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Why Invest in a Commercial Security System?

Benefits of Commercial Security Systems for Your Business

Protecting your business with a security system was once merely a suggestion, but with the changing times, it has become more of a necessity these days. Your business is an investment, and it’s worth defending.

Don’t be among the entrepreneurs who forgo a commercial security system until it’s too late—instead, be proactive and install security cameras, intruder detection equipment, and access control systems today. Here’s why investing in commercial security is worthwhile.

Preserve Your Business Assets

For many business owners, the driving factor to install a security system is the chance to keep an eye on valuable assets at all times. From specialty machines to expensive merchandise, your assets are always at risk of damage or theft, whether by intruders or disgruntled employees. With surveillance cameras to catch the action and an alarm system to get the authorities there fast, your security system can help protect your bottom line and bring transgressors to justice.

Protect Your Employees

Preventing losses in your business is about more than just preserving your assets—it’s also about protecting your people. Some features of a commercial security system include panic switches, paging and intercom equipment, mass notification systems, and fire alarms, all of which are designed to make the work environment safe and secure.

Discourage Crime

The mere presence of surveillance cameras is often enough to dissuade would-be criminals from breaking into your business or taking merchandise off the shelf without paying for it. Cameras also help keep employees in line since they know they’re being watched at all times.

Prevent Unwanted Visitors

Advanced electronic locks and programmable key fobs are far more secure than traditional keys, which can be lost or copied without your consent. Access control and intercom systems allow you to monitor and control who enters the building and any restricted areas within your business. You’ll never have to worry about people trespassing without your knowledge ever again.

Promote Fewer Fraudulent Claims

As a business owner, you are at risk of falsified liability claims. For instance, an employee could wrongfully claim a workplace injury, or a customer could feign being injured in your store. With security cameras there to capture it all, you can verify or disprove these claims, as well as determine any safety issues that must be resolved to avoid future incidents.

Qualify for Lower Insurance Premiums

Insurance providers recognize the value of a commercial security system, as it protects against everything from intrusion to theft to worker’s compensation. Your decreased risk after installing a security system could qualify you for lower rates, saving you money on your insurance premiums every month.

Peace of Mind Day and Night

Modern security systems are automated, so you have less to worry about after you close up for the night. When you utilize remote monitoring, you can check live footage of your business from anywhere, anytime. You can also set up notifications from motion sensors, window and door contacts, panic switches, and other components of your system to receive immediate alerts when something goes awry.

Install a Commercial Security System in the Southwest

As a low voltage contractor, Corporate Technology Solutions can design and install a security system in your commercial building based on your exact needs and the layout of your property. Effective burglar systems aren’t one-size-fits-all. That’s why we take an expert approach to understand your point of view when designing the perfect solution for your needs.

Contact Corporate Technology Solutions today to learn more about working with a passionate, experienced security system installer. You can also request an estimate for our services in Arizona.

 

Posted in Uncategorized on February 25th, 2019 · Comments Off on Why Invest in a Commercial Security System?

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Benefits of an Industrial Paging & Intercom System

Are you looking for a simple structured cabling upgrade to help your business run smoothly from day to day? An industrial paging and intercom system could fit your needs perfectly. This addition to your building can simplify and streamline a range of critical business functions. Consider the following reasons why paging and intercom systems are so widely used today.

Simplified Communication

While other technologies such as email and texting have largely replaced printed office memos, paging and intercom systems offer even faster, more streamlined communication. Simply touch a button, and you can speak directly to your desired contact.

Best of all, because intercom systems are dedicated interoffice devices, they don’t introduce a processing burden to your existing network. All office buildings can be transformed into a communications powerhouse.  Whether you have a single active work zone or thousands, there’s an industrial paging and intercom system that’s right for you.

Commercial Security & Safety

An overlooked feature from day to day is the ability to make wide-area, intra-building announcements during an emergency. This mass notification function lets you communicate to your entire staff in an instant.

In the event of a burglary or assault, a paging and intercom system helps you usher people to safety. Of equal importance is the ability to communicate and coordinate efforts with the authorities when they arrive in the lobby.

Accessibility Control

It’s possible to tie an industrial paging and intercom system to your existing access control specifications. This prevents unauthorized personnel or intruders from gaining access to off-limit areas of the building.

When your needs change, reconfiguring the access control parameters is a simple process. This gives you the flexibility to grow and modify your building’s accessibility over time, all with the additional control provided by your paging and intercom system.

Convenience

You have numerous communication and commercial security systems to choose from, but why opt for overly complicated solutions when you can benefit from a streamlined, fully integrated intercom system? Combined with access control, industrial paging can replace the unnecessary hurdles and security risks of ordinary locks and keys. It’s a solution everyone in your office can get behind.

Productivity Boost

When every employee has access to quick, convenient intra-office communication, job satisfaction and productivity both increase. After all, hands-free communication with a simple touch of a button is faster than emailing or texting, two other go-to options for office communication.

The interconnectivity created by paging systems can pay for itself in increased productivity. Just think: you can recover dozens of lost hours per month, especially if your current form of communication is to walk across the office to ask a question (and repeat the trip if you forgot something).

Industrial Paging & Intercom Systems in the Southwest

Corporate Technology Solutions installs advanced ThreeSixty paging and intercom systems with accuracy and precision to ensure you maximize the benefits outlined here. These solutions are among the most advanced in their class, with features delivered on a single laptop server for easy installation, use, and management.

Contact Corporate Technology Solutions today to learn more about industrial paging and intercom systems or to request an estimate. We offer installation and services in Arizona.

Posted in Uncategorized on November 29th, 2018 · Comments Off on Benefits of an Industrial Paging & Intercom System

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2018 Guide to Distributed Antenna Systems (DAS)

Over the past 20 years, Distributed Antenna Systems (DAS) have become an integral part of large building infrastructure. In fact, many US jurisdictions now require DAS installation in new and renovated buildings.

If you want cell phones, emergency responders’ radios, and other wireless devices to work flawlessly in your building, consider installing a DAS. This 2018 guide to distributed antenna systems will help you understand the most common types of DAS and effective implementation methods.

How a DAS Works

Simply put, a DAS is a network of antennas that transmit and receive cellular signals. This efficient distribution method circumvents steel columns and concrete that usually interfere with wireless signals.

In its simplest form, a DAS has two components: a signal source and a distribution system. The goal of these components is to provide ample coverage and capacity. Coverage is most important for buildings located far away from cell towers or constructed with materials that block cell signals. Capacity is the highest priority for locations that use significant cellular data, such as stadiums and venues that accommodate large crowds.

Signal Sources

A DAS must be fed a cellular signal from somewhere. The methods for doing this include:

  • Off-air: An antenna on the roof picks up signals from a cell tower. This is the most popular and cost-effective signal source. It’s feasible as long as the donor signal is strong and clear.
  • Base Transceiver Station: A BTS signal source connects cell carriers directly to the core network via a fiber connection (usually installed by the carrier itself) for high-capacity performance. The setup time is long, but the results are ideal for highly populated venues.
  • Small cells: The latest and fastest-growing signal source technology creates a secure tunnel to the carrier’s network over an Internet connection, generating a high-quality wireless signal.

Signal Distribution Systems

There are four ways to amplify, distribute, and rebroadcast a signal source through a building:

  • Passive DAS: Coaxial cables, splitters, couplers, and taps passively distribute the wireless signal between indoor antennas. This is the lowest-cost option, but signal attenuation is a concern.
  • Active DAS: A master unit performs an analog-to-digital conversion, fiber optic or Ethernet cables (CAT5e or higher) transmit the signal to active antennas, and remote radio units (RRUs) convert the signal back to analog.
  • Hybrid DAS: Both fiber optic and coaxial cables distribute the signal throughout the building. Fewer RRUs are required, so a hybrid DAS costs less than an active system.
  • Digital DAS: The latest technology allows a base band unit (BBU) to communicate directly with the master unit without analog conversion required. While theoretically simpler and cheaper to deploy, competing standards have resulted in little real-world use.

DAS Configurations

The most common ways to combine a signal source and signal distribution system include:

  • Passive off-air DAS: Benefits include low cost, fast deployment, and multi-carrier coverage. A suitable outdoor signal is required.
  • Small cell-fed passive DAS: Poor donor signal strength or congested towers make small cells a great option. A reliable backhaul Internet connection is required.
  • Off-air hybrid DAS: Combine the abilities of an active DAS with the cost benefits of a passive system, ideal for large yet sparsely populated coverage areas.
  • BTS-fed active/hybrid DAS: When the goal is capacity rather than coverage, have the carrier hook into your DAS system with a dedicated fiber connection.

Improve Wireless Coverage with a DAS in Your Southwest Business

For more information about designing and implementing a distributed antenna system in your building, please contact Corporate Technology Solutions. With headquarters in Phoenix, and Tucson, we have the capacity to serve businesses throughout the Southwest.

Posted in Uncategorized on August 21st, 2018 · Comments Off on 2018 Guide to Distributed Antenna Systems (DAS)

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GPON Technology Overview & Benefits

Passive Optical Networks & Fiber Optic Technology

busy commercial office

As a business owner, you know that time is money. You also know that the faster you can accomplish tasks, the better you perform against your competitors. If your copper-based local area network (LAN) is no longer keeping up with your company’s technology improvements and upgrades, now could be the time to switch to GPON. Here’s what you need to know about this technology and its many benefits.

Do you need to upgrade your commercial infrastructure? Call our structured cabling team at (877) 685-2626!

What Is GPON?

Passive optical network, or PON, has been around since the mid-’90s. Gigabit passive optical network, or GPON, is the next evolution in structured cabling technology.

PON and GPON use fiber optics to create a point-to-multipoint network, granting individual users all-fiber access to any Ethernet end-point. User devices, access points, wireless controllers, and application servers can all utilize a passive optical network. Many business owners view GPON as the superior choice for voice and data cabling, and as a result, it has become one of the most popular cabling systems in America.

Here’s a summary of how GPON works:

  • Optical line terminals (OLT) convert signals into light.
  • Single-mode fiber carries the light signal incredibly quickly over long distances if necessary. A splitter divides a single optical fiber into separate strands when needed.
  • An optical network terminal (ONT) converts the light back to a standard Ethernet connection to deliver data to end users.

Benefits of GPON

Consider switching from your outdated copper infrastructure to more advanced GPON and enjoy these benefits:

  • Greater range: Single-mode fiber, like the kind used in GPON systems, can transmit data over 10 to 20 kilometers. On the other hand, conventional copper is typically limited to a range of 100 meters.
  • Faster speeds: Fiber optics provides high-performance bandwidth of 5 gigabits per second (Gbps) downstream and 25 Gbps up to the hub. For larger businesses, scalability enables you to provide a seamless path up to 40 Gbps without upgrading the cabling. Such speeds are inconceivable for copper wires, especially over a great distance.
  • Space-saving benefits: GPON fiber is a fraction of the size of traditional copper cables, meaning less space is required to run the cabling through your building. Also, thanks to the extended signal reach, you don’t need as much signal-boosting equipment. As a result, you can install fewer server rooms and equipment to sustain your business’s network requirements.
  • Lower cost: Fiber optic GPON cables are less expensive than copper-based LAN cables. You can also increase your long-term savings by avoiding the need to invest in wiring closets and associated electronics. A comparative study of PON vs. copper Ethernet LAN conducted by Nokia Bell Labs Consulting found that businesses experience a 20% to 60% decrease in the total cost of ownership after five years.
  • Flexible infrastructure capacity: With a single network, you can achieve full coverage for voice, data, surveillance cameras, Wi-Fi backhaul, and other network functions required to conduct business.
  • Environmentally friendly: As a more efficient and powerful technology for your building, you can consider GPON a step in the right direction. It requires considerably fewer active components to remain up and running, and it doesn’t have strict operating temperature requirements. This means your business uses less electricity and air conditioning when you switch to GPON.

Structured Cabling Installation Services

Our offices in Phoenix, Tempe, and Tucson allow us to serve businesses throughout the Southwest. Don’t let lagging network speeds slow down your voice and data signals! Keep up with your competitors by using GPON as a fast, efficient network solution.

Contact Corporate Technology Solutions to hire cabling contractors for GPON installation services! 

Posted in Uncategorized on May 17th, 2018 · Comments Off on GPON Technology Overview & Benefits

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Next Generation Wireless

Where We Are and Where We’re Going

The TEK Center at Berk-Tek in Pennsylvania recently published research on the future of wireless technology. Read some of the findings below.

As wireless devices become more and more prevalent worldwide, data consumption has also been increasing significantly. With this, industry standards entities are making efforts to enable faster data transmission. Developments in BASE_T, combined with Power over Ethernet, will add further stresses to the copper infrastructure that supports wireless access points. Deploying 6A or higher components will continue to yield future dividends through lessened disruptions and increased flexibility for the next generation of wireless deployments.

Rapid Growth Leads to Rapid Advancement

Because of the accelerating growth of wireless consumption, the expectations and stresses upon WiFi infrastructure will grow exponentially. Cisco’s projections for the next 5 years are that the average smartphone will create a nearly five-fold increase in overall network traffic. This growth will be driven by video consumption. The expectations placed on WiFi deployments are also increasing currently. Providing the adequate bandwidth for data-intensive applications, ensuring a strong signal to maximize speeds, and servicing a continually increasing number of devices are now the major factors driving speed and capacity upgrades to ensure clients are served in an acceptable fashion.

IEEE 802.11ac Drives Base-T Expansion

Client device densities that were considered extraordinary prior to 2014 are now more typical of today’s average wireless-enabled situation. To address rising demand, IEEE 802.11ac was created to increase the bandwidth available to each wireless device. The first deployments of 802.11ac continued to be satisfied by a 1000BASE-T drop, as the maximum aggregate capacity of the access points was approximately 850Mbps. However, later generations have seen that number increase above 1GBps, with the expectation that eight antennae WAPs could reach an eventual maximum of 6.9Gbps. This increasing aggregation of throughput is powering the need for copper backhaul capacity greater than 1Gbps, which the IEEE 802.3, owner of the BASE-T technology, is quickly addressing. However, there are added technical developments underway that will place further weights upon the infrastructure.

Next Generation to Push More Through Air and Copper

Anticipating the constant growth of the wireless market, IEEE 802.11ax is in development with the anticipation of providing improved speed, flexibility and capabilities to wireless networks. There are several goals articulated by the task force working on these developments but targeting a 4X improvement over 802.11ac in average throughput is high on the priority list. This will be attained by improving spectral efficiencies. Rather than using new frequencies, the task force will improve the encoding and deliver more bits per Hertz.

Increasing throughput to a client could be achieved through increased received signal power. However, due to the broadcast signal power limits placed upon the equipment, increasing signal strength to a client is not as simple as “turning up the volume” and will likely necessitate higher densities of access points.

2.5 and 5GBase-T: The Impact of Alien Crosstalk

The drastic increase of wireless bandwidth consumption has driven backhaul speeds at the access point beyond 1Gbps. Today, a solution comprising 10GBASE-T silicon with 400MHz capacity and Power over Ethernet (PoE) to power the access point would be too expensive for speedy market deployment. One conceivable way to address this issue would be to deploy multiple 1000GBASE-T cables. However, this would require the access point and switch to include one RJ-45 port for each gigabit of capacity. At 5 Gbps or more of throughput, it quickly becomes clear that a single RJ-45 solution is more compact and easier to manage than multiple ports.

A more plausible and pleasant market solution is to deploy a short-term step that reuses existing 10GBASE-T encoding to enable a single jack solution while using simpler and more cost-effective PoE magnetics. 2.5GBASE-T and 5GBASE-T provide this method to increase backhaul capacity, but deployment of these new interim speeds may not be as simple as anticipated.

There is a strong desire among the standards bodies to make 2.5GBASE-T and 5GBASE-T capable of operating over existing cabling. However, alien crosstalk is proving to be a limiting factor in Category 5e and Category 6 channel reach, as it was never specified for these categories. TIA is merging its copper cabling infrastructure expertise with technical modeling guidance from IEEE to develop TSB-5021: Guidelines for the Use of Installed Cabling to Support 2.5GBASE-T and 5GBASE-T with guidelines for testing pre-existing cabling to predict 2.5GBASE-T and 5GBASE-T system performance. The TSB provides equations to allow field testers to qualify channel performance with respect to system expectations. The objective of the TIA work is to determine the boundaries by which most installations will operate. However, there is no guarantee that all Category 5e and 6 materials will provide the expected performance. It is also significant to note that the TSB can only offer recommendations at this point, since no additional requirements can be added to standards that have already been finalized.

The TEK Center at Berk-Tek has completed system testing on various levels of Category cabling to understand the impact of alien crosstalk on cable and system performances in conjunction with bundling. The test results provide clear indications that alien crosstalk plays a significant role in limiting system reach with cabling not designed for alien crosstalk mitigation (Category 6 and 5e). While two different designs of a Category 6+ cabling exhibited significantly different capabilities with 2.5GBASE-T, the results were substantially closer when operating as 5GBASE-T, due to the increased susceptibility of data corruption to alien crosstalk at higher speeds. It is possible that the reach of Category 5e and Category 6+ channels could be extended through unbundling. However, the physical isolation of a channel from its neighbors is not always practical and may yield only enough improvement to reach a limited number of additional devices or access points.

The alien crosstalk performance and extended reach margin of Category 6A make it the best solution for wireless deployment. Unlike Category 6 and Category 5e, whose alien crosstalk performance has not been specified, Category 6A offers ample margins to assure 100m system operation and data integrity regardless of network speed or proximity of adjacent channels.

Power over Ethernet and Heat Rise

Power over Ethernet (PoE) is a convenient method to power remote devices, such as WAPs, through communications cabling. As devices become more sophisticated and applications more complex, power consumption increases.

The IEEE 802.3bt group is specifying equipment to supply a maximum of 100W (1 amp per pair). This increased power deployment will result in increased heat generation within the cabling infrastructure. The TEK center performed a study to characterize heat rise within a bundle as 1amp was applied to each pair within a cable, representing the highest expected PoE deployment. Berk-Tek’s Category 6A LANmark-XTP solution with a unique intermittent shield yielded a distinct advantage over Category 6 and Category 5e, allowing for bigger bundles with less heat gain.

The TEK Center then extended the heat studies to understand the impact to 2.5BASE-T and 5GBASE-T four-connector channels as they service devices such as WAPs. Testing revealed that the Category 5e and Category 6+ channels lost 4-5m of reach at 75°C when compared to their ambient 20°C state. The Category 6A channels also exhibited a proportional reduction in system reach; however, due to the excess margin inherent to the design, the system would continue to operate at 100m. This reduction in length is important as most infrastructure validation is performed when the network is off and not operating under the worst-case conditions.

Mitigation performed according to TSB-5021 may not be sufficient as it does not take temperature into account when calculating system margins. When the deployed system is operational and drawing power, an increase in the bundle temperature due to ambient temperature rise and/or cable heat generation may cause mitigated Category 5e and Category 6 channels to fail. The result is the end user will have to further mitigate the channel causing additional down time and site disruption. The use of Category 6A cabling will avoid this issue and provide enough margin to withstand the increased temperatures, delivering data under the duress of increased speeds, alien crosstalk, and elevated temperatures.

Cable and Infrastructure Recommendations

The continued growth of wireless data consumption has pushed the industry to develop additional methods of increasing capacity. While it is possible that these new technologies may work on existing infrastructures, it is clear that modifications to existing Category 5e or Category 6 wireless infrastructure may be required either in the form of mitigation to improve electrical performance or increased number of drops to increase capacity. The superior network capacity, alien crosstalk performance, resistance to heat generation from PoE, and extended reach margin of Category 6A cabling, make it the best choice for wireless deployments.

The Case for Zone Cabling

TIA published TSB-162-A: Telecommunications Cabling Guidelines for Wireless Access Points in November of 2013, to provide directions for cabling in anticipation of growing wireless deployments. IEEE 802.11ac was given specific consideration by selecting a cell size of 3,600 sq. ft. and suggesting a centralized drop configuration. However, Berk-Tek has always recommended two Category 6A drops so additional WAP density could be added with minimal disturbance.

It is anticipated that future wireless technology deployments may need a higher density of WAPs, so zone cabling with Category 6A cabling should also be considered as a design option. Zone cabling is the concept of dropping multiple cables to a centralized location in order to provide additional capacity, which can be used in the form of:

  1. WAP Aggregation: Multiple cable drops are utilized for a single WAP.
  2. Increased PoE: In the case of large WAPs, power delivery can be made more efficient through the use of more copper pairs.
  3. Higher WAP density: Deployment of more WAPs within the cell to reduce the coverage area per WAP.

While some of these new wireless use cases and applications are anticipated to work within today’s 802.11ac WAP density, many applications that utilize positioning functions will benefit from an increased WAP density. Deploying a robust zone cabling infrastructure today using Category 6A or higher components, such as Berk-Tek’s LANmark-XTP, will continue to yield future dividends through minimized disruptions and increased flexibility for the deployment of the next generation of access points.

Contact Us for Cabling and Wireless Solutions in Arizona

Corporate Technology Solutions has been providing turnkey low voltage, structured cabling, and wireless solutions throughout the Southwest for over 15 years. We have offices in Tempe and Tucson and would be happy to discuss your business’s needs and technology strategies. Contact us online or give us a call today.

Posted in Uncategorized on April 16th, 2018 · Comments Off on Next Generation Wireless

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The Crestron Accessory You Need: Enhance Your School or Business’ Video Streaming System with a Network Video Streamer

If your home or business is connected with Crestron®, the CEN-NVS200 is be the perfect accessory for your video system, as it provides a powerful solution for delivering video over Ethernet from a camera or another analog video source. Audio is also supported to enable monitoring of an audio signal interleaved with the video signal. Supporting multiple streams with different formats and quality settings, the CEN-NVS200 is ideal for streaming video and audio simultaneously to a variety of Crestron touchscreens, computers, and mobile devices.

This video streamer has many key benefits, including:

Multi-Platform Combability

The CEN-NVS200 works with most Crestron touchscreens, allowing for monitoring of a door entry camera, nursery camera, or any other composite video source from remote locations throughout the home or workplace. You can also use it to add live video monitoring as part of an XPanel control solution running on a computer, or to any iPhone®, iPad®, or Android™ device running the Crestron App.

High-Quality Streaming

Video streaming capabilities include high-performance H.264, MPEG-4, and MJPEG compression formats, affording compatibility with Crestron devices and software as well as any popular Web browser. A versatile range of settings allows for optimizing each individual stream for its intended application and the capabilities of the network. Video compression settings include frame rate, resolution, and image quality, plus adjustable brightness, contrast, saturation, and sharpness. The CEN-NVS200 supports very high-quality video streaming up to 30 fps @ 720×480 (NTSC) or 25 fps @ 720×576 (PAL) resolutions.

Audio Monitoring

The CEN-NVS200 enables monitoring of live audio along with the video signal by connecting an external microphone or line-level source.

Security Features

Intelligent security features include motion and tamper detection, text overlay, and privacy masking. Up to three motion detection windows can be defined to sense movement in specific areas of the video image. The tamper detection function can detect if the camera has been disabled or disconnected, or if someone has blocked, repositioned, defocused, or spray painted the camera lens. Additionally, an external sensor can be connected to the CEN-NVS200 via its digital input port. Automated control signal scan be triggered in response to any motion, tamper, or external sensor event, enabling logging and notification over the network via Crestron touchscreens, mobile devices, and third-party applications.

Text overlay capability enables clear identification of the camera image, supporting the display of custom captions, time stamp, and frame rate. Privacy masking allows up to 5 areas of the camera image to be obscured.

Live Recording

Built-in recording lets you capture live video, audio, and snapshots right on board, eliminating the need for external recording devices and minimizing network bandwidth consumption. Recording can be started manually via a Web browser. Recording can also be started automatically in response to motion detection or some other trigger. The MP4 video and JPEG or BMP image files can be saved over the network to a computer or server, or locally to an onboard memory card. Local storage affords maximum reliability, allowing recording to continue even if network communications are interrupted.

PTZ Camera Control

AnRS-485 control port is included on the CEN-NVS200, providing for remote control of a pan/tilt/zoom camera.

  • Delivers live streaming video to touchscreens, mobile devices, and Web browsers
  • Accepts the analog video signal from a camera or other video source
  • Compatible with most Crestron® touchscreens
  • Supports Android™, iPhone®, iPad®, and iPod touch® devices running the Crestron App
  • Compatible with Crestron XPanel
  • Supports real-time H.264, MPEG-4, and Motion-JPEG compression
  • Supports resolutions up to 720×480 @ 30fps or 720×576 @ 25fps
  • Supports multiple simultaneous streams with different settings
  • Includes intelligent tamper detection and triple-window motion detection
  • Includes digital I/O for external sensor and alarm
  • Provides event notification to Crestron control systems and third-party applications
  • Enables RS-485 control of Pelco® D and other popular PTZ cameras
  • Supports text captions and time stamp overlay
  • Supports privacy masks
  • Supports audio monitoring
  • Enables live recording of video, audio, and snapshots
  • Onboard SD memory card slot
  • PoE network powered for streamlined connectivity
  • Easy configuration, viewing, and operation via Web browser or Crestron Toolbox™
  • Includes bracket for surface or rack rail mounting

Contact Corporate Technology Solutions for Video Surveillance Services & Network Video Streamers in Arizona

The Crestron Network Video Streamer offers many important benefits and enhancements to your video system for your business or school. Do not wait to protect your building, employees, and customers. Whether you simply need a network video streamer to your current system or if you need video surveillance system installation, we’ve got you covered. We have offices in Tempe and Tucson, but can provide video surveillance or CCTV system installation and services throughout Arizona. Contact us today to get s started on the custom design of your video surveillance system and increase the monitoring and safety of your building!

Posted in Uncategorized on February 24th, 2018 · Comments Off on The Crestron Accessory You Need: Enhance Your School or Business’ Video Streaming System with a Network Video Streamer

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Wireless and IoT Bring Mobile Control Over Workplace

The days of hard-wiring a building are coming to an end. The future is wireless.

If you’re not yet familiar with the term “Internet of Things,” be prepared to hear about it with increasing frequency in the coming years. It’s estimated that by 2020, more than 30 billion devices worldwide will be connected to the IoT. Wireless connectivity in your building gives you the opportunity to utilize the IoT and bring mobile control over the workplace.

What Is the Internet of Things?

The IoT is the interconnection of everyday objects via Wi-Fi and cellular networks. Devices can then speak to each other over the Internet to collect information, communicate alerts, and manage assets. Homes, businesses, and even entire cities can utilize the IoT to improve security, efficiency, and safety.

Applications for the Internet of Things

In the past, all the systems in a building stood alone. The lights turned on when you flipped the switch. The security system engaged when you set the alarm. The HVAC system operated when the thermostat triggered it. But the IoT ties in all of these devices to the Internet and each other. The applications are nearly endless. Here are just a few examples:

  • Sprinkler systems turn on and off automatically based on the weather forecast.
  • Public safety networks ensure adequate cell phone reception inside large structures of concrete and steel.
  • Access control notifications are sent directly to your phone.
  • Alerts regarding low water, oil, and gas levels in storage tanks are sent directly to your phone.
  • Wi-Fi security cameras allow you to wirelessly monitor live feeds from another web-enabled device.
  • Water leak and fire sensors notify you if there’s an emergency.
  • Internet-connected appliances and lights maximize operational efficiency and let you control settings from anywhere.
  • Searchable inventory in an online database eases the process of locating items in a large warehouse.
  • Machines and equipment can auto-diagnose any problems they experience.

How to Set Up the Internet of Things at Your Workplace

A building designed to accommodate wireless connectivity is much more flexible than one with hard-wired cables. For instance, an open office space can easily accommodate 50 workstations without cabling required at each one. This makes the workspace cleaner, less cluttered, and easier to renovate in the future.

To take advantage of the IoT, you need to set up a wireless network in your building. Small cell networks, similar to routers used in residential applications, or distributed antenna systems (DAS) are useful for providing wireless communications throughout a commercial building, large work site, or industrial area.

Then, connect Wi-Fi devices to the network as you see fit, from thermostats and sprinkler systems to security cameras and lights. The ability to expand and modify the IoT gives you limitless mobile control over your workplace.

Get Help Setting Up the Internet of Things

The importance of seamless wireless coverage can’t be overstated. If there are weak signals anywhere in your facility, it could impact building security, safety, and operational efficiency.

That’s why you should trust Corporate Technology Solutions to design and install wireless connectivity solutions best suited to meet your needs. We’ll analyze all aspects of your building’s network during a wireless site survey and produce a design that will serve as the backbone of your IoT system.

Wireless is the wave of the future—don’t be left behind! Contact Corporate Technology Solutions to schedule the wireless communication services you need to get the Internet of Things set up in your commercial building. We serve businesses throughout the Southwest, including Arizona.

Posted in Uncategorized on September 7th, 2017 · Comments Off on Wireless and IoT Bring Mobile Control Over Workplace

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