Everon™ 6000 v1.0 User Manual Corning Optical Communications www.corning.
User Manual v1.0 Everon™ 6000 v1.
User Manual v1.0 Preface Material About this Manual This manual describes how to install, use, configure and manage Corning’s Everon™ 6000 1.0 platform. It includes a description of the system end-to-end first time and on-going configuration, management and maintenance. Intended Users and Scope This manual is intended for Corning system installers, technicians and users. It is assumed that the user is familiar with the system and its units, and understands the basic functionality of the system.
User Manual v1.0 The purchaser shall not modify the software in any way. It is strictly forbidden to use this product for any purpose other than originally designated for or stipulated by Corning.
User Manual v1.0 Warranties Hardware Warranty Corning Optical Communications Wireless, Inc.
User Manual v1.0 Limitations of Liabilities Corning’s liability on any claim, of any kind, including negligence for any loss or damage arising from, connected with, or resulting from the purchase order, contract, quotation, or from the performance or breach thereof, or from the design, manufacture, sale, delivery, installation, inspection, operation or use of any equipment covered by or furnished under this contact, shall in no case exceed the purchase price of the device which gives rise to the claim.
User Manual v1.0 RF Safety To comply with FCC RF exposure compliance requirement, adhere to the following warnings: Warning! Antennas used for this product must be fixed mounted on indoor permanent structures, providing a separation distance of at least 120 cm from all persons during normal operation and must not be co-located with any other antenna for meeting RF exposure requirements. Warning! Antenna gain should not exceed 12.5 dBi.
User Manual v1.0 Compliance with RF Safety Requirements: Warning! Only use a special DC supply cable with connector Warning! Always keep DC IN connectors connected during the product operation Company Certification Corning products have met the approvals of the following certifying organizations: Certification Certification No.
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User Manual v1.0 Licensee Contact Information Industrial Boosters may only be used by FCC licensees or those given express (individualized) consent of license. Corning Optical Communications Wireless certifies all of the VARs listed as licensed installers for Corning. For the list of licensed VARs, please contact the Technical Support Team at: onesupport@corning.
User Manual v1.0 Revision History Revision 0.
User Manual v1.0 Table of Contents 1. 2. Introduction .................................................................................................................... 15 1.1 Key Features and Capabilities ............................................................................................... 15 1.2 Terminology, Acronyms, and Abbreviations .......................................................................... 16 1.3 Applicable Documents .................................................
User Manual v1.0 2.6.2 LRU Dimensions [mm] ................................................................................................... 62 2.6.3 LRU Interfaces ............................................................................................................... 63 2.6.4 Combiner Interfaces ...................................................................................................... 64 2.6.5 Fully connected system diagram .....................................................
User Manual v1.0 5. System Graphical User Interface (GUI) ........................................................................... 107 5.1 6. Main GUI Options .............................................................................................................. 107 5.1.1 Devices Screen – Element Management ....................................................................... 107 5.1.2 Events Screen .........................................................................................
User Manual v1.0 1. Introduction Corning Everon™ 6000 is an advanced in-building cellular service solution for small, medium and large size venues, supporting a broad range of cellular generations: 3G,4G and 5G. Corning Everon™ 6000 is based on digital distribution architecture, advanced digital processing, and channelized implementation, enabling efficient utilization of digital links.
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User Manual v1.0 Abbreviatio n Description UTRAN Universal Terrestrial Radio Access Network UDP User Datagram Protocol Picture 1.
User Manual v1.0 1.4 Everon™ 6000 1.0 Architecture Overview Corning Everon™ 6000 allows combining between Optical Network Evolution (ONE) platform, and the fully digital Corning Building Wireless System (BWS) platform, which incorporates the digital distribution units – Digital Router Unit (DRU) and remotes. The system devices are managed via a web session to the headend control module (HCM) that is installed as either a headend unit (HEU) or integrated headend unit (IHU).
User Manual v1.0 IHU and HEU - pair to provide all services: single DRU, connected Remote Units (LRU, MRU, HRU), where the number of connected remote units depends on the number of links the specific remote unit has (e.g. DLRU low band has only one CPRI link were the DLRU mid band has 3 CPRI links); each DRU has 32 ports. The picture below presents a SISO configuration with 16 SISO MRUs connected to a single DRU.
16 Remotes (LRUs) 16 Remotes (LRUs) RIX #1 RIX #2 RIM 600 Low band DRAU #2 MIMO C/D 1 PSM B 2 3 Medium band DRAU #1 MIMO A/B 1 1 2 3 Medium band DRAU #2 MIMO C/D 1 DRU #1 RIM RIM RIM 850/ 850/ 850/ SMR SMR SMR Remote location #1 Low band DRAU #1 MIMO A/B 1 2 3 4 RIM 700 1 PSM B RIM TDD 2.
User Manual v1.0 1.4.2 Internal sub-units The following sections describe the system sub-units. 1.4.2.1 Head end: Radio Interface Frames (IHU/HEU) (Point of Interface) HEU IHU Radio Interface frames are modular chassis used for interface between the base stations and the Everon™ 6000. A system may be comprised of two types of Chassis: IHU (Integrated Head-end Unit) and HEU (Head End Unit).
User Manual v1.0 CPRI ports for connection to the remote units. When additional remote antenna units are needed, the system scales up easily by adding additional system modules. DRU supports both AC and DC. 1.4.2.3 Remote Units x LRU Digital Remote Antenna Unit: Medium Band / Low Band The LRU is a remote antenna unit with 20 dBm per MIMO stream per band output RF power and native support of 2x2 MIMO antenna scheme.
User Manual v1.0 x HRU – Digital High-power Remote Unit The HRU is a high power modular remote antenna unit which provides 43 dBm output RF power per service module, and native support of 2x2 MIMO antenna scheme. The HRU modular structure enables set ups of up to 8 service modules in 600/700 MHz Low/700 MHz High/FirstNet, 800/850 MHz, EAWS, PCS, WCS and 2.5GHz TDD. The HRU cooling is based on natural convection, with no fans.
User Manual v1.0 2. System Installation This chapter provides installation instructions for the system units. Refer to the specific elements required in your deployment: x Head End (HEU, HIU), see 2.1 x DRU, see 2.5 x Remote units Installation: x LRU, see 2.6 x MRU, see 2.7 x HRU, see 2.8 Note: for dimensions and specifications refer to chapter 7.
User Manual v1.0 2.1 Head End Units – Architecture Examples ¾ Example 1: SISO ERFCxx Up to 7ACMs per 1 HCM 10MHz clock sync Optical cables Up to 4 DRUs per DCM (transform RF to CPRI) Remotes connected to DRU (combination of all remote types). Number of connected remotes depends on the remote-type Figure 2: Example: Installation Diagram Note: Release 1.4 does not support combined connection between MRU and the other remote types. Thus, connect MRUs to a seperate DRU.
User Manual v1.0 NOTEs: 1. The example above shows SISO configuration. For MIMO 2x2, there is a need to add an additional pair of IHU-HEU, where the DCMs for the 2nd pair will be connected to the same DRU. To support 4x4 configuration, there is a need to add 2 additional pairs of IHU-HEU, and DRUs and remote units. 2. for 4x4 stack: one HCM (for MIMO1 IHU), will be connected to up-to 7 ACMs in the IHU-HEU chassis explained above ¾ Example2 Figure 3 a single rack with 4 head-end units: 2 sets of IHU-HEU.
User Manual v1.0 2.2 Integrated Headend Unit (IHU) Installation The IHU chassis is supplied empty and only includes the factory assembled Fan Module (FAM) + additional modules according to the ordered PN. All other modules are ordered separately and must be installed. ¾ Example of system connection See 2.1 for example rack installations (SISO, MIMO).
User Manual v1.0 2.2.1 Verify Box Contents 1. Open the package and verify all elements are available according to the following table.
User Manual v1.0 Item reference clock signal connections between RIX modules.
User Manual v1.0 Item Quantity Image Controller Module Kit (HCM or ACM - according to order) x dHCM Kit (Headend Control Module) – installed in Main HEU unit; enables remote/local management of all hosted units x ACM Kit (Auxiliary Control Module) – installed in Auxiliary HEU units; provides management connections for the Auxiliary HEU. ¾ Example: Unpacking For ordered unit type IHU-2-11-1-A-dH: Verify your package includes one RIX; one OIX; one ERFC cable; one PSM-AC module and one dHCM module.
User Manual v1.0 2.2.
User Manual v1.0 2.2.3 Mount the Chassis in a Rack Notes: • One HEU supports connections to up to four IHUs • IHU chassis requires 4U rack height availability • Rack nuts and screws not provided 1. Determine the location of the HEU in the rack while considering additional HEU and IHU units and the lengths of the available ERFC cable. 2. Refer to Error! Reference source not found. for an example planning the rack positions. 3.
User Manual v1.0 2.2.4 Install the Modules in the Chassis Note: For modules with ejectors (i.e. RIM, RIX OIM, OIX, DCM and HCM/ACM) – verify that the ejectors are completely open when inserting in dedicated slot and then push in until the module clicks in to the backplane. See Figure 5: Module Captive Screws and Ejectors below, that shows an example of module type captive screws and ejectors. 2.2.4.1 Install the DCM Module 1. Slide the DCM to its slot in the HEU chassis (Refer to 2.6.
User Manual v1.0 2.2.5 Connect the Cables 2.2.5.1 Ground The grounding connection is performed via a two-hole, standard barrel grounding lug located on the HEU rear panel. • For use with stranded copper wire conductors • 10-14 AWG • Holes - 1/4 inch Grounding Lug (Chassis Rear) (C 2.2.5.2 5.2 2 Connect Con nnectt RIMS RIMS to RF Source(S) Sou urce(S) rc S) For each ch RIM - connect the external RF source to the corresponding RIM (service specific) Simplex or Duplex QMA connectors: a.
User Manual v1.0 2.2.5.3 RIX 10 MHz Pilot Clock Connections Notes: • This section is only relevant for configurations with additional IHU or HEU and OIU units. • The REF IN and REF OUT pilot clock ports must be connected in a closed loop. • Both RIX modules of each chassis must be connected. • The jumper cables are routed through the sides of the cable management tray and door.
User Manual v1.0 2.2.5.4 RIX to OIX Connections Note: Each RIX module supports connections to up to two IHU. 1. Using the appropriate length ERFC cable (according to distance of available OIX port) connect the HEU RIX module 9-Pin connector to the corresponding connector on the IHU OIX module. HEU RIX IHU OIX 2. Refer to TBD for schematic diagram of coax connections in a maximum HEU-OIU configuration of 4x4 where all HEU units are connected to all IHU units.
User Manual v1.0 2.2.5.5 Management Connections Notes: • One RJ45/RJ45 management cable is provided with each headend unit (i.e. HEU/IHU). • Up to 7 ACMs are connected to a single HCM, where the connection between the units is using RJ45 cables.
User Manual v1.0 2.2.6 Power ON x For PSM-AC modules – connect supplied power cable (100-240 VAC) connector to the PSM input connector and to the AC outlet and switch on. x For PSM-DC modules – refer to Quick Start Guide provided with module for wiring pinout. Verify that the Power Status LED on each PSM shows green. See Figure 13 for PS<-AC LED.
User Manual v1.0 2.2.
User Manual v1.0 2.3 Head End Unit (HEU) Installation The HEU chassis is supplied empty and only includes the factory assembled Fan Module (FAM) + additional modules according to the ordered PN. All other modules are ordered separately and must be installed.
User Manual v1.0 ¾ To install the HEU, follow these steps: 1. Verify box contents, see 2.3.1 2. Mount the chassis, see 2.3.2 3. Insert the modules into the chassis, see 2.3.3 4. Connect the cables, see 2.3.4 5. Power On, see 2.3.5 6. Verify normal operation, see 2.3.6 2.3.1 Verify Box Contents 1. Open the package and verify all elements are available according to the following table.
User Manual v1.0 Item Quantity RIX Module Kit Radio Expander Module – expands the RF sources to the OIU 1 or 2 (according to order) Pilot Transport Cable (P/N: PCKC47*) – Single QMA to QMA cable; L = 47 in; used for passing reference clock signal connections between RIX modules.
User Manual v1.0 Item Quantity Image Controller Module Kit (HCM or ACM - according to order) x dHCM Kit (Headend Control Module) – installed in Main HEU unit; enables remote/local management of all hosted units x ACM Kit (Auxiliary Control Module) – installed in Auxiliary HEU units; provides management connections for the Auxiliary HEU. ¾ Example: Unpacking For ordered unit type HEU-1-00-1-A-A: Verify your package includes one RIX module; one ETM. one PSM-AC and one ACM.
User Manual v1.0 2.3.2 Mount the Chassis Notes: • One IHU supports connections to up to seven Head-end units (HEUs or IHUs) in a single stack, where there in a single HCM per stack, and all the others have ACMs. • HEU chassis requires 3U rack height availability • Rack nuts and screws not provided 1. Determine the location of the HEU in the rack while considering additional HEU and IHU units and the lengths of the available ERFC cable (see Error! Reference source not found.
User Manual v1.0 2.3.3 Install the Modules in the Chassis Note: For modules with ejectors (i.e. RIM, RIX and HCM/ACM) – verify that the ejectors are completely open when inserting in dedicated slot and then push in until the module clicks in to the backplane. See Figure 8: Module Captive Screws and Ejectors below, showing an example of module type captive screws and ejectors. Refer to the Figure 7: HEU Slots and Interfaces for module locations.
User Manual v1.0 2.3.4 Connect the Cables 2.3.4.1 Ground The grounding connection is performed via a two-hole, standard barrel grounding lug located on the HEU rear panel. • For use with stranded copper wire conductors • 10-14 AWG • Holes - 1/4 inch Grounding Lug (Chassis (C Rear) 2.3.4.2 4.
User Manual v1.0 2.3.4.3 RIX TO OIX Connections Note: Each RIX module supports connections to up to two IHU. 1. Using the appropriate length ERFC cable (according to distance of available OIX port) connect the HEU RIX module 9-Pin connector to the corresponding connector on the IHU OIX module. HEU RIX IHU OIX 2. Refer to TBD for schematic diagram of coax connections in a maximum HEU-OIU configuration of 4x4 where all HEU units are connected to all IHU units. 2.3.4.
User Manual v1.0 2.3.4.5 Management Connections Notes: • One RJ45/RJ45 management cable is provided with each headend unit (i.e. HEU/IHU). • Up to 7 ACMs are connected to a single HCM, where the connection between the units is using RJ45 cables.
User Manual v1.0 2.3.
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User Manual v1.0 2.5 DRU Installation 2.5.1 Verify box contents The following table indicates the included and required items for installing the DRU unit. Item Quantity Image Part Number HARDWARE – provided in the box DRU unit 1 703A045402 AC Power Cord 708A042301 DC Power Adapter 255760003 HARDWARE – not provided Screws Washers 4 4 NA SFP+ Pluggable Transceivers (hot-pluggable optical transceiver module); Support for option 8 line-rate 10.
User Manual v1.0 Item Quantity Image Part Number Grounding cable NA Clock 10Mhz input clock 10Mhz output clock NA USB to mini-USB cable NA Note: for technical support usage only. Required Tools Screwdriver NA 2.5.
User Manual v1.0 2.5.3 DRU Dimensions [mm] Attribute Description Height 1U (44.45 mm) Width 19" (482.6 mm) Depth 16.
User Manual v1.0 2.5.5 Mount the DRU in the 19’’ Rack 1. Determine the location of the DRU in the rack while considering additional units (e.g. power supply). 2. Position the two brackets located on the DRU sides to fit in to the rack rail. 3. Slide the DRU module into the selected slot on the 19” chassis rear. Ensure the module is flush with the chassis rear. Ensure at least 2” distance between the ventilation openings (in the rear and sides of the DRU) and any object (e.g. wall) 4.
User Manual v1.0 2.5.6.2 Power Use your selected power source (DC or AC); Connect the power-unit's cable to the DRU front panel. 2.5.6.3 Source (DCM) Connect an SFP+ Pluggable Transceiver to each source port to be used: 1. Remove the rubber stopper from the SFP connector. 2. Remove the rubber stopper from the source port (Figure 9). 3. Push the SFP connector into the DCM port, until it clicks (note that there is only one correct direction for plugging-in). 4.
User Manual v1.0 2.5.7 Verify Normal Operation ¾ SFP LED Behavior The following tables describe the DRU LEDs and the LED behaviour: LEDs Type Remote (LPR) LEDs Description and Behavior Description: A pair of LEDs (Orange; Green) describes each port: the right pair relates to the upper slot; the left pair relates to the lower slot. Behaviour: Right orange LED is lit during identification and when inserting the connector.
User Manual v1.0 LEDs Type Power LED Description and Behavior Picture Lit after SW initialization and during operation.
User Manual v1.0 2.6 LRU Installation 2.6.1 Verify box Contents 1.
User Manual v1.0 Item Quantity Image Part Number RF Jumper cables PN DC Power Adapter 255760003 HARDWARE – not provided 4 screws #8 or 4mm (for attachment to ceiling) 4 SFP+ Pluggable Transceivers (hot-pluggable optical transceiver module); Support for option 8 line-rate 10.
User Manual v1.0 2.6.2 LRU Dimensions [mm] Physical Dimensions Dimension (W x H x D) Weight Inch (mm) Lbs (Kg) 9.84 x 10.63 x 2.
User Manual v1.0 2.6.3 LRU Interfaces SFP+ Management port Power Antenna TBD Ground Connectors CPRI Port Antenna Ports 1, SFP+ 10.1Gbps 2, 4.
User Manual v1.0 2.6.4 Combiner Interfaces The combiner has a total of 6 input ports and 2 output ports. 2 antenna ports SFP+ CPRI ports: 1 for low band, 3 for mid-band Notes: 1. To avoid MIMO disruption, ensure the antennas are connected correctly according to the combiner labels. 2.
User Manual v1.0 ¾ Combiner Connection Interfaces Diagram The combiner connects between units: x Mid-band LRU x Low-band LRU x (In the future: High-band (CBRS) LRU) The antennas are MIMO1, MIMO2 2.6.5 Fully connected system diagram The following figure shows the connections in a system that includes two units and a combiner.
User Manual v1.0 2.6.6 Connect under-lid cables For each of the units, open the cover by removing 4 screws: Unscrew and open cover Fiber Optic jumper example (not provided) For each of the units connect the internal (under-cover) cables as follows: x Power, See 2.6.6.1Error! Reference source not found. x SFP+, see 2.6.6.
User Manual v1.0 2.6.6.1 Power Connect the DC wire pair (48V) to the LRU connectors panel, via the DC power adapter (terminal block connector 2.6.6.2 SFP+ Cables Remove the rubber stopper from the SFP+ connector located in the LRU RF port Connect the SFP+ LC/UPC SM DX optic cable to the LRU optic connector.
User Manual v1.0 2.6.7 Mount the LRU The LRU may be mounted on a wall or on a pole; single or dual. Select the configuration relevant to your deployment. Note: For dual-unit installations, the internal RF connections must be connected before connecting between the units. 2.6.7.1 Mount on a wall Note: for the rear cases of pole mounting, refer to…TBD 1. Connect the bracket to the wall, using 4 screws, as shown in the figure below: WALL 2.
User Manual v1.0 3. For a dual unit: x Connect the combiner to the mounted bracket using 4 screws.
User Manual v1.0 2.6.8 Connect the rest of the Cables For each of the units, connect the cables as follows: x Ground, see 2.6.8.1 x Antenna, see 2.6.8.2 2.6.8.1 Ground Note: Ground according to local regulations The following additional (not supplied) tools and components are required for connecting the system ground: x Grounding wire - grounding wire should be sized according to local and national installation requirements.
User Manual v1.0 2.6.8.2 Antenna Connect the MRU male 4.3-10 Type duplexed RF “ANTENNA” port to the broadband antenna(s) using appropriate coax cables. Notes: 1. To avoid MIMO disruption, ensure the antennas are connected correctly according to the combiner labels. 2.
User Manual v1.0 2.6.9 Combiner cables Connect the Antenna cables according to the figure below. NOTE: C-Band is for future use.
User Manual v1.0 Fully connected system Notes: 1. To avoid MIMO disruption, ensure the antennas are connected correctly according to the combiner labels. 2.
User Manual v1.0 2.6.10 Verify normal operation The following table describes the LRU LED behaviour.
User Manual v1.0 2.7 MRU (Digital Medium-power Remote Unit) Installation dMRU Notes: * Equipment with permanently connected to PE, conductor for installation of this conductor is carried by a skilled person. * The shield of the coax cable shall be connected to PE . * Equipment for use in locations where children not likely to be present. * dMRU DC shall be provided with double pole circuit breaker rated maximum 20A and having contact separation at least 3mm. 2.7.1 Verify Box Contents 1.
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User Manual v1.0 Item Description Brackets Wall mount bracket for dMRU Flavor PN dMRU-DC supported assembly with four dPAM modules 600/700, 800/850, PCS and WCS dMRU-6781923DC dMRU CHASSIS ASSEMBLY WITH: DOPTM, FAM, MIDPLANE, CAVITY FILTER, MUX dMRU-CHS-ASM 1 BR-dMRU-W Image Screws, flathead,8-32X3/8 (Quantity: 11) DC connector class 1 mating 1 Not provided AC Power Cable (AC models only) Cable, power, straight, U.S 10 A 1 ,UL, L = 1.8-2.
User Manual v1.0 ¾ Example Package Unpacking For an ordered package of PN dMRU-ASM-AC: Open the box and verify the following units are available: DOPTM, FAM, Mid-Plane, Cavity Filter, MUX and AC power supply. The units are to be entered into the chassis according to the installation instructions below.
User Manual v1.0 2.7.2 MRU Interfaces DPAM Modules FANs 3.5 GHz Units’ Release button and handle Antenna Test External Alarms Management port SFPs AC/DC Connector Warning! In the event that a PAM or the OPTM needs to be removed from the chassis, make sure to first press the release button on the module and then pull out using the handle (see Error! Reference source not found.). Any attempt to pull out the module without first releasing may cause damage.
User Manual v1.0 2.7.3 Mount chassis in 19-in Rack Note: for dimensions and specifications refer to chapter 7 1. Before mounting the chassis: unwrap each of the PAMs, and enter each PAM to its dedicated slot inside the chassis, according to the color-codes: 2. Determine the location of the MRU in the rack while considering additional units (e.g. power supply) 3. Referring to Figure 11 secure the units’ rack ears to the rack frame as follows: a.
User Manual v1.0 2.7.4 Wall Mount This section provides instructions on how to assemble the wall-mount bracket onto the MRU and mount the assembly on the wall (belly-to-wall installation). Note: The installer is responsible for accommodating the installation to the surface type. The mounting surface shall be capable of supporting the weight of the equipment. The weight of a ffully populated MRU chassis is 92.59 lbs (42 kg).
User Manual v1.0 2. Assemble the wall-mount bracket to MRU underside 3. Insert anchors in wall, hang unit and tighten to secure Minimum 16-in clearance Figure 13.
User Manual v1.0 2.7.5 Ground MRU Chassis The grounding connection is performed via a two-hole, standard barrel grounding lug located on the front of the MRU chassis. ¾ Required tools and components The following additional (not supplied) tools and components are required for connecting the system ground: x Grounding wire - grounding wire should be sized according to local and national installation requirements.
User Manual v1.0 2.7.6 Connect Fiber SFP+ Note: use SFP+ from the approved list provided by Corning. 1. Remove the rubber stopper from the source port. 2. Push the SFP+ connector into the port, until it clicks (note that there is only one correct direction for plugging-in). 3. Remove the white plug-protectors from the end of the SFP+ cable. 4. Plug the SFP+ cable into the D-MRU port until it clicks. 5.
User Manual v1.0 2.7.7 Connect Antenna NOTE: The MRU has one output, that can be split via passive splitters. 1. Connect the MRU male 4.3-10 Type duplexed RF “ANTENNA” port to the broadband antenna(s) using appropriate coax cables. he power without ut disconnecting dis isco conn nnec ecting the Note: The test port is used for coupling; used for measuring the antenna. 2.7.8 External RF Source (3.
User Manual v1.0 2.7.9 Connect Power & POWER UP The MRU PSM is located on the bottom right of the chassis front. The PSM type (AC/DC) is model dependent. x Refer to section 2.4.7.1 for AC models. x Refer to section 2.4.7.2 for DC models 2.7.9.1 AC models WARNING! Approved power cable – the entire length of the power cable (or flexible cord) and tthe insulation must be intact. The cable must be firmly connected to both the electrical plug and tthe unit itself.
User Manual v1.0 2.7.9.2 DC Models DC model includes Class 1 terminal block connector: x Power input: 36-60VDC x Power consumption: 580W (maximum) x Maximum DC current consumption: 16A 1. Open PSM captive screws and pull-out module from chassis. hassis. 2. Set DC input source type to “CLASS1” connector and secure ecure PSM module back in place. See Figure 8. 3.
User Manual v1.0 2.7.10Verify Normal Operation LEDs 1. Verify that fans are operational. 2.
User Manual v1.0 Table 9: SFP LEDs 2.
User Manual v1.0 3. Session Access and Main Menu Once all the system elements are installed, the system administrator can log into the system GUI and perform initial configurations. It is recommended to begin working with the Corning® Everon™ 6000 by following these steps: 1. Review sections: Supported Access Options section 3.1, Default Network Settings section 3.2. 2. Open a local session to the HCM, see Open a Local Session section 3.3. 3.