*We Sell & Install Burglar Security Systems for Residential Homes and Businesses*
*Free Alarm Security Systems*
*5 Star Rated Monitoring Stations*
*Licensed Professional Installers*
*Nationwide Customer Service*
*#1 Selling Products*
*We Lease To Own Video Equipment*
Residential Home & Business Security Systems
*WE HELP TO STOP CRIME BEFORE IT HAPPENS*
Your security system connects to our network of Customer Monitoring Centers. Your home and business is monitored by an 2gig security systems, to help protect your home, valuables and loved ones against burglary, robbery and intruders. Your security system is armed with 24-hour-a-day protection, 365 days a year. We is never more than a phone call away.
Call (214) 888-6891 to speak with an Sales Representative to learn more about what promotions were currently offering.
Our Nationwide owned and operated, monitoring centers with world-class back-up capabilities-ensuring 24/7 service through any condition. When an alarm is received, we can notify the police, fire department, or ambulance even if you’re not home.
Wireless home security options keep your system connected via a cellular network with GSM Transmittor so you do not have to own a home phone service. Optional two-way voice intercom system lets you instantly talk to us whenever an alarm goes off.
Video Access Anywhere Thru Smart Devices
HD Cameras (Clarity) Vs Analog (Quality)
Video Cameras, DVR/NVR's & Monitors
All Type Cameras-IP, High Definition, Digital and Analog
*Pan and Tilt Zoom Cameras*
*DVR's and NVR's*
*We Customized Security Systems To Meet Your Needs*
Licensed and Professional Installers
*Professional vs. Do It Yourself*
All security systems need to be installed, but it's up to you whether a professional installs one for you, or if you install it yourself. Generally, DIY installation is cheaper, but professional installation is easy. Both methods have their pros and cons—we'll give you the rundown so you can decide which installation method works best for you.
The best part of professional installation is that you get to sit back and relax while your system is installed for you. Typically, when you call to order your security system, you'll nail down a time that will work for you and a professional installer, so you can be home while the system is being installed. Depending on where you live, some companies can come to your home the same day you call, so your waiting time is minimal. Another reason to choose professional installation is that you benefit from a professional's experience. An installer can make sure your equipment is set up correctly, walk you through the ins and outs of your system, and make suggestions for how to best secure your home. Although professional installation has its perks, it's not without drawbacks. There's usually a bigger upfront cost in the form of installation or activation fees. It can also be inconvenient to schedule a time to be home when an installer is available. Furthermore, if a system requires professional installation and you move to a new property, you may have to pay a second installation fee to move your equipment, or even leave some equipment behind.
*Sit back and relax*
*Less control over system setup*
*Must schedule an appointment*
The best part about DIY installation is that it's free—you don't have to pay installation fees. Plus, when you install your system yourself, you don't have to wait around for an installer. With do-it-yourself security systems, you can usually reconfigure your equipment or add more as you see fit, without having to hassle with an installer. Often, with do-it-yourself installation companies (such as FrontPoint, SimpliSafe, and Protect America), you own the equipment, which means if you move to a new property, your equipment will move with you, with no fees and no hassle. The secret of DIY installation is that it's easy. Even though professional installation requires no work on your part, the "work" required for most do-it-yourself installations is minimal. Most customers, especially those from FrontPoint and SimpliSafe, report that setting up a security system is indeed quick and easy. Do-it-yourself systems are completely wireless, so you don't have to be handy with tools. And since most of the components come standard with adhesive backing, all you have to do is place your sensors and control panel around your home and activate the system. Better yet, you don't have to do all the work on your own, because companies with DIY installation provide guidance as you go. When you set up a system from FrontPoint or Protect America, you simply give them a call, and they'll walk you through the process over the phone and make sure everything is working properly. With SimpliSafe, the control panel will give you electronic prompts to help you along while you're setting up. In all cases, customers say that they're able to set up their systems in about 30 minutes with little to no hassle.
Although there are many benefits to DIY installation, it also has some drawbacks. You may not be a security expert, and therefore, you may question whether you're setting up your equipment correctly. True, you may talk to a professional over the phone, but that professional cannot see the inside your home and may not be able to make specific recommendations that an in-person professional installer would.
*No installation fees*
*Install on your schedule*
*Adjust system how you want it*
*You do the work*
*No in-person professional*
*Usually pay more for equipment*
Analog vs. IP Technologies
In the traditional analog CCTV application, security cameras capture an analog video signal and transfer that signal over coax cable to the Digital Video Recorder (DVR). Each camera may be powered by plugging in the power supply right at the camera or by using RG59 Siamese cable which bundles the video and the power cables. The DVR converts the analog signal to digital, compresses it, and then stores it on a hard drive for later retrieval. Intelligence is built into the DVR to handle such things as scheduling, motion detection, and digital zoom. Monitors for viewing the video are connected to the DVR, or it can be set up to publish over an internal network for viewing on PCs. The DVR can also be set up to broadcast over the Internet and can add password protection and other features. When broadcasting over the Internet, the video for all of the cameras is transmitted as one stream (one IP address). Therefore, it is very efficient.
In the IP world, each network camera captures an analog image but immediately converts it to digital inside the camera. Some digital processing can happen right at the camera, such as compression and motion detection. The digital video stream is then broadcast over the local area network (LAN) using Ethernet (CAT-5 or CAT-6) cable. Power is supplied to the cameras through the ethernet cable via Power-Over-Ethernet (POE) adapters built into the cameras and at the (POE enabled) switch. (FYI - Older style IP cameras do not have POE built in so POE adapters had be added to the system like this.) The ethernet cable for each camera is plugged into the switch which feeds into the network hub. As with all network devices, some set-up needs to be done for each network camera to set up its IP address and other identifying attributes.
A Network Video Recorder (NVR) performs the same function as its DVR cousin in the analog world. It captures each camera's signal, compresses, and records it. The main difference is that the video feeds are digital (and much higher resolution) and not analog. Software built into the NVR provides features such as intelligent search and zoom, etc. The NVR combines the video streams from the cameras and handles the broadcast over the LAN and internet for local and remote viewing. IP Wireless security camera system design is very similar to standard IP camera system design except for the addition of wireless access points inserted between the home network switch and the cameras. This allows you to place cameras up to 1.5 miles (plus up to 328 feet of Ethernet cable) away from your local area network (LAN).
What approach is more cost-effective?
For now, installing analog cameras coupled with DVRs is still the most cost-effective approach for most security applications. However, the cost of IP cameras and components is rapidly declining, making IP systems more and more affordable and desirable. A typical medium quality analog dome camera sells retail for about $50 to $150. A similar quality IP camera sells for at least twice that amount. Analog cameras are available with many different features: varifocal lenses, pan/tilt/zoom, and long distance infrared, for example. Finding just the right combination of features in a network camera for your application might be more difficult and expensive. Sometimes you may have to buy an analog camera and add a separate video server to do the job. Single-channel network video servers currently start at about $300 retail. IP advocates may point out that businesses often have IP networks in place and therefore no additional cabling or hardware is needed. However, each camera requires a port to plug into the switch, so more or bigger switches may need to be purchased. POE adapters might need to be added. If the existing network will not handle the load of the additional network devices, upgrades might need to be made, thereby making the installation more expensive. Finally, bandwidth on the local area network (LAN) needs to be considered. Video uses a lot of bandwidth. The bandwidth used by each camera varies by many factors including the resolution, the compression method, and even the amount of movement in the field of view.
Analog camera systems transmit over coax, not the LAN, so their bandwidth is not much of an issue. The only use of the LAN in analog systems is for the DVR to broadcast video data over the network to local desktop users or to the internet. DVRs tend to broadcast video very efficiently and will only use bandwidth if people are currently viewing the cameras. In IP camera systems on the other hand, each IP camera uses the LAN to broadcast their signal to the NVR so bandwidth can be a big issue. As a general rule, an IP camera using full CIF (352 x 288) resolution, 30 frames per second (30 fps), and MPEG4 compression will require about 720K bits per second (720Kbps). Therefore, if we put 100 IP cameras running CIF on a network, we would use about 72Mbps of bandwidth. This number will double if audio is also transmitted. However, to make bandwidth matters worse for IP - most of the newest IP cameras are coming out with 'megapixel' resolution. This is wonderful from the standpoint of how much clarity and field-of-view can be captured, but it comes at a huge price to bandwidth. A single 2-megapixel IP camera, running 30 fps with MPEG4 compression will use a whopping 6.5Mbps of bandwidth. It should come as no surprise then that some companies have gone so far as to create an entirely separate IP network just to run their camera system. High-resolution IP cameras also require a great deal of hard drive space to store the video. The single 2-megapixel camera described above would require approximately 67 Gigs of hard drive space to record one day's worth of video.
Which approach is higher quality?
There are poor quality components and good quality components no matter which type of system is used. That being said, network cameras do offer some technological advances in the areas of video quality and wireless installations. Analog cameras cannot provide resolution above TV standards, the maximum being about 0.4 megapixel. Resolution of IP cameras can be many times higher (currently up to 5 megapixel) and they can capture a clearer image when objects are moving. This could make a difference in high risk applications such as for casinos and law enforcement. Wireless communication over IP networks has fewer problems with interference, and encryption security is built into the technology.
Note: Click on the image above to see an Analog vs. 1080p (IP or HD-over-Coax) image quality comparison.
Which approach is easier to install & configure?
If an IP network is already in place at the installation site, and it can handle the additional load of the new cameras, then IP cameras will be easier to install. If additional RJ-45 jacks are needed to plug in the network cameras, then the installer only has to run a CAT-5 cable from the camera to the nearest switch. An inexpensive switch can be installed right at the nearest wall jack. In contrast, each cable for analog cameras must be run all the way back to the DVR. If upgrades need to be made to an existing IP network to handle the additional load, obviously the installation would be more difficult. The power for the cameras can be handled fairly easily with either technology. For IP networks, built in POE adapters make sending the power through the existing ethernet cable easy. For analog systems, use RG-59 Siamese cable to combine the video and power cables into one jacket. Either way, there is no additional cabling for power. POE can run 328 feet without a repeater. RG59 can be run 1000 feet without a repeater.
What about wireless?
Analog wireless systems do not work well. This is because the government regulates on which frequencies analog wireless devices can run and how strong the signal can be. Interference from other wireless devices such as cell phones can cause the camera video to be distorted. Interference is especially problematic in buildings with florescent lighting. Digital IP wireless is much better. The digital transmission does not get interference from other analog wireless devices, and the 802.11x communication standard used has encryption built in. Consequently, there is no problem with unauthorized access to the video.
For applications should I consider IP?
IP cameras should be considered for large installation sites that already have a high bandwidth network installed - especially if the cameras will be spread out over a wide area, or if wireless cameras will be used. For large installations with many cameras, some installers still prefer a multiple DVR solution to an IP solution. Software is bundled with higher-end DVRs that allows you to view and record cameras from multiple DVRs. The multiple DVR solution also provides better failover protection. If the network goes down in an IP based system, video is lost from all the cameras. If the network goes down in an analog system, the DVRs are still recording the cameras.