Transcript
BMS Specification
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BMS Specification Lonix Ltd www.lonix.com
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BMS Specification
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INDEX 1
System Architecture ...........................................................................................................................3 1.1 System Integration .....................................................................................................................3 1.2 Layered System Architecture .....................................................................................................3 1.2.1 Service Level ...................................................................................................................3 1.2.2 Management Level..........................................................................................................4 1.2.3 Control Level ...................................................................................................................5 1.2.4 Field Level .......................................................................................................................5
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BMS Server ..........................................................................................................................................5 2.1 Software .....................................................................................................................................5 2.2 Data Model .................................................................................................................................6 2.3 Integration Interfaces .................................................................................................................7 2.3.1 Enterprise Interface .........................................................................................................8 2.3.2 System Interface .............................................................................................................8 2.4 Hardware....................................................................................................................................8 2.5 Operating System ......................................................................................................................9 2.6 Database ....................................................................................................................................9 2.7 Standby Server ..........................................................................................................................9 2.8 Approved Makes ........................................................................................................................9
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BMS Operator Workstation ................................................................................................................9 3.1 General ......................................................................................................................................9 3.2 Professional User Interface........................................................................................................9 3.3 Hardware................................................................................................................................. 10 3.4 Graphical Pages ..................................................................................................................... 10 3.5 Alarms ..................................................................................................................................... 11 3.6 Trending .................................................................................................................................. 11 3.7 Event Logs .............................................................................................................................. 11 3.8 User Rights Management ....................................................................................................... 12 3.9 Light-weight User Interface ..................................................................................................... 12
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BMS Controllers ............................................................................................................................... 13 4.1 General ................................................................................................................................... 13 4.2 I/O points ................................................................................................................................. 13 4.3 General Purpose Controllers .................................................................................................. 14 4.4 Special Purpose Controllers ................................................................................................... 14
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Field Devices .................................................................................................................................... 15 5.1 Temperature Sensors ............................................................................................................. 15 5.2 Relative Humidity Sensors ...................................................................................................... 15 5.3 CO2 Sensors........................................................................................................................... 15 5.4 CO Sensors............................................................................................................................. 15 5.5 Differential Pressure Sensors ................................................................................................. 16 5.6 Air Differential Pressure Switches .......................................................................................... 16
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Integration with Security Systems ................................................................................................. 16 6.1 Access control and Intruder Alarms ........................................................................................ 16 6.2 Video Surveillance .................................................................................................................. 17 6.3 Fire alarms .............................................................................................................................. 18 6.4 Other systems ......................................................................................................................... 18
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BMS Specification
1 System Architecture 1.1
System Integration The system provider shall furnish and install a fully integrated Building Management System (BMS), incorporating distributed control techniques and standard open communication networks. The system shall be implemented as an integrated, open solution, which integrates BMS and Security systems into one system and enables remote connectivity through standard Building Operating System (BOS) interface of the BMS Server. BMS systems shall be integrated with the BMS Server, applying the open BOS platform as described in the System Architecture. The BMS Server shall provide standard connectivity to one or several Service Center(s), which shall be capable of providing advanced maintenance and security services. System Architecture shall be as specified in the following chapters. Responsibilities of the system provider and system integrator shall be according to normal specifications and practices.
1.2
Layered System Architecture The System Architecture shall consist of four levels: -
Service Level Management Level Control Level Field Level
The system shall be completely modular in structure and freely expandable at any stage. Each level of the system shall operate independently of the next level up, as specified in the system architecture. For example, Control Level shall operate independently without support from Management Level. The system shall be fully consistent with the latest industry standards. To enable efficient functional system integration and to provide maximum flexibility and to respond to changes in the building use, the system offered shall support the use of LonWorks, Modbus, BACnet, M-bus, Ethernet TCP/IP and Internet communication technologies. 1.2.1
Service Level Service Level shall allow the systems to be connected without additional software to one or several Service Center(s), for providing centralized remote monitoring, alarm and fault detection of connected building management and security systems. The Service Center shall be capable of accessing remotely the systems using a standard interface through the Building Operating System (BOS) platform. The standard connectivity shall enable providing advanced maintenance and security services, such as maintenance alarm monitoring, security alarm monitoring, remote diagnostics, main user capability, remote control and optimization of all systems, energy optimization, trending and reporting services.
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The Service Center shall support connectivity of multiple sites in multi-operator environment. Predefined alarms from connected sites – e.g. intruder alarms, dirty filter notifications or leakage alarms, for example – shall appear in the alarm list with a specified priority. Alarms shall be stored in the central database. Remote diagnostics of site systems and devices shall enable proactive maintenance of technical systems, energy optimization and efficient management of the infrastructure. Centralized monitoring of all connected sites with main user capability shall enable e.g. set point changes, manual controls and camera controls by using the remote connection. 1.2.2
Management Level Management Level shall provide a uniform view to all systems through the open Building Operating System (BOS) platform. All the systems - controls of cooling, ventilation and lighting, consumption measurements, access controls, intruder alarms, fire alarms and NVR/DVR systems - shall be integrated with the BOS using device drivers. The BOS shall offer at least the following common services to be used by all connected systems: -
Alarms
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Historical trending
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Logs and reporting
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User profile and role management
To ensure fault-tolerant system functionality, the Management Layer shall not be responsible for any controls. The critical control functionality is taken care of by the intelligence on the Control Layer. The Management Layer shall provide standard connectivity through the BOS platform with the Service Level, with capability to support very advanced maintenance and security services. The BOS software shall also be capable of acting as a gateway between systems conveying messages, for example, from IP or Modbus devices to LON devices and vice versa. Even though the sub systems have to function independenly, the BOS must support redundant Server Configuration. This shall be applicable especially in critical security applications, where BOS is used as Security Management System (SMS). The BOS shall collect trends from defined points, collect and forward alarms from the systems. The BOS shall enable efficient management of user rights. The BOS shall be capable of forwarding alarms to mobile phones using SMS, local alarm printers or to Service Center. It shall be possible to browse the alarm history for reporting and statistical purposes. The BOS shall include a structured XML object model of the building, its parts and spaces, its connected systems, system parts and effect areas of each system. The XML object model shall comply with COBA XML schema. The BOS shall include an open interface for other applications to interact with the connected systems. Communication method between BOS and Client applications shall include at least Java Messaging Service (JMS). No other LONIX LTD www.lonix.com
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primary interfaces are allowed. Web interfaces shall be used for light-weight clients, e.g. automatically generated browser-based user interfaces in residences for Panel PC’s, PDA’s or IPTV. The network technology shall be based on the IT standards, such as TCP/IP, and be compatible with latest LAN/WAN technology. The operating system of the BOS server shall be Linux. The BOS shall be capable of supporting current and future building management protocols through implementation of network interface drivers. The BOS shall be capable of current and future systems and devices through implementation of device drivers. 1.2.3
Control Level The Control Level shall consist of a distributed network of smart controllers, which communicate to each other using a commonly known field bus as specified herein. Connectivity towards Management Level shall utilize standard TCP/IP protocol. The controllers shall include all the intelligence of the system. All communication shall be event based, real-time peer-to-peer communication. All controllers shall be capable of operating autonomously independently of Management Layer. For example, all systems react to alarms on the Control Layer without interference from upper layers. Each automation controller shall be capable of handling several different systems in parallel through flexible distribution of I/O points. Automation controllers shall function as autonomous units and form an intelligent system by communicating in real time over the free topology (FTT-10) Local Operating Network (LON) using standard network variables (SNVT). Security controllers shall utilize RS-485 connection between the network controller and the interface panels.
1.2.4
Field Level The Field Level shall consist of industry standard sensors and actuators, industry standard (wiegand) card readers and IP cameras.
2 BMS Server 2.1
Software The BMS Server Software shall be based on the open BOS platform. The BMS Server shall be a genuinely scalable solution, based on modern software architecture and its core applications shall be implemented using industry standard Java technology. The software shall be capable of running natively on both Windows and Linux operating systems. No virtualization solutions are allowed. The system shall utilize industry standard operating systems, networks and protocols. The system shall support open protocols, including at least LonWorks, BACnet, and Modbus. No external gateway solutions are applicable. The BMS Server Software shall support a true Client-Server architecture, enabling the server application to be run separately from the client application. Whenever required, it shall also be possible to run both applications on the same computer. Client connections to the server must utilize TCP/IP network (e.g. LAN, Internet). The server application shall be able to handle many simultaneous
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BMS Specification
client connections from a number of workstations. The BMS Server Software shall also allow for usage through a standard Internet browser. It shall be possible to run the BMS Server Software as a Windows service or Linux daemon service. It shall be automatically started upon booting of the server computer. The application shall be capable of logging application level events to operating system’s system log. The internal software architecture of the BMS Server Software shall support service oriented architecture, enabling adding and removing of the services during the life cycle of the project. It is not allowed to compile server application code after installation into the target system. The BMS Server Software shall offer an application framework consisting of core services and network interface driver services. The application framework shall start and monitor all these services. It shall also be possible to develop new services to the framework according to the manufacturer’s development API specifications. It shall be possible to support new field bus protocols by implementing new network interface drivers. The BMS Server shall include a SQL database for centralized storage of system events, trends and logs. The system shall include centralized alarm dispatching features for all connected systems, using e.g. GMS and email. The system shall support triggering of functions based on the events from the other connected systems. The BMS Server shall be configurable using a dedicated application, e.g. a Server Manager Tool. It shall be possible configure the Server Application, which is installed to the same computer, or the remotely accessed server using SSH connection. The Server Manager application shall allow for configuration of the services, users and user rights based on the structured data model of the server. It shall be possible to take a backup of the configurations of the server application using the Server Manager Tool. No manual editing or manipulation of the server application’s configuration files is allowed.
2.2
Data Model The data structure of the BMS Server shall be based on XML data model, which includes modeling of systems and devices in a standard manner. The data model shall describe the structure of the building and the control systems, including devices and functions. The model shall include two main sections: the first section contains model of the real world (e.g. building structure) and the second models abstract items (e.g. control systems). The data model shall define at least the following elements:
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Structure of building - floors, spaces, etc.
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Control systems – AHUs, heating system, access control, etc.
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Devices – fans, pumps, doors, cameras, etc.
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Effect areas of devices
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The data model shall be transferred to BMS Server as XML files, describing the building structure and the control model. The XML schemas shall define the structure and elements used in these files.
2.3
Integration Interfaces The BMS Server shall comprise defined interfaces for any system and any application to be connected with the platform. The interfaces shall include interfaces as follows: -
An Enterprise Interface to allow a variety of applications and services to be produced and connected with the BMS Server and accessing all connected systems. The Enterprise Interface shall enable provisioning of any type of value-adding services that require accessing the connected building systems.
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A System Interface to allow different systems to be connected with the BMS Server using Network Interface Drivers and Device Drivers.
Integration using the BMS Server shall allow production of value-adding services for all connected systems in a coherent manner, including but not limited to e.g. the following services: Alarm monitoring: -
Maintenance alarms
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Intruder alarms
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Fire alarms
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Advanced video monitoring
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All alarms trigger corrective action
Energy optimization and trending: -
Setpoint adjustment
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Control optimization
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Trending
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Preventive maintenance
Remote diagnostics of connected devices: -
Immediate feedback from all devices
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Quick replacement of faulty units
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Regular SW updates
Access rights managment:
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Physical access rights
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Virtual access rights
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BMS Specification
2.3.1
Enterprise Interface The Enterprise Interface shall allow different applications to access the BMS Server connected systems and to receive information from connected systems. The interface shall utilize the latest Web Services technology, e.g. SOAP. All communication shall be implemented in standard XML format. External applications shall be able to give commands to the connected systems and to receive information via this XML interface to/from all connected systems. The Enterprise Interface shall include the following main functionality: -
Requesting and modifying Data Point values
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Requesting and modifying alarm events
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Requesting history events (trends, logs)
For example, Data Point values can convey the following types of information: -
Measured values of e.g. temperature, humidity, pressure, CO2, CO; i.e. any type of measurement
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Indications of any type from any connected system
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Metering values of water consumption, electricity consumption, energy consumption
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Other similar data to/from connected systems
It shall be possible to integrate any type of external application with connected building systems using the Enterprise Interface. The XML interface shall allow for rd getting and modifying any data from connected systems to any 3 party applications. It shall be possible to create new connections using a structured XML interface.
2.3.2
System Interface The System Interface shall allow any system to be integrated with the BMS Server. The interface shall consist of Network Interface Drivers and Device Drivers. Network Interface Drivers shall enable communication with external systems and devices utilizing a variety of media and protocols, such as LonWorks, TCP/IP, Modbus, M-Bus, BACnet and others. Network Interface Drivers are services of the BMS Server to provide general access to different field buses. Other services of the BMS Server (e.g. device drivers) can utilize the access provided by Network Interface Drivers. The Device Drivers shall allow integration of different systems/devices with the BMS Server.
2.4
Hardware Ensure that the processor speed of each operator workstation meets the data processing requirements. Recommended: Intel dual core processor, minimum: 2.8 GHz.
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BMS Specification
2.5
Operating System The BMS Server shall run on Linux (preferred) or on a Microsoft Windows 7 / Vista / XP, Windows Server 2003 operating system.
2.6
Database The BMS Server shall preferably come with IBM Solid FlowEngine SQL database, which has to be included in the software distribution. The database shall include ODBC and JDBC drivers. It shall also be possible to use other database engines (e.g. MySQL or others), in case there are specific needs by the customer’s environment.
2.7
Standby Server Whenever there’s a special requirement for High Availability (HA), the system shall be equipped with a standby server. The standby server is normally idle, monitoring the main server, taking over in case the main server fails.
2.8
Approved Makes Approved makes: Lonix COBA BOS Server Software, or approved equivalent makes.
3 BMS Operator Workstation 3.1
General User Interfaces shall provide access to connected systems through the BMS Server. The User Interfaces shall be available both as a Java based application and as a Web Application. System must support two main user interface types: Professional User Interface and Light-weight User Interface.
3.2
Professional User Interface The system shall enable a client-based User Interface for professional usage and for central monitoring of systems (Service Center usage). The professional User Interface shall allow for at least the following:
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Alarm monitoring and alarm handling by multiple operators - Intruder alarms - Fire alarms - Alarms from electrical and mechanical systems - System maintenance alarms - Video monitoring
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Remote diagnostics, energy optimization and trending - Set point adjustment - Control optimization - Trending - Remote diagnostics of system/devices
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Preventive maintenance Consumption reports for energy management and billing
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Logs and reporting
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User profile and role management
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Access rights management
The professional User Interface shall show system views, floor plan views, trend view, alarm view and event log view per building and system layer. The professional User Interface shall include an automatically adapting tree structure of the building, building’s parts, individual spaces, different systems and parts of systems. The tree structure can be used for navigation through the system. All systems connected to BMS Server can be accessed through the same graphical User Interface. The User Interface must be available as a Java based client application, which can be installed to unlimited number of remote computers or laptops. The client software shall allow for remote Internet usage of several sites using the same application. The professional User Interface shall also be available as a Web Application. For local and remote web usage, BMS Server installation shall include an embedded web server, which provides information for users accessing the system with a standard web browser.
3.3
Hardware Ensure that the processor speed of each operator workstation meets the data processing requirements. Use a color monitor with an image quality no less than sVGA.
3.4
Graphical Pages All monitored data shall be displayed on the graphical pages of the User Interface. It shall be possible to display all kinds of data (analogue, digital, soft points) simultaneously. All changes made by the operator (e.g. set point changes) shall be logged and identified by both operator name and time stamp. All real-time data shall be integrated with schematic view of the system and displayed on graphical pages to enable easy and efficient monitoring of all systems in the building. The User Interface shall include a template and symbol library that can be used in creation of system schematics and graphical pages. The library shall include a variety of components, including labels, static images, dynamic images and link buttons. It shall be possible to use bitmap images (jpeg, gif, png, bmp) as background images of the system, e.g. floor plan views of system views. Graphical objects can be arranged in relation with each other (bring front, send back). Graphical pages shall be arranged as a tree structure. Links shall be created between the pages to ensure easy and fast access to all needed systems during the operation.
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BMS Specification
Functional components shall be attached with a dialogue, which provides for a more detailed view to the controlled item and allows for changing related parameters in a separate dialogue window. It shall be possible to launch applications (such as Microsoft Word, Excel, custom help files or any third party applications) from a graphical display. If supported by the application, it shall be possible to launch the application with a specified file opened within the launched application.
3.5
Alarms The BMS Server shall include an alarm handling mechanism for connected systems. Alarms shall be displayed in chronological order on the Alarm lists. In addition, it shall be possible to define an optional audible annunciation with user selectable audio file. Alarming points can also include operator instructions as free-form text. Operator can acknowledge alarms either one by one or several at one time. Alarm lists shall be shown as separate tabs, including Active Alarms, Handled by Me, Handled by Others and Acknowledged Alarms. The operator can accept an alarm into his/her handling process, and the alarm is then removed from the main list of Active Alarms. The status of alarms shall be indicated with the following colors. -
Red alarm is active, unacknowledged Yellow alarm is inactive, unacknowledged Green alarm is active, acknowledged Grey alarm is inactive, acknowledged
Alarm list shall include also the Alarm History Browser feature, which enables queries to system wide alarm database covering all present and past alarms. This feature can be used for trouble-shooting and auditing. The Alarm list shall include an advanced linking feature. Each alarming point shall be automatically equipped with a link to guide the operator straight into the alarming point in any of the graphical views.
3.6
Trending The BMS Server shall provide a trending view of each connected system. The user can define the points to be trended and the trending interval. Analogue values shall be shown as line graphs. Discrete and on/off values shall be shown as bars. The user can define which of the trended points are shown in the trending view. It shall be possible to export the trend view as CSV file for utilization by external applications.
3.7
Event Logs Event log shall store all control events that are initiated from the Graphical User Interface by the operator. Each log event shall include event time, user name, controlled point and value. The log shall also include a link to the controlled point to guide the operator straight into the point in any of the graphical views.
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BMS Specification
3.8
User Rights Management The BMS Server shall include a comprehensive user rights management engine for creating and managing users. Each user shall have a user name and a dedicated password for logging into the system. Each user shall belong to a defined User Role with predefined rights for Reading, Writing and Alarm Receiving. Role definitions can be applied on system scale, device scale or on global scale. It shall be possible to define exceptions to the predefined rights for any level of the Data Model. Typically all users shall share the same User Interface view, but it shall also be possible to define and create a customized User Interface view for each user.
3.9
Light-weight User Interface The Light-weight User Interface shall be available for subsystems in e.g. meeting rooms, hotel rooms or residences. The graphical browser-based Light-weight User Interface shall be possible to be used with touch screen panel PC’s, tablet PC’s, IPTV, home computers, laptops, PDA’s and mobile phones. The Light-weight User Interface shall allow for at least the following actions: -
Changing the mode of the space Modifying the mode settings of the controlled devices Changing the set points Modifying the control settings (e.g. dimming level) Manual controls Door controls Camera views Alarm list browsing
The browser-based Light-weight User Interface shall be generated automatically using the structure of the building defined in the Building Information Model. The browser-based User Interface shall utilise latest web technologies, including AJAX. The user interfaces shall provide easy access to frequently needed functionality, such as lighting controls, temperature setpoint modifications, alarms, and configuration of scenes and modes of the space. The same user interface functionality shall be usable through any device with a browser.
3.10 Approved Makes Approved makes: Lonix COBA Client Software, or approved equivalent makes.
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4 BMS Controllers 4.1
General BMS controllers shall provide for capability of control and monitoring of all mechanical and electrical systems, including at minimum cooling/heating system, ventilation system, pumps, tanks, lifts, lighting controls and consumption metering. The mechanical and electrical systems shall be monitored and controlled by smart control nodes connected to Local Operating Network (LON). BMS shall be integrated with lighting controls, security systems and fire alarm system. Lighting of common areas of the building shall be controlled by smart BMS controllers, which shall be connected to LON bus in the same way as desribed for BMS. Lighting controls shall be implemented as part of the integrated BMS. Consumptions of water, electricity, gas and cooling energy shall be measured in each area / apartment. Water and electricity meters shall be equipped with impulse outputs, which are connected to BMS controllers. BMS controllers shall be connected to the central user interface through BMS Server. It shall be possible to integrate BMS systems with security systems as specified in this document. BMS controllers shall include all the intelligence of the automation systems and shall support distribution of intelligence. Systems with centralized master controllers are not allowed. Smart BMS controllers shall be connected to control network (LON). This is mandatory to avoid simultaneous failure of large number of I/O points at the Control Level. Failure of a BMS Controller must affect a maximum of 10 I/O points. BMS Controllers must be commonly used during past 10 years in large scale commercial facilities, such as offices, business centers or hotels. It shall be possible to integrate the systems on Control Level without interference of Management Level, according to System Architecture. Communication between BMS controllers shall be peer-to-peer communication via a Free Topology (FTT-10) Local Operating Network (LON) with the Standard Network Variables Types (SNVT). All communication shall be event based. This will enable peer-to-peer real time communication between controllers of different sub systems and devices of multiple manufacturers. Controllers shall be intelligent modules, capable of operating autonomously independently of Management Level. For example, all systems must be able to react to alarms on the Control Level without interference from upper levels.
4.2
I/O points Each BMS controller shall have about 10 I/O points to achieve maximum reliability and flexibility. Each controller shall be capable of handling several different systems in parallel through flexible distribution of I/O points. The I/O points of the BMS controllers shall be as follows: -
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DI: Digital indication, from potential free contact DO: Digital control, open collector AI: Analog input, standard measurements 0-10 VDC, PT1000 or Ni1000-LG. AO: Analog control, 0-10 VDC or 20 mA
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The BMS controllers shall include PID controllers and ON/OFF (thermostat) functions for implementing the control loops used in engineering system process controls. Logical functions shall be implemented using configurable software objects in the BMS controllers. Field devices shall be connected to BMS controllers using the common industry standards: -
PT-1000 for temperature 0-10 V for other sensors and actuators Potential free contacts for ON/OFF indications and push buttons 24 V relays for ON/OFF controls Impulses for consumption measurements
To guarantee openness, flexibility and cost-efficient maintenance of the integrated systems, the field devices shall not include independent control logic. BMS controllers can be placed to the nearest electric cabin, side of air-handling units or in separate cabins when adequate. All systems shall use the same control network cabling, which uses free topology to maximize flexibility for future modifications and to minimize the need for cables. Electrical design shall utilise star topology for controlled loads to maximize flexibility for changes.
4.3
General Purpose Controllers BMS controllers must include a selection of General Purpose Controllers, which are freely configurable to achieve maximum reliability and flexibility and to meet the sequence of operation and future modifications. Configuration shall be done with a graphical system configuration tool, which shall be compatible with the Building Operating System (BOS). The tool shall produce a BOS compatible XML document about all integrated systems, which can be used as such to run the BOS.
4.4
Special Purpose Controllers Special Purpose Controllers shall be used as autonomous controllers in rooms, zones and fan coil units. Each Special Purpose Controller alone shall be capable of controlling temperature, air quality (CO2) and lighting in the room or zone. Special Purpose Controllers shall communicate on LON bus. It shall be possible for the FCU controller to automatically change the FCU motor speed based on temperature deviation. The FCU controller shall regulate the cooling valve to meet the desired temperature conditions. FCU controllers shall communicate on LON bus and shall be integrated with BMS system to enable energy optimization and reporting.
4.5
Approved Makes Approved makes: Lonix Controllers.
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BMS Specification
5 Field Devices 5.1
Temperature Sensors Temperature sensors shall meet the following requirements: -
Pt1000 type resistance temperature detector 24 VAC/DC power supply 0-10 VDC output Electronics accuracy of +/-0.1% of span
Room type sensors: -
Operating temperature range of 0°C to 50°C
Duct type sensors: -
Operating temperature range of 0°C to 70°C
Outdoor type sensors: -
5.2
Operating temperature range of -45°C to 85°C
Relative Humidity Sensors Humidity sensors shall meet the following requirements: -
0-10 VDC output proportional to relative humidity range of 0% to 100% 2% accuracy Reverse voltage protected and output limited
Room type sensors: -
Operating temperature range of 0°C to 50°C
Duct type sensors: -
Operating temperature range of 0°C to 70°C
Outdoor type sensors: -
5.3
Operating temperature range of -45°C to 85°C
CO2 Sensors Carbon dioxide detection sensors shall meet the following requirements: -
5.4
0-10 VDC output, proportional to 0 to 2000 ppm of carbon dioxide concentration Standard accuracy to be 3% of reading or 75 ppm, whichever is greater Operating temperature of 0°C to 50°C
CO Sensors Carbon monoxide detection sensors shall meet the following requirements:
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BMS Specification
-
5.5
0-10 VDC output, proportional to 0 to 300 ppm of carbon monoxide concentration Standard accuracy to be 5% of reading or 5 ppm, whichever is greater Operating temperature of 0°C to 50°C
Differential Pressure Sensors Air differential pressure sensor shall meet the following requirements: -
Output shall be 0-10VDC output proportional to pressure input range Select range as required, taking into consideration pressure drop across filter or coil. Typically 0 to 500pa range for low-pressure commercial duct. Operating temperature range of 0°C to 60°C
Water differential pressure sensors shall meet the following requirements: -
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5.6
Output of 0-10 VDC proportional to the pressure sensed Momentary over pressure protection of five times the rated input Operating range shall be suitable for the application. Select range such that it covers from zero differential pressure up to a differential static pressure of between 20% to 50% in excess of the maximum static pressure that could be encountered. Accuracy of better than 1% of full-scale reading
Air Differential Pressure Switches Air differential pressure switches shall meet the following requirements: -
Field adjustable range from 50pa to max range of device Select range as required, taking into consideration pressure drop across filter or coil. Typically 0 to 500pa range for low-pressure commercial duct. Temperature range of –40°C to 82°C Automatic reset
6 Integration with Security Systems 6.1
Access control and Intruder Alarms It shall be possible to integrate Access Control System with BMS Server using the Building Operating System (BOS) as the integration platform. The main reason for integration is to enable Security Management System Operators to rapidly locate the alarm(s), utilising the shortcut function to relevant floor plan view of Professional User Interface and utilize information of other systems like camera views and occupancy information while handling the incidents. Integration shall enable as in the following: 1.) Triggering of different situations to zones of the building - Home /Away / Away for long to save energy and to ensure comfortable indoor conditions.
LONIX LTD www.lonix.com
Teollisuuskatu 33 FI-00510 Helsinki, Finland
Tel. +358 9 349 9853 Fax +358 9 349 9863
VAT 1043054-9 Trade Reg.No. 678.356
BMS Specification
17 (18)
2.) Enable operating Access Control and Intruder alarm systems from Multiple User Interfaces supported by BOS 3.) Triggering functions like starting video recording and turning on lights from events like unauthorised access attempt, 4) Triggering functions like turning ‘ON’ the Air Conditioning Unit of the room while the employee/person is granted access to the building. Access control shall be implemented with proximity readers, control nodes, electronic keys and electric locks. Users can be classified so that they have access only to the spaces they are allowed to enter according to programmed time schedules. The access control system is connected to BOS for full control and reporting, and integrated into the central user interface. Intruder alarm system shall include perimeter protection and indoor surveillance. Monitored doors and windows shall be equipped with magnetic contacts. Movement detectors used in indoor surveillance shall be sensitive enough for presence detection of a single person, so that they can also be used for lighting controls and air-conditioning controls. Intruder alarms are seamlessly integrated on software level to access control, CCTV/DVR/NVR, lighting control and building automation. Granted access disarms the alarm zones automatically. In case of burglary the system gives an alarm, which is relayed through BOS to Service Center and/or to specified mobile phones. Access control and intruder alarm system has to function independently without Management Level. To achieve this, system must have distributed intelligence, which can be located in either Network Controllers or Interface Panels.
6.2
Video Surveillance It shall be possible to integrate Video Surveillance with BMS Server using Building Operating System (BOS) as the integration platform. Integration of Video Surveillance to BMS Server shall enable not only security operators to utilize the system but also other service providers and occupants. For example, a lot of maintenance alarms can be verified by viewing live and recorded video streams via the Professional User Interface and rapid corrective action can be taken. Video monitoring shall be implemented with Hybrid Digital Video Recording (DVR) or a fully IP based Network Video Recording (NVR) system. The video monitoring system shall be integrated with BOS so that the system shall start recording video stream upon triggering from intruder alarm system, access control, CCTV or any other system integrated to BOS. The video monitoring system shall support both analog and IP cameras. The system shall preferably run on Linux operating system. Usage can be done both via video surveillance system’s own User Interface Client and the integrated user interfaces of the BMS Server. In addition to the software based user interface, it shall be possible to additionally expand the operator workstation with hardware based keypad and joystick interfaced with the system.
LONIX LTD www.lonix.com
Teollisuuskatu 33 FI-00510 Helsinki, Finland
Tel. +358 9 349 9853 Fax +358 9 349 9863
VAT 1043054-9 Trade Reg.No. 678.356
BMS Specification
6.3
18 (18)
Fire alarms It shall be possible to integrate Fire Alarm System with BMS Server using the Building Operating System (BOS) as the integration platform. Fire alarm system shall be integrated with BOS for monitoring. Fire alarm system can either be integrated by using potential free contacts from the Fire Alarm Panels which are connected to control modules, or by using system driver which gives alarm information on individual sensor level and zones to BOS. In both cases alarms are relayed to BOS and shown in the integrated graphical user interfaces.
6.4
Other systems Other systems shall enable integration with BMS Server using the Building Operating System (BOS) as the integration platform, whenever applicable.
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LONIX LTD www.lonix.com
Teollisuuskatu 33 FI-00510 Helsinki, Finland
Tel. +358 9 349 9853 Fax +358 9 349 9863
VAT 1043054-9 Trade Reg.No. 678.356