IMC Networks operation manual About the iMcV-PSE-MidSpan, Application Diagram

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About the iMcV-PSE-MidSpan

The iMcV-PSE-MidSpan is an SNMP-manageable, IEEE 802.3af Power over Ethernet (PoE) Injector, used to supply current to a PoE-compliant PD (Powered Device). This makes it the perfect solution when installing compliant PDs such as IP cameras, VoIP phones and other end devices (i.e. the IE-MiniMc media converter) where there is no power source in close proximity. The iMcV-PSE-MidSpan installs between a switch/hub and the device requiring power, providing detection, classification and power sourcing to the Powered Device (PD).

The iMcV-PSE-MidSpan has been designed specifically for use with the iMediaChassis series as well as the unmanaged IE-Mediachassis series. Two RJ-45 ports are provided, one for data and one for a combination of data and a Power over Ethernet (PoE) supply.

Application Diagram

The following diagram shows how the iMcV-PSE-MidSpan would be used with an iMediaChassis in a typical network:

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Contents IMcV-PSE-MidSpan Warranty FCC Radio Frequency Interference StatementTable of Contents Application Diagram About the iMcV-PSE-MidSpanInstallation DIP Switch Settings Feature Switch Function Default PoE ENAS5-S8 are OFF Factory default, do not change Auto RestartLED Indicators PoE ENB 15 WInstallation Troubleshooting Configuring the iMcV-PSE-MidSpan with iView²Data Port POE Data Port Electrostatic Discharge Precautions SpecificationsIMC Networks Technical Support Page Safety Certifications Document Number 57-80910-00 A3

iMcV-PSE-MidSpan specifications

IMC Networks is renowned for its innovative networking solutions, and one of its standout products is the iMcV-PSE-MidSpan. This device exemplifies cutting-edge technology designed to meet the growing demands for high-speed network infrastructure while ensuring power delivery to connected devices.

The iMcV-PSE-MidSpan is primarily a Power over Ethernet (PoE) midspan injector that seamlessly integrates into existing network setups. One of its main features is its ability to supply power to compliant devices such as IP cameras, wireless access points, and VoIP phones through standard Ethernet cabling. This functionality drastically reduces the need for additional electrical wiring, streamlining installation and minimizing costs.

The device is designed to support IEEE 802.3af and 802.3at PoE standards, which means it can deliver up to 15.4 watts or up to 30 watts per port respectively, making it versatile enough to power a range of devices from basic to more power-hungry applications. With multiple ports available, the iMcV-PSE-MidSpan can accommodate multiple devices, making it an excellent choice for both small and large-scale network environments.

Robust temperature tolerance is another critical characteristic of the iMcV-PSE-MidSpan. With operational capabilities ranging from standard office conditions to harsher environments, it is suitable for diverse deployment settings including industrial locations. Furthermore, the device is equipped with advanced thermal management features, ensuring reliability and performance stability.

Ease of installation and use is also a hallmark of the iMcV-PSE-MidSpan. The compact design allows for flexible mounting options, whether in a telecom closet or as part of a more distributed deployment. The unit’s plug-and-play functionality ensures a quick setup, allowing network administrators to expand their infrastructure without extensive configuration.

Additionally, the iMcV-PSE-MidSpan boasts excellent management capabilities, supporting SNMP for monitoring and control. This feature enables network administrators to gain real-time insights and manage power distribution efficiently, providing a level of control that enhances network reliability.

In summary, the IMC Networks iMcV-PSE-MidSpan stands out for its combination of power delivery, ease of installation, and robust performance. Its features make it a valuable addition to both new installations and upgrades in existing networks, ensuring that businesses can meet their evolving connectivity needs while managing power efficiently.