1. Vigitron Network Infrastructure Training Specifying solutions Vigitron Network Infrastructure Training Specifying solutions

2. What Problems are We Solving? Network infrastructures: Need a reliable method to achieve a first connection. Need a reliable method to maintain connections and providing the required PoE power. Need a method to automatically reconnect and re-apply PoE if connections are lost. Need a method to provide the specific amount of PoE power per link to make the most effective use of PoE power. Need a method to compensate for PoE power surges without shutting down power, but still providing equipment protection in case of shorts. Need a method to inform the operator of the system requirements and the need to make adjustments based on actual system needs.

3. How Does PoE Work? The IEEE standard for PoE is more complex than just a power source to a camera. It is designed with safe guards to protect both the power source and camera from excessive power. If a connection between the power source and the PoE powered device is not established with 40ms, or the power source does not have enough power, or a surge occurs over the established power level for more than 40 ms: The port will shut down power.

4. PoE is actually a three step process Step One is “detection pulse”. When a PoE camera is plugged into a PoE source it is off. The action of plugging it in sends a detection pulse to the camera to “wake it up” Step Two is “detection pulse” voltage crosses an resistive element at the camera, establishing the power requirement to the PoE source Step Three: Power flows from the PoE source to the camera at the “established level” which is also a safety level. Dramatic increases above this level or exceeding what the switch port can supply, will shut down power

5. PoE Standards: IEEE 802.3af vs. IEEE 802.3at Note: PoE is not one standard Voltage or Wattage PoE Standards: IEEE 802.3af vs. IEEE 802.3at Note: PoE is not one standard Voltage or Wattage IEEE 802.3af 15.4W PoE Source 15.4W PoE Source 12.95W at Camera 12.95W at Camera Class 0-3 PoE levels at Camera Class 0-3 PoE levels at Camera Requires a detection pulse Requires a detection pulse Min 37V at the PoE camera Min 37V at the PoE camera IEEE 802.3at 30W PoE Source 30W PoE Source 25.5W at Camera 25.5W at Camera Class 0-4 PoE levels at Camera Class 0-4 PoE levels at Camera Requires a detection pulse and a Classification pulse Requires a detection pulse and a Classification pulse Min 42.5V at the PoE camera Min 42.5V at the PoE camera

6. 802.3af vs. 802.3at 802.3af 15.4W Source 15.4W Source 12.95W at Camera 12.95W at Camera Class 0, 3 for Camera PoE Class 0, 3 for Camera PoE Requires one (1) detection pulse. Requires one (1) detection pulse. 802.3at 30W Source 30W Source 25.5W at Camera 25.5W at Camera Class 4 for Camera PoE Class 4 for Camera PoE Requires two (2) detection pulses. Requires two (2) detection pulses. Wake Up More Power

7. The Compatibility Myth Different chip manufacturers developed different solutions at different times. “Some 802.3at operate in the same manner as 802.3af.” Some always require both detection pulses. Some always require both detection pulses. “802.3at is supposed to be compatible with 802.3af.” This is not always the case. This is not always the case.

8. Most PoE powered products will have some form of inrush or surge power. This can occur when power is first applied, or in the case of access control, and lock the very high inrush required for strikes and mag locks. The combination, an increased power over a duration longer than 40 ms, will cause a port to shut down power in order to provide protection. This settings allows the operator to tell the port when to expect this condition, providing the necessary power and maintaining port observation to protect the Midspan and the device it powers. What does this mean to me?

9. PoE (Power Over Ethernet) PoE is an IEEE standard. While considered as a standard, there are differences that have an operational effect. There are generally considered to be two different power levels of PoE: 802.3af, which provides 15.4 watts source power. 802.3at, which provides 30 watts source power. There are many considerations to take into account when using PoE. For our application, these are most important: 1. Power decreases when applied to the distance of 328 feet (100m) as called for in the standard. So 15.4 watts at the source = 12.95 watts at the device. So 30 watts at the source = 25.5 watts at the device. 2. There are several safe guards designed to protect both the PoE source and the device it is powering.

10. PoE (Power Over Ethernet) – Revisit- taking surges into Account Or How to determine how much Power is Required Manufacturers express PoE power in two different ways: 1. Listing specific power in terms of wattage a. This specification will not indicate the required detection pulse voltage. b. This specification will not indicate the surge power required. 2. If the listing is done by PoE class power a. It is legal to state even if the power is only at the lower end of that class. b. This specification will not indicate the required detection pulse voltage. c. This specification will not indicate the surge power required

11. Rules for Determining Required PoE Power: 1.If Power is stated by a value: a.Determine if value is source or device power 1.If stated as full Class power than it is probably source power. a. In most cases if only class power is indicated than the manufacturer has probably accounted for surges. However if it is always a good idea to include a surge value in your design. 2.If stated as a value it is the power required at the device. a. In this case you must account for the surge value at the source

12. Rules for Determining Required PoE Power: 1.You must always study the product specification sheets of the PoE source and device being powered (PSE and PD) 2.If the Power Device (PD) is quoted in both a specific wattage and Class power- always use the maximum Class Power level in determined required power. 3.If the PoE source power is a network switch and a PoE Budget is not part of the product specifications use the following formula to determine the maximum power available per port when all ports are used: a. Times the stated switch power by.75 to determine the PoE budget. b. Divide the result by the number of active ports providing PoE c. Do not mistake a switch PoE specification that states port power at 15.4 or 30 watts as it is only an indication that the port is capable of providing that power and not the amount of power when all the ports are active.

13. Rules for Determining Required PoE Power: -Surge Requirements Source PowerSource Power with Surge Camera Power (at 328 feet) Camera power with surge Comments 15.4 watts20 watts12.9517 wattsSource can be standard network switch – can transmit over UTP, Coax or Single Pair 30 watts36 watts25.5 watts32 wattsIf surge is accounted for it will require a 37 watt source from Vigitron managed midspans or unmanaged switch- can transmit over UTP, Coax or Single Pair 74 watts 60 watts Requires Vigitron Mdispan or Vigitron unmanaged switches with 37 watt output and Vi0015 combiner cable- restricted to only UTP Cat 5e and above cable

14. General Rules for Extender Power Requirements Product CategoryAddition Wattage per unit Number of UnitsTotal Additional Power required as system Single Channel Extenders with Local Power 1.8 watts23.6 watts Single Channel Extenders powered by PoE 1.8 watts23.6 watts Multiple channel extenders + Single Channel Extender.4 watts2 (1)Midspan (1) Extender 2.2 watts Extended Midspans + Single Channel Extender.2 watts – Class 2.4 watts-Class 3.8 watts- Class 4 2 (1)Extended Midspan (1) Extender 2 watts- Class 2 2.2 watts- Class 3 2.6 watts-Class 4 Repeater 1 watt1 per link1 watt per link Drop and Insert2.5 watts1 per link Unmanaged Network Switch 4 watts1 If using up/down link extended versions or front port extended versions add appropriate power loss

15. General Rules for Extender power requirements- Distance with UTP Source Power Distance Class 0 or 3 @100Mb ps Distance Class1& 2 @ 100Mbps Distance Class 0 or 3 @ 10Mbps Distance Class1& 2 @ 10Mbps Class 4 @100Mb ps 60 watts @ Camera 50 Watts @ Camera 15.4 wattsX1800 FeetX3,000 feetXXX 30 watts1500 Feet1800 Feet1500 feet3,000 feetXXX 37 watts1800 feet1,800 feet3,000 feet 500 feetXX 74 watts2000 feet3000 feet2500 feet3,000 feet1,500 feet450 feet800 feet

16. Source Power Distance Class 0 or 3 @100Mbps Distance Class1& 2 @ 100Mbps Distance Class 0 or 3 @ 10Mbps Distance Class1& 2 @ 10Mbps Class 4 15.4 wattsX1,800 feetX3,000 feetX 30 watts1,500 feet1,800 feet1,500 feet3,000 feetX 37 watts1,800 feet3,000 feet 500 feet General Rules for Extender power requirements- Distance with Coax

17. Rules for Determining Required PoE Power: -Singe Pair Wire (Performance with single pair is dependent on wire qauge) This application applies when using Vi2401A + Vi0030 over 1 pair of 18/2 AWG wire TransceiverVi2401A + Vi0030TransceiverVi2401A + Vi0030 Distance feet/metersPower available at PDDistance feet/meters 1800 ft/548m Data only @ 10MB 1700 ft/518m Class 2 6.49 watts @10Mbps Class 0, 3 12.95 watts @10Mbps 1700 ft/518m 1200 ft/365m 300 ft/91m PSE Power 15.4 watts30 wattsVigitron 37 watts PSE Power Network Switch This application applies when using Vi2401A + Vi0030 over 1 pair of 22/2 AWG wire TransceiverVi2401A + Vi0030TransceiverVi2401A + Vi0030 Distance feet/metersPower available at PDDistance feet/meters 1800 ft/548m Data only @ 10MB 1150 ft/350m Class 2 6.49 watts @10Mbps 1700 ft/518m 700 ft/213m Class 0, 3 12.95 watts @10Mbps 1200 ft/365m 300 ft/91m PSE Power 15.4 watts30 wattsVigitron 37 watts PSE Power Network Switch This application applies when using Vi2401A + Vi0030 over 1 pair of 24/2 AWG wire TransceiverVi2401A + Vi0030TransceiverVi2401A + Vi0030 Distance feet/metersPower available at PDDistance feet/meters 1800 ft/548m Data only @ 10MB 900 ft/274m Class 2 6.49 watts @10Mbps 1700 ft/518m 650 ft/198m Class 0, 3 12.95 watts @10Mbps 1200 ft/365m 300 ft/91m PSE Power 15.4 watts30 wattsVigitron 37 watts PSE Power Network Switch

18. ConfigurationMidspan -------->Vi2301A-------->Extended CAT5e-------->Vi2301A-------->Camera Source Power Level Vendor PoE Source Vigitron Model Numbers Industry Standard (Cat 5e) & Vendor Midspan Performance Cable Distance PD or Camera 30W Vi3010/Vi3026/Vi3103¹/Vi3005¹, Vi3105¹ / Vi3205¹, Vi3305¹, Vi3405¹ / Vi2200,Vi2208,Vi2216, Vi2216LT, Vi2508, Vi2516, Vi2608, Vi2616 3,000 Feet Class 1 or 2 Up to 6.5 W Camera @ 10Mbps 30W Vi3010/Vi3026/Vi3103¹/Vi3005¹, Vi3105¹ / Vi3205¹, Vi3305¹, Vi3405¹ / Vi2200,Vi2208,Vi2216, Vi2216LT, Vi2508, Vi2516, Vi2608, Vi2616 2,000 Feet Class 1 or 2 Up to 6.5 W Camera @ 100Mbps 30W Vi3010/Vi3026/Vi3103¹/Vi3005¹, Vi3105¹ / Vi3205¹, Vi3305¹, Vi3405¹ / Vi2200,Vi2208,Vi2216, Vi2216LT, Vi2508, Vi2516, Vi2608, Vi2616 1,500 Feet Class 0, 1, 2 or 3 Up to 12.95W Camera @ 100Mbps 74W Vi2701Rx /Vi3005¹/Vi3003¹/ Vi3005² / Vi3305² / Vi3105² / Vi2208³, Vi2216³, Vi2508 4, Vi2516 4 800 Feet 50W Camera @ 100Mbps 74W Vi2701Rx / Vi3003¹/Vi3005² / Vi3305² / Vi3105² / Vi2208³, Vi2216³, Vi2508 4, Vi2516 4 450 Feet 60W Camera @ 100Mbps Standard Power PoE over Extended Distance Cat-5E ¹ Requires use of Vi1120 PSE power supply ² Requires use of Vi0015 to combine two ports and Vi1120 PSE power supply ³ Ports 1-4 provide up to 74 watts, Ports 5-12 require Vi0015 to combine two ports 4 Ports 1-4 provide 74 watts

19. High Power PoE over Extended Distance Superior Essex PowerWise™ Cable ¹ Requires use of Vi1120 PSE power supply ² Requires use of Vi0015 to combine two ports and Vi1120 PSE power supply ³ Ports 1-4 provide up to 74 watts, Ports 5-12 require Vi0015 to combine two ports 4 Ports 1-4 provide 74 watts ConfigurationMidspan -------->Vi2301A-------->Extended PowerWise™ Cat5-------->Vi2301A-------->Camera Source Power Level Vigitron PoE Source Vigitron Model Numbers PowerWise™ & Vigitron Performance Cable Distance PD or Camera 37W Vi3005¹, Vi3105¹ / Vi3205¹, Vi3305¹, Vi3405¹ / Vi2200,Vi2208,Vi2216, Vi2216LT, Vi2508, Vi2516, Vi2608, Vi2616 3,000 Feet Class 0, 1, 2, or 3 Up to 22W Camera @ 10Mbps 37W Vi3003¹/Vi3005¹, Vi3105¹ / Vi3205¹, Vi3305¹, Vi3405¹ / Vi2200,Vi2208,Vi2216, Vi2216LT, Vi2508, Vi2516, Vi2608, Vi2616 2,000 Feet Class 0, 1, 2, or 3 Up to 22 W Camera @ 100Mbps 37W Vi3003¹/Vi3005¹, Vi3105¹ / Vi3205¹, Vi3305¹, Vi3405¹ / Vi2200,Vi2208,Vi2216, Vi2216LT, Vi2508, Vi2516, Vi2608, Vi2616 1,500 Feet Class 4 Up to 25W Camera @ 100Mbps 74W Vi2701Rx /Vi3005¹/Vi3003¹/ Vi3005² / Vi3305² / Vi3105² / Vi2208³, Vi2216³, Vi2508 4, Vi2516 4 1,200 Feet 50W Camera @ 100Mbps 74W Vi2701Rx / Vi3003¹/Vi3005² / Vi3305² / Vi3105² / Vi2208³, Vi2216³, Vi2508 4, Vi2516 4 500 Feet 60W Camera @ 100Mbps

20. General Rules for Fiber If fiber is already installed the SFP (small format puggable) must match the existing fiber. If you are specifying the type of fiber for the application follow these general guidelines: 1. Multimode can be either 62.5/1.25 or 50/1.25 a. 62.5/1.125 can be used for distances up to 300m b. 50/1.25 can be used for distances up to 500m 2. SingleMode is 9/1.25 and can be used for distances up to 80km

21. Bandwidth differences between Standard Networks and IP Video Security Systems. 1.Standard network devices:- Testing Are tested and designed for 64byte packet sizes (word and accounting documents). IP Video networks: The smaller 1- 2 MP camera requires a packet size of about 1024Bytes and higher MP extend beyond 1518 bytes which is the limit of RFC 2544 into Jumbo Frames up to 9600Bytes 2. Standard Network Switches: Packet size limitations At 100Mbps packet sizes are limited to 1518-1538 bytes. Cameras with MP sizes greater than 2MP will have problems passes through this port limitation. While many switches can be programmed to resolve Jumbo Frames they do so only at 1G speeds. In networking speeds between devices must be match so the 100Mbps out of an IP camera must be matched to a 100Mbps at the switch port. Problem: Resolution loss and Mosaic

22. Bandwidth differences between Standard Networks and IP Video Security Systems. 3.Switch Fabric: Is the connection between all the ports in a switch. It is the buss that allows you to connect individual cameras to individual ports and view all the cameras on a single port. Standard Network Switches: There are no standards that govern the Switch Fabric bandwidth. The higher the bandwidth- the higher the cost. Switch manufacturers tend to limit switch fabric bandwidth in order to limit costs. Problem: Cameras in the network are randomly lost for both viewing and recording depending on their position in the switch. Think of a network switch in terms of a highway. Low Bandwidth Fabric Cameras are stuck cannot exit switch ports and cannot be seen or recorded High Bandwidth Fabric Cameras easily move between ports exiting main ports used for recording and viewing For Video when all ports are connected the switch fabric should be 2x the sum of the highest bandwidth of all the port

23. Vigitron Network Infrastructure Products: Vigitron is the only manufacturer that supports it feature claims with certification testing. Testing is Performed at 9600-10000 bytes: Jumbo Frame Limit In general 100Mbps can achieve a distance of 2,000 feet and 10Mbps distances of 3,000 feet

24. General Rules for Bandwidth Most standard network switches limit their individual port bandwidth frame size to 1518 bytes (ref RFC2544). This is most probably acceptable for a fully loaded switch where each camera is limited to 2MegaPixels. Above that please suggest using Vigitron managed switches. In addition you have to consider the limitations of the Switch Fabric and its effect on limiting bandwidth – another reason to discuss the use of Vigitron Managed Switches. If an IT Director will only accept HP or Cisco, but the switch in questions cannot support the required PoE you must use a midspan. As part of your system design you may have to link switches. This can must be done only at 1Gbps speeds either by copper or fiber.

25. Vigitron Network Managed Network Switch Solutions: Vigitron managed network switches individual port packet handling can be set for up to 9600 bytes and are certified for cameras up to 33 MP

26. Vigitron Network Managed Network Switch Solutions: Port 1 Port 26 Vigitron’s Managed Switches maintain a switch fabric of 2x the sum of the highest total port bandwidth assuring every camera can be viewed and recorded.

27. Summary- What Questions Do I need to Ask to Design an Infrastructure Background: Each design is individualized. There is no cookie cutter approach to designing an infrastructure. Each design will require knowing the following information. Cameras: What is the manufacturer and model number Number of cameras routed to a single network switch (IDF- Intermediate Distribution Frame) If different cameras are going to the same location you need to know the manufacturer and model numbers for all the cameras routed to a single location Cable: Type of cable: Coax UTP/ Cat5e or 6 Single pair/ 18/2, 20/2, 22/2, 24/2 Fiber/ single mode (9/1.25), multimode (62.5/1.25 or 50/1.25) Cable length Longest cable distance to a single point. PoE source: Manufacturer and Model number Never Design a System without studying all the component specifications…….Important

28. Product Solutions Network switches Midspans

29. Vi3326 Vi3026 Vi3010 Vi2216A Vi2208A Product Solutions Network Switches Managed PoE Midspans

30. The first network PoE switches design for IP cameras. Vi3026 Vi3010 Vi3326 Vigitron’s Network Switches

31. Power Over Ethernet (PoE) Vi3026 has a 525 watt power supply,providing up to 370 watts of PoE power: Full Class 3-15.4 watts on all 24 ports Full Class 4-30 watts on 12 ports PoE overhead of 10 watts for surge compensation

32. A system using high powered cameras or PTZ cameras, that resets to a zero position on start-up, can cause a power surge that can damage a switch’s main power supply. The Vi3026 can be programmed to poll each port on start-up. If a port is found to have more power than normal, or available PoE, will shut down and restart based on the user’s programming. Key Feature Vi3026 Protects Itself from Startup Power Surges

33. When PoE is first applied in a network switch, all ports were surveyed. If a PoE device is not found at a port, or the device requires more power than the port is capable of, that port (or even all the ports) will be shut down. Once shut down, there is no method to reply power other than resetting. Key Feature What does this mean to me?

34. There are no standards for a device in regards to how it senses the presences of PoE. If the device, referred to as Power Device (PD), does not report back to the Power Source Equipment (PSE) within 40msec, the PSE will turn off and the powered device will remain in the “Off” condition. PSE Power Source Equipment Terms as defined by 802.3 standards 40msec Key Feature What does this mean to me?

35. Key Feature Many switches force you to select power allocation by class, allocating the full class power even it isn’t required and wasting power that other cameras require. The Vi3026 allow you to set any port power level so that only the power that is required is allocated to that port and the switch can provide the effective use of power to each camera. Maximum Power Allocation and Usage

36. Many network switches only allow setting port PoE power by a fixed value or class, wasting valuable power that could be allocated to devices with specific requirements. Once the levels are set in these switches, they are capped at those levels; not allowing for the potential of surges. The result is when these surges occur, power to the port is shut down and the powered device remains in the “Off” condition. Key Feature What does this mean to me?

37. Vi3026 Provides Complete Status Monitoring for Quick PoE System Troubleshooting Class power based on programming Power value based on programming Confirmation of power allocated by switch Actual power being used PoE application priority (assigned by operator) If no PD is detected, the camera will not turn on regardless of how much power is applied The screen provides a summary for all the columns. This is valuable for checking the differences between power allocation and actual usage. Key Feature

38. In many network switches, if the powered device doesn’t turn on and you don’t know why, you’d often conclude that the device itself is defective. There are many reasons why a system might require more power than stated on the manufacturer’s specification sheet, reflecting the differences between the device itself and its operation in a system. Key Feature What does this mean to me?

39. In a system, using many high power cameras and PTZ domes that surge power immediately in an application, switch damage or power shutdown can occur on start-up (even if the amount of individual power is not exceeded). This can lead to switch damage or the need for a service call. The Vi3026 prevents this by allowing the PoE application to be applied in steps for up to 5 minutes, reducing the potential for an over power surge. Key Feature Vi3026 More Power Surge Protection

40. The greatest surges can occur when power is first applied. As network switches do not have individually fused ports, the total surge of all the ports can result in damages to the switch’s power supply, rendering the switch useless. Key Feature What does this mean to me?

41. Auto connection, reconnection, and PoE reboot reduces the potential for service calls and connection errors. For network switches: if a connection is not achieved on the first try or the camera’s PD is not sensed at the first try, the system will remain in the “Off” position. The same applies to connection problems, which may occur during normal operation. Key Feature

42. The Vi3026 avoids these problems with automatic reconnection and PoE application. Vi3026 can be programed to automatically ping to connect to a specific IP address. The duration between pings. The number of retries prior to reporting a failure can be programmed. The system keeps track of the number of errors. In most cases, if the PD fails to start, it will remain off. The Vi3026 will auto reboot and attempt to restart. Interval time between reboot to compensate for camera PoE start- up. Counter Reset

43. What does PoE auto checking mean to me? Network switches make one attempt to connect to an IP and apply PoE. If the camera doesn’t power up, no addition attempts are made. This leaves you guessing the reason why. The Vi3026, not only can be programmed to separately attempt reconnection and reapplication of PoE, but will also tell you the nature of the problem reducing troubleshooting and avoiding repeated returns of properly functioning cameras. Problems, regarding of the PoE auto check, can also be sent to the Sys Log and SNMP for remote alerts.

44. In typical IP networks devices, servers and computers, are directly connected to individual site devices. There is no way to tell if problems exist between the network switch, which is the central collection point and site devices. In addition, there is no way of knowing if this is where the problem exist or not. No method to establish a reconnection, causing the system to be offline for considerable lengths of time when unattended or while troubleshooting. Key Feature What does this mean to me?

45. Advantages of Using Vigitron Network Switches Vi3026 Vi3010 Unique Advantages: High PoE power output Highest number of ports providing up to 30 watts Ability to handle mag lock and strike power surges Start up PoE application polling and multiple reconnect attempts Direct IP address connection from switch port to PCSC controller with ability to automatically reconnect if connections are lost Ability to program PoE port start up for up to 5 minutes providing switch damage from high power draws. 24 + 2 port configuration provides full 24 available for controllers reducing the number of switches, space requirements and related costs required for systems Production life time, plus 3 year warranty- longest in industry.

46. Vigitron PoE Midspans

47. Vigitron Midspans Vi2216A Vi2208A What is a Midspan? It is usually defined as a device that provide PoE power and is positioned between (Mid) the network switch and the powered device. When do I use a midspan instead of a switch IT directors may have standard network switch suppliers such as Cisco or HP. However these switches may not be able to provide the power levels and reliability need for maintain access control operation and the high surge power required for mag locks and strikes.

48. Once power management is set, click on the “Apply” button. To confirm port power, click on “Query” button. You can easily check the setting for any port and see actual real time operation. What does this mean to me? Power Management Settings

49. Classification Choose the classification type for selected ports: “Bypass” for ignoring classification. “.3af” for IEEE 802.3af classification signature. If the port is programmed higher than 802.3af, this setting must be in bypass mode. Classification and Disconnect Type

50. Once communication is established between the Power Source (PSE) and device being power (PD), the returned communications from the PD to the PSE will be established by the PoE class for the required power. This setting can be used to automatically configure the port power or bypass and the power can be set manually. It can also be used as a set-up function, but alerting you to the actual power required, which may be more than the manufacturer’s specified power. What does this mean to me?

51. Choose the violation type for selected ports during delivering state: “None” for bypassing violation checking. “Class Based” for limiting power based on the classification results. If classification is bypassed, then “Class-0” will be used in normal mode and “ILIM/ICUT” values in high power mode. Force Power: It forces the port to turn on power. This will bypass detection, classification, and power management checks. No violation will be honored. Buttons “Disable”, “Enable”, and “Force Power” are mutually exclusive. Violation Type

52. Vigitron’s Midspans allow you to specify the types of violations you will be notified about. This can be directly accessed or broadcasted via SNMP to other network devices, including cell phones depending on your SNMP server. What does this mean to me?

53. Max Power Choose the user defined power value. This value is used if the “Violation Type” is “User Defined”. Power Inrush Control Choose the “Power Inrush Control” mode of selected port: “Normal” for IEEE 802.3af mode. “High Inrush” for Legacy devices, which require more than 15.4W. For port to deliver more than 15.4W, appropriate ILIM/ICUT value needs to be selected and classification needs to be bypassed. “Pre 802.3at” for devices supporting 802.3at. Use this mode for delivering more than 15.4W. Appropriate ILIM/ICUT value should be selected. Inrush setting is important for providing the required power for mag locks and strikes without shutting down PoE power and still providing controller protection. Max Power and Power Inrush Control

54. In some cases, due to wire resistance, it may not be position for a detection pulse to be received from the PSE to the PD. In this case, no power will be applied to the powered device and it will remain in the “Off” position. If we use and “injector” instead of PSE, no communication exists to the powered device and in the event of a short, either the powered device or the product supplying the power will burn up. In cases where PSE to PD communications cannot be established, Vigitron’s Midspans provide for operator headroom setting or will automatic provide a setting to prevent damage in case of short or excessive power draw. What does this mean to me? The solution is to force power.

55. Delivering Searching Disable Requesting Power Test Mode Fault Visual color coded per port status, displays with real time read-out of port power, provide a quick health check for individual ports. Port Color Coding Status

56. The SNMP features allow you monitor the status of all the Midspans on your network and have alerts sent when alarm conditions exist. Naming conventions can be applied to all units and ports.

57. Email Alerts Can be selected by unit and port number within an individual unit Can be configured for public or private email addresses Built in test functions Can be programmed separately from SNMP messaging.

58. Individual port fusing provides protection and automatic unattended port reset. Each port can be programmed for surge to provide the required power, equipment protection and avoid surge downs 40MS Proprietary port polling monitors ten areas of each port, providing the ability to respond to immediate power requirements and to shut down ports faster than the fuse activation rate. Key Feature The Important Functions are the Ones You Never See

59. Vi2216A Vi2208A Vi3326 Vi3010 Advantages: Separates network and PoE power supplies to increase system reliability. Provides individual re-settable fused input protection. Can be used safely when forced power is required while still providing full 802.3at compliant protection. Can be used to provide the required PoE power source protection in cases where customer existing network switches or those required by the customer will not. A requirement when the source power greater than 30 watts is required. Advantages of Using Combinations of Network Switches and Midspans

60. Vigitron The Company Vigitron The Company Other Differences

61. The combination of United States and China manufacturing facilities allows Vigitron to quickly respond to customer orders while complying to “Made in United States”. Vigitron’s adherence to quality control and attention to detail resulted in the company’s UTP “Baluns”, adapted as standard accessories for major analog camera manufacturers such as Bosch, Panasonic, Tyco. and UTC world-wide. In 2009, after extensive quality control and procedure evaluation, Vigitron was selected by GE (now UTC) to be its world-wide supplier of full range of analog UTP products. Vigitron products comply by major global regulatory standards such as UL, FCC, RoHS, and WEEE. Vigitron provides Lifetime Warranty on all products. About Vigitron

62. Detailed White Papers Vigitron Support: What we offer that our competitors do not? Application Notes

63. Complete educational series on infrastructure design for security systems Vigitron Support: What we offer that our competitors do not?

64. Design Center Services Vigitron Support: What we offer that our competitors do not? Key Feature

65. Vigitron offers the longest warranty - production lifetime plus 3 years. This means your customer’s warranty does stop at the end of production. Warranty Policy Lifetime + 3 Years

66. Competitors – Lack of Local Resources Most of our competitors in this area either rebadge products from companies outside the United States or headquartered outside the United States with limited local resources. This results in potential delays to product issues and the ability to respond to delivery and or RMA requirements. Problems

67. Vigitron’s Solution Vigitron’s headquarters, main factory, and engineering staff are located in San Diego, California. We provide the most immediate answers to product and application questions. Most orders are shipped within 2 working days and RMA requests are filled the same day.

68. Vigitron Is A Complete Infrastructure Provider Competitors only provide pieces. You have to acquire different parts from different manufacturers, resulting in the potentials of incompatibility and finger pointing. Problems Providing every component of a complete network system.

69. Vigitron Is The Only Complete IP Infrastructure Provider All system components are tested and certified for interoperability with leading IP security products.

70. Phone +1 (858) 484-5209 Emailsupport@vigitron.comWebsitewww.vigitron.com Design Center www.vigitron.com/IP_CCTV_Design_Assitance.aspx White Papers and Application Notes www.vigitron.com/WhitePapers.aspx Neil Heller nheller@vigitron.com +1 (714) 305-7044 Contact Vigitron

71. 7810 Trade Street Suite 100, San Diego, CA 92121 Phone: (888) 574-8942 | (858) 484-5209 FAX: (858) 484-1205 support@vigitron.com support@vigitron.com Thank you