An example of an estimate for telephony. Budgeting for IP video surveillance
To make a correct estimate for the installation of IP-video surveillance systems, incl. video cameras, optical modules SPF, video recorders and other equipment, you will need the prices of part 10 of the assembly collections "Communication networks". This collection is quite extensive and contains a huge range of prices for the installation of various types of low-current devices, telephony devices, radio communications, television, burglar and alarm systems. According to this collection, you can also mark the installation of specific boards and cabinets for controlling low-current devices. Collections TEPm and FERm for installation are created at the price of the base year 2000 and require conversion to current prices by special indices. Currently, these indices are issued by the Ministry of Construction - the most relevant issue to date is a letter from the Ministry of Construction with indices for various regions as of the 2nd quarter of 2018.
An example of an estimate calculation for IP video surveillance in the TEP database
So, you need make an estimate for IP video surveillance with an optical module, and for some reason you do not want to apply to the quarter estimate bureau to professional estimators. Then you will be helped by an example of drawing up an estimate for the installation of IP-systems, incl. installation of IP video cameras, optical module, video recorder, etc. In our example, the cost of resources is conditional - all the same, you will substitute values from the base suitable for you by region. The main thing, in our opinion, is the correct prices, selected for each type of equipment for video surveillance and security systems.
An example of a cost estimate for IP video surveillance with the installation of an optical module
Price code | Type of work | Unit cost in basic prices, rub. | wages | machine operation |
TERM10-09-001-02 | TV equipment small-sized IP video camera | 187,19 | 124,65 | 62,54 |
Supplier price list | Full HD 1080P Outdoor Mini IP Camera Day / Night IP65 (-45 ° C to + 50 ° C), IR up to 40m, WDR 130dB | 2000 | 0 | |
Supplier price list | Compact IP Day / Night Camera, 2.7mm Fixed Lens with High Resolution | 3000 | 0 | |
Supplier price list | IP video camera with 4.8 - 84 mm lens; execution: street; 25 fps, resolution 1920 x 1080; optical zoom 25x; digital zoom 17x; IR illumination 120 meters | 10000 | ||
TERM08-02-305-01 | Attaching the bracket to the support | 46,72 | 3,53 | 2,78 |
Supplier price list | Bracket for mounting outdoor high-speed PTZ IP video cameras | 187,19 | ||
Equipment price | Pole or Vertical Beam Mount 95 - 124mm, for 5 "and 7" Speed Dome Cameras | 324,65 | ||
TERM11-04-002-01 | Desktop video recorder | 22,48 | 15,29 | 2,78 |
DVR price | Video recorder DuoStation AF 32-16P - 32/32 (recording / playback DualStream) for IP cameras | 10000 | ||
TERM08-03-573-04 | Installation of a wall-mounted switching cabinet | 69,98 | 39,57 | 2,78 |
Telecom cabinet cost | Hardware cabinet 19 "24U complete with accessories | 5000 | ||
TERM10-03-001-04 | Additional board, installed on the ready-made place of the rack | 26,3 | 15,66 | 10,33 |
Equipment price | SFP module optical 1Gbps | 548 | ||
TERM10-02-016-06 | Free-standing: stabilizer and UPS | 175,12 | 53,66 | 17,33 |
UPS Price | UPS - batteries are included with the switch | 5480 | ||
TERp02-02-001-01 | Installation and basic configuration of general and special software - commissioning of IP video surveillance systems | 29,12 |
Optical module mounting pricing alternatives
The optical module is a complex modern device that is actively used today in telephony systems, low-current networks, video surveillance and fire alarm systems. As with any equipment installed using modern installation technologies, based on Internet technologies and digital communications, it is rather difficult to find a direct price for an optical module. As soon as it is not installed - for this, the estimators use a number of different prices, which are united by a low cost. Perhaps the only thing that almost all experienced estimators agree on regarding the installation of an optical module is that the cost of its installation should be much less than that of commissioning. We propose to consider several alternative options for marking the installation of this equipment, which is also used in IP video surveillance.
Even on the example of several prices used to mark the installation of IP-video surveillance systems and optical modules, we notice a clear variety of options when drawing up estimates for one job. Many sophisticated modern devices such as optical SPF modules, transceivers, submodules (SMPE-1, SMA 2-4, SMRTs-4, SMTsDP-4), optical crosses, patch cords, flow and backup power cables, controllers or switching stations are also in the estimates are set at low cost rates. On the other hand, setting up and debugging these devices and devices according to the TEPP collection for commissioning (and sometimes TEPm) can eventually gain the bulk of the amount in the estimate. Thus, the preparation of estimates for the installation of electronic devices, IP-telephony and IP-video surveillance is not an easy task, because it is necessary that the commissioning and installation works are correctly balanced with each other and drawn up into a competent estimate.
Examples of estimates
Drawing up estimates for the installation, assembly and commissioning of control panels and automation
Assessment of the cost of installation and commissioning of cabinets and switchboards ShchMP, ShchU, ShchR, ShchRv, ShchO is made according to the prices of the collection TERM, GESNm or FERm.
An example of an estimate for the device of a pit in Excel, made in the PC Grand Estimate
Local calculations can be performed in various price bases. This example is made in the territorial prices of the Krasnodar Territory.
Everyone learned a little, something ...
Are you interested in the development trends of the budgeting industry in the modern conditions of the construction industries? How important are these trends for the choice of the place of training of the future estimator and the quality of estimates drawn up after graduation? This essay describes the historical prerequisites for the evolution of the budget case in the context of the current market conditions for the study of the budget case.
Market research of services for the development of estimate documentation for the city of Krasnodar
A meaningful essay about the budgeting industry of the Krasnodar Territory and the city of Krasnodar, which makes it possible to analyze the dynamics of structural changes in the entire construction market.
Business plan for creating a tennis club in Krasnodar (short essay)
One of the behavioral tendencies of the population of large cities, incl. Krasnodar, is the popularization of sports that for a long time before that belonged to the category of elite. An illustrative example is tennis, which is gaining more and more popularity. Let's talk about how to make your own tennis club, school or academy.
An example of an estimate for a tennis court turf
An outdoor tennis court is usually dirt, at least this is the case in Krasnodar. The turf of the court is much less common and, in principle, is considered more suitable for playing football. Consider one example of how to build a grass tennis court.
Example (sample) of an explanatory note to an architectural project
The explanatory note is drawn up as part of the working documentation within the framework of projects for the construction, reconstruction of real estate objects: industrial and public buildings, residential premises, apartment buildings and cottages.
An example (sample) of an estimate for landscaping
The local estimate demonstrates an example of the application of prices for the device of rock gardens and rockeries, the breakdown of flower beds, a rabatka and the creation of other landscape objects.
Example (sample) of estimates for outdoor lighting
The local estimate shows an example of the application of prices for the installation of luminaires on poles, installation of a control panel and related electrical work.
Sample estimate for the installation of an automation (control) cabinet
This essay examines the basic approaches to marking the installation of automation cabinets or lighting boards "assembled", compares the cost parameters of various prices in basic prices.
Is a useful free application for Android that allows you to create any. Construction estimate taking into account all your wishes and needs.
Possibilities
When drawing up a construction estimate, a lot of questions always arise and complex mathematical calculations appear. But with the proposed application, budgeting will become work in just a few minutes, especially if the base with the available building materials has already been filled in previously.
You only need to indicate the amount of work and the amount of resources expended to get the final result.
If something does not suit you, you can always make an adjustment. After all, for this it is enough to click on the desired item and hold your finger. After making the necessary changes, the system automatically recalculates the calculations and proposes a new modified calculation.
Additional Information
In addition to the fact that you can make your own estimate, the program "" makes it possible to quickly familiarize yourself with useful information materials that contain general information, as well as the opinions of experts on the quality and characteristics of the material used.
It is very convenient.
Settings
Thanks to a separately highlighted menu item with settings, you can use the programs as comfortably as possible. At any time, you can set up the export / import of data, change the currency, set the coefficient for all prices. Here you can also select and configure the interface (highlighting, scrolling, minimizing, and much more).
Application features
Among the attractive points of the software product are:
- Fast calculation;
- Large selection of building materials;
- Useful building information based on the experience of other professionals;
- Ability to disable ads by purchasing the appropriate update.
Installation of equipment and materials is carried out at the prices of the FERm10 collection, taking into account the General provisions of the collection:
1.10.114. The prices of the collection 10 of section 8 of section 1 take into account the costs of installing devices, apparatus and checking the quality of installation, individual tests of devices for fire and security alarm systems, signaling devices for object, as well as the costs of electrical testing and testing of these fire and security alarm systems in general.
1.10.115. The prices for the collection of 10th section 8 of section 1 are not taken into account:
the costs of manufacturing and installation of structures that are not included in the set of control panels;
costs of protecting the blocking wire from mechanical damage by plywood, hardboard and other materials, as well as painting the blocked surface;
the cost of operating lifting mechanisms or scaffolding when working at a height of 5 m or more;
the flow rate of detectors (sensors) is determined by the project;
costs for the installation of diodes, resistors, installed additionally (determined by the project);
costs for the installation of equipment (except for sensors) of security and fire alarm systems based on a programmable logical station (control panel) or AWP (automated workstation) using a personal computer, determined according to FERm collection 11 "Devices, automation and computer technology" , as well as the costs of testing the specified security and fire alarm systems based on a programmable logical station or AWP as a whole, determined according to FERp collection 2 - according to the standards for systems of I category of technical complexity (Table 02-01-001).
1.10.116. When installing detectors and wires at a height of 5 mi more from the floor level, the installation costs are determined at the appropriate department prices with the application of working coefficients to labor costs and wages:
1.1 - at a height of up to 15 m;
1.25 - at a height of St. 15 m.
1.10.117. The prices 10-08-004-02 and 10-08-004-03 take into account the blocking of surfaces with a single-core wire; the costs of blocking with two single-core wires are determined at the corresponding prices with a factor of 1.6.
1.10.118. When laying 2-3 core wires without a separating base, the costs are determined at the price 10-08-005-03.
1.10.119. When performing work in buildings under the protection of the GIOP, museums, religious premises, the costs of installing detectors, object devices and devices, wires with an open laying are determined according to the prices in Table. 10-08-002, 10-08-003 and 10-08-005 with a coefficient from 1.5 to 2. The size of the coefficient is agreed with the customer.
Let us note the specifics of determining the cost of installation and commissioning of fire alarm equipment.
As previously noted, according to the Technical Part of the FERm10 collection, the costs for the installation of equipment (except for sensors) of security and fire alarm systems based on a programmable logical station (monitoring and control panel) or AWP (automated workstation) using a personal computer, determined by FERm collection 11 " Devices, automation and computer technology ", as well as the costs of testing the specified security and fire alarm systems based on a programmable logical station or AWP as a whole, determined according to FERp collection 2 - according to the standards for systems of I category of technical complexity (Table 02-01 -001)
At the same time, according to the Technical part of the collection FERp02
1.2.1. FERp collection 2 of section 1 are not intended to determine costs:
on video surveillance (security) systems using television installations, loud-speaking communication (warning) systems of automatic fire and security and fire alarm systems, etc., the costs of which are determined according to FERm collection 10 "Communication Equipment".
The Ministry of Construction, represented by Glavgosexpertiza, explained these provisions of the technical parts of the collections in a letter dated 11.12.2018 No. 01-01-17 / 18222-AB.
It says.
FAU "Glavgosexpertiza of Russia", having considered your appeal on behalf of the Ministry of Construction of Russia dated November 29, 2018 No. 52127-ОГ / 09, reports the following.
According to clause 1 of Article 8.3 of the Town Planning Code of the Russian Federation, the estimated cost of construction financed with the involvement of funds from the budgets of the budget system of the Russian Federation, funds of legal entities created by the Russian Federation, constituent entities of the Russian Federation, municipalities, legal entities, the share in the authorized (pooled) capital of which is Russian Federation, constituent entities of the Russian Federation, municipalities is more than 50 percent, as well as the estimated cost of capital repairs of an apartment building (common property in an apartment building), carried out in whole or in part at the expense of a regional operator, a homeowners' partnership, a housing, housing construction cooperative or another specialized consumer cooperative or the funds of the owners of premises in an apartment building, is determined with the obligatory application of estimated standards, information about which is included in the federal register of estimated standards, and estimated prices of building resources.
In other cases, the estimated cost of construction is determined using the estimated standards, information about which is included in the federal register of estimated standards, and the estimated prices of building resources, if provided for by federal law or contract.
When developing estimate documentation, the choice of one or another standard from the current estimate standards is carried out in accordance with the technology used in the project and belongs to the competence of the organization that develops the design and estimate documentation and the technical customer.
In accordance with clause 1.2.1 of the General Provisions to the State Elemental Estimated Standards for Commissioning (HPES 81-05-02-2017), the estimated standards of collection 2 "Automated control systems" (hereinafter referred to as HPES collection 2) of Section 1 are not intended to determine costs labor in the estimated cost of work on systems of automatic fire and security and fire alarm systems, etc., the labor intensity of which is determined according to the state element estimate standards for the installation of equipment (HPESNm 81-03-10-2017) collection 10 "Communication equipment" (hereinafter - collection 10 ).
According to clause 1.10.1 of the General Provisions, the estimated norms of collection 10 take into account the costs of performing a full range of installation works, determined on the basis of the relevant technical conditions and instructions for installation, electrical testing, adjustment, training and equipment setup.
In accordance with clause 1.10.114 of the General Provisions, the estimated norms of collection 10 of section 8 of section 1 take into account the costs of installing devices, devices and checking the quality of installation, individual tests of devices for security and fire alarm systems, signaling devices for object, as well as the costs of electrical testing and testing of the specified security and fire alarm systems as a whole.
According to clause 1.10.115 of the General Provisions, the estimated norms of collection 10 of section 8 of section 1 do not take into account the costs of installing equipment (except for sensors) of security and fire alarm systems based on a programmable logical station (control panel) or an automated workstation (hereinafter - AWP ) using a personal computer, determined according to GESNm 81-03-11-2017 of collection 11 "Devices, automation and computer technology", as well as the costs of testing these security and fire alarm systems based on a programmable logical station or AWP as a whole, determined according to HESNp of collection 2 - according to the standards for systems of I category of technical complexity (Table 02-01-001).
Thus, if the receiving and control devices are mounted according to the prices of the FERm10 collection, then the application of the prices for commissioning according to the FERp02 collection is not permissible.
Linking the prices of FERm and FSSC to the equipment Bolid
equipment identification |
FER rates |
Short description |
FTSTSS rates |
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The BAProg program is designed to configure the configuration parameters of the biometric access controllers "S2000-BIOAccess-F4", "S2000-BIOAccess-F8", "S2000-BIOAccess-F18" and "S2000-BIOAccess-MA300". |
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The OPC Server software is intended for the integration of the Orion Pro workstation and SCADA systems for organizing a workstation for the operation service dispatcher. Allows you to control and manage the security and fire system and fire extinguishing system ISO "Orion" with AWS "Orion Pro". |
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Used by the commissioning organization, not transferred to the customer. |
The Orion-Prog program is intended for recording microprograms (“firmware”) into Orion ISO devices. |
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Used by the commissioning organization, not transferred to the customer. |
PProg program is designed to configure the control panel "S2000", "S2000M |
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FERM10-10-006-01 |
2.3 Reader installation To mount the reader on the wall, you need to drill four holes as shown in Figure 4. |
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FERM10-10-006-01 |
Proxy proximity readers -3A, 3M, 3MA Contactless readers are designed to read the code from identification cards and transmit it to control panels or ACS controllers. Reader installation To fix the reader on the wall, you need to drill two holes as shown in Figure 4. The reader is connected according to the design data according to the diagram in Figure 3. |
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FERM10-10-006-01 |
Contactless readers Proxy-5AG, Proxy-5AB "Proxy-5AG", "Proxy-5AB" are intended for reading the code from identification cards and transmitting it to control panels or ACS controllers. In ISO "Orion" they are used to provide control procedures for loops and sections of security and fire alarm systems and user identification in access points of access control systems Reader installation To fix the reader on the wall, you need to drill two holes for screws and one for the wire outlet according to Figure 1. The reader is connected according to the design data according to the diagram in Figure 2. |
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FERM10-10-006-01 |
Access control controller with built-in proximity reader Proxy-H1000 The access control controller "Proxy-H1000" is used in security systems, in access control systems (ACS) and is designed to read the unique code of ProxCard identification cards and EM-Marine standard cards (for example, KIBI-001 and BIB-001 of Angstrem ") And electric lock control Reader installation Mount the reader on the wall. To fix the reader on the wall, it is necessary to drill two holes according to Figure 1. The reader is connected according to the design data according to the diagram in Figure 2. |
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In the estimate documentation, only the cost is taken into account. Alternatively, you can apply the rate FERm11-04-028-01 Inclusion of plug-in connectors in the equipment, the number of contacts in the connector: up to 14. |
Proxy-USB-МА contactless desktop reader "Proxy-USB-МА" is designed to read the code of identification cards and transfer it to a personal computer via the USB port. The reader is designed to work together with the Orion Pro workstation. Reader installation Desktop contactless reader. The reader is a USB HID-compliant device that works over the USB keyboard interface. Thanks to this, the reader does not require the installation of any drivers. The reader is ready for use immediately after connecting it to the USB port of the PC. The reader is also powered from the PC USB port. |
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FERm11-03-001-01 + connection according to FERm11-08-001-03 or FERm11-04-028-01, depending on the connection option. |
RS232-TTL interface converter Designed to convert RS-232 interface signals to serial interface signals with 5V TTL / CMOS levels. In ISO "Orion" it is used to connect the ATS100 radio transmitter of the LARS notification radio system or the TRX-150 radio transmitter of the Orion Radio radio system to the S2000M console for the purpose of radio monitoring of protected objects. Mounting The transmitter should be installed near a radio transmitter or other connected device with TTL outputs, or, if possible, inside the device. For installation outside the device (on the wall), use the supplied screws and wall plugs. For installation inside the body of the device, double-sided tape is used. |
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Used by the commissioning organization, not transferred to the customer. |
RS485Settings program Purpose - Setting the parameters of operation of the consoles "S2000" and "S2000M" via the RS-485 interface |
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Used by the commissioning organization, not transferred to the customer. |
Settings program Configuring the polling parameters of the "Orion" and "Orion-Pro" workstation devices |
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Used by the commissioning organization, not transferred to the customer. |
Shleifes program The "Shleifes" software module is designed to monitor the parameters of control panels (control panels) and the state of their loops (AL) during commissioning and service work |
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Used by the commissioning organization, not transferred to the customer. |
The Uprog program is intended for setting the configuration parameters of the Orion ISO devices. |
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Used by the commissioning organization, not transferred to the customer. |
Utility for complete configuration of indication units "S2000-BKI" and "S2000-BI" versions 2.22 and higher |
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FERp02-02-001-01 Installation and basic configuration of general and special software FERp02-02-003-01 Functional setting of the AC special software, number of functions - 1 Connection is possible according to the FERm11-04-028-01 option |
USB-RS232 is designed for galvanic isolation and mutual conversion of USB interface signals and RS-232 serial interface signals. Connection 2.2.1 Before connecting the PI to the PC, it is necessary to install the driver from the attached "Information CD Bolid". To do this, in the "Products" section you need to download the driver and install it on your PC 2.2.2 After making all the necessary connections, the PI can be connected to a personal computer. Wait for the message about the successful completion of the driver installation and the readiness of the device for operation. |
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Similar to the previous point |
The "USB-RS485" interface converter is designed for galvanic isolation and mutual conversion of USB interface signals and signals of a two-wire RS-485 trunk interface. In ISO "Orion" it is intended for connecting a PC to system devices during programming. |
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For installation and configuration, the prices are FERp02 |
Automated workstation software "S2000" is intended for workstations of event monitoring in ISO "Orion" and generating reports. It can be used in security and fire systems with a "S2000" / "S2000M" control panel or in security systems without a control panel: with ISO "Orion" devices that support autonomous operation. Workstation "S2000" works only in conjunction with the Guardant electronic dongle plugged into the computer's USB port. |
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FERm10-08-001-11… 13 depending on the number of connected devices (maximum according to project 8). |
Protective switching blocks БЗК isp.01, БЗК isp.02 Designed to distribute the current of the power source ("RIP-12", "RIP-24" or the like) through 8 channels with individual protection. Each channel is equipped with a self-healing fuse and an indicator indicating overcurrent of any of the 8 channels Mounting Install the unit in a convenient place for distributing power rails (installed on walls or on other structures of the room in places protected from atmospheric precipitation, mechanical damage and access by unauthorized persons). The design of the unit allows it to be mounted on a DIN rail. Install the unit and connecting lines in accordance with the connection diagram shown in Figure 3. |
FSSTS-62.1.05.01-0001 FSSTS-62.1.05.01-0002 |
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FERm10-08-001-13 |
The BZL line protection unit is designed to protect the signal circuits of the devices included in the systems from accidental voltage supply from power cables, indirect consequences of lightning discharges and induced impulse overvoltages, electrostatic discharges. The protection unit is produced in 2 versions "BZL" and "BZL / 01" for two and one protected lines, respectively. |
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In fact, this is a box with fuses, so FERm10-04-066-04 will do. |
Protective network block BZS Designed to protect equipment for various purposes in electrical networks (≈220 V, 50 Hz) from high-voltage impulse noise (natural interference - lightning discharges; man-made interference - power switching devices), as well as to protect against prolonged overvoltage over 250 V |
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In my opinion, it is advisable to apply the prices of FERm08-03-573-04 for the installation of the box and FERm08-03-575-01 for the installation of batteries. |
Housing for additional storage batteries (AB). Designed for joint operation with redundant power supplies RIP-12 isp.01 (RIP-12-3 / 17M1), RIP-12 isp. 05 and RIP-24 isp.01 (RIP-24-3 / 7M4), RIP-24 isp.01P or similar, allowing the connection of additional batteries with a capacity of 17 Ah. Available in two versions. Mounting. The box is installed on the walls or other structures of the protected premises near the power source to which it is connected, at a distance of no more than 1 meter. The overall and installation dimensions are shown in the figure. The box is fastened at three points using the screws included in the delivery set. Loosen the fastening of the brackets. Connect one battery to the terminals, observing the polarity (the red wire is connected to the positive terminal of the battery). Fix the position of the battery with the bracket and tighten the screws. Check the presence of voltage at the output terminals, which must be in accordance with clause 1.2.1, as well as its polarity. Connect the second battery in the same way. Place it on the lower battery and secure it in position with the upper bracket. Check the presence and polarity of the output voltage. Make sure that the temperature of fuses F1 and F2 does not significantly exceed room temperature. If the temperature of the fuses is increased, then it is necessary to check the correctness of the connection of the batteries again. Connect the terminals of the output cable, observing the polarity, directly to the terminals of the battery, which is installed in the power supply (i.e. parallel to the terminals of the power supply). Close the cover of the box and screw in the two side screws. Connect the mains voltage to the power supply. |
FSSTS-20.4.04.01-0001 |
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The installation instructions state: Installation of BRIZ is carried out in accordance with the requirements of the installation used fire detectors. We use FERm10-08-002-01 accordingly |
The branching-isolating unit BRIZ is intended for use in a two-wire communication line of the S2000-KDL controller in order to isolate short-circuited sections with subsequent automatic recovery after removing the short circuit. The block branching-insulating "BRIZ" isp.03 is intended for use in a two-wire communication line of the controller "S2000-KDL" and "S2000-KDL-2I" in order to isolate short-circuited sections with subsequent automatic recovery after removing the short circuit. |
FSSTS-61.2.07.02-0051 FSSTS-61.2.07.02-0050 |
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FERm10-08-002-05 |
The Vulcan surface burglar detector is designed to detect an attempt to deliberately destroy (break in) concrete walls and ceilings with a thickness of at least 0.12 m, brick walls with a thickness of at least 0.15 m, wooden structures with a material thickness of 20 to 40 mm, plywood with a thickness not less than 4 mm, structures made of chipboards with a thickness of not less than 15 mm, typical metal safes, cabinets, doors and ATMs with the subsequent issuance of an alarm notification to a centralized monitoring panel or an alarm control device (PPC) by imitation of an optical loop break (AL) relay |
FSSTS-61.2.01.02-0003 |
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FERm10-08-002-02 |
Optical-electronic addressable analogue fire detectors DIP-34A-01-02, DIP-34A-03, DIP-34A-04 The analogue optical-electronic fire detector is designed to monitor the status and detect fires accompanied by the appearance of smoke in closed rooms of various buildings and structures, and to issue notifications "Fire", "Dustiness", "Attention", "Fault", "Disabled", "Test". It is used with the controller "S2000-KDL" |
FSSTs-22.1.02.05-0021 + FSSTs-61.2.02.01-0019 |
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FERm10-08-002-02 |
Self-contained optical-electronic smoke detector DIP-34AVT Designed to monitor the condition and detect fires accompanied by the appearance of smoke in the kitchen of the apartment, in the places where heating systems of summer cottages, cottages, etc. are installed. premises. Gives out light and powerful sound signals "Fire". Warns about the need to replace the battery with a periodic beep of short duration and intensity. |
FSSTS-61.2.02.01-0069 |
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FERm10-08-002-02 for mounting kit - FERm10-08-002-06 |
Optical-electronic addressable smoke detector DIP-34PA Optical-electronic addressable smoke detector, designed to detect fires accompanied by the appearance of smoke in closed rooms of various buildings and structures. It is used with a block-modular receiving and control device, consisting of a Signal-10 unit and a network controller (control and management console “S2000M” or a computer with the “Orion” workstation software installed). Gives messages "Fire", "Malfunction", "Dustiness", "Test". When installing on a suspended ceiling, it is necessary to use the MK-1 or MK-2 mounting kit |
FSSTS-61.2.02.01-0070 |
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FERm10-08-002-02 for mounting kit - FERm10-08-002-06 |
Optical-electronic addressable smoke detector DIP-34PA-03 The optical-electronic addressable smoke detector is designed to detect fires accompanied by the appearance of smoke in closed rooms of various buildings and structures. It is used with a block-modular receiving and control device, consisting of a "Signal-10" block and a network controller ("S2000M" control and management console or a computer with the "Orion PRO" workstation software installed). Gives messages "Fire", "Malfunction", "Dustiness", "Test". When installing on a suspended ceiling, it is necessary to use the MK-2 mounting kit |
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FERm10-08-002-02 |
Optical-electronic smoke detector IPD-Ex |
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FERm10-08-003-07 Optical- (photo) electrical device: a set of transducers (emitter, photodetector) |
Optical-electronic linear fire detector IPDL-Ex Consists of an emitter module (MI) and a receiver module (MP). |
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FERM10-08-002-03 Automatic detector PS: heat, smoke, light in explosion-proof design |
Infrared fire detector IPP-Ex Enclosure protection class IP65 |
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In its essence and design, it is a manual starter. Therefore, the FERm08-03-531-02 price is applicable. A manual general-purpose starter for a current of up to 25 A, free-standing, installed on a structure: on a wall or a column |
Hand-held addressable fire detectors IPR 513-3AM, 3AM isp.01, 02, 3M, 3PAM Designed for manual generation of a fire alarm signal or start of fire automation systems. Forms the message "Fire" by pressing the key. |
FSSTS-61.2.02.03-0026 FSSTS-61.2.02.03-0024 FSSTS-61.2.02.03-0025 FSSTS-61.2.02.03-0023 FSSTS-61.2.02.03-0027 |
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FERM08-03-531-02 |
Manual fire detector IP535-27 IPR-Ex Designed to manually trigger a fire alarm. It differs from the IPR 513 in the shape of the case. The principle of operation and installation is similar |
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FERm10-08-002-05 |
Irbis sound surface burglar detector isp.01 Designed to detect breakage of conventional glass |
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Used by the commissioning organization, not transferred to the customer. |
Designed for configuring the technological device "S2000-T" both on a local computer and on computers in a local network or on the Internet. This software is distributed free of charge. |
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FERM10-08-003-05 |
The detector is a security volumetric radio wave "Krechet" designed to detect the movement of an intruder in a protected area with the subsequent issuance of an alarm notification to a centralized monitoring station (CMS), a notification transmission system (SPI) or a receiving and control device (PPK) by simulating an alarm loop break (AL) optical relay |
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FERm10-08-002-01 |
Security point magnetic contact detector MK-Ex |
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When installing the module inside the RIP case - FERm11-04-008-01, when installing on the wall - FERm10-08-003-03 |
Status monitoring module RIP MKS RIP Designed to monitor the states of the redundant power supplies "RIP-12" and "RIP-24" and transmit notifications to three relay outputs and a light indicator. The ISS can be installed inside the enclosure of the controlled RIP or outside it. When installing inside the case, use 2-sided adhesive tape (Velcro). When installing outside the enclosure (for example, on a wall), use the supplied screws and wall plugs (distance between fixing holes 50 mm). The length of the connecting wires when installing the ISS outside the RIP case should not exceed 50 meters. There are grooves in the lower base of the case for the output of the wires. |
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FERp02-02-001-01 Installation and basic configuration of general and special software FERp02-02-003-01 Functional setting of the AC special software, number of functions - 1 |
The integration module is designed for information interaction of third-party software with the software package "Orion Pro" |
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FERp02-02-001-01 Installation and basic configuration of general and special software FERp02-02-003-01 Functional setting of the AC special software, number of functions - 1 |
Control module ISO "Orion" The software provides an interface for integrators of security systems with which it is possible to control ISO Orion instruments. |
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FERm10-08-003-06 |
Converter module MP 24/12 V It is intended for power supply of detectors, control and monitoring devices of burglar and security and fire alarms, requiring power supply with a voltage of 12 V DC when working together with redundant power supplies RIP-24 or the like. (converts 20-30V range input voltage to 12V). MP is installed on the walls or other structures of the protected premises in places |
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When installing the module inside the RIP-FERm11-04-008-01 case, when installed in a box, the installation of the box itself is accepted according to FERm10-04-066-04, taking into account the cost of the module. |
Converter module MP 24/12 V version 01 Designed to power video cameras (including outdoor surveillance), detectors, alarm and control devices for security and security and fire alarms and other consumers with a voltage of 12 V or 9 V DC MP is located: 1) inside the case of the input voltage source in any place convenient for installation. The MP is fastened using the self-adhesive tape included in the delivery set. At the same time, it is necessary to pay attention to the absence of short circuits of the MP elements on the metal case of the power source; 2) in an IP55 junction box (for outdoor use). Mounting of the MP in the housing of the junction box is carried out using self-tapping screws 3 × 8.01.016 GOST 10621-80. |
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FERm10-08-003-06 |
Converter module MP 24/12 V version 02 Designed for uninterrupted round-the-clock power supply of fire alarm equipment, video cameras, access control systems, as well as various telecommunication equipment (for example, modems and communicators Zelax SHDSL, D-Link Media converter, qBRIDGE SHDSL, NETGAR Gigabit Switch) when working together with redundant power supplies RIP- 24 or similar Installation is similar to MP 24/12 V |
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FERp02-02-001-01 Installation and basic configuration of general and special software FERp02-02-003-01 Functional setting of the AC special software, number of functions - 1 |
AWS "Orion Pro" AWS "Orion Pro" is a software package for the hardware and software complex ISO "Orion", which implements security alarm systems, access control and management, video surveillance, automatic fire-prevention systems, coupled with engineering systems of facilities. |
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Mounting the TRX transmitter discussed earlier The base unit with RRx receivers is usually mounted in a 19 "rack and connected to the receiving antennas via the RF inputs. In the presence of such a rack, and a power supply unit, etc., can also be installed in it, the most suitable price is FERm11-04-008-01. Installation of the SIGNAL-6R terminal device will be discussed below. |
The Orion Radio notification transmission system is a hardware-software complex consisting of a radio notification transmission unit and a terminal receiving device - a base unit with radio signal transmission and reception boards. SYSTEM COMPOSITION: TRX-150 - Transmitter with programmable basic parameters and functions; for the range 146-174 MHz; in a unified body. TRX-450 - Transmitter with programmable basic parameters and functions; for the range 403-470 MHz; in a unified body. Receivers RRx-150- Receiver for 146 - 174 MHz with programmable basic parameters and functions in a unified package. RRx-450 - 403 - 470 MHz receiver with programmable basic parameters and functions in a unified package. Terminal device SIGNAL-6R - Terminal device for the notification transmission system. |
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FERm10-08-001-13 If it is supposed to be mounted on a DIN rail, then it is more expedient to apply the FERm08-03-575-01 price list. In this case, outgoing lines must be taken into account additionally according to FERm11-08-001-03 |
PI-GR interface converter "PI-GR" is intended for galvanic isolation and mutual conversion of RS-232 interface signals and RS-485 two-wire trunk interface signals. PI is fastened with three screws to the wall in a convenient place next to the PC or on a DIN rail |
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In fact, it is a pump control cabinet. Therefore, we use FERm08-03-573-04. |
Fire control device of the POTOK® (POtOK®) Potok-3N series "Potok-3N" is intended for use as part of ISO "Orion" to control the equipment of a pumping station for a sprinkler, deluge, foam fire extinguishing or fire water supply system for fire protection of industrial and civil facilities. The device can operate only under the control of a network controller ("S2000M" console or "Orion Pro" workstation). |
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FERm10-08-001-13 |
Display and control unit Potok-BKI Designed to control the Potok-3N PPU and display the states of the pumping station and 4 fire units, as well as 12 fire departments in the Orion integrated security system together with the Potok-3N PPU. |
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Installation of the device - FERM11-03-001-01 Connecting cables and wires according to the project |
Resource-GSM sensor polling device Installation of the device: "Resource-GSM" is installed on walls or other structures of the premises in places protected from the effects of atmospheric precipitation. The overall and installation dimensions are shown in Figure 2 in the "Overall and installation dimensions" section. 4.2.4. Connect meters and actuators in accordance with Figure 1 4.2.5. Connect the 12 V battery. 4.2.6. Connect the wires of the external supply voltage 220 V. |
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FERm10-02-016-06 |
Redundant power supply for OPS RIP-12 equipment. Different modifications differ in different functions that do not particularly affect the installation time, which allows them to apply the same price Installation of RIP is carried out in accordance with clause 3.2 of the instructions and includes: Fixing the RIP on the wall Battery installation Earthing Connecting the mains wire and load Connecting the RS-485 communication line and the optical relay output. |
FSSTS-62.4.02.02-0034 FSSTS-62.4.02.02-0035 FSSTS-62.4.02.02-0036 FSSTS-62.4.02.02-0038 FSSTS-62.4.02.02-0039 FSSTS-62.4.02.02-0040 FSSTS-62.4.02.02-0041 |
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FERm10-02-016-06 |
Redundant power supply RIP-24 Differs from RIP-12 in higher (24 V) output voltage and the number of used batteries. In general, the installation technology does not differ from the above. |
FSSTS-62.4.02.02-0042 FSSTS-62.4.02.02-0044 FSSTS-62.4.02.02-0046 FSSTS-62.4.02.02-0047 |
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FERm10-04-100-09 |
Voice announcement device Horn The "Rupor" voice announcement module and its modifications are intended for reproduction of external voice messages recorded in the module or broadcasting about actions aimed at ensuring safety and warning in the event of a fire and other emergencies. Wall mounted. |
FSSTS-61.2.04.06-0012 FSSTS-61.2.04.06-0011 |
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The cost is determined by a set of prices for the corresponding components: Rupor-DB - FERm10-08-001-03 + FERm10-02-030-02 Rupor-DT - FERM10-02-030-02 S2000M, Signal-20P, Signal-20M, S2000-BI - at the appropriate prices. |
A set of technical means for providing communication with the fire post-dispatch room Rupor-Dispatcher Complex composition: Monitoring and control panel "S2000M" (optional); PPKUP "Signal-20P" or "Signal-20M"; Display unit "S2000-BI" (optional); The basic unit of the intercom "Rupor-DB" Subscriber unit of the intercom "Rupor-DT" |
FSSTS-61.2.07.02-0016 FSSTS-61.2.07.02-0012 |
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FERm10-08-001-05 |
Fire and security control panel S2000 The control panel is installed on vertical surfaces (walls) at a height of 1.4 - 1.5 m from the floor. The remote control is attached with screws. External connections to the control panel are made "under the screw" through a terminal block installed on the printed circuit board. The connection diagram is given in the Operation Manual. This device is designed to connect 1 alarm loop. |
FSSTS-61.2.04.10-0005 |
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FERM10-10-006-01 |
Access controller S2000-2 Designed to control access through one or two access points by reading the codes of the presented identifiers (Proximity cards, Touch Memory keys and PIN codes), checking the rights and restrictions of access and closing (opening) relay contacts that control locking devices (electromechanical and electromagnetic locks and latches, turnstile, barrier). |
FSSTS-61.2.07.04-0003 isp. 1 - FSSTS-61.2.07.04-0004 |
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FERm10-08-001-04 |
Fire alarm control panel S2000-4 The device allows you to connect up to 4 alarm loops. |
FSSTS-61.2.06.01-0068 |
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FERm11-04-008-01 |
Ademco 58xx device control module via RS-485 interface S2000-Adem The controller is designed to transmit notifications from radio channel detectors of the Ademco 58xx series to the monitoring and control panel (PKU) "S2000M" (version 2.04 and higher) or a computer via the RS-485 interface. Controller installation procedure: a) fix the controller in the Ademco receiver body; b) install the controller in accordance with the wiring diagram |
FSSTS-61.2.07.05-0040 |
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FERM10-10-006-01 |
Biometric access controller S2000-BIOAccess-F18 Designed for joint work with the "Orion Pro" workstation and the organization of an access control system (ACS) by biometric identifiers - fingerprints. The controller is attached to the wall with a bracket. For ease of installation, a self-adhesive transparent marking template is included in the delivery set. To mount the bracket, detach it from the controller. To do this, unscrew the screw at the bottom of the controller using the supplied screwdriver, gently pull the bracket towards you and up. The bracket is fixed to the wall with four screws, the wires are led out through the hole. After connecting all the required electrical circuits and checking the functionality, the controller should be fixed on the bracket, fixing it with the previously unscrewed screws. |
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Likewise S2000-BioAccess-F18 |
Biometric access controller S2000-BIOAccess-MA300 |
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This device does not require installation. For connection it is possible to use the rate FERm11-04-028-01. |
Fingerprint reader S2000-BIOAccess-ZK4500 Designed for joint work with "Orion Pro" workstation and registration of fingerprints with their subsequent saving in the database and access controllers S2000-BIOAccess-F4 / F8 / F18 / MA300. Connects to PC via USB 2.0 interface. A stand is included to keep the controller stable on a desktop. Install the controller on it. To connect the controller to a PC, a wire with a standard USB A connector is removed from the controller. |
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FERm10-08-001-13 |
Converter of interfaces RS-485 / RS-232 to Ethernet S2000-Ethernet "S2000-Ethernet" is designed to transmit data from the RS-232 / RS-485 interface to Ethernet and vice versa. This appliance is wall-mounted and connected to the mains |
FSSTS-61.2.06.01-0011 |
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FERm11-03-001-01 FERm08-03-575-01 when installed on a DIN rail. Connection of cables according to the corresponding prices FERm11. |
Terminal object device for notification transmission over telephone lines, GSM networks, Ethernet S2000-PGE The device is installed on walls or other structures of the room. DIN rail mounting possible. Installation of connecting and communication lines is carried out in accordance with the wiring diagram |
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FERM10-10-006-01 |
Contactless reader S2000-Proxy, S2000-Proxy Н "S2000-Proxy" is intended for reading the code from identification cards and transmitting it to control panels or ACS controllers. The reader is mounted on the wall. |
FSSTS-61.2.07.08-0004 FSSTS-61.2.07.08-0005 |
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FERm10-08-001-13 |
S2000-USB interface converter The inverter is screwed to the wall |
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FERM10-01-051-36 volume 0.6 (6 ends) |
Address expander S2000-AP1 isp.01, S2000-AP1 isp.02, S2000-AP1 isp.03 |
FSSTS-61.2.07.06-0001 FSSTS-61.2.07.06-0002 FSSTS-61.2.07.06-0003 FSSTS-61.2.07.06-0004 |
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FERm10-08-001-13 |
Address expander S2000-AP2 isp.02 AP2 is fixed to the wall with two screws |
FSSTS-61.2.07.06-0005 |
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FERm10-08-001-13 |
Addressable expander S2000-AP8 AP8 is fastened to the wall with two screws |
FSSTS-61.2.07.06-0006 |
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FERm10-08-001-01 |
Control device and control device for automatic fire extinguishing equipment and sirens S2000-ASPT The device is mounted on the wall |
FSSTS-61.2.06.01-0007 |
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FERm10-08-001-03 |
Addressable flow meter S2000-ACP2 The addressable flow meter provides connection of 2 pulse meters and data transmission to the S2000-KDL controller. Addressable consumption meter "S2000-ASR2" ADSR.426433.001 (hereinafter - ASR2) is used with the controller "S2000-KDL" as part of the automated resource consumption metering system with AWP "Resource" or as part of the integrated security system "Orion". |
FSSTS-61.2.07.04-0001 |
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FERm10-08-001-03 |
Addressable flow meter S2000-ACP8 The addressable flow meter provides connection of 8 pulse meters and data transmission to the S2000-KDL controller |
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FERm10-08-001-13 |
Display unit S2000-BI SMD |
FSSTS-61.2.07.02-0031 |
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FERm10-08-001-13 |
Display unit S2000-BI isp.02 |
S2000-BI - FSSTS-61.2.07.02-0030 |
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FERm10-08-001-13 |
Display unit with keyboard S2000-BKI |
FSSTS-61.2.07.02-0035 |
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FERm10-08-001-13 |
Expansion unit for signaling loops S2000-BRShS-Ex Designed for connection of conventional intrinsically safe detectors, agreed on intrinsically safe parameters, into a two-wire communication line "S2000-KDL". 2 alarm loops are connected |
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FERm10-08-002-05 |
Addressable burglar vibration surface detector S2000-V The detector is designed to detect attempts at deliberate destruction (breaking) of concrete walls and ceilings with a thickness of at least 0.12 m, brick walls with a thickness of at least 0.15 m, wooden structures with a material thickness of 20 to 40 mm, plywood with a thickness of at least 4 mm, structures from chipboards with a thickness of at least 15 mm, typical metal safes, cabinets, doors and ATMs. |
FSSTS-61.2.01.02-0002 |
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FERm11-03-001-01 (if on self-tapping screws). When mounting on tape, only the connection is taken into account. |
Addressable thermohygrometer S2000-VT The address meter is designed to measure the temperature and relative humidity of the air at the installation site and transmit the measured values to the S2000-KDL and S2000-KDL-2I controllers with subsequent display on the S2000M console display, or display and monitor using a computer in the AWP Orion Pro, Workstation "S2000", Workstation "Resource". Installed inside the controlled room on a flat surface (walls, etc.) and fastened with two self-tapping screws. Mounting on double-sided tape is also allowed (not included in the delivery set). |
FSSTS-61.2.04.02-0021 |
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FERm11-03-001-01 |
Addressable flood sensor "S2000-DZ" is designed to detect water leaks from water pipes and generate an addressable alarm message via a two-wire communication line (DPLS). drainage or heating. Mounting holes provide the ability to mount the sensor to horizontal or vertical surfaces. |
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