Everon™ 6000 G2 v1.0 User Manual Corning Optical Communications www.corning.
User Manual v1.0 Everon™ 6000 G2 v1.
User Manual v1.0 Warranties Hardware Warranty Corning Optical Communications Wireless, Inc.
User Manual v1.0 agents or representatives are not authorized to make commitments on warranty returns. Returns above warranty, the following procedure shall be followed: 1. Return authorization is to be received from Corning prior to returning any unit. Advise Corning of the model, serial number, and discrepancy. The unit may then be forwarded to Corning, transportation prepaid. Devices returned collect or without authorization may not be accepted. 2.
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 device 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 $100,000 for each continuing violation. For DLRU-G2-17192325, DLRU-G2-25, DLRU-G2-35, dHRU-dHPAM-6, dHRU-dHPAM-17, dHRU-dHPAM-19, dHRUdHPAM-23, dHRU-dHPAM-25, DMRU-G2-678, DMRU-G2-1719, DMRU-G2-2325, DMRU-G2-25, DMRU-35: WARNING: This is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of an FCC License to operate this device.
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 80 and above cm from all persons during normal operation.
User Manual v1.0 Revision History Revision 0.
User Manual v1.0 Contents 1. Introduction .......................................................................................................................... 11 1.1 Key Features and Capabilities ..................................................................................................... 11 1.2 Terminology, Acronyms, and Abbreviations ................................................................................ 12 1.3 Everon™ 6000 G2 Architecture Overview .................................
User Manual v1.0 3.2 Function Options ........................................................................................................................61 3.3 Supported Access Options .......................................................................................................... 61 4. Session Access and first-time settings .................................................................................... 62 4.1 Open a Local Session .......................................................
User Manual v1.0 1. Introduction Corning EveronTM 6000 G2 is an advanced cellular service solution for small, medium, and large size venues, supporting a broad range of cellular generations, including 3G, 4G and 5G. Corning EveronTM 6000 G2 is based on venues, advanced digital transport and processing, and channelized implementation, enabling efficient utilization of digital links.
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User Manual v1.0 1.3 Everon™ 6000 G2 Architecture Overview Figure 1 Architecture diagram Corning Everon™ 6000 G2 features a fully advanced digital system, which incorporates the RIU (Radio Interface Unit), DCU (Digital Conversion Unit), DEU (Distributed Extension Unit) and multi-type of remotes. All the devices in the system are managed via a web session to the DCU, which provides local and remote management capabilities for all connected system devices using both web GUI (HTTPs) and SNMP interfaces. 1.
User Manual v1.0 Figure 7 and figure 8 shows the RIU interfaces. Table 3 lists the interfaces description. Figure 3. 2 TO 1 matrix 4 Figure 4. 4 TO 1 matrix Figure 5.
User Manual v1.0 Figure 6. RIU monitoring diagram Figure 7. RIU Interface(front view) ⑦Ground Figure 8.
User Manual v1.0 Table 3. RIU Interfaces SN Interface Interface Type 1 DCU communication port RJ45 x 2 2 DC input Phoenix connector x 1 3 LED indicator LED x 2 4 Radio connectors to DCU QMA x 8 5 Radio connector to donor signal 4.
User Manual v1.0 1.4.2 DCU Figure 9. DCU Digital Conversion Units (DCU) is the Everon™ 6000 G2 central controller. The DCU interfaces between the RIU and DEU, implementing signal processing and routing to the Distributed Extension Unit (DEU), major functionalities of which include: RF signal processing and routing: The DCU transfers the RIU radio signal to digital signal in CPRI format.
User Manual v1.0 Table 6.
User Manual v1.0 Figure 10. DCU Star Connection Figure 11.DCU Daisy Connection Figure 12. DCU Interface (front view) Ground Figure 13.
User Manual v1.0 Table 7. DCU Interface Introduction SN Interface Interface Type Silk Screen Description 1 AC_IN US Type socket AC IN 100V~240V, 3A, 50/60Hz AC input connector with switch, 100~240V 2 PSU Module PSU module x 1 PSU module with replaceable design IRFC: Integrated Radio Frequency Cluster There are totally 4 pcs of cluster and each one has 8 radio ports.
User Manual v1.0 1.4.3 DEU Figure 14 DEU diagram Distributed Extension Units (DEU) is the central Hub and Distribution element. The DEU interfaces between the DCU modules and the remote unit, enabling to receive the operators service signals in CPRI format, and to route these signals to the remote units. The DEU supports all Corning digital remote antenna units’ styles, for all services, power levels and antenna configurations.
User Manual v1.0 Table 9. Carrier Config Option 1. Full FDD band + TDD 2.5GHz band Maximum Carrier Number (2T2R) Band 2.5GHz 3.5G-A (3450~3700MHz) 3.5G-B (3700~3980MHz) 10/20MHz 30/40/50MHz 60/80/100MHz Maximum Total 150/200MHz Carrier Number Maximum Total BW 3 2 2 0 5 190MHz 8 3 3 1 8 250MHz 8 3 3 1 8 280MHz Table 10.Carrier Config Option 2. Full FDD band + TDD 2.
User Manual v1.0 1. DEU supports flexible network architecture of 4 level daisy chain connections as shown in figure 15. Figure 15. DEU Daisy chain connection *Note: Please check the software release note for the DEU cascading features and limitation of each software version.
User Manual v1.0 Table 12. DEU interface introduction NO. Interface Interface Type Silk Screen Description 1 DC_IN Phoenix connector DC_IN 48V DC input 2 Reset Button Button x 1 RST Reset button for the system reset to factory config PWR 3 LED Indicator LED x 4 RUN ALM 25G 4 5 Operation and Maintenance port RJ45 x 1 ALM/RUN/PWR: Indicates the DEU working mode and alarm status 25G: Indicates the DEU is running in 24.
User Manual v1.0 1.4.4 Remote Units Figure 18. DLRU image Figure 19. DLRU image Figure 20. DLRU image Remote Unit (RU) is the radio coverage unit located at the end of the DAS system. The Remote unit interfaces between DEU and the UE (User Equipment), enabling to receive the operator service signals in CPRI format, transfer to RF signal and send to UE. Corning digital remote antenna units includes three power level types: DLRU/DMRU/DHRU.
User Manual v1.0 Table 13.
User Manual v1.0 Figure 21. DLRU interface image Table 14. DLRU interface introduction NO. Item Interface Type Silk Screen Description 1 Operation and Maintenance port RJ45 OMT Ethernet connection for the local setup 2 TRIG/REF MCX interface TRIG/REF Synchronous trigger signal, used for device test DC48V IN Power input port, voltage input range 38V~58V, PWR1 and PWR2 will be combined inside the device before supplying power to the device 3 DC48V IN Power input port 4/8 ANT 4.
User Manual v1.0 Figure 22. DMRU Interfaces Table 15. DMRU Interface Introduction NO. Item Interface Type 1 ANT 4.3-10 interface 2 Couple port 3 Optical port 4 Silk Screen ANT1 ANT2 Description RF input and output, used for external antenna connection Couple 2 RF couple port, used for signal test and debug SFP optical port OP1/OP2 24.
User Manual v1.0 1.4.5 System topology and gain assignment The system topology contains the following network elements: One master DCU- All the configs and alarms of RIUs, DCUs, DEUs and remote units are transferred to it, and also interfaces the SNMP server of DAS system.
User Manual v1.0 Table 16.
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: Head End (HEU, HIU), see 2.1 DRU, see 2.5. Remote Units Installation: LRU, see 2.5 MRU, see 2.6. *Note: Refer to chapter 6 for dimensions and specifications.
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User Manual v1.0 2.1 Head End Units – Architecture Example Example: 2X2 MIMO, 1 Operator Figure 25 dLRU architecture image 2.2 RIU Installation Example of system connection See 2.1 example: 2x2 MIMO Contact the site designer for cable connection topology of the system. To install the RIU, follow these steps: 1. Verify the box contents, see 2.2.1 2. Mount the RIU, see 2.2.2 3. Connection RIU cable, see 2.2.3 2.2.
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User Manual v1.0 2.2.2 Mount the RIU Place the RIU horizontally in the 19-inch rack, align the four holes on the lugs on both sides of the equipment with the nuts, install the M6 screws and fasten them. 4 screws Figure 26. RIU rack Installation 1) Connect the RF cables on the chassis with M3 screws, and sort out the RF cables.
User Manual v1.0 2.2.3 RIU Cable Connection Connect the external cable as the following diagram shows. Figure 28 RIU cable connection Cable list for RIU One End Cable Connector GND cable Connected to... OT terminal (M4) Ground screw on the RIU DC power Phoenix cable (indoor) connector RF cable The Other End Connector Connected to...
User Manual v1.0 2.3.1 Verify Box Contents Open the package and verify that all the items in the table below are available: Table: DCU Package Items List Item Quantity Image Part Number HARDWARE – provided in the box DCU unit 1 Ethernet Communication Cable 1 DC Power Adapter 1 HARDWARE – not provided 4 Screws #8 or 4mm (For ceiling mounting) 4 SFP+ Pluggable transceivers (Hot-pluggable optical transceiver module) 1 Support 24.
User Manual v1.0 2.3.2 Mount the DCU Step 1: Take the DCU out of the package. Figure 29 DCU image Step 2: Put the DCU horizontally into the rack, tighten the M6 screws as shown below, and the installation is completed. . Figure 30 Installation diagram of DCU in the Rack Step 3: Plug in the RF cable plug (RF cable not shown in the below), as shown in Figure 31.
User Manual v1.0 2.3.3 DCU Cable Connection Figure 32 DCU cable connection Cable List of Dual DCU One End Cable The Other End Connector Connected to... Connector Connected to... GND cable OT terminal (M4) Ground screw on the RIU OT terminal (M4) Ground terminal on the external grounding bar DC power cable (indoor) Phoenix connector DC power input socket on the RIU 2-pin plug External power input socket AC IN Depending on power device External power device 100V~240V, 1.3A0.
User Manual v1.0 2.4.1 Verify Box Contents 1. Open the package and verify that all items the table below are available: Table 1: DEU Package Items List Item Quantity Image Part Number HARDWARE – provided in the box DEU unit 1 DC Power Adapter HARDWARE – not provided 4 Screws #8 or 4mm (For ceiling mounting) 4 SFP+ Pluggable transceivers (Hot-pluggable optical transceiver module) 1 Support for 24.
User Manual v1.0 2.4.2 Mount the DEU 1. Take the DEU out of the package. Figure 32. Rack Installation -Step1 2. Mount the DEU in the rack with 4 pcs of M6 screws. Figure 33. Rack Installation- Step 2 3. Install the DEU in the rack.
User Manual v1.0 2.4.3 DEU Cable Connection Figure 35 DEU cable connection Cable List of Dual DEU One End Cable GND cable The Other End Connector Connected to... Connector Connected to... OT terminal (M4) Ground screw on the RIU OT terminal (M4) Ground terminal on the external bar AC IN Depending on power device AC Power device 100V~240V, 1.3A0.
User Manual v1.0 2.5 dLRU Installation 2.5.1 Verify box Contents 1. Open the package and verify that all items in the following table are available: Table 17: dLRU Package Items List NO.
User Manual v1.0 2.5.2 Mount the dLRU The LRU may be mounted on a wall or on a pole: single or dual. Select the configuration related to your deployment. *Note: For dual unit installations, the internal cable must be connected before connected between the units. 1. Open the cover by unscrewing 4 screws 2. Connect the DC wire pair (48V) to any one of the two power connectors, via the DC power adapter (terminal block connector) 3.
User Manual v1.0 2.5.2.1 Wall Installation For a single unit 1) Connect the bracket to the wall with 4 screws, as shown in the figure below: 4 screws Figure 36-4 screws 2) mount the LRU on the bracket with 4 screws.
User Manual v1.0 For a dual unit: 1) Connect the combiner to the mounting bracket with 4 screws. Combiner in bracket Figure 38 Combiner in the bracket 2) Connect between the low band and mid-band units with the side bracket: Mid-band Low band Figure 39 Combiner in the bracket *Note: Ensure that the low band device is connected at the bottom, and the mid-band at the top. Connect between the two devices and the bracket (already carrying the combiner) with 4 screws. 2.5.2.
User Manual v1.0 Figure 41 Single unit ceiling installation Dual unit combined ceiling installation If the application scenario requires the use of low frequency and intermediate frequency devices, it is suggested to use the cascading installation. *Note: The ceiling needs to be cement board or hard wood board which enables to bear the weight of 45 pounds.
User Manual v1.0 2) Assembly of left bracket, right bracket and equipment, as shown in Figure 43. Figure 43 Installation of the left and right brackets and device bracket 3) Bracket installation: Drill holes on the ceiling at a distance of 200mm*160mm according to the size of the mounting holes of bracket, then drive the expansion bolts into the holes, install the mounting bracket, pad gaskets, and lock nuts, as shown in Figure 44.
User Manual v1.0 Figure 45 Combiner installation diagram Low Band dLRU installation Tighten the M6 bracket screws on the left and right sides of the upper part of the dLRU, and then hang the device on the mounting bracket. as shown in the figure below. Figure 46 Low band dLRU installation Hang the combination Hang the combination of the left and right brackets with four M6 bracket screws, and then use M6×15 pentagonal combination screws to fastened the second dLRU as shown in the figure below.
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User Manual v1.0 2.5.2.3 Pole Installation Single unit pole installation The pole mounting installation of all device is the same as the wall mounting installation above, except that the equipment is installed on a pole. As shown in Figure 49, M10 bolts, M10 nuts, elastic flat washers, and pole mounting brackets are required. They can be installed on poles from φ65mm to φ140mm depending on the length of the M10 bolts selected (the recommended length is 12cm and 20cm).
User Manual v1.0 Dual unit pole installation Before installing the bottom device, please install the combiner first. Put the M6 bracket screws on the left and right sides of the combiner, and then hang the combiner on the mounting bracket. Finally, tighten the M6×15 pentagonal combination screws, as shown in the figure below.
User Manual v1.0 Figure 53 Dual unit installation diagram 2.5.3 Power+ SPF+ Cable For each unit, open the cover by removing 4 screws: Figure 54 Connection of two units and a combiner For each unit, connect the internal (under-cover) cables as follows: Power socket, see Figure 55. SFP+, see Figure 56. The voltage range of the device power supply is DC36V~57V. Remove the rubber plug from the SFP+ connector located in the LRU RF port.
User Manual v1.0 Figure 55 Power socket SFP+ Cable SFP+ Pluggable Transceivers Figure 56 Remove rubber plug from the port and insert the SFP+ Pluggable Transceivers (hot-pluggable optical transceiver module) into it.
User Manual v1.0 2.5.4 Connect the Ground and Antenna Cables 2.5.4.1 Ground *Note: Ground according to local regulations. The following additional (not supplied) tools and components are required for connecting the system ground: The size of ground shall meet the local and national installation requirements. The provided ground lug supports 14 AWG to 10 AWG stranded copper (or 12 AWG to 10 AWG solid) wire conductors. Use a wire-stripping tool to remove approximately 0.4 inch (10.
User Manual v1.0 2.5.4.2 Antenna Connect the MRU male 4.3-10 Type duplexed RF ANT port to the broadband antenna(s) with proper cables. Figure 58 Antenna *Notes: To avoid MIMO disruption, ensure that the antennas are connected correctly according to the combiner labels. There may be some configurations/use-cases which are not required for the combiner, as there is only one type of unit (either low or mid band). 2.5.5 Combiner cables Connect the Antenna cables as the figure shows below.
User Manual v1.0 Figure 60 The entire system connection *Notes: To avoid MIMO disruption, ensure that the antennas are connected correctly according to the combiner labels. There may be some configurations/use-cases which are not required for the combiner as there is only one type of the unit (either low or mid band). 2.5.6 Verify normal operation The LED indicator is located on the side panel of the dLRU, as shown in the figure below.
User Manual v1.0 3. GUI – General Description This section provides general guidelines and tools for navigating the system GUI: Screen layout, see 3.1 Main menu options, see 3.2. Default network settings, see 3.3. Supported access options, see 3.3 3.1 Screen Layout The information board (located at the top of the window) lists the device information. The Navigation board (located on the left down of the window) lists the device and their functions.
User Manual v1.0 3.2 Function Options The function options on the Web-GUI are listed in the following table. Function Description Device info View the system topology and info about different system elements Reset Software reset for the selected device Firmware Upgrade or downgrade the firmware Alarm Setting Set the alarm including alarm enable/disable, alarm threshold Import & Export Import or export the config file Log Import or export the log file Comm.
User Manual v1.0 4. Session Access and first-time settings When all the system elements are installed, the system administrator can login the system GUI and perform initial configurations. It is recommended to start using Corning ® Everon ™ 6000 and the specific steps are as follows: Open a local session to the DCU, see chapter 4.1. Configure the LAN IP settings (remote management) to enable remote access, see chapter 4.2.
User Manual v1.0 Figure 64 Network &Internet setting b. Select Ethernet Change adapter options Figure 65 Ethernet setting c. Right click Ethernet 3 and select Properties.
User Manual v1.0 Figure 66 Ethernet 3 d. Select Internet Protocol Version 4(TCP/IPv4)and click Properties Figure 67 Ethernet 3 properties i. Type in the properties: 192.168.8.3 255.255.0.0 click OK ii.
User Manual v1.0 iii. Allowed: 192.168.8.3 Not allowed: 192.168.8.101 (this IP is used by the LOCAL port). Click OK and close the control panel Set the IP address according to the default IP address of the LOCAL port and the subnet mask. Figure 68 General setting 3) When the connection is established (can be verified by accessing through command prompt: cmd ipconfig), open a browser and type in the LOCAL port default IP address in the address bar: 192.168.8.3. Ping the IP address also works.
User Manual v1.0 5. Commissioning Configure the DAS for each frequency during the commissioning process which requires a basic understanding of link, budgets and RF technology. Most system commissioning scenarios are covered and the process should be adjusted based on the site requirements and instructions of Corning Support. webGUI Workflow Figure 69 webGUI Workflow *Note: In order to protect the whole system, please don’t input eNodeB signal before commissioning.
User Manual v1.0 Combiner Mode: 8TO1/4TO1/2TO1 Figure 70 RIU overview 5.1.
User Manual v1.0 5.2 DCU Config 5.2.1 DCU -> Dashboard Click the Dashboard navigation button to enter the dashboard page shown in the figure below, where you can query the full topology of all the dependent NE connected to the DCU unit. Click NE ID in the topology, and switch to the info query and configuration management page of other NE to facilitate the user. Figure 72 DCU dashboard 5.2.2 DCU Alarm On the left navigation page of the DCU unit, click DCU → Alarm shown in the figure below.
User Manual v1.0 Figure 74 DCU OP info In this interface, you can view the information of all optical ports which is convenient for users to query the alarm info of optical modules. Click the edit icon in front of the alarm indicator to enter the alarm enabling and shielding settings page.
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User Manual v1.0 5.2.2.3 DCU TDD Config UL/DL Slot Configuration: User-defined parameters are supported, but should be the same as the operator parameters.
User Manual v1.0 5.2.3 DCU -> RIU As shown in the figure, click DCU → RIU to query and set the information of the RIU connected to the DCU unit. Figure 81 RIU overview 5.2.4 DCU -> Function Configure the max input according to specific needs. 5.2.4.1 Device Info Click Function Device Info to query the names and values of the device, as shown in the figure: Figure 82 DCU Function Device Info 24h reboot time, site info, site ID, user model and device mode can be customized by users.
User Manual v1.0 5.2.4.2 Reset Click Function Reset to reset the software and hardware of DCU and clear the historical alarms. Figure 83 DCU Function Reset 5.2.4.3 Firmware Click Function Firmware and the firmware info can be viewed and upgraded. Figure 84 DCU Function Firmware Two upgrade modes are supported by 5G digital DAS products of D430 series of the system software of all NE: centralized upgrade and decentralized upgrade.
User Manual v1.0 Figure 85 Firmware upgrade configuration 1. Decentralized upgrade : the Control Switch is OFF and only the software of the current DCU unit can be upgraded in this mode. The steps to upgrade the software are the followings: Step1: Click SCAN to import the software version to be upgraded. Step2: Click Upgrade. When the progress of downloading the software to the device is 100% and FINISH is prompted, the software is successfully downloaded.
User Manual v1.0 Figure 87 System upgrade on/off 5.2.4.4 Alarm Setting Through Function Alarm Setting, setting the alarm duration can be achieved. When it is set to1~253, it shows alarm duration, with the unit of 10s.
User Manual v1.0 5.2.4.5 Import & Export The user can import and export DCU configuration by clicking Function Import & Export, as shown in figure: Figure 89 DCU Function Import & Export 5.2.4.
User Manual v1.0 5.2.4.7 Comm. Setting Click Function Comm. Setting to set the network management communication types, as shown in the figure: Figure 91 DCU Function Comm. Setting 5.2.4.8 IP Setting Click Function IP Setting to set DCU IP for OMC communication, as shown in the figure: Figure 92 DCU Function IP Setting 5.2.4.
User Manual v1.0 Figure 93 DCU Function Site Report 5.2.5 DCU -> UserInfo 5.2.5.1 Password Click User->Password to reset the DCU password which should include capital and lower-case letters and 13 digits in length, and the recommended password is zaq1XSW2cde34. Figure 94 DCUUserPassword 5.2.5.2 UserInfo Click User->UserInfo to add a user and set the role and password, as shown in the following figure.
User Manual v1.0 Figure 95 DCUUserUserInfo Figure 96 DCUUserUserInfoAdd User 5.2.5.3 LoginInfo As shown in figure 91, click User->LoginInfo to set the maximum value of password input attempts. This function indicates that when a user logs in, the system will be locked if the times of password input exceeds the maximum.
User Manual v1.0 Figure 97 DCU DCUUserLoginInfo 5.2.6 Program Click ProgramSite Management to clear the site ID of the DCU reported to OMC.
User Manual v1.0 Figure 99 DCU Program 5.3 DEU Config 5.3.1 DEU -> Dashboard Click the Dashboard navigation button to enter the dashboard page shown in the figure below, where you can query the full topology of all the dependent NE connected to the DEU unit. And the info query and configuration management page of other NE can be switched to after clicking NE ID in the topology. Figure 100 DEUDashboard 5.3.1.
User Manual v1.0 Figure 101 DEUDEUAlarm Info Alarms can be set and viewed in this function which are defined as follows: 1) Equipment Alarm: if any alarm is valid, the alarm will take effect. 2) AC Alarm: if the input voltage is abnormal, the alarm will take effect. 3) DC Alarm: if the output of the power module is abnormal, the alarm will take effect. 4) Fan Alarm1~4: if any fan (4 in total) in the fan module is abnormal, the alarm will take effect.
User Manual v1.0 The range of optical module transmitting power (Tx PWR) is -3dBm~5dBm; The range of Rx PWR shall be greater than -10dBm. The maximum operating temperature must be lower than 80 ° C and the optical module must be correctly matched. Otherwise, an exception may occur. Alarms can be queried on this interface. Click ">" under the OP InfoMore to view the optical module info, as shown in the figure below: Figure 103 DEUDEUOP InfoMore 5.3.1.
User Manual v1.0 Figure 105 DEUFunctionDevice Info 5.3.2.2 Reset Click Function Reset to clear the historical alarm, reset the software and hardware of the DEU, and reset the software and hardware of the RU connected to the DEU, as shown in the figure below: Figure 106 DEUFunctionReset 5.3.2.
User Manual v1.0 Figure 107 DEUFunctionExport Log 5.3.2.4 Import & Export Import and export the DEU configuration by clicking Function Import & Export, as shown in the figure below: Figure 108 DEUFunctionImport & Export 5.3.2.
User Manual v1.0 Figure 109 DEUFunctionAlarm Setting 5.3.2.6 Firmware Click Function Firmware and the firmware info can be viewed and upgraded. Figure 110 DEUFunctionFirmware 5.3.2.
User Manual v1.0 Figure 111 DEUFunctionSite Report 5.3.3 DEU -> UserInfo 5.3.3.1 Password Click User->Password to reset DEU password, as shown in in the figure below: Figure 112 DEUUserPassword 5.3.3.2 UserInfo Click User->UserInfo to add a user to set the role and password, as shown in the figure below.
User Manual v1.0 Figure 113 DEUUserUserInfo Figure 114 DEUUserUserInfoAdd User 5.3.3.
User Manual v1.0 Figure 115 DEUUserLoginInfo 5.4 dLRU Config 5.4.1 RU -> Overview&Alarm Click RU to enter the Overview interface and view the current status of RU alarms (e.g., link Alarm). Figure 116 DEURU Each alarm is defined as follows: Link Alarm RU Device Alarm Digital HW ALM Temperature Alarm Low Transmission Alarm Overflow Alarm DC Voltage Lower Alarm Drag the scroll bar to view more information (e.g., Temperature) as shown in the figure below.
User Manual v1.0 Figure 117 DEURU 5.4.2 RU Parameter config 5.4.2.
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User Manual v1.0 Interfaces and Mechanical CPRI Ports 8 x SFP+ (25 Gbps) to DEU CPRI Ports 6 x SFP+ (25 Gbps) to secondary DCU Ethernet Ports 2 x RJ45 - local monitor, remote monitor Ethernet Ports 2 x RJ45 - to RIU, PSU 4 x Cluster RF connectors to donor radio head RF ports Each Cluster RF connector contains 8 simplex ports to RIU External Synchronization 2 x QMA, 10 MHz In/Out Dimensions (H x W x D) Inch (mm) 3.46 x 19.09 x 15.75 (88 x 485 x 400) Weight (approx.
User Manual v1.0 Distributed Extension Unit (DEU-G2) Radio hub/router for system extension 28 x 25 Gbps Optical Interface Support DEU cascading Interfaces and Mechanical CPRI Ports 4 x SFP+ (25 Gbps) for DEU cascading CPRI Ports 24 x SFP+ (25 Gbps) for dLRU/dMRU/dHRU connection Ethernet Ports 1 x RJ45 - local & remote monitor Dimensions (H x W x D) Inch (mm) 1.73 x 19.09 x 14.17 (44 x 485 x 360) Weight (approx.) Lbs (kg) 16.75 (7.
User Manual v1.0 Distributed Extension Unit (DEU-G2-PS) Radio hub/router for system extension 28 x 25 Gbps Optical Interface Support DEU cascading PSU for dLRU Interfaces and Mechanical CPRI Ports 4 x SFP+ (25 Gbps) for DEU cascading CPRI Ports 24 x SFP+ (25 Gbps) for dLRU/dMRU/dHRU connection Ethernet Ports 1 x RJ45 - local & remote monitor Dimensions (H x W x D) Inch (mm) 3.46 x 19.09 x 14.17 (88 x 485 x 360) Weight (approx.) Lbs (kg) 26.
User Manual v1.0 7. APPENDIX B: LED Functionality and Colour Definition Table 18. Optical LED definition SFP Plug out Optic Link Fail Optic Link Ok CPRI Link Ok SFP Plug out 1. Optic cable disconnected 2. SFP fail 2.1 SFP fault 2.2 SFP warning 2.3 SFP alarm 3. CPRI link down 1. Optic cable connected 2. SFP ok 3. CPRI link down 1. Optic cable connected 2. SFP ok 3. CPRI link up Green (SYNC) OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON Amber (LOS) OFF ON ON ON ON ON ON ON ON ON OFF OFF OFF Table 19.
User Manual v1.0 Digital Low-power Remote Units-2.5G (dLRU-G2-25) 194 MHz IBW with 2T2R MIMO 1 x 25 Gbps Optical Interface to DEU Compact design for easy installation RF Specification Frequency Range MHz 2496-2690 Max.
User Manual v1.0 Weight (approx.
User Manual v1.0 Digital Low-power Remote Units High Band (dLRU-G2-35) 530 MHz IBW with 2T2R MIMO 2 x 25 Gbps Optical Interface to DEU Compact design for easy installation RF Specification Frequency Range MHz 3450-3980 Max.
User Manual v1.0 Interfaces and Mechanical CPRI Port 2 x SFP+ (25 Gbps) to DEU Antenna Ports 2 x 4.3-10 female to external antenna Dimensions (W x H x D) Inch (mm) 10.6 x 10.6 x 2.95 (270 x 270 x 75) Weight (approx.
User Manual v1.0 Digital Medium-power Remote Unit-2.5GHz (dMRU-G2-25) 194 MHz IBW with 2T2R MIMO 1 x 25 Gbps Optical Interface to DEU Compact design for easy installation RF Specification Frequency Range MHz 2496-2690 Max.
User Manual v1.0 Interfaces and Mechanical CPRI Port 1 x SFP+ (25 Gbps) to DEU Antenna Ports 2 x 4.3-10 female to external antenna Coupling port 2 x QMA for testing Dimensions (W x H x D) Inch (mm) 17.3 x 3.5 x 14.6 (440 x 88 x 370) Weight (approx.) Lbs (kg) 30.
User Manual v1.0 Digital Medium-power Remote Unit High Band (dMRU-G2-35) 530 MHz IBW with 2T2R MIMO 2 x 25 Gbps Optical Interface to DEU Compact design for easy installation RF Specification Frequency Range MHz 3450-3980 Max.
User Manual v1.0 Interfaces and Mechanical CPRI Port 1 x SFP+ (25 Gbps) to DEU Antenna Ports 2 x 4.3-10 female to external antenna Coupling port 2 x QMA for testing Dimensions (W x H x D) Inch (mm) 17.3 x 3.5 x 14.6 (440 x 88 x 370) Weight (approx.
User Manual v1.0 Radio Interface Unit-2.5 GHz (RIU-G2-25) 8 input ports for donor RF signal connection Active ATT, input power detection & ALC protection for RF module Max.
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User Manual v1.0 Radio Interface Unit-3.5 GHz (RIU-G2-35) 8 input ports for donor RF signal connection Active ATT, input power detection & ALC protection for RF module Max.
User Manual v1.
User Manual v1.0 Antenna Multiplexer (COMB-G2-FDD-25-35) 6-in/2-out multiplexer for 2X2 MIMO 6 input ports for low, medium, and high band remote radio unit connection 2 output ports for antenna connection Compatible with both low- and medium-power remote radio unit Electrical Characteristics Port Port1, Port4 (FDD Bands) Port2, Port5 (2.5 Band) Port3, Port6 (3.5 Band) Frequency Range MHz 617-2360 2496-2690 3450-4000 Bandwidth MHz 1743 194 550 Insert Loss dB ≤0.6(25°C) ≤0.6(25°C) ≤0.
User Manual v1.0 Dimensions, H x W x D Inch (mm ) 10.6 x 6.6 x 1.6 (270 x 168 x 41) Weight (approx.) Lbs (kg) 4.8 (2.
User Manual v1.0 HRU -High-Power Remote Unit System performance (Head End to High power Remote Unit) RF 600 700L & 700U & FirstNet 663698 698716 777798 Downlink 617652 728746 Max.
User Manual v1.0 EVM (256 QAM) (TM3. 1A@ Rated power) % Spurious Emission < 3.5 3GPP TS 36.106/25.106; 3GPP TS 38.104 V 15. 5. 0 (sections 6; 7) Electrical Specifications Power Consumption OEU (Optical Expansion Unit) – connected to RFU’s 50 220 (Typical) Watt RFU (RF Unit) – MIMO 2:2 for the bands 600,700,800/850, 1700.
User Manual v1.0 Interfaces and Mechanical CPRI Port 4, SFP+ 10. 1Gbps Antenna Ports 1 ,4.3-10 female Dimension (W x H x D) OEU 14.6 x 3.2 x 13.8 (370 x 80 x 355) Inch RFU except 700 19.7 x 3.2 x 13.8 (mm) (500 x 80 x 355) RFU 700 19.7 x 4. 8 x 13.8 (500 x 121 x 355) Mounting and installation Wall mount Weight OEU 26.4 (12) RFU except 700 39.
User Manual v1.0 *Technical specs are subject to change without notice. Medium Bands Combiner specifications The medium band combiner is designed to combine the services: 1900, EAWS, WCS and 2.5GHz. If a single module is required, a single input (2500) is used. If 2 * 2.5GHz RF modules are used (to support 4G and 5G services), 2 inputs are required (2500 IN1 and 2500 IN2) .