit 10 short beeps every 4 minutes.

3.2.1.3 Operation of the buzzer and siren of the VPU-A-06 LCD keypad.

The keypad buzzer cannot be programmed for various operating modes, but has a rigid algorithm:

short beeps (1 time per 4 seconds) – an event has occurred in the device(s);

constant buzzer signal – an alarm event has occurred in the device(s).

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 LCD keypad siren output is also not programmable and will be activated only by alarm events in the device(s).

3.2.1.4 Purpose of VPU-A-06 LCD keypad jumpers:

JP1 - connection of terminating, terminating resistors to the RS485 bus;

JP3 – enable/disable the buzzer;

JP4(1) - resetting the keyboard memory;

JP4(2,3) – not used;

JP4(4) – enable/disable keypad tamper;

JP5 - enable/disable permanent keyboard backlight.

The appearance of the VPU-A-06 LCD keypad with the rear cover removed is shown in Figure 2.

Figure 2 - External view of the VPU-A-06 keyboard with the rear cover removed

3.3 Connecting the VPU-A-06 to the device and preparing for programming 3.3.1 Connect the interface module IS-485 to the LCD keypad VPU-A-06 in accordance with their connection schemes by connecting wires (wire A of the IS-485 module is connected to terminal A LCD keypad VPU-A-06, and, accordingly, wire B of the IS-485 module to terminal B of the LCD keypad VPU-A-06), Figure 21.

If it is necessary to connect several “A6” devices to the VPU-A-06 LCD keypad, then wires A and wires B of each IS-485 module are combined respectively and connected to terminals A and B of the VPU-A-06 keypad.

3.3.2 Connect the XS1 connector of the IS-485 module to the XP1 connector of the A6 instrument control board.

3.3.3 Apply power to the LCD keypad VPU-A-06 and the device "A6". The VPU-A-06 LCD keypad can be powered directly from the A6 device or a separate 12 V UPS.

3.3.4 In case of editing the configuration of a previously programmed device, you can start working on making changes (additions) to the configuration memory chip.

3.3.5 In the case of programming the configuration of a new device, it is recommended to reset the memory chip, for this you need to install jumper JP4 on the control board of the device, and press the "Device Restart" button. Wait for the end of the device test and remove the jumper.

3.3.6 After resetting the configuration memory chip, the new device is ready for programming.

3.4 Programming the configuration of the “A6” device using VPU-A-06 3.4.1 Menu of the LCD keypad VPU-A-06 , the display will show "SYSTEM A6", Figure 3.

Figure 3 Control Panel A6 Operation Manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 3.4.1.1 Distribution of zones in the system when combining devices "A6" using VPU-A-06.

To carry out arming/disarming operations, viewing the event log, current time, programming using the VPU-A-06 LCD keypad, the user needs to perform a number of actions, including the selection of system zones.

The VPU-A-06 LCD keypad allows you to combine up to 8 A6 devices into a system. In the maximum configuration, it is possible to organize up to 48 independent zones in the system (8 A6-06 devices with 6 loops in each zone, respectively), the numbers of zones and loops in the system have continuous numbering, the numbering of zones in the system depends on the specific configuration of each device in the system.

EXAMPLE: The system consists of 4 devices combined with the help of the VPU-A-06 LCD keypad, independent zones in the devices and the system are distributed as follows, Figure 4.

NOTE: *In parentheses are the numbers of zones for each specific device.

–  –  –

As can be seen from Figure 4, zone No. 6 in the system refers to the A6-06 No. 2 device, however, for this device it is zone No. 3, similarly, zone No. 11 in the system refers to the A6-06 No. 3 device, however, for this device is zone #4, etc.

ATTENTION! When selecting zones in the system for carrying out arming/disarming operations, programming, viewing the event log, it is necessary to clearly understand their distribution among the devices in the system.

3.4.1.2 Keyboard menu includes a number of modes:

The "Overview" mode allows you to view the current status of loops, zones, alarms and faults in the system by pressing the "FORWARD", "BACK" keys and includes the following items:

- "Status of zones" - displays the state of the system zones, Figure 5;

–  –  –

PPKOP A6 Operation manual.

Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 The "System" mode allows you to enter the ID numbers of devices, changing the "MASTER" code is available after performing a number of actions:

enter "MASTER" - LCD keypad code: 1234 (factory "MASTER" - LCD keypad code);

enter the service menu by pressing the key 3 - Service, Figure 8.

Figure 8

The "System" mode includes the following items:

"Device" - designed to register ID-numbers of devices "A6" in the memory of the LCD keypad VPU-A-06;

"Password" - contains the "MASTER" code of the VPU-A-06 LCD keypad (it can be changed if necessary);

"Contrast" - displays the contrast level of the LCD display and indication of the keypad ID number.

The block diagram of the operation of the VPU-A-06 LCD keypad in the "System" mode is shown in Figure 9.

Figure 9 - Block diagram of the operation of the VPU-A-06 LCD keypad in the "System" mode

Arming/Disarming mode for A6 devices is available after performing a series of actions:

use the keys "0", "1" ... "9" to select a zone in the system (for example, 1, i.e. selection of the 1st zone in the system), the choice of zone for the device "A6" is carried out according to the principle described in paragraph .clause 3.4.1.1;

confirm the zone selection with the "#" key, Figure 10;

present the key "Master" relating to the given zone.

Then you need to select, Figure 8:

1 - Arm - by pressing the key 1, the arming operation is selected;

2 - Disarm – pressing key 2 selects the disarming operation.

The "Event Log" mode allows you to view the event log for all devices in the system, and is available after performing a number of actions:

Use the keys "0", "1" ... "9" to select a zone in the system (for example, 12, i.e. the choice of the 12th zone in the system), the choice of zone for the device "A6" is carried out according to the principle described in paragraph .clause 3.4.1.1;

Present the key "Master" relating to the given zone;

enter the "Event Log" mode by pressing the "ENTER" key, Figure 11.

Figure 11

In the "Event Log" mode, the following actions are available for performing:

Switching to viewing the previous event is carried out by the "NEXT" key;

Switching to viewing the next event is carried out by the "BACK" key;

The transition to viewing the time and date of the event is carried out by pressing the "*" key, exiting from viewing the time and date of the event - by pressing the "*" key;

Exit the event log with the "CANCEL" key, or automatically after 30 s.

The "Clock" mode allows you to view and, if necessary, edit the time and date of the system devices.

This mode is available after performing a series of actions:

Using the keys "0", "1" ... "9" select a zone in the system (for example, 10, i.e. the choice of the 10th zone in the system), the choice of zone for the device "A6" is carried out according to the principle described in paragraph .clause 3.4.1.1;

Confirm the zone selection with the "#" key;

Confirm the input of the "MASTER"-code of the device with the "ENTER" key;

enter the service menu by pressing the key 3 - Service, Figure 8;

use the “NEXT” key to move to the “Clock” item, enter the “Clock” mode by pressing the “ENTER” key, Figure 12;

Figure 12

to edit the time / date, press the "ENTER" key and sequentially enter current time and date;

after the end of the sequential input of time / date, use the "CANCEL" key to exit the "Clock" mode;

editing the time / date of the current device of the system can be considered completed.

ATTENTION! The time/date editing operation must be carried out for each device in the system.

PPKOP A6 Operation manual.

Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 The “Program” mode allows reading, editing and writing the configuration program for each device in the system and is available after performing a series of actions:

Use the keys "0", "1" ... "9" to select a zone in the system (for example, 5, i.e. the choice of the 5th zone in the system), the choice of zone for the device "A6" is carried out according to the principle described in paragraph .clause 3.4.1.1;

Confirm the zone selection with the "#" key;

Enter "MASTER"-device code: 1 (factory "MASTER"-device code);

enter the service menu by pressing the key 3 - Service, Figure 8;

enter the “Program” mode by pressing the “ENTER” key, Figure 13.

Figure 13

The "Program" mode includes the following items:

"Change" - designed to edit the configuration of the device "A6";

"Record" - designed to record the edited program in the memory of the device "A6".

3.4.2 Registration of instrument ID numbers in the VPU-A-06 memory Before you start programming the A6 instrument configuration using the VPU-A LCD keypad, it is necessary to register the instrument ID numbers in the VPU-A-06 memory.

NOTE: The instrument ID is an alphanumeric sequence of 8 hexadecimal characters. The ID number is located on the instrument's processor label and is unique to each instrument.

Registration of ID-numbers of devices "A6" in the memory of the LCD keypad VPU-A-06 is carried out in the "SYSTEM" mode, the registration sequence is as follows:

enter the "MASTER" code of the LCD keypad VPU-A-06: 1234 (factory "MASTER" code);

confirm the entry of the “MASTER” code with the “ENTER” key;

select the “Service” menu item by pressing the “3” key, Figure 8;

the first menu item “Device” will appear on the LCD keypad display, registration of ID numbers is carried out in this menu item, Figure 14;

–  –  –

to enter the “Device” menu item, you must press the “ENTER” key, the LCD keypad will display the serial number of the device and data (00000000 by default), Figure 15;

–  –  –

to enter the ID-number of the device, press the “ENTER” key, a cursor should appear under the first character of the 8-digit ID-number in the “Data” line, Figure 16;

–  –  –

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 then you must sequentially enter the device ID number in accordance with the sticker on the processor, after entering each character of the device ID number the cursor will move to the right, Figure 17;

Figure 17

upon completion of entering the 8-digit ID-number of the first device in the system and for further entering the ID-numbers of other devices, use the “NEXT” key to go to the input of the following device ID numbers “A6”;

after entering all ID-numbers of devices in the system, by pressing the "CANCEL" key twice, it is possible to exit the "SYSTEM" mode;

registration of ID-numbers of devices of the system can be considered completed.

The block diagram of the operation algorithm of the VPU-A-06 LCD keypad in the “Arm/Disarm”, “Event Log”, “Clock” and “Program” modes is shown in Figure 18.

NOTE: XX* Number describing zone number or key number Figure 18 Control Panel A6 Operation Manual. Part II (programming with VPU-A-06 and PR-1) edition 7.03 April 2011 3.4.3 Device configuration programming mode “A6” using LCD keypad VPU-A-06 in the device itself in non-volatile memory. To edit the configuration program, it must be read from the device into the VPU-A-06.

For this you need:

Being in the programming mode (see clause 3.4.1.2), use the "FORWARD" or "BACK" keys to select the "Read" item, Figure 19.

–  –  –

press the "ENTER" key. A scrolling line will appear in the lower part of the display, which displays the percentage of completion of the process of reading the program from the device into the memory of the LCD keypad VPUA-06, Figure 20;

–  –  –

Upon completion of the reading process, the program can be viewed or edited:

Press the "NEXT" key, select the "Change" item, Figure 21;

–  –  –

The instrument configuration program menu consists of the following sections: "GENERAL"; "PLUME";

"ZONE"; "ACTIVATOR"; "BUZZER"; "SIREN"; "RELAY"; "MASTER"; "Key GZ"; "MONTER";

"MASTER".

–  –  –

using the FORWARD or BACK keys, select the section to be edited (for example, General) and press the "ENTER" key, Figure 23.

–  –  –

PPKOP A6 Operation manual. Part II (Programming with VPU-A-06 and PR-1) Edition 7.03 April 2011 Use the FORWARD or BACK keys to select the desired item / address and press the ENTER key. A cursor will appear in the "Data" field, prompting you to enter the necessary data in accordance with the programming tables, table 2;

to exit the submenu, press the "CANCEL" key;

after editing all the necessary parameters of the program, it must be written to the device configuration memory, for which you need to select the “Write” item, Figure 24.

–  –  –

press the "ENTER" key. A scrolling line will appear in the lower part of the display, which shows the percentage of completion of the process of writing the program from the VPU-A-06 LCD keypad memory to the device configuration memory.

ATTENTION! The “Save” item of the “Program” mode is mandatory, otherwise the edited configuration program for the “A6” device will remain only in the memory of the VPU-A-06 LCD keypad.

The block diagram of the VPU-A-06 operation algorithm in the programming mode is shown in Figure 25.

–  –  –

ATTENTION! If in the programming tables there is a “+” sign before the digit, when programming several properties at the same time, it is necessary to dial the sum of the digits in the hexadecimal system, see table 4.

Tables for programming the device "A6" are given in Table 5.

–  –  –

ATTENTION! For the correct operation of the device "A6" as part of ASOS "Alesya", the keys "HOUSE" from No. 16 to No. 79 CANNOT be programmed.

ATTENTION! The numeric PIN-code must not start with 0 (zero), the first digit must necessarily be from the range 1…9.

After the program has been modified and verified, it must be written to the device:

Press the "CANCEL" key to exit to the main programming menu.

From the programming main menu, select the "Write" property and press the "ENTER" key. The program will be written from VPU-A-06 to the device.

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011

4 DESCRIPTION OF PROGRAMMING INSTRUMENTS USING THE REMOTE

PROGRAMMING PR-1

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4.2 Purpose of the remote control keys PR-1 READ – reads the program from the device memory into the remote control memory (ul 01). If the reading operation is successful, the indicator displays the sequential movement of the highlighted segment on the rightmost matrix.

REC - writes the edited program from the remote control memory to the device (dl 01), sets the time (dl 03) and the panel code (dl 00). If the write operation is successful, the indicator displays the successive movement of the highlighted segment on the rightmost matrix.

EDIT – selection of the program page. When this key is pressed, two letters will light up on the left side of the remote control indicator - Ed and the remote control is waiting for the input of the number of the program page in which it is necessary to change the parameters. If a program page is open, pressing the EDIT key will display the number of that page (for example: Ed 04). The page number is typed with numeric keys and displayed on the right side of the indicator. When dialing a page number, the remote control without a confirmation command enters the mode for editing the parameters of this page and the two leftmost symbols of the remote control indicator display the address of the first cell in this page (00). The two characters on the far right represent the data in that cell at the current address.

ADR - go to an arbitrary address within the selected page. When you are inside the page and press this key, there are two digits of the indicator located on the left and displaying the number of the Control Panel A6 Operation Manual. Part II (Programming with VPU-A-06 and PR-1) Revision 7.03 April 2011 addresses show the characters "_ _" and the console is waiting for the address to be entered. After entering the remote control automatically goes to the dialed address.

DANN – data editing mode at the current address. When you are at the desired address within the page and press this key, the two digits of the indicator located on the right and displaying data show the characters "_ _", and the console is waiting for data input. When viewing the event log, pressing the DAN key leads to the transition to the event viewing mode: the cause of its caller, the time of its occurrence.

FUNC - select an additional function. These service functions allow you to perform installation / deletion operations as separate loops, relays, etc. per page, and whole pages; copying the properties of loops, relays, sirens, etc. inside the program page.

The console has the following service functions:

erasing the properties of the edited object (FUNC 00);

copying service keys from the remote control memory to the instrument memory (FUNC. 50).

0 - F - hexadecimal digits used in programming mode.

1 - in addition to purely digital, it can also be used as a functional one. So, when inside a page, clicking it will take you one address back inside the page.

2 - similar to key 1, only the transition is carried out one address forward within the page.

EXIT - exit from the current page mode, restart the panel when the remote control is in its original state

– 3rd press.

ENTER - not used.

For A6 panels, the entire address space is divided into program pages that regulate the parameters and properties of individual groups of functional devices: loops, keys, etc.

(see programming tables). To set system properties you must select program page 01, within this block the system configuration is defined. For example: the device will work in the ASOS "Alesya" mode, in this case you need to dial the following (RED 01 - cell with address 00 opens in program page 01. If a different address is set in any way, dial ADR 00. Then press the DATA button and in on the right two segments, type 02). To set loop parameters, you must select program page 02, inside this block you define the type of loop and its properties.

For example: the 1st loop is a security loop with 4 states, the response time to a change in the loop state is 500ms. To do this, press the keys in sequence: RED, 0, 2; ADR, 0, 0; DANN, 0, 1; ADR, 0, 1;

DAN, 2, 0. In the same way, the loops are divided into zones (program page 03), the properties of activators are programmed (program page 04), the properties of the buzzer, siren and relay (program page 05), etc.

To program the HOST, FITTER, GZ keys, you must select the desired program page. Select the address within the program page and attach the key to be programmed to the reader on the remote control. Successful recording of the key will be confirmed by the remote control with an audible signal. If there is a written key in the program page at the selected address, then the data bit will contain two dashes (- -), otherwise two zeros (00). If you attach a key when two dashes are displayed, then the previously recorded key will be deleted, and the attached one will take its place.

Example:

key entry "Master" #1 (REV 06; ADR 01; attach key). Key Record "GZ" No. 3 (REF 07; ADR 04;

attach key). If you write the keys "GZ" to program page 12, and "INSTALLER" to program page 13, then the keys are stored in the remote control memory. Using FUNC 50, service keys can be transferred to the device memory.

Connect the PR-1 console to the XP1 connector of the control board. After switching on, the indicator shows the version number - "Pt-3" for several seconds. Then there is an invitation to dial the 4-digit remote control master code (in the form of the string "__ __"). After entering the correct Master code, the remote control automatically determines and indicates the type of connected device, for devices "A6" the line is displayed: A6.

Then you need to enter 4 digits of the Master Code of the device.

NOTE: If the Device Master Code has less than 4 digits, then the missing digits are replaced, when entered, with zeros at the end of the password. For example, if the device password is "35", you must dial: "3"+"5"+"0"+"0".

All "A6" devices have a password "1" after sale. The same password is set after "zeroing" the instrument's memory.

ATTENTION! If the device password contains more than 4 digits (for example, set with a PC), it is impossible to access such a device using the remote control. For more information about the password, see chapter "Instrument password".

If the device password is entered correctly, the device enters the programming mode, and the current value of the device clock appears on the remote control indicator in the format: HH.MM.

Reading the program from the device to the remote control is carried out by successively pressing three keys: "READ", "0", "1".

Recording a program from the remote control to the device is performed by successively pressing three keys:

"REC", "0", "1".

A new password is written into the device by successively pressing three keys: "ZAP", "0", "0".

The device properties program is divided into 8 pages.

Entering the program page is done by successively pressing three keys:

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011 "RED", "X", "X", where X is the number of the page containing the parameters to be changed.

After selecting a page, the 2 left digits of the indicator show the address of the program cell, and the 2 right digits

- the value of the data contained in this cell. In contrast to the indication for other instruments, for A6 instruments, the location address and its value are always represented as two digits in hexadecimal. Those. to set the time parameters, it is necessary to convert numbers from the decimal system to hexadecimal. The left tetrad has a time coefficient of 16, the right one has a coefficient of 1. To select a time up to 15 seconds, 15 minutes, program the corresponding element only in the right tetrad, and “0” in the left tetrad.

–  –  –

To select times not included in the above tables, program both notebooks:

1. For the selected function, select the appropriate time in the units that are shown (all in seconds or minutes) - but not in minutes and seconds at the same time.

2. Divide the selected time by 16. Enter the quotient in the left notebook, and the remainder, translated according to the table

To the right.

3. Check the elements by adding the contents of the left notebook multiplied by 16 and the right notebook.

EXAMPLE: Program an Entry Delay of 1.5 min.

1. Entry Delay (Address 02) is measured in seconds, so the delay time is 90 seconds.

2. Divide the time by 16: 90 / 16 = 5 (quotient) + 10 (remainder). Enter the quotient in the left notebook, and the remainder, translated according to table 2. - in the right:

address 02 data 5 A Private Remaining

3. Check the elements (remember - element "A" = "10"):

5 x (16) + 10 = 90.

Table of correspondence:

Time\Sum 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Data 1 2 3 4 5 6 7 8 9 A B C D E F ATTENTION! If in the programming tables there is a “+” sign before the digit, when programming several properties at the same time, it is necessary to dial the sum of the digits in the hexadecimal number system, see the table.

Please complete the following tables before programming.

When programming, it is convenient to use the following service functions of the remote control:

FUNC 00 - cell erasure;

FUNC 01 - erasing the program page;

FUNCTION 50 - copying pages of service keys from the remote control memory to the instrument memory.

–  –  –

PPKOP A6 Operation manual. Part II (programming with VPU-A-06 and PR-1) revision 7.03 April 2011

Setting the instrument clock:

It is necessary to press the “Read” button on the remote control and, after the inscription “ul - -” appears on the remote control indicator, enter the numbers “01”

To view and enter the current time, press the "Edit" button on the remote control and, after the appearance of the inscription "Ed - -", enter "14". Two digits of the serial address and two digits of the time will appear on the remote control indicator.

You can scroll through using the digital buttons of the remote control "1" and "2", or by going to the addresses explicitly by pressing "Addr" and, after the appearance of the remote control indicator "- -" on the left notebook, entering the desired address.

"Data" - data editing mode at the current address. When you are at the desired address within the page and press this key, the two digits of the indicator located on the right and displaying data show the characters "_ _", and the console is waiting for data input.

Viewing the event log using the PR-1 programming console The presence of a timer chip in the device allows you to view the event log using the PR-1 programming console with reference to the time of the event.

To do this, you need to press the "Read" button on the remote control and, after the inscription "ul

- -", enter the numbers "02" (if the log is successfully read from the instrument's memory, the highlighted segment will run sequentially on the last matrix of the programming console indicator).

To view the event log, press the "Edit" button on the remote control and, after the appearance of the inscription "Ed - -", enter "21". Two digits of the serial address and two digits of the event code will appear on the remote control indicator. You can scroll through the magazine either using the number buttons of the remote control "1" and "2", or by going to the addresses explicitly by pressing "Addr" and, after the appearance of the remote control indicator "- -" on the left notebook, entering the desired address.

Attention! Please note that the order of events in the log is stored in reverse order, i.e.

the event at sequence address "00" occurred later than the event at sequence address "01", and so on.

By pressing the button “Data” on the remote control and using the buttons “1” and “2” to change the address (the address “-0”, “-1”, “-2”, etc. appears on the remote control), you can view in detail each event: its cause;

key marks; the time the event occurred. The volume of the log is determined by the amount of memory installed on the board and can be up to 128 events, with the possibility of expanding up to 512 events.

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Reception and control fire and security devices of the "A" series are effective and inexpensive equipment for equipping small facilities with reliable security systems of the modern level.

Unlimited program settings – distinguishing feature devices "A6" and "A16-512". Specialists have the opportunity to arbitrarily simulate the nature of work and various control modes for devices connected to devices. This provides a number of advantages over similar equipment, especially in cases where complex tasks need to be solved.

Flexibility in programming allows not only to simulate the operating modes of external devices connected to the device. It makes it possible to group loops into zones (groups) in an arbitrary combination, which provides convenience to the user when arming and disarming premises.

Different ways to manage security zones. You can choose to arm and disarm the premises: with TouchMemory keys, Proximity contactless cards or digital codes entered from the keyboard.

Multiple alarm mode. The device turns on the siren every time an alarm event occurs at the object it controls. This is essential for those cases when the system works autonomously at the facility without transmitting signals to the control panel of security structures.

Work as part of centralized monitoring systems. The devices provide the ability to send messages to the central console about all events occurring at the facility, as well as about the status and modes of operation of the equipment. For this, different communication channels can be used - a radio channel or / and busy lines of the city telephone network.

Network options for the operation of devices. If one device was installed at the facility, the facility continues to grow and the resources of this device are no longer enough, the new problem is solved simply - by combining several stand-alone devices into single system with the output of information from all devices of the system to one desk on duty.

Reliable switching uninterruptible power supply units. All devices "A6" and "A16-512" are equipped with built-in powerful power supplies 220V / 12V and have a place in the housing for installation battery. Power supplies provide battery charging and its disconnection from the device in case of deep discharge.

Access control and management function. This feature built into the instrument allows minimal cost restrict access of unauthorized persons to certain premises of the facility. Complements burglar alarm in daytime days when the object is not guarded, and also allows you to control the use of working time by employees at the facility.

Profitability. The use of devices "A6" and "A16-512" gives a significant economic effect due to the absence of unjustified redundancy of equipment at the facility and savings on installation and maintenance of the system.

Dashboard Audi 100/ 100 Avant, S4/ S4 Avant 1. Gear lever 2. Electrically adjustable exterior mirrors 3. Bonnet release handle 4. Signal 5. Diesel engine warm-up 6. Power windows 7. Door handle 8. Handle.. .

Dashboard Audi A6/ A6 Avant, S6/ S6 Avant 1. Door handle 2. Central locking switch 3. Knurled airflow control knob 4. Lever switch for direction indicators and dipped beam with cruise control switch 5. Switch...

The prevention At fire of one of the lamps designated by the symbol "STOP", during the movement stop and muffle the engine. Temperature/Coolant Level Brake System Engine Oil Pressure...

A - front left B - front right C - rear left D - rear right S - fuse button The fuse button (S) can de-energize the rear door windows. ...

Height adjustment Tilt the steering wheel up or down. Length adjustment Press the steering wheel away from you or pull it towards you. After adjusting, return the lock handle to its original position. ...

1 - Ignition off / engine off, steering wheel can be locked. 2 - Ignition on, preheating system on (diesel), "on for driving". On vehicles with a fault monitoring system, "BREMSLIGHT" or the symbol appears on the display after the ignition is switched on. Click and...

1 - Heated driver's seat control 2 - Fog lamps 3 - Rear fog lamp 4 - Heated rear window 5 - Hazard warning lights 6 - Fuel filter (diesel) or coolant level control 7 - Headlight range control 8 - Drive wheel slip control 9 – R...

A - turn indicator to the right B - turn indicator to the left C - high beam D - low beam, light signal Light switch 0 - lighting off 1 - parking lights 2 - headlights Daytime outdoor lighting In some export versions, with the ignition on, the light ...

Wiper and washer system 0 - system off 1 - intermittent operation 2 - slow mode 3 - fast mode 4 - start-stop mode 5 - windshield washer Headlight washer When the headlights are on, their washers operate each time the windshield washer is turned on. ...

A - fan B - temperature controller C - air distributor Normal operation Switch (A) in position II or III. Temperature regulator (B) in the position corresponding to the required heater output. Air outlet (C) in foggy position. ...

Automatic (standard) mode Standard setting for any season: Press the AUTO key. Set the temperature to 22°C. Make changes to the indicated setting only if necessary, depending on individual well-being. Programming...

A - driver's side B - front passenger's side Press button A or B. The reflective surface of the mirror is set to the desired position by pressing the corresponding side of the large flat button C with arrows printed on it. ...

A - mirror turn button B - switch button to the right or left mirror or to fold both mirrors 1 - neutral position L - mirror on the driver's side R - mirror on the passenger side 2 - laying both exterior mirrors ...

0 - close A - raise B - move away Turn the handle to the desired position to raise/remove the panel. Emergency closing of the sunroof If the electric drive fails, the sunroof can be closed manually. Remove the drive cover. The cover comes off at the front. Remove the crank handle from the back of the cover. Spin...

The car is equipped with an automatic transmission (AKP) with electronic control. P - Parking R - Reverse N - Neutral (Idle) D - Normal driving position 3 - Hilly driving mode 2 - Mountain driving mode 1 - Steep hill driving mode...

1.18 Dynamic Switching Program (DPS)

Early upshifts and late downshifts ensure optimal fuel consumption. The control unit performs automatic program switching. With a restrained driving style, the automation selects an economical shift program. With a temperamental driving style with sharp acceleration and frequent speed changes, using the maximum ...

1.19 Spare or emergency program

VEHICLES WITH A 4-CYLINDER ENGINE In the event of a system malfunction, the automation switches to an emergency or backup version. This is signaled by the glow of all segments on the indicator board at once. Backup program Switching to downshifts and upshifts is carried out automatically as before, only in this case, shocks become more noticeable when shifting ...

When the ignition is switched on, an indication of the actual position of the control lever appears in the instrument cluster. This illustration shows the "P" position. P - parking lock Driving wheels are blocked by means of kinematic links. The parking lock can only be used after the vehicle has stopped. ...

1.21 Kick-down device

The Kick-down device allows you to realize maximum acceleration. When the accelerator pedal is pressed sharply with the transition of the point of resistance, the automation switches to a lower gear depending on the speed and speed. Shifting to the next higher gear occurs only when the maximum engine speed is reached. ...

Starting the engine The engine can only be started when the control lever is in the "N" or "P" position. Selecting a driving mode Always depress the brake pedal before selecting a driving mode when the vehicle is stationary and the engine is running. Do not depress the accelerator pedal when shifting before the vehicle starts moving. In the event of an...

1. Coolant temperature gauge 2. Tachometer 3. Ambient temperature 4. Speedometer with odometer/ trip odometer/ interval indicator Maintenance 5. Button for resetting the one-time mileage counter 6. Fuel gauge in the tank ...

1 – temperature of a cooling liquid The index works at the included ignition. However, after switching on, some time must elapse before the pointer is set to the position corresponding to the actual temperature. Cold engine temperature range While the needle is on the left side of the scale, avoid high speeds and ...

Brake system failure Low fluid level in the cooling system or overheating Oil pressure drop below normal When a flashing red symbol appears, three successive warning sounds are heard ...

BREMSLIGHT or brake light failure Low beam or reversing lamp burnt out Brake pad wear Low washer fluid level...

The function switch (arrow) and the reset button ("Reset") are mounted in the wiper control handle. If the ignition is on, pressing the lower side of the function switch repeatedly will display them in sequence. By pressing the top side of the switch, the f...

1 – driver's seat electric heating switch Switches are made in the form of corrugated handles. With the ignition on, you can use the electric heating of the pillows, backrests of the front and outer rear seats, as well as the steering wheel. The knurled knob (1) can be used to switch on and steplessly adjust the driver's seat heating...

With the help of this system – within the limits determined by the power of the engine – it is possible to maintain any given speed starting from approximately 40 km/h. Thanks to this, it is not necessary to keep your foot on the accelerator pedal, which is especially convenient on long journeys. Warning The cruise control system must not be used at high intensity...

The wiper and washer system only works when the ignition is on. The electric heating of the washer nozzles is switched on when the ignition is switched on, depending on the outside temperature. In frost, before turning on the wiper for the first time, check if the brushes are frozen! Windshield Work in start-stop...

The air conditioner automatically maintains a uniform microclimate throughout the interior space. To do this, the temperature of the air entering through the supply ducts is automatically changed, as well as its mass flow(amount of air) and distribution of air flows. If necessary, manual adjustments can be made to this automatic process. ...

The air supply through the devices intended for this is regulated, depending on the selected control mode, automatically or manually. The illustration shows the air supply devices located on the instrument panel. Through any of them, heated, unheated or cooled fresh air can flow. Supply...

A - display B - yellow control lamp for programming the start time C - green control lamp for turning on the heater D - heating/ventilation button

1.34 Electronic differential lock (EDS)

EDS works in conjunction with ABS. EDS operates in automatic mode, without the participation of the driver. Using ABS sensors, the device controls the speed of the drive wheels up to a speed of about 40 km/h. The device specifically brakes slipping wheels (for example, on a slippery roadway), and those with better grip receive increased traction. Need to hold...

5-cylinder diesel engine 1. Terminal (-) for auxiliary cable 2. Battery 3. Terminal (+) for auxiliary cable 4. Engine oil filler hole 5. Engine oil dipstick 6. Brake fluid reservoir 7. Extend...

1.36 Power steering / Servotronic, ride height control

With conventional servo control, the power steering is controlled without electronic control. On vehicles with Servotronic, the electronic governor controls the power steering in response to vehicle speed. In the event of a failure of the Servotronic system, the operation of the power steering is maintained. However, the amplification efficiency...