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Johnson Controls recently unveiled the findings of its 2018 Energy Efficiency Indicator (EEI) survey that examined the current and planned investments and key drivers to improve energy efficiency and building systems integration in facilities. Systems integration was identified as one of the top technologies expected to have the biggest impact on the implementation in smart buildings over the next five years, with respondents planning to invest in security, fire and life-safety integrations more so than any other systems integration in the next year. As advanced, connected technologies drive the evolution of smart buildings, security and safety technologies are at the center of more intelligent strategies as they attribute to overall building operations and efficiencies. SourceSecurity.com spoke with Johnson Controls, Building Solutions, North America, VP of Marketing, Hank Monaco, and Senior National Director of Municipal Infrastructure and Smart Cities, Lisa Brown, about the results of the study, smart technology investments and the benefits of a holistic building strategy that integrates security and fire and life-safety systems with core building systems. Q: What is the most striking result from the survey, and what does it mean in the context of a building’s safety and security systems? The results show an increased understanding about the value of integrating safety and security systems with other building systems Hank Monaco: Investment in building system integration increased 23 percent in 2019 compared to 2018, the largest increase of any measure in the survey. When respondents were asked more specifically what systems they we planning to invest in over the next year, fire and life safety integration (61%) and security system integration (58%) were the top two priorities for organisations. The results show an increased understanding about the value of integrating safety and security systems with other building systems to improve overall operations and bolster capabilities beyond the intended function of an individual system. Q: The survey covers integration of fire, life safety and security systems as part of "smart building" systems. How do smarter buildings increase the effectiveness of security and life safety systems? Hank Monaco: A true “smart building” integrates all building systems – security, fire and life-safety, HVAC, lighting etc. – to create a connected, digital infrastructure that enables individual technologies to be more intelligent and perform more advanced functions beyond what they can do on their own. For example, when sensors and video surveillance are integrated with lighting systems, if abnormal activity is detected on the building premise, key stakeholders can be automatically alerted to increase emergency response time. With integrated video surveillance, they also gain the ability to access surveillance footage remotely to assess the situation. When sensors and video surveillance are integrated with lighting systems abnormal activity on the premise can automatically be detected Q: How can integrated security and life safety systems contribute to greater energy efficiency in a smart building environment? Hank Monaco: Security, fire and life-safety systems can help to inform other building systems about how a facility is used, high-trafficked areas and the flow of occupants within a building. Integrated building solutions produce a myriad of data that can be leveraged to increase operational efficiencies. From an energy efficiency standpoint, actionable insights are particularly useful for areas that are not frequently occupied or off-peak hours as you wouldn’t want to heat or cool an entire building for just one person coming in on the weekend. When video surveillance is integrated with HVAC and lighting systems, it can monitor occupancy in a room or hallway. The video analytics can then control the dimming of lights and the temperature depending on occupant levels in a specific vicinity. Similarly, when access control systems are integrated with these same systems, once a card is presented to the reader, it can signal the lights or HVAC system to turn on. In this example, systems integration can ultimately help enable energy savings in the long run. Security and life safety systems contribute to help enable greater energy efficiency and energy savings in the long run Q: What other benefits of integration are there (beyond the core security and life safety functions)? Hank Monaco: Beyond increased security, fire and life-safety functions, the benefits of systems integration include: Increased data and analytics to garner a holistic, streamlined understanding of how systems function and how to improve productivity Ability to track usage to increase efficiency and reduce operational costs Enhanced occupant experience and comfort Increased productivity and workflow to support business objectives Smart-ready, connected environment that can support future technology advancements Q: What lesson or action point should a building owner/operator take from the survey? How can the owner of an existing building leverage the benefits of the smart building environment incrementally and absent a complete overhaul? Lisa Brown: Johnson Controls Energy Efficiency Indicator found that 77% of organisations plan to make investments in energy efficiency and smarter building technology this year. This percentage demonstrates an increased understanding of the benefits of smart buildings and highlights the proactive efforts building owners are taking to adopt advanced technologies. There is an increased understanding that buildings operate more effectively when different building systems are connected As smart buildings continue to evolve, more facilities are beginning to explore opportunities to advance their own spaces. A complete overhaul of legacy systems is not necessary as small investments today can help position a facility to more easily adopt technologies at scale in the future. As a first step, it’s important for building owners to conduct an assessment and establish a strategy that defines a comprehensive set of requirements and prioritises use-cases and implementations. From there, incremental investments and updates can be made over a realistic timeline. Q: What is the ROI of smart buildings? Lisa Brown: As demonstrated by our survey, there is an increased understanding that buildings operate more effectively when different building systems are connected. The advanced analytics and more streamlined data that is gathered through systems integration can provide the building-performance metrics to help better understand the return on investment (ROI) of the building systems. This data is used to better understand the environment and make assessments and improvements overtime to increase efficiencies. Moreover, analytics and data provide valuable insights into where action is needed and what type of return can be expected from key investments.
Remember the old adage “The whole is greater than the sum of its parts?” Nowhere is that truism more evident than when you add network video to the current generation of Internet of Things (IoT) solutions. Whether we’re talking about industrial IoT applications, “Smart – X” (city, building, parking etc.) or retail operations, integrating network video into the solution provides value far beyond simple situational awareness. Optimising sophisticated video technology When video systems first moved from analogue to digital and then became part of the IoT world, they were primarily used to provide visual validation of sensor-detected events. For instance, if an industrial controller sensed an environmental issue such as a temperature exceeding set threshold maximum limits, the sensor would trigger the management software to notify the operator that this event had occurred. The operator could then pull up the video feed of the closest camera and observe the area remotely. While this application is simple, it shows how video enhances sensor management. As edge devices, such as sensors and network video become more intelligent, the interactions between systems are growing in sophistication and generating even greater value than each system could provide on its own. To appreciate how these smart applications are being used to improve overall efficiencies and profitability, let’s delve into three areas where they’re being deployed: intelligent buildings, smart cities, and smart retailing. By overlaying intelligent operational sensors with intelligent video, it’s now possible to automate lighting levels based on motion detection Video-based operational analytics Applying intelligent monitoring to environmental equipment (HVAC) makes it easy for building owners and property managers to determine existing operating costs based on current equipment performance. They can then compare that amount to the cost of upgrades and potential cost savings over time. Lighting is another significant operating cost within building management. By overlaying intelligent operational sensors with intelligent video (light sensors), it’s now possible to automate lighting levels based on motion detection. Lights can automatically turn on or off, brighten or dimmed, to eliminate wasteful energy consumption. With the addition of occupancy analytics via intelligent video, property managers can determine what caused the motion and learn other operational details such as occupancy counts. Did someone walk through and area causing lighting to turn on or up? Did they dwell in this area? These specifics can help managers efficiently optimise lighting controls and reduce the overall operating cost of the property. Businesses are also using smart applications to optimise allocation of desk space and conference areas. For instance, intelligent video can determine conference room occupancy (in use, number of people in room, free space even though showing booked) far better than stand-alone motion sensors. When tied to automated room assignment systems, the additional statistics provided by video analytics might suggest room changes based on room size and number of attendees through back-office applications such as Microsoft Outlook. These examples are just a few of a growing list of available video-based operational analytics currently on the market. Video analytics in smart cities Initial forays into smart city technologies such as smart lighting, smart grid, smart parking and so on relied on standalone sensor technologies. Their capabilities were good but limited. Smart Lighting for instance would use basic light detectors to turn street lighting. Smart Parking and traffic systems would use weight sensors to trigger vehicle counts, traffic signal changes or determine if a parking space was in use and paid for. Augmenting these applications with intelligent video and analytics, however, opens up a whole new world of additional details. In Smart Lighting, the video sensor can now trigger a change in lighting based on rules such as vehicular and pedestrian events. Video analytics can yield additional metadata such as vehicle type (commercial versus public use). Smart Parking becomes much more effective when you can begin to provide vehicle detail such as vehicle type or other information based on licence plate recognition. These additional details can help parking lots operate more efficiently and offer value-added services like space reservation and open space location notifications. Augmenting smart city applications with intelligent video and analytics opens up a whole new world of additional details Smart Grid offers some less obvious but equally valuable system augmentation capabilities. We often associate Smart Grid with simple automated meter reading but these systems also traverse critical power infrastructure. Solution providers in this arena are now offering heightened asset and perimeter protection via integration of network-based radar detection with video and audio analytics. This strategic mix of technologies can be used to minimise false detection alarms, turn on/off or change lighting levels and point cameras to areas of interest for extremely effective and cost-effective perimeter security. Network video for retail intelligence Retailing was one of the earliest adopters of smart device integration with network video and video analytics to support loss prevention and customer safety. They’ve been using video to analyse customer traffic and behaviour in order to improve product placement, increase product sales, as well as cross-sell related items. Adding programmable “Digital Signage” to the mix created new opportunities to display targeted messages based on viewer demographics about additional products and services of potential interest. Integrating network video with point-of-sale terminals to reconcile cash register receipts, adding heat mapping analytics to study customer foot traffic patterns, measuring check out wait times to increase employee productivity and efficiency as well as improve the customer experience are just some of the ways retailers have applied the principles of IoT to their advantage. Overlay intelligent building controls and you can see the exponential power of integrating intelligent video with other IoT devices and systems. Retailing was one of the earliest adopters of smart device integration with network video and video analytics to support loss prevention and customer safety Minimising metadata overload Smart application integration produces an enormous amount of metadata. Collecting, transporting and synthesising this data into meaningful business intelligence can be daunting. It requires disciplined use of resources from the network infrastructure transporting the data locally to the various cloud technologies (private cloud, hybrid cloud, public cloud) storing and disseminating it securely. Generally smart sensor data is fairly light weight in terms of actual data transmitted. Adding video elements can significantly increase bit-rate (bandwidth and storage) requirements. This highlights the need for the video to be more intelligent and interactive with the intelligent sensor and edge device technologies so that resources can be used more efficiently. Smart applications let you do that. You can fine tune video rules and optimise transmission based on retention value. You can program the video to sensor triggers or events, transmitting lower frame rate and resolution video for less interesting video and increasing the video settings when higher quality video is more relevant and valuable based on these sensor triggers. The back-end collectors of sensor metadata are becoming more mainstream and easier to operate. In many sectors, service providers are offering management of this sensor output “As a Service.” As smart IoT technology continues to mature, the benefits of integration between network video systems and other network solutions will only get better. We’re already seeing greater efficiency in operations as well as higher quantifiable returns on investment through cost savings and more in-depth, usable business intelligence.
Utility security staff have a responsibility to ensure they can identify risks associated with security threats Protecting North America’s power grid is a thankless job. Day in and day out, the good citizens of the United States and Canada wake up with the assumption that when they get out of bed each morning and flip on the lights, the room will illuminate, the coffee pot will come to life and their mobile phone will have been fully charged. After all, we live in a modern First World society, where we have come to depend on timely and efficient power at our fingertips. In reality, that reliable electricity that we all enjoy has many people working around the clock to ensure its reliability, resiliency and security. Today’s grid operators are inundated with natural and man-made threats. As utilities tackle the monster of the moment, which is the evolving cybersecurity threat, we must not take our eyes off the more primitive threat. Security threats to US grid Electricity is perhaps the most vital of the critical infrastructures and key resources that support our society. The mission of the North American Electric Reliability Corporation (NERC) is to ensure the reliability of the North American bulk power system (BPS). While electric utility companies are responsible for administering the day-to-day operations of the electric grid, regulators such as NERC and the Federal Energy Regulatory Commission (FERC) are charged with the overall responsibility of ensuring reliability and security. NERC develops and enforces Reliability Standards, annually assesses seasonal and long?term reliability, monitors the bulk power system through system awareness, operates the Electricity Information Sharing and Analysis Center (E-ISAC) and educates, trains and certifies industry personnel. Normal everyday operations of the system are the responsibility of utility owners and operators. Currently, the most significant reliability threat to the U.S. grid is associated with squirrels and balloons, and not religiously inspired terrorists During emergencies, NERC supports industry actions to respond, mitigate and restore the BPS to normal operation by facilitating effective information sharing and communication with and between NERC registered entities, government agencies and the media. This information is not focused on operational decision making; but instead provides utilities data, best practices and mitigation strategies to help recover from crisis. Obviously as a regulatory body, NERC must stay out of emergency response until the utility has best mitigated the threat or reliability issue. Currently, the most significant reliability threat to the U.S. grid is associated with squirrels and balloons, and not religiously inspired terrorists. However – and more applicable to grid operators – we have recently seen noteworthy interest in disabling or destroying critical infrastructure. Coordinated attacks specifically targeting the grid are rare, but an attack by a disgruntled former employee, ideologically motivated activist, or a criminal stumbling across a “soft target”, could inflict significant damage. With an interconnected grid of over 450,000 miles of high voltage transmission lines (100 kV and higher) and over 55,000 substations (100 kV and larger), the targets of opportunity are endless. An attack by a disgruntled former employee, ideologically motivated activist, or a criminal stumbling across a “soft target”, could inflict significant damage Critical infrastructure protection Critical infrastructure protection is a cyclical process incorporating prevention, detection, mitigation, response and recovery. The key to this protection is the identification of credible threats, which will assist energy companies in assessing risks and potential vulnerabilities (weaknesses) of their facilities. Once a threat has been thoroughly analysed, it is then possible to institute preventative measures to deter, detect and delay an attack. Of course, critical infrastructure protection planning must always include mitigation, response and recovery actions in the event an attacker is successful. While the security of the grid is a shared responsibility between the government and the private sector, the primary responsibility rests with utility owners and operators. Utility security staff have a responsibility to ensure they are able to receive and act upon criminal intelligence and be prepared to identify risks and vulnerabilities associated with security threats. Any protection programme that is developed must be as efficient and cost-effective as possible, as budgets are limited and ratepayers are sensitive to wasteful spending. Effective security programmes rely on risk management principles and associated tools to establish priorities, allocate budget dollars and harden infrastructure sites. Physical security protection encompasses defensive mechanisms to prevent, deter and detect physical threats of various kinds. Specifically, these measures are undertaken to protect personnel, equipment and property against anticipated threats. Properly conceived and implemented security policies, programmes and technologies are essential to ensure a facility’s resistance to threats while meeting demand, reliability and performance objectives. Unfortunately, many do not realise the amount of reports, guidelines, standards and assessments that have been developed for use Electricity industry physical security standards Significant progress has been made in the electricity industry surrounding the issue of security. Unfortunately, many do not realise the amount of reports, guidelines, standards and assessments that have been developed for use. The industry has gone through multiple iterations of mandatory Critical Infrastructure Protection (CIP) Standards that focus on security protections. The CIP Standards, while not perfect, may be an example for other sectors to immolate. These standards are a minimum baseline for compliance and utilities should not assume that because they have a good compliance programme they are somehow immune from attack. In addition, many electric utilities undergo a sector-wide Grid Security Exercise (GridEx) every two years to hone their skills and provide updates to their security practices and policies. This is in addition to annual exercises mandated by the cyber standards. It is fair to say that the industry has been very responsive to the evolving security threat and the mandatory requirements found within CIP compliance. As a result of the 2013 California substation attack that destroyed $15 million dollars in infrastructure, industry now has a physical security standard. This standard was created to protect the most critical transmission substations and control centres in North America. While protections vary, many utilities have upgraded their security measures to include concrete or non-scalable perimeters, robust access control, cameras, lighting and armed guards. It is highly likely that we will one day see similar standards put in place to better protect non-nuclear generation facilities, but only time will tell. Many utilities have upgraded security measures to include concrete perimeters, robust access control, cameras, lighting and armed guards The piece that the industry continues to struggle with is information sharing and the ability to quickly obtain actionable threat intelligence; an issue which has been combatted head-on through the sharing of security information amongst utility partners. Large utilities with the manpower and resources to address this initiative are changing the security model from reactive to proactive. If you understand your adversary’s tactics, intent, and capabilities, you can develop strategies to combat their attacks and better plan for future threats. Better, more proactive security, can be achieved through information sharing agreements and partnerships with other utilities, regulatory agencies and intelligence partners. Many utilities do not have the dedicated resources to dissect and aggregate this data and are thus unable to react appropriately, or wind up drawing inaccurate conclusions. As a result, the electricity sector is demanding more access to actionable intelligence and threat streams. With this added intelligence, utilities can better pinpoint threats to specific systems and focus efforts on system recovery and restoration. This will undoubtedly drive better, more informed responses to security incidents. The FBI, DHS and the DOE have made considerable strides in improving information sharing, and giving classified access to intelligence products Improving information sharing Over the past few years, the FBI, DHS and the DOE have made considerable strides in improving information sharing and giving classified access to intelligence products such as bulletins, alerts and secret level briefings. These products have been used to mitigate threats, reduce risk and update internal security policies. Additionally, this data flow has enhanced communications between security teams, management and board members by providing authoritative threat warnings. This ultimately drives better investment strategies by more directly connecting security priorities with business risk management priorities. Unfortunately, utilities still see risks in sharing information with federal partners. Recently, the Washington Post released an article with a salacious headline falsely suggesting that the grid was hacked via Russian malware. Even after correcting the story, the question remains: who leaked the information to the Washington Post? Utilities all over the country were witnessing an information sharing failure. We must assume that at some point in the future a North American utility will suffer from a planned and coordinated attack against electrical infrastructure. Have we looked at credible threats closely enough and did we prepare our people to respond, recover and communicate? As an industry, we will be judged and hard questions will be asked about how seriously we considered the threats and what we did to mitigate future attacks. Success will be determined by how quickly we are able to respond and the swiftness of system recovery. There is no doubt that security is an “all hands” approach by everyone involved.
With the goal of constantly improving the performance of its products, Videotec has now added the new video analysis and GeoMove functions to its NVX cameras. This versatile compact stainless-steel camera is already well known on the market for its exceptional corrosion resistance and for providing high image quality with Full HD, super low-light, 1080p and 30x zoom, with bright clear colours in even the poorest lighting conditions. The NVX camera is used in the maritime sector onboard vessels or as part of traffic control in ports, as well as on railways, transport and industrial process environments. Accurate detection The NVX has been enhanced with Videotec Analytics technology which integrates robust algorithms to ensure accurate detection in even the most adverse external environmental conditions. It offers the operator complete situational awareness at all times. The detection algorithm even works with rain, snow, or low contrast, camera vibrations, sudden changes in changes in light or shadows and in the presence of small animals or insects. Alarm activation Depending on the rules set up by the user, an alarm is generated if an item enters, exits, appears or stopsDepending on the rules set up by the user, an alarm is generated if an item enters, exits, appears or stops for too long within an area. Any violation of these rules will activate the alarm and the other programmed actions. Up to ten rules for each preset can be quickly and easily set up. GeoMove function A particularly interesting feature is the possibility of geo-localising the NVC video cameras on maps to support the new GeoMove and GeoMove&Track features in combination with one or more Videotec PTZ cameras. The GeoMove feature is very useful in perimeter surveillance systems and for port traffic monitoring because it lets the video cameras detect and capture any object through its geographic coordinates, even in critical visibility conditions. Integrated analytics The GeoMove function can be activated via an NVX camera with integrated Videotec Analytics which provides the target’s coordinates to one or more Videotec PTZ(s) and they, in turn, use the coordinates to frame the target. Coordinates can also be sent via third-party software, such as VMS (Video Management Software) or VTS (Vessel Tracking Service) for navigation control, or via radar control systems. GeoMove&Track function GeoMove&Track provides the advantage of having a turnkey detection, positioning, and tracking solution Furthermore, if the PTZ that receives the target’s coordinates has Videotec Analytics integrated, then it can also start the GeoMove&Track function, independently recognising and autonomously tracking the geolocated target. Thanks to GeoMove&Track, the system made up of Videotec fixed and PTZ cameras provide the advantage of having a complete, turnkey detection, positioning and tracking solution guaranteed by Videotec. Marine environment The NVX camera is Lloyd's Register Type Approval System Test Specification Number 1 certified and can therefore be used in marine environments. Such as on boats and ships on open decks, in enclosed spaces, in technical areas that are subject to the heat generated by other equipment or as visual support for docking manoeuvres. Weather protected The total protection against inclement weather and the option of cleaning the camera with high-pressure and high-temperature water jets is guaranteed by the IP66/IP67/IP68/IP69 protection grades. The NVX has been tested and certified from -40°C to +65°C. Models with an integrated wiper or with a polycarbonate window are available for use in the food industry. Design and integration Mounting an NVX is quick and easy, even in confined spaces, thanks to its compact design, lightweight, practical quick-fit connectors and versatile modular support for mounting on walls, ceilings or parapets. Developed entirely by the Videotec R&D team, NVX offers the Videotec guarantee of being a reliable, cyber-safe and future-proof platform that can be easily integrated with third-party products.
Videotec has expanded its range of communication boxes with the new COMB. This product has been designed for use in non-hazardous applications and is robust with its external polycarbonate and extraordinary resistance to external agents. COMB is much more than a simple junction box. It has everything that you need for a state-of-the-art installation and correct operation of one or more Videotec IP or analogue cameras. It provides local low voltage power to connected devices. Functions and features COMB enables fast Ethernet connection thanks to the integrated Ethernet switch equipped with three RJ45 ports and an SFP port (MSA compliant) for fibre optic connection. COMB comes with an extended/industrial range of electronics. The internal board offers 2 bypasses for analogue video signals and 2 bypasses for I/O signals with multipolar connectors. COMB can manage systems that consist of a Videotec PTZ camera with or without the Videotec washing kit; up to two Videotec fixed cameras with or without the Videotec washing kit; or one Videotec fixed camera and one Videotec PTZ without washing kits. Internally, the unit has been designed with easy cable access and convenient connection operations in mind. COMB guarantees maximum protection against impact (IK10) and weather (IP66/IP67/IP68/IP69, and NEMA TYPE 4X and TYPE 6P). Obtained Lloyd’s Register Marine Type Approval certification for the maritime and naval sector. It also complies with railway application standards. COMB is the competitive integrated solution for the professional installation of Videotec cameras in industrial and marine environments.
Videotec, a company with more than thirty years of experience in stainless steel product development for video surveillance in marine offshore/onshore and corrosive industrial environments, announces NXPTZ SERIES2, the new generation of PTZ Full HD video cameras with innovative and high-performance features for outdoor preventive security applications in the most difficult environmental conditions. PTZ product range The PTZ range has been completely revamped and expanded to include visible Day/Night Super low-light, FullHD 1080p-60fps video cameras with DELUX or SONY FCB-EV7520 technology, capable of producing impeccable image clarity even in the most difficult lighting conditions. New thermal PTZ or dual vision network PTZ models are also available for extreme precision in the detection and perimeter monitoring and high-risk environment monitoring and monitoring with poor lighting conditions. The integrated thermal video cameras also offer radiometry features for precise temperature readings, useful in monitoring industrial processes. Intrusion detection for outdoor applications Videotec analytics uses algorithms for accurate detection and precise auto-tracking in most adverse environmental conditions Advanced video analysis features are now available for these PTZ cameras, thanks to Videotec Analytics. This excellent new technology in preventive intrusion detection for outdoor applications, developed entirely by Videotec, uses very strong algorithms for highly accurate detection and precise and fluid auto-tracking even in the most adverse environmental conditions. The detection algorithm is particularly reliable even with the rain, snow, camera vibrations, low contrast, sudden changes in light or shadows and in the presence of small animals or insects. Perimeter surveillance systems The new NXPTZ SERIES2 PTZ video cameras can be geo-localised on the maps to support the GeoMove and GeoMove&Track features. The GeoMove feature is very useful in perimeter surveillance systems and for port traffic control because it lets you capture any target through geographic coordinates, even in critical visibility or offshore conditions. Video management software In a video surveillance system, the GeoMove feature can typically be activated using a camera with Videotec Analytics on board, or through third-party software such as Video Management Software (VMS), which provide the geographic coordinates of a target and use them to guide the Videotec PTZ cameras to capture the target. The coordinates can also be sent in the same way using Vessel Tracking Services (VTS - navigation control services) or using radar control systems. Video analytics SERIES2 video camera can connect the PTZ over fibre optics owing to the SFP module slot on the base unit Furthermore, PTZ video cameras with Videotec Analytics on board can activate the GeoMove&Track feature. In this case, the Videotec PTZ camera that receives the coordinates of the target, thanks to the video analytics, can also recognise and autonomously follow the geo-localised target. Compared to the previous generation, the SERIES2 video cameras can easily connect the PTZ over fibre optics, thanks to the SFP module slot installed directly on the base of the unit. Operating efficiency The NXPTZ SERIES2 PTZ cameras can operate in corrosive environments, thanks to their solid construction in AISI 316L stainless steel with micro shot-peened and electro-polished surfaces, and the extreme precision adopted during the construction processes. The IP66/IP67/IP68/IP69 grades, in addition, to guarantee total protection against inclement weather, allows the device to be cleaned with high-pressure jets of hot water and temporary submersion. NXPTZT SERIES2 maintains maximum operating efficiency with temperatures from -40°F to +149°F. Quality, cyber security, reliability Videotec owns the design know-how for all of its products and this allows total control of mechanics, electronics, positioning, networking, software and firmware. This represents a significant competitive advantage in meeting the needs of personalised solutions or integrations with third-party systems, all with the guarantee of Videotec quality, cyber security and reliability.
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