CORNING Everon 6000 G2 Campus and Large Venue Distributed Antenna System Instruction Manual
- June 4, 2024
- Corning
Table of Contents
Everon 6000 G2 Campus and Large Venue Distributed Antenna System
Instruction Manual
File history
Document
title| Everton 6000 G2(3500) commissioning instruction manual
---|---
Document resume
Edition| Organization| Date| Changes (terms)
V1. 0| Xionglin He| 2022-08-01| First release
Foreword
This manual introduces the Everon 6000 G2 commissioning instructions and
relevant operating instructions
WEB OMT configuration through IE7/IE8, Firefox and Chrome browsers. Since the
system of this product will be constantly updated and the software will be
constantly upgraded, the software version described in this manual may be
different from the pictures. Therefore, the parameters, specifications, and
others in this manual are subject to change without notice.
Abbreviation notes are shown in the following table:
Abbreviation notes Table 1
| ALC | Automatic Level Control |
|---|---|
| AGC | Automatic Gain Control |
| ATT | Attenuation |
| BTS | Base Transceiver Station |
| DL | Downlink |
| UL | Uplink |
| ANT | Antenna |
| MCU | Main Control Unit |
| LNA | Low Noise Amplifier |
| OMT | Operation & Maintenance Terminal |
| WebOMT | Web Operation & Maintenance Terminal |
| OP | Optical Fiber |
| WDM | Wavelength Division Multiplexer |
| WCDMA | Wideband Code Division Multiple Access |
| CDMA | Code Division Multiple Access |
| FCC | Federal Communications Commission |
| LTE | (3G) Long Term Evolution |
| MIMO | Multiple Input Multiple Output |
Abbreviation notes Table 2
| OAS | Distributed Antenna System |
|---|---|
| Dru-G2-678 | Low Power Remote (20d8m) for 600, 7001.1700U/700FN, 850, 2T2R MIMO |
(requires 1x1OG SFP, ordered separately)
Dru-G2-
17192325| Low Power Remote (20dBm) for AWS. PCS, WCS and 2.5GHz (194MHz). 2T2R
MIMO (requires 3x1OG SFP. ordered separately)
Dru-G2-25| Low Power Remote (23d8m) for 2.5GHz (194MHz), 2T2R MIMO (requires
1x25G SFP. ordered separately)
Dru-G2-35| Low Power Remote (26d8m) for C-Band, 2T2R MIMO (requires 2x25G SFP,
ordered separately)
MRU-G2-25| Mid power remote (8W) for 2.5GHz, 2T2R MIMO, AC power (requires
1x25G SFP. ordered separately)
MRU-G2-35| Mid-power remote (8W) for C-Band. 2T2R MIMO. AC power (requires
2x25G SFP. ordered separately)
RIU-G2-25| Radio Interface Unit (RIU) for 2.5GHz. 8 x 4.3-10 ports, support
for either 2 x 4T4R2 or 4 x
212R, input power range: -10-37 dBm
RIU-G2-35| Radio Interface Unit (RIU) for C-Band, 8 x 4.3-10 ports, support
for either 2 x 4T4R2 or 4 x
2T2R, input power range: -10-37 dBm
OCU-G2| Digital Conversion Unit (DCU) for FDD and TDD bands. Supports 2 x
8T8R/4 x 4T4R/8 x 2T2R, up to 16 RF Channels. 8 optical ports for DEU
connection. 4 optical ports for cascading DAU (requires 25G SFPs. ordered
separately)
DEU-G2| Digital Extension Unit (DEU) includes 28 optical ports (HW line rate
up to 25Gbps). 4 optical ports for DEU cascade (25Gbps). 24 optical ports for
radio connection (dLRU/dMRU/dHRU) (requires 25G SFPs. ordered separately)
DEU-G2-PS| Digital Extension Unit (DEU) includes 28 optical ports (HW line
rate up to 25Gbps). 4 optical ports for DEU cascade (25Gbps), 24 optical ports
for radio connection (dLRU/dMRU/dHRU). Include 12 x power supply ports (max
100W) (requires 25G SFPs, ordered separately)
DLR-G2-678| Low Power Remote (20d8m) for 600. 7001../700U/700FN, 850. 2T2R
MIMO (requires 1x1OG SFP, ordered separately)
Dru-G2-
17192325| Low Power Remote (20dBm) for AWS. PCS, WCS and 2.5GHz (194MHz). 2T2R
MIMO (requires 3x1OG SFP. ordered separately)
Dru-G2-25| Low Power Remote (23d8m) for 2.5GHz (194MHz). 2T2R MIMO (requires
1x25G SFP. ordered separately)
Dru-G2-35| Low Power Remote (26dBm) for C-Band, 2T2R MIMO (requires 2x25G SFP,
ordered separately)
MRU-G2-25| Mid power remote (8W) for 2.5GHz, 2T2R MIMO, AC power (requires
1x25G SFP, ordered separately)
Operating environment
1.1 Computer hardware configuration requirements
- Computer: main frequency above 2GHz, memory above 512MB, display resolution: 1024×768 above;
- With an RJ45 network port;
- Or with a USB port, external USB to an RJ45 network port.
1.2 Computer software configuration requirements
- Operating system: Windows XP, Windows 7, Windows 10 and above;
- Browser: Mozilla Firefox and above, Google Chrome 67 and above, IE9/IE10 and above are recommended;
Overview
The product can use the network management system to query and set the
parameters of the network element, so as to complete the daily management and
maintenance tasks of the network element. The whole system includes RIU, DCU,
DEU, and dLRU. It is connected to the OMT port of DCU through a network cable,
and the remote computer
terminal can be connected to the whole system, so as to complete the
monitoring of all network elements in the whole network, and complete the
parameter inquiry and setting of all RIU, DCU, DEU, and dLRU. The schematic
diagram of WEB OMT commissioning is shown in Figure
System connection description of
RIU+DCU+DEU+dLRU (1+1+1+1)
-
Fiber connection description
The optical port connection of the system is shown in the figure. The DCU optical port OP1 is connected to the DEU OP-A port, the DCU optical port OP2 is connected to the DEU OP-B port, the DEU OP1 port is connected to the DLR OP1 port, and the DEU OP2 port is connected to the DLR OP2 port. -
Equipment wiring is shown in the figure below:
Base station RRU->RIU:
➢ ANT1 of RRU is connected to TX1/RX1, TX2/RX2, TX3/RX3 and TX4/RX4 of RIU;
➢ ANT2 of RRU is connected to TX5/RX5, TX6/RX6, TX7/RX7 and TX8/RX8 of RIU;
RIU->DCU (It requests to connect RF cable and network cable between RIU and
RCU):
➢ Connect the “PREV” of the RIU panel to the “to RIU” of the DCU panel with
the network cable;
➢ TX1 and RX1 of RIU1 are connected to SISORX3 and SISOTX3 of DCU;
➢ TX2 and RX2 of RIU1 are connected to SISORX4 and SISOTX4 of DCU;
➢ TX3 and RX3 of RIU1 are connected to MIMORX3 and MIMOTX3 of DCU;
➢ The TX4 and RX4 of RIU2 are connected to the MIMORX4 and MIMOTX4 of DCU.
Configuration instructions before accessing WEB OMT
After the RIU, DCU, DEU and drew are connected to the local computer through the network cable respectively, the relevant settings of the network parameters of the local computer are required before the normal use of WEB -OMT to access the system. The setting of computer IP is shown in figure 4.1-1:
In figure 4.1 -2, the IP address 192.168.8.102 is only an example. It can be all IP addresses except 101 in the same network segment 192.168.8 (the default IP address of the DAS network element is 192.168.8.1 01). After the above operations, you can log in to WEB -OMT through the browser, address: https://192.168.8.101 , default account: admin, default password: admin; As shown in figure 4.1 -3:
Software upgrade operation instructions
Connect the network cable to the OMT port of the DCU device, and use the WEB
browser to access the device IP address:
https://192.168.8.101.After entering the user name and password of the
device, the system will enter the WEB configuration page of DCU by default.
Click the topology diagram frame of DCU and DEU respectively in the topology
diagram area to switch to the corresponding network element WEB configuration
page.
5.1 RIU software upgrade instructions
Step1: connect the network cable connecting the local commissioning computer
to the DCU network element.
Step 2: click Function —Firmware—Scan to enter the RIU software package
selection page, and import the software package M52RIU_V01.00.00.0 1.dnl of
the RIU to the device storage area.
Step3: click Upgrade – OK to perform the software upload operation, and the
software upload progress will be displayed in real-time under progress. When
the progress promp it is 100%, it means that the software package has been
uploaded.
Step4: wait for the software upload to complete, and click OK.
And wait for the device reset to complete (the front panel of the device’s run
light flashes for 1s, indicating that the device reset is complete).
5.2 DCU software upgrade instructions
Step1: connect the network cable connecting the local commissioning computer
to the DCU network element.
Step2: as shown in figure 5.2 -1, click Function—Firmware—Scan to enter the
DCU software package selection page, and import the DCU device software
package DCUG2_V01.00.01.41.dnl to the device storage area.
Step3: click Upgrade – OK to perform the software upload operation, and the software upload progress will be displayed in real-time under progress. When the progress prompt is 100%, it means that the software package has been uploaded.
Step4: wait for the software upload to complete, and click OK. And wait for the device reset to complete (the front panel of the device’s run light flashes for 1s, indicating that the device reset is complete).
Step5: After the device upgrade and reset is completed, as shown in figure 5.2-4, the software version number of the DCU network element is Everon_6000_DCU_P2V01. 00.01.41 indicates that the software of the DCU network element has been upgraded.
5.3 DEU software upgrade instructions
Step1: connect the network cable connecting the local commissioning computer
to the DEU network element.
Step2: as shown in figure 5.3 -1, after entering the WEB configuration page of
DEU, click Function—Firmware—Scan to enter the DEU software package selection
page, and
import the software package DEUG2_V01.00.01.27.dn to the device storage area.
Step3:click Upgrade – OK to upload the software.
The software upload progress will be displayed in real-time under progress. When the progress prompt is 100%, it means that the software package has been uploaded.
Step4: wait for the software upload to complete, click OK in the pop-up dialog
box, wait for the device reset to complete (the front panel of the device run
light flashes as 1s, indicating that the device reset is complete), and query
the software version of the DEU device as DEUG2_V01.00.01.27 indicates that
the software upgrade of DEU is completed.
5.4 Dru software upgrade instructions
Step1: connect the network cable connecting the PC to the WEB OMT port of Dru,
and access the IP address of the device through the browser:
https://192.168.8.101, enter the user name and password to enter the WEB
configuration page of Dru. 
Step2: as shown in the figure, click Firmware —Scan to upload the software package of Dru, select the software package of Dru, click Upgrade in turn, and click OK to perform the software upgrade operation.
After uploading the software package, wait for the device reset to complete.
Step3: after the device is reset, connect the network cable to the WEB OMT
port of the DEU device, click Firmware —Scan to upload the software package of
Dru, select the software package of Dru, click Upgrade in turn, and click OK
in the pop -up a dialog box to upgrade the software.
System WEB configuration description
Connect the network cable to the OMT port of the DCU and access the IP address of the system through the WEB browser( https://192.168.8.101), the system will pop up whether to access the security access page. Click Accept to enter the system login page. When the system logs in for the first time, the password modification page will pop up. According to the user’s requirements, you can customize the password of any 13-digit alphanumeric field (such as zaq1XSW2CDE34). After logging in to the WEB, the system defaults to the WEB page of DCU, and click Dashborder, enter the topology display area of the system, click the network element block diagram of RIU, DCU and DEU in the topology display area, and you can directly switch to the WEB configuration page of the corresponding network element.
6.1 RIU WEB configuration description
Step1: in the topology display area of the system, click the RIU network
element block diagram in the topology display area to enter the WEB
configuration page of the RIU.
Step2: set the working mode of the channel to TX/RX, set the RF switch to ON, and set UL ATT, and DL ATT to adjust the signal size of the uplink and downlink output and input channels in turn.
6.2 DCU WEB configuration description
Connect the network cable to the OMT port of the DCU and access the IP address
of the system through the WEB browser(
https://192.168.8.101), as shown in Figure 2, the
system will pop up whether to access the security access page. Click Accept to
enter the system login page. When the system logs in for the first time, the
password modification page will pop up. According to the user’s requirements,
you can customize the password of any combination of letters in the 13-digit
number field (such as zaq1XSW2CDE34) After logging into the WEB, the system
defaults to the WEB page of DCU. Click the topology display area on the WEB
and click the topology box of DCU to switch to the WEB page of DCU for the WEB
configuration of DCU. This configuration is only for the signal output of Dru:
Click DCU-RF config and set the band, BW, Signal Mode, and RF switch of
channel 5`8 as follows:
Channel 5: Band is N3500F, BW is 250M, Signal Mode is TDD -NR, and RF Switch
is on.
Channel 6: Band is N3500F, BW is 250M, Signal Mode is TDD -NR, and RF switch
is on.
Channel 7: Band is N3500G, BW is 280m, Signal Mode is TDD -NR, and RF switch
is on.
Channel 8: Band is N3500G, BW is 280m, Signal Mode is TDD -NR, and RF switch
is on.
UL ATT and DL ATT are the attenuation values of uplink and downlink channels
respectively, and the size of signal output can be adjusted according to user
needs.
6.3 DEU WEB configuration description
As shown in figure 6.3 -1, click the topology display area on the WEB and the
topology of DEU to switch to the WEB page of DEU for WEB configuration of DEU.
Click DEU-Carrier info-Add in turn to complete the carrier configuration of the channel of Dru. The carrier configuration information of the channel is as follows. Configure the carrier center frequency point UL Center Freq. (MHz), DL Center Freq. (MHz), carrier bandwidth BW, signal mode Technology, uplink and downlink attenuation UL ATT (DB), DL ATT (DB) MIMO in turn. When MIMO is set to MIMO 1, it means that the carrier signal outputs a signal from the ANT1 port of Dru, Setting MIMO to MIMO 2 means that the carrier signal outputs the signal from the ANT2 port of Dru. After the configuration is completed, click Finish to complete the carrier configuration.
To realize the carrier output signal from channel 1 SISO of Dru, the configuration information is shown in the figure. The configuration range of UL Center Freq. (MHz) and DL Center Freq. (MHz) is 3450~3700. In this example, 3575M is configured, and the MIMO mode is set to MIMO 1.
To realize the carrier output signal from channel 3 SISO of Dru, the configuration information is shown in the figure. The configuration range of UL Center Freq. (MHz) and DL Center Freq. (MHz) is 3700~3980. In this example, 3840M is configured, and the MIMO mode is set to MIMO 1.
To realize the MIMO output signal of the carrier from channel 2 of Dru, the
configuration information is shown in the figure. The configuration range of
UL Center Freq. (MHz) and DL Center Freq. (MHz) is 3450~3700. In this example,
the configuration is 3575M, and the MIMO mode is set to MIMO 2. 
To realize the MIMO output signal of the carrier from channel 4 of Dru, the
configuration information is shown in the figure. The configuration range of
UL Center Freq. (MHz) and DL Center Freq. (MHz) is 3700~3980. In this example,
the configuration is 3840M, and the MIMO mode is set to MIMO 2. 
6.4 Dru WEB configuration description
Click RU-RF Switch to set the switches of the four channels of dLRU to ON/OFF,
which means that the RF channel is in the on state, and set the Work Mode to
DL Normal Open, which means that the downlink is normally open. And set UL
Normal Open, which means that the uplink is normally open.
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