ADRF KOREA ADX-R-78P DAS (Distributed Antenna System) User Manual Rev3 Part2
ADRF KOREA, Inc. DAS (Distributed Antenna System) Rev3 Part2
Contents
- 1. User Manual Rev3_Part1
- 2. User Manual Rev3_Part2
User Manual Rev3_Part2
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| Document ID | 2637601 |
| Application ID | XqUmyhYuWEwctKI8q/J5BQ== |
| Document Description | User Manual Rev3_Part2 |
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| Document Type | User Manual |
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| Filesize | 347.42kB (4342737 bits) |
| Date Submitted | 2015-06-05 00:00:00 |
| Date Available | 2015-09-21 00:00:00 |
| Creation Date | 2015-06-05 09:07:18 |
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| Document Lastmod | 2015-06-05 09:07:18 |
| Document Title | User Manual Rev3_Part2 |
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| Document Author: | shkim |
5. MOUNTING METHOD 5.1 Head End 5.1.1 Rack Mount SD SD CH3 POWER SOFT FAIL CH2 DL IN 3 DPX 3 UL OUT 3 DL IN 2 CH3 POWER SOFT FAIL POWER SOFT FAIL DL IN 3 DPX 3 DL IN 3 DPX 3 DL IN 3 DPX 3 UL OUT 3 DL IN 2 DPX 2 UL OUT 3 DL IN 2 DPX 2 UL OUT 3 DL IN 2 DPX 2 LINK2 LINK3 LINK4 LD FAIL5-8 LINK5 LINK6 LINK7 UL OUT 2 LINK 7 LD FAIL1-4 LINK1 LINK2 LINK3 LINK4 LD FAIL5-8 LINK5 LINK6 LINK7 UL OUT 2 LINK 7 VHF UL 2 LD FAIL1-4 LINK1 LINK2 LINK3 LINK4 LD FAIL5-8 LINK5 LINK6 LINK7 UL OUT 2 LINK 7 VHF UL 2 LD FAIL1-4 LINK1 LINK2 LINK3 LINK4 LD FAIL5-8 LINK5 LINK6 LINK7 VHF DL 2 LINK 6 VHF DL 2 LINK 6 VHF DL 2 UL OUT 2 LINK 6 LINK 7 VHF DL 2 LINK 6 UL1 UL2 UL3 UL4 UL5 UL6 UL7 UL8 UL8 UL7 UL6 DL1 DL2 DL3 DL4 DL5 DL6 DL7 DL8 DL8 DL7 DL6 POWER POWER UL IN UL IN UL IN SUM UL OUT 1 LINK 4 VHF DL 1 DL IN 2 VHF UL 1 LINK 3 LINK 5 LINK 2 UL OUT 1 LINK 4 VHF DL 1 DL IN 2 VHF UL 1 LINK 3 LINK 5 LINK 2 UL OUT 1 LINK 4 VHF DL 1 DL IN 2 VHF UL 1 LINK 3 LINK 5 LINK 2 UL OUT 1 LINK 4 UL5 UL4 VHF DL 1 DL5 DL4 UL OUT DL IN UL OUT LINK 3 LINK 2 UL3 UL2 DL3 DL2 DL IN DPX UL IN DL IN 1 LINK 1 DL IN 1 LINK 1 DL IN 1 LINK 1 DL IN 1 LINK 1 UL1 DL1 UL OUT DL IN DPX OFF OPT 1 OPT 2 OPT 3 OPT 4 BAND COM 1 BAND COM 2 AUX_CH 1 BAND COM 3 BAND COM 4 AUX_CH 2 FA IL FA IL -H HOST HE VIEW LI NK FA IL -R AC ER SO FT FA IL SO -H FT FA IL HA -R FA IL HA -H RD FA IL LI -R NK DC VHF UL 1 UL OUT DPX BATTERY S/W ON OFF ST DL OUT CH1 REMOTE RU VIEW Figure 5‐1 HE Rack Mount (Front & Rear view) Expandable up to 4 OPTs, 4 BCUs and 2 AUX CHs Advanced RF Technologies, Inc. 46 BATTERY 24V 1A BATTERY INSTALL OFF HARD FAIL DL SIG LOW HARD FAIL DL SIG LOW BA TT HARD FAIL DL SIG LOW FA IL HARD FAIL LO UL OUT 1 UL IN SUM SOFT FAIL DL SIG LOW OW DL OUT DL OUT SOFT FAIL CH DPX 1 LINK 5 DPX DL IN 1 DL OUT UL OUT 1 POWER DL OUT SOFT FAIL UL OUT 2 UL OUT 1 CH1 DL IN 2 DL IN DL OUT DPX 1 OPT LINK8 LINK 8 UL IN DPX 1 DL IN 1 OPT LINK8 LINK 8 SOFT FAIL DL IN 1 UL OUT 2 OPT LINK8 LINK 8 POWER UL IN OPT LINK8 VHF UL 2 DL OUT DL OUT SUM UL OUT 2 CH2 LINK 8 UL IN UL OUT 1 CH1 CH2 VHF UL 2 POWER SUM DPX 1 BAND COM LD FAIL1-4 LINK1 POWER DL IN 1 BAND COM CH3 POWER UL OUT 2 BAND COM SOFT FAIL POWER DPX 2 CH2 CH3 POWER CH1 BAND COM AC SELECT AC IN OFF/ON FA IL -H FA IL -R LIN BA ST FA IL FA IL -R AR LIN FA IL -H ER FA IL HG FA IL -R AR PO LO FA IL -H ER FT FT PO Figure 5‐2 TT Wall Mount SO 5.1.2 HE Wall Mount (Top View) Expandable up to 3 units (OPT, BCU) or max 3U (132mm) ‐ ODU Rack or BCU will be stacked up above basic 19” HE chassis which includes NMS, RFU, PSU and CHC Advanced RF Technologies, Inc. 47 5.2 Remote Unit Figure 5‐3 Advanced RF Technologies, Inc. IL TS BA TT FA IL FA DC AC -S LO PO ER Rack Mount CH 5.2.1 RU Rack Mount (Front view) 48 DL4 EF-UL IN EF-UL OUT Advanced RF Technologies, Inc. Figure 5‐4 Figure 5‐5 49 DL2 DL1 M-UL M-DL M-UL ADX-R-4WS M-DL EF-UL IN EF-UL OUT SERVER EF-DL OUT EF-DL IN CPL(-30dB) DL3 EF-UL IN EF-UL OUT SERVER EF-DL OUT EF-DL IN CPL(-30dB) EF-UL IN EF-UL OUT SERVER EF-DL OUT EF-DL IN CPL(-30dB) EF-UL IN EF-UL OUT SERVER EF-DL OUT EF-DL IN CPL(-30dB) EF-UL IN EF-UL OUT SERVER VHF DL VHF UL SERVER EF-DL OUT EF-DL IN CPL(-30dB) EF-DL OUT EF-DL IN CPL(-30dB) UL1 DL1 UL4 UL2 DL2 UL3 UL OUT DL IN UL2 UL OUT DL IN UL OUT DL IN UL OUT DL IN UL OUT DL IN UL3 DL3 E-UL UL1 UL4 DL4 E-DL ATT FA IL FA IL -S TS LO HG PO 5.2.2 Wall Mount 5.2.2.1 Remote Unit using RU Chassis (ADX‐R‐CHA‐30) Wall mount brackets attached to the individual remote modules must be removed before sliding the remote modules into the RU Chassis. 5.2.2.2 Individual Remote Module 19” Shelf type ‐ RU Wall Mount (Top view) Remote modules can be mounted using the attached mounting bracket that ships with the unit. Remote Module Wall Mount (Top view) 6. INSTALLATION 6.1 Pre‐Installation Inspection Please follow these procedures before installing ADX equipment: Verify the number of packages received against the packing list. Check all packages for external damage; report any external damage to the shipping carrier. If there is damage, a shipping agent should be present before you unpack and inspect the contents because damage caused during transit is the responsibility of the shipping agent. Open and check each package against the packing list. If any items are missing, contact ADRF customer service. If damage is discovered at the time of installation, contact the shipping agent. Verify the AC voltage with DVM (Volt meter), then select the either 110V or 220V AC using the selection switch located at the rear of HE and RU PSU. The ADX ships with the AC selection switch set to the 110V position. Incorrect AC selection can damage the ADX equipment. 6.2 ADX DAS Installation Procedure 6.2.1 HE Installation Procedure CAUTION: ADX DAS HE should be installed inside building only. 6.2.1.1 Installing a ADX DAS HE in a rack The ADX HE chassis mounts in a standard 19” (483mm) equipment rack. Allow clearance of 3” (76mm) at the front and rear, and 2” (51mm) on both sides for air circulation. No top or bottom clearance is required. Consideration: ‐ Eight mounting holes are located on 4 corners of ADX HE to attach it to the 19” rack. The ADX HE must be securely attached to a rack that can support the weight of the ADX. Mount procedure ‐ The following steps should be followed while mounting the ADX HE Detach the wall mount bracket assembled located at the base of the ADX‐HE chassis Verify that the HE and Mounting holes are in good condition Set the ADX DAS HE against the 19”rack and secure the unit with screws Verify that ADX HE is securely attached Connect the GND cable Connect the RF cable Connect the Power Connect the Optic cable Advanced RF Technologies, Inc. 50 Figure 6‐1 Advanced RF Technologies, Inc. ADX HE 19” Rack Mount Instructions 51 6.2.1.2 Wall mounting the ADX DAS HE If the ADX HE chassis is being mounted to a wall, then allow clearance of at least 17” (430mm) on the top (front side of HE) and 2” (51mm) on the bottom (rear side of HE) and 2” (51mm) on both sides and front for air circulation. Mount procedure ‐ The following steps should be followed when wall mounting the ADX HE Verify that the HE and Mounting hole are in good condition Place the ADX HE against the wall and mark of the mounting holes Drill holes(4holes, 18Φmm, 50mm depth) in the installation surface and insert the anchor bolts Bolt the ADX HE to the wall Make sure the ADX HE is securely attached Connect the GND cable Connect the RF cable Connect the Power Connect the Optic cable Figure 6‐2 Advanced RF Technologies, Inc. ADX HE Wall Mount Instructions 52 6.2.1.2.1 Installing added rack type modules into basic HE chassis Additional modules such as the ADX‐H‐RACK‐ODU and ADX‐H‐BCU can be mounted to the Chassis (ADX‐H‐CHA) using the included mounting brackets that come with the add‐on modules. A maximum of up to 3 addon modules (OPT, BCU) can be mounted to the chassis ‐ ODU Rack or BCU will be stacked up above basic 19” HE chassis which includes NMS, RFU, PSU and CHC Figure 6‐3 Advanced RF Technologies, Inc. Wall Mount Instructions for ADX‐HE added 1U Unit 53 6.2.2 RU Installation Procedure CAUTION: ADX DAS RU should be installed inside building only. 6.2.2.1 Installing a ADX DAS RU in a rack If the ADX RU chassis is being wall mounted then allow clearance of 3” (76mm) front and rear, and 2” (51mm) on both sides for air circulation. No top or bottom clearance is required. When ADX DAS RU mounts in a standard 19” equipment rack, rack or wall type fan is needed for heat dissipation. The rack type fan (ADX‐R‐FAN) must have at least 1.75" of clearance. Consideration: ‐ Eight mounting holes are located on 4 corners of ADX RU to attach it to the 19” rack. The ADX RU must be securely attached to support the weight of the ADX‐RU units. Mount procedure ‐ The following steps should be followed while mounting the ADX‐RU units Detach the wall mount bracket located at the base of the ADX‐RU chassis Verify that the RU and Mounting hole are in good condition Screw the ADX DAS RU to the 19”rack Make sure the ADX RU is securely attached Connect the GND cable Connect the RF cable Connect the Power Connect the Optic cable Advanced RF Technologies, Inc. 54 Figure 6‐4 Advanced RF Technologies, Inc. ADX‐RU 19” Rack Mount Instructions 55 6.2.2.2 Wall mounting the ADX DAS RU If the ADX RU chassis is being mounted to a wall, then allow clearance of at least 16” (406mm) on the top (front side of RU), 2” (51mm) on the bottom (rear side of RU) and 2” (51mm) on both sides and front for air circulation. Mount procedure ‐ The following steps should be followed while mounting the ADX RU Verify that the RU and Mounting hole are in good condition Place the RU chassis up against the wall and mark off the mounting holes Drill holes(4holes, 18Φmm, 50mm depth) in the installation surface and insert the anchor bolts Bolt the RU chassis to the wall Install the individual Sub‐RU inside of the chassis Make sure the RU chassis is securely attached Connect the RF cable Connect the Antenna cable Connect the Power Connect the Optic cable Figure 6‐5 Advanced RF Technologies, Inc. ADX‐RU Wall Mount Instructions 56 6.2.2.2.1 Installing added rack type modules into basic HE chassis Additional modules such as the ADX‐R‐CHC (channel combiner) and ADX‐R‐PSU (power supply unit) can be mounted to the Chassis (ADX‐R‐CHA) using the included mounting brackets that come with the add‐on modules. A maximum of up to 2 addon modules (ADX‐R‐CHC and ADX‐R‐PSU) can be mounted to the chassis. ‐ ADX‐R‐PSU or ADX‐R‐CHC will be stacked up above basic 19” RU chassis which holds the Master/Slave RU units. Figure 6‐6 Advanced RF Technologies, Inc. Wall Mount Instructions for ADX‐RU added 1.5U Unit 57 6.2.2.3 Wall mounting an ADX Remote Module Mount procedure ‐ The following steps should be followed while mounting the Remote Module Verify that the RU and Mounting hole are in good condition Separate the wall mount bracket from the Sub‐RU Placed the wall mount bracket against the wall and mark off the mounting holes Drill holes(4holes, 6Φmm) in the installation surface then insert the enclosed anchor bolts Bolt the mounting bracket to the wall Install the Sub‐RU to the mounting bracket Fasten the Sub‐RU to the mounting bracket using the included screws Verify that the Remote Module is securely attached Connect the Antenna cable Connect the Power Connect the Optic cable (if applicable) Figure 6‐7 Advanced RF Technologies, Inc. Remote Module Wall Mount Instructions 58 6.2.3 ADX‐H‐OEU Installation Procedure CAUTION: ADX‐H‐OEU should be installed inside building only. 6.2.3.1 Installing a ADX‐H‐OEU in a Rack The ADX‐H‐OEU mounts in a standard 19” (483mm) equipment rack. Allow clearance of 3” (76mm) front and rear, and 2” (51mm) on both sides for air circulation. No top or bottom clearance is required. Consideration: ‐ Four mounting holes are located on 4 corners of ADX‐H‐OEU to attach it to the 19” rack. The ADX‐H‐OEU must be securely attached to support the weight of the unit. Mount procedure ‐ The following steps should be followed while mounting the ADX‐H‐OEU Detach the wall mount brackets located at the base of the ADX‐H‐OEU Verify that the OEU and mounting hole are in good condition Screw the ADX‐H‐OEU to the 19”rack Make sure the ADX‐H‐OEU is securely attached Connect the GND cable Connect the RF cable Connect the Power Connect the Optic cable Advanced RF Technologies, Inc. 59 Figure 6‐8 Advanced RF Technologies, Inc. ADX‐H‐OEU Rack Mount Instructions 60 6.2.3.2 Wall mounting the ADX‐H‐OEU Mount procedure ‐ The following steps should be followed while mounting the ADX‐H‐OEU Verify that the OEU and Mounting hole are in good condition Drill holes(4holes, 6Φmm) in the installation surface then insert the enclosed anchor bolts Set the ADX‐H‐OEU against the wall Make sure the OEU is securely attached Connect the RF cable Connect the Antenna cable Connect the Power Connect the Optic cable Figure 6‐9 Advanced RF Technologies, Inc. ADX‐H‐OEU Wall Mount Instructions 61 6.3 Grounding A ground cable is included in the box. The grounding terminals are located at the rear of the ADX HE and RU. The grounding cable should be properly connected before powering on the equipment. BATTERY 24V OPT 1 OPT 2 OPT 3 OPT 4 BAND COM 1 BAND COM 2 AUX_CH 1 BAND COM 3 BAND COM 4 AUX_CH 2 BATTERY INSTALL Figure 6‐10 Ground Cable Connection (HE rear side) FA IL AR SO FT PO FA IL ER Figure 6‐11 Ground Cable Connection (RU rear side) Advanced RF Technologies, Inc. 62 BAT AC 6.4 Optic Port Cleaning We recommend cleaning optic connector using a dry optical cleaning swab or tissue in a dry environment as needed. We recommend cleaning the optic connectors only if the expected optic loss is higher than the loss reported in the Web‐GUI by 1.5dBo. (Figure 6‐12) When optic connector are not in use, the port should be covered with a protective dust cap. (Figure 6‐13) Figure 6‐12 Optic Connector Cleaning (left) and Optic Port Cleaning (right) Figure 6‐13 SC/APC Optic Connector Dust Cap Advanced RF Technologies, Inc. 63 7. WARRANTY AND REPAIR POLICY 7.1 General Warranty The ADX carries a Standard Warranty period of two (2) years unless indicated otherwise on the package or in the acknowledgment of the purchase order. 7.2 Limitations of Warranty Your exclusive remedy for any defective product is limited to the repair or replacement of the defective product. Advanced RF Technologies, Inc. may elect which remedy or combination of remedies to provide in its sole discretion. Advanced RF Technologies, Inc. shall have a reasonable time after determining that a defective product exists to repair or replace the problem unit. Advanced RF Technologies, Inc. warranty applies to repaired or replaced products for the balance of the applicable period of the original warranty or ninety days from the date of shipment of a repaired or replaced product, whichever is longer. 7.3 Limitation of Damages The liability for any defective product shall in no event exceed the purchase price for the defective product. 7.4 No Consequential Damages Advanced RF Technologies, Inc. has no liability for general, consequential, incidental or special damages. 7.5 Additional Limitation on Warranty Advanced RF Technologies, Inc. standard warranty does not cover products which have been received improperly packaged, altered, or physically damaged. For example, broken warranty seal, labels exhibiting tampering, physically abused enclosure, broken pins on connectors, any modifications made without Advanced RF Technologies, Inc. authorization, will void all warranty. 7.6 Return Material Authorization (RMA) No product may be returned directly to Advanced RF Technologies, Inc. without first getting an approval from Advanced RF Technologies, Inc. If it is determined that the product may be defective, you will be given an RMA number and instructions in how to return the product. An unauthorized return, i.e., one for which an RMA number has not been issued, will be returned to you at your expense. Authorized returns are to be shipped to the address on the RMA in an approved shipping container. You will be given our courier information. It is suggested that the original box and packaging materials should be kept if an occasion arises where a defective product needs to be shipped back to Advanced RF Technologies, Inc. To request an RMA, please call (800) 313‐9345 or send an email to techsupport@adrftech.com. Advanced RF Technologies, Inc. 64 8. WEB‐GUI 8.1 Web‐GUI Setup The Web‐GUI allows the user to communicate with the DAS system either locally or remotely. To connect to the DAS system locally, you will need a laptop with an Ethernet port and a RJ‐45 crossover cable. To connect to the DAS system remotely, you will need to have an active internet connection and the ADX system must have and external modem box connected to the ADX. 8.1.1 ‐ DAS system/PC Connection Using Web‐GUI Verify that your Local Area Connection is set to Obtain an IP address automatically under the Internet Protocol (TCP/IP) properties If you are connecting to the unit remotely (use of a modem), then skip this and next step. Connect the RJ‐45 crossover cable between the laptop’s Ethernet port and the repeater’s Ethernet port Launch an Internet Browser Type the following IP address into the address bar of Microsoft Internet Explorer: http://192.168.63.1 ‐ If you are connecting to the unit remotely, then type the IP address of the modem to connect to the unit The following login screen will appear: Figure 8‐1 Login screen If you are not the Administrator, please type in your assigned username & password which you should have received from the Administrator. Table 8‐1 Account Information for Login Account type Show items Control Items Default ID Default Password Administrator User Guest all Items restricted items restricted items all items restricted items read‐only admin adrf guest admin adrf guest Advanced RF Technologies, Inc. 65 8.2 Administrator/User Mode 8.2.1 Common 8.2.1.1 Navigation tree Lock/Unlock When the system is “Locked”, a green lock icon will appear above the navigation tree. When the system is locked, new devices cannot be added. Any devices added to the system when the system is “Locked” will not be detected by the NMS. After a system has been commissioned properly, the system should be left in the “Locked” position. To unlock the system, click on the “Unlock System” button to the right of the icon. When the system is “Unlocked”, an orange icon will appear above the navigation tree. When the system is unlocked, new devices added to the system will be automatically detected. Once the new hardware appears in the system tree, then the system can be locked. To lock the system, click on the “Lock System” button to the right of the icon. Figure 8‐2 Navigation tree Lock/Unlock 8.2.1.2 Navigation Tree Figure 8‐3 Navigation tree The navigation tree located on the left hand side of the Web‐GUI allows the user to switch between the various modules that are connected to the system. Table 8‐2 Parameters Navigation tree Description Expands the entire navigation tree Collapses the entire navigation tree The module has the expandable subordinate modules The branch is currently expanded The module has soft fail alarm The module has hard fail alarm The module has no alarms (normal) The selected module will have orange colored text Advanced RF Technologies, Inc. 66 8.2.1.3 Power Status Display the power source that is currently being used. Table 8‐3 Input Power Status Power Supply Status Display Image AC Battery 8.2.1.4 Commissioning Status Display whether or not the module has successfully been commissioned. Table 8‐4 Status Commissioning ICON Display Image Commissioned Not‐Commissioned 8.2.1.5 Information Figure 8‐4 ADX DAS General Information Information: Displays the serial number, latitude/longitude, firmware version of selected module, and Web GUI version of the NMS. Location: Displays the address where the ADX DAS is installed. Description: Displays the description of selected module. The description of each module can be edited from the Install tab. It is recommended to use the location of the module as the description. This description information can be seen when hovering over the device tree in order to easily identify each component. Technical Support: Displays ADRF’s Technical Support contact information. Installer Contact Info: Displays the contact information of the installer. Advanced RF Technologies, Inc. 67 8.2.2 Status Tab 8.2.2.1 Status – NMS Figure 8‐5 Status ‐ NMS The NMS Status page provides an overall view of how the system is performing. From the NMS Status page, the user can see what modules are connected to ADX DAS. In addition, the user can see if any alarms are present in the system and also the commissioning status of each module. 8.2.2.1.1 System Summary Figure 8‐6 System Summary The Summary section provides the user with the number of components physically connected, the number of soft/hard/link fails present in the system, and also the number of commissioned and non‐commissioned componnets. Advanced RF Technologies, Inc. 68 Table 8‐5 System Summary Description Parameters Description Connected Display the number of modules physically connected to ADX DAS Soft Fail Display the number of soft fail present on each module Hard Fail Display the number of hard fail present on each module Link Fail Display the number of link fail present on each module Not Commissioned Display the number of non‐commissioned or commission failed module Commissioned Display the number of successfully commissioned module 8.2.2.1.2 HE View / RU View, System Scan Time HE View/RU View ‐ ‐ Displays whether the NMS is set to HE view or RU view. Refer to section 3.1.1.4 System Scan Time ‐ ‐ Displays the time it takes to scan and update the information of all the modules that are on the navigation tree. This time will increase as more components are added to the system. When Navigation Tree is unlocked, the user should wait at least the “System Scan Time” for the system to detect newly added hardware. Figure 8‐7 System scan time, HE view/RU view 8.2.2.1.3 HE Alarm Status Display the alarm status of each HE component. Figure 8‐8 Advanced RF Technologies, Inc. HE alarm status 69 8.2.2.1.4 HE Commissioning Status Display commissioning status of each HE component. Figure 8‐9 Table 8‐6 HE Commissioning status Description for HE Commissioning status Status Installed Status Commissioning Status Display Description Physically Installed Physically Not‐Installed Success Failed or not commissioned Text is black Text is gray Green Gray 8.2.2.1.5 Alarm Displays alarm status of the NMS. If an alarm is present in the system, the color of the system alarm tab will change according to the type of failure. Table 8‐7 Alarm System Power Alarm Description for NMS alarm Severity Over Temperature Hard Fail / Soft Fail Under Temperature Soft Fail System Halt Hard Fail Description Temperature of NMS is higher than the threshold level for over temperature alarm Temperature of the NMS is lower than the threshold level for under temperature alarm HE system halt AC Fail Soft Fail AC power is operating outside of its normal range DC Fail Soft Fail DC power is operating outside of its normal range Over Current Hard Fail Total current of HE is higher than the threshold level for over current alarm Battery Low Soft Fail Voltage of battery connected to HE PSU is lower than the defined threshold Advanced RF Technologies, Inc. 70 8.2.2.2 Status – BCU Figure 8‐10 Status – BCU 8.2.2.2.1 Band Displays the bandwidth and the frequency ranges for DL and UL of the BCU module. Figure 8‐11 Status – BCU Band 8.2.2.2.2 Power & Atten Figure 8‐12 Status – BCU Power & Atten Advanced RF Technologies, Inc. 71 DL Commissioning Level: Displays the commissioning level for each individual RF path. If unit has not been commissioned, “Not Commissioned” will be displayed. DL Input: Displays the currently incoming signal strength of each RF path along with the composite DL input power of all 3 RF paths. Atten: Displays the attenuation values that the system is currently using which is defined by the power ratios specified by the user. DL Output: Displays the output value for each RF path along with the composite DL output power of all 3 RF paths. The DL Output level for each RF path will not exceed 5dBm and the composite output power will not exceed 10 dBm. 8.2.2.2.3 Power Ratio Figure 8‐13 Status – BCU Power Ratio Targeted DL Output Power: Displays desired power ratios specified by the user. If unit has not been commissioned, “Not Commissioned” will be displayed. Actual DL Output Power: Displays the currently power ratios that the system is using. These values will fluctuate based on the amount of traffic that is in the system. 8.2.2.2.4 Alarm Displays the current alarm status of each individual RF path. Parameters for both DL Signal Low and DL Input Overload can be specified from the Control tab. Figure 8‐14 Status – BCU Alarm Advanced RF Technologies, Inc. 72 8.2.2.3 Status – RFU Figure 8‐15 Status – RFU 8.2.2.3.1 Band Displays the bandwidth and the frequency ranges for DL and UL of the RFU module. Figure 8‐16 Status – RFU Band 8.2.2.3.2 Power & Gain (Admin/User) Admin Mode‐ Displays the Downlink Input/output, Downlink/Uplink Attenuation, and Uplink Output. User Mode‐ Displays the Downlink Input, Downlink/Uplink Attenuation, and Uplink Output. Figure 8‐17 Power & Gain Display (Admin) Advanced RF Technologies, Inc. 73 Figure 8‐18 Power & Gain Display (User) Input [dBm]: Displays the Downlink RF input level which comes from the ADX‐H‐BCU, BTS. This value should be between 0 to 25 dBm. ALC Atten [dB]: The amount of attenuation that is being used by the system when ALC is active. Atten [dB]: The amount of attenuation that has been set manually by the user. Output [dBm]: The downlink/uplink output power of the RFU and NOT the output power of the RU. 8.2.2.3.3 Alarm Displays System, RF, and Power Alarms. If an alarm is present in the system, then the color of the tab will change according to the type of failure. Table 8‐8 Alarm Severity Link Fail Soft Fail Over Temperature Hard Fail / Soft Fail Under Temperature Soft Fail System Halt Hard Fail DL Signal not detected Soft Fail System RF Alarm RFU Alarm Status DL Signal Low Input Overload Overpower Power Alarm Advanced RF Technologies, Inc. Soft Fail Hard Fail / Soft Fail Hard Fail / Soft Fail Description A component is physically connected, but the NMS is unable to communicate with it. The temperature of NMS is higher than the threshold level for over temperature alarm. The temperature of NMS is lower than the threshold level for under temperature alarm. System will go into a “System Halt” state when a hard fail alarm does not clear after 10 checks. System Halt can only be cleared with a power cycle, reboot, or factory settings. Downlink input signal is lower than the defined threshold by user. Downlink input signal is lower than the defined threshold by user. Downlink input signal is higher than the defined threshold. Uplink output signal is higher than the defined threshold by user. AC Fail Soft Fail AC power is not operating within parameters. DC Fail Soft Fail DC power is not operating within parameters. Over Current Hard Fail Total current of HE is higher than the threshold level for over current alarm. Battery Low Soft Fail Voltage of battery connected to HE PSU is lower than the defined threshold. 74 8.2.2.4 Status – ODU Figure 8‐19 Status ‐ OPT 8.2.2.4.1 Summary The Summary section displays the number of remote modules that are physically connected, the number of soft/hard/link fail alarms, and the number of Remote Module that have been commissioned and the number of Remote Module that need to be commissioned. Figure 8‐20 Summary (Status – OPT) Advanced RF Technologies, Inc. 75 Table 8‐9 Summary Description Parameters Description Connected Displays the number of Remote Module’s connected to the ADX‐H‐OPT. Soft Fail Displays the total number of soft fail present. Hard Fail Displays the number of hard fail present on each module. Link Fail Displays the number of link fail present on each module. Not Commissioned Displays the number of non‐commissioned or commission failed module. Commissioned Display the number of successfully commissioned module 8.2.2.4.2 RF Status Displays the DL input power and the UL output power for each ODU. An ODU Rack is composed of 2 ODUs. Figure 8‐21 RF Status (Status – OPT) 8.2.2.4.3 Optic Status Display LD Power and PD Power for each optic path. LD Power is the power that is being sent to the RU and PD Power is the power that is being received from the RU. Figure 8‐22 Optic Status (Status – ODU) 8.2.2.4.4 Optic Atten (Admin Only) The ADX‐H‐ODU has 3 types of attenuators. Downlink Common Attenuator‐ Displays the common attenuation level on the DL path. Uplink Common Attenuator‐ Displays the common attenuation level on the UL path. Uplink Optic Attenuator‐ Displays the amount of attenuation used at each optical link. Advanced RF Technologies, Inc. 76 Uplink Common attenuator Downlink Common attenuator Uplink Optic attenuator Figure 8‐23 Optic Attenuation (Status – OPT) 8.2.2.4.5 Optic Path Status Displays the optic status for each optic path Figure 8‐24 Optic Path Status (Status – OPT) Table 8‐10 Status LD Status PD Status Normal LD fail Not Connected Normal PD fail Comm Fail or Not Connected Advanced RF Technologies, Inc. Description for optic path status Display Description Green, optic signal being sent to Master RU is > ‐5dBm Orange, optic signal being sent to Master RU is < ‐5dBm Gray, no connection between ODU and Master RU Green, optic signal being received from Master RU is > ‐10dBm Orange, optic signal being received from Master RU is < ‐10dBm Gray, no connection between ODU and Master RU 77 8.2.2.5 Status – RU Hub RU‐Hub is not separate module but is integrated into the master RU. The picture of RU Hub displayed on web based GUI is same as the picture of master RU. Figure 8‐25 Status ‐ RU Hub 8.2.2.5.1 RU Alarm Status The RU Hub can support up to 8 remote modules. The RU alarm status displays the alarm status of each remote module. Figure 8‐26 RU Alarm Status (Status ‐ RU Hub) 8.2.2.5.2 RU Commissioning Status Display the Commissioning status of each Remote Module. Figure 8‐27 RU Commissioning Status (Status ‐ RU Hub) Advanced RF Technologies, Inc. 78 Table 8‐11 Description for RU Commissioning status Status Installed Status Commissioning Status Display Description Installed Not‐Installed Success Fail or not yet Text is black Text is gray Green Gray 8.2.2.5.3 Alarm Table 8‐12 Alarm System Power Alarm Alarm Status (Status ‐ RU Hub) Severity Description Soft Fail Present when a module cannot communicate with the NMS System Halt Hard Fail System will go into a “System Halt” state when a hard fail alarm does not clear after 10 checks. System Halt can only be cleared with a power cycle, reboot, or factory settings. AC Fail Soft Fail AC power is not within parameters. DC Fail Soft Fail DC power is not within parameters. Over Current Hard Fail Total current of RU is higher than the threshold level for over current alarm Battery Low Soft Fail Voltage of battery connected to RU PSU is lower than the defined threshold Link Fail 8.2.2.6 Status – Remote module Figure 8‐28 Status – Remote Module Advanced RF Technologies, Inc. 79 8.2.2.6.1 Band Display the spectrum that is being used. The band column displays the bandwidth that has been used. The downlink column displays the center frequency of the used downlink band. The uplink column displays the center frequency of the used uplink band. Figure 8‐29 PCS Band Information (Status – Remote Module) 8.2.2.6.2 Power & Gain (Admin/User) Display the Downlink output, Downlink/Uplink Attenuation, and Uplink Input/output. Figure 8‐30 Power & Gain (Admin) Figure 8‐31 Power & Gain (User) Admin Input [dBm]: Displays the RF input level for Uplink only for the Remote Module. ALC Atten [dB]: The amount of attenuation used when ALC is activate. Atten [dB]: The amount of attenuation manually set by the user. [M]Output [dBm]: Output power of RF transceiver (1 stage amplification). [H]Output [dBm]: Output power of downlink HPA (2nd stage amplification). Input [dBm]: Displays the RF input level for Uplink only for the Remote Module. Atten [dB]: The amount of attenuation manually set by the user. Output [dBm]: Displays the total composite output power. st User Advanced RF Technologies, Inc. 80 8.2.2.6.3 Optic Power (Master‐RU Only) Display the LD Power and PD Power of optic module inside the Master RU. Figure 8‐32 Optic Power (Status – Master RU only) 8.2.2.6.4 Operating Status Table 8‐13 Operating Status (Status – Remote Module) Alarm System Link Fail Over Temperature RF Alarm Power Alarm Advanced RF Technologies, Inc. Severity Description Soft Fail Hard Fail / Soft Fail No communication with NMS. Temperature is higher than the threshold level for over temperature alarm. Temperature is lower than the threshold level for under temperature alarm. System halt on either the Master RU or Slave RU. System halt occurs when a hard fail alarm fails to clear after 10 checks. LD Fail present in the Master RU’s optic unit. Under Temperature Soft Fail System Halt Hard Fail ORU LD Fail Soft Fail ORU PD Fail Soft Fail PD Fail present in the Master RU’s optic unit. Uplink input signal is higher than the defined threshold. Downlink output signal is higher than the defined threshold by user. Input Overload Hard Fail Over Power Hard Fail / Soft Fail VSWR Soft Fail Triggered when power is being reflected back to the system, typically due to a loose connector. AC Fail Soft Fail AC power is not operating within parameters. DC Fail Soft Fail DC power is not operating within parameters. Over Current Hard Fail Total current of RU is higher than the threshold level for over current alarm. Battery Low Soft Fail Voltage of battery connected to HE PSU is lower than the defined threshold. 81 8.2.3 Control Tab 8.2.3.1 Control – NMS Figure 8‐33 Control ‐ NMS 8.2.3.1.1 Heartbeat Time Allows the user to enable or disable SNMP traps from being sent out and also specify the Heartbeat interval. Time and date stamps of the last 2 heartbeats will be displayed in the “Last heartbeat sent out” section. Figure 8‐34 Heartbeat (Control – NMS) 8.2.3.1.2 HE System Allows the user to perform a HE system reboot or HE full system factory settings Figure 8‐35 HE System Reboot & Factory Setting (Control – NMS) 8.2.3.1.3 NMS System Allows the user to perform a NMS Unit reboot or NMS factory settings Figure 8‐36 NMS System Reboot & Factory Setting (Control – NMS) Advanced RF Technologies, Inc. 82 8.2.3.2 Control – BCU Figure 8‐37 Control – BCU 8.2.3.2.1 Manual ATT Control Figure 8‐38 Control – BCU Manual ATT Control Downlink: Allows the user to manually adjust the DL attenuation levels for each RF path. Adjusting these settings is not recommended since it will change the power ratios set by the user. Uplink: Allows the user to manually adjust the UL attenuation levels for each RF path. Adjusting these settings is not recommended, unless additional attenuation is needed on the UL path. DL Output ALC Level: Allows the user to manually set the DL Output ALC Levels for each RF path. Adjusting these settings is not recommended since it will change the power ratios set by the user. These settings are automatically set by the system during the BCU commissioning process. This section also displays the composite DL Output ALC Level which is the value that can be used to commission the RFU. Advanced RF Technologies, Inc. 83 8.2.3.2.2 Reboot / Factory Setting Allows the user reboot or restore factory settings of the BCU. Figure 8‐39 Control – BCU Reboot/Factory Setting 8.2.3.2.3 Alarm Setting Figure 8‐40 Control – BCU Alarm Setting Downlink Input Overload: Allows the user to specify the level at which the DL Input Overload alarm is triggered. Values range from 0 dBm to +25 dBm. Downlink Signal Low: Allows the user to specify the level at which the DL Signal Low alarm is triggered. Values range from ‐10 dBm to +20 dBm. Downlink Input Overload Alarm On: Allows to user to enable or disable the Input Overload Alarm [Path – A/B/C] Downlink Signal Low Alarm On: Allows the user to enable or disable the DL Signal Low alarm for each RF path. 8.2.3.3 Control – RFU Figure 8‐41 Control ‐ RFU Advanced RF Technologies, Inc. 84 8.2.3.3.1 General Setting To enable any of the settings, click on the checkbox and click the Apply button. Figure 8‐42 General Setting (Control – RFU) (Admin) Figure 8‐43 General Setting (Control – RFU) (User) Table 8‐14 Name Description for General Setting Description Available Accounts Downlink ALC Enables or disables Downlink ALC Uplink ALC Downlink ON Enables or disables Uplink ALC Enables or disables the RFU Downlink path Administrator Administrator, User Enables or disables the RFU Uplink path Administrator, User Uplink ON Uplink Noise Det Administrator Displays if the module is turned on or off due to the UL Noise Detection Routine 8.2.3.3.2 Reboot / Factory Setting Allows the user reboot or restore factory settings of the RFU. Figure 8‐44 Reboot & Factory Setting (Control – RFU) 8.2.3.3.3 Uplink Noise Detection (Admin Only) Figure 8‐45 UL Noise Detection (Control – RFU) Advanced RF Technologies, Inc. 85 Administrator The “UL Noise Det” button will take you to the UL Noise Detection page which will allow you to run the UL Noise Detection routine. Figure 8‐46 UL Noise Detection ‐ PCS band The Auto UL noise measurement routine can be run by clicking on the Check button. After all UL noise measurement have been taken, the levels for each UL path will be displayed and along with the difference between minimum detect level and measured detect level. The user will be able to see which path is generating the elevated UL noise level based on the measured detect level and difference value. To navigate back to the RFU control page, click on the Control tab again. 8.2.3.3.4 Manual Atten Control (Admin) (User) Figure 8‐47 Manual Attenuator Control Setting (Control – RFU) Table 8‐15 Description for Main Gain Control Setting (Control – RFU) Name Description Range Step Available Accounts Downlink Atten Downlink Attenuator to be adjusted manually 0 ~ 25dB 0.5dB Administrator, User Uplink Atten DL Output ALC Level Uplink Attenuator to be adjusted manually To set the Max output ALC level 0 ~ 35dB ‐10 ~ 0dBm 0.5dB 0.5dBm Administrator, User Administrator UL Output ALC Level To set the Max output ALC level ‐20 ~ 0dBm 0.5dBm Administrator, User Advanced RF Technologies, Inc. 86 DL Output ALC Offset To set the Max output ALC Offset ‐10 ~ 0dBm 0.5dBm Administrator UL Output ALC Offset To set the Max output ALC Offset ‐20 ~ 0dBm 0.5dBm Administrator 8.2.3.3.5 Alarm Setting Figure 8‐48 Alarm Threshold Setting (Control – RFU) Table 8‐16 Name Downlink Signal Low Downlink Signal Not Detected Uplink Over Power Description for Alarm Threshold Setting (Control – RFU) Description Allows the user to specify the minimum incoming DL input signal level before triggering a “Downlink Signal Low” soft‐fail alarm. Allows the user to specify the minimum incoming DL input signal level before triggering a “Downlink Signal Not Detected” soft‐fail alarm. Allows the user to specify the how strong the output signal of uplink can be before triggering an “Uplink Over Power” Hard Fail alarm. Advanced RF Technologies, Inc. 87 Range Default threshold ‐10 ~ 20dBm ‐5dBm ‐10 ~ 20dBm ‐10dBm ‐20 ~ 0dBm 0dBm 8.2.3.4 Control – ODU Figure 8‐49 Control – OPT 8.2.3.4.1 Optic Attenuation (Admin Only) Figure 8‐50 Optic Attenuation – OPT Advanced RF Technologies, Inc. 88 Table 8‐17 Name DL/UL common ATT DL ATT UL ATT Description for Optic Attenuation (Control – OPT) Description Allows the user to control overall optic DL/UL path gain. Used to compensate DL optic loss. Used to compensate UL optic loss. 8.2.3.4.2 Reboot/Factory Setting Allows the user to perform ODU reboot or ODU factory settings. Figure 8‐51 Reboot & factory Setting (Control – OPT) 8.2.3.5 Control – RH Hub Figure 8‐52 Control – RU Hub 8.2.3.5.1 Reboot/Factory Setting Allows the user to perform RU Hub reboot or RU Hub factory settings Figure 8‐53 Reboot & Factory Setting (Control – RU Hub) Advanced RF Technologies, Inc. 89 Range Default threshold 0 ~ 30dB 0 ~ 13dB 0 ~ 13dB 5dB 13dB 13dB 8.2.3.6 Control – Remote Module (Master or Slave RU) Figure 8‐54 Control – Remote Module 8.2.3.6.1 General Setting (Admin/User) (Admin) (User) Figure 8‐55 Table 8‐18 Name Downlink ALC Downlink On Uplink ALC Uplink On General Setting (Control ‐ RU) Description for General Setting (Control ‐ RU) Description Available Accounts This setting allows you to enable or disable the downlink ALC function. When ALC is enabled, the downlink output power will not exceed the Downlink Output Level specified in the Manual Atten Control section. This setting allows you to enable or disable the Downlink path. This setting allows you to enable or disable the uplink ALC function. When ALC is enabled, the Uplink output power will not exceed the Uplink Output Level specified in the Manual Atten Control section. This setting allows you to enable or disable the Uplink path. Advanced RF Technologies, Inc. 90 Administrator Administrator, User Administrator Administrator, User 8.2.3.6.2 Reboot/Factory Setting Allows the user to Reboot or restore Factory Settings on the remote module. Figure 8‐56 Reboot & factory Setting (Control ‐ RU) 8.2.3.6.3 Optic Setting (Only Master RU) (Admin Only) Figure 8‐57 Optic Setting (Control ‐ RU) Table 8‐19 Name Downlink Optic Atten PD Power LD Power Description for Optic Setting (Control ‐ RU) Description RF attenuator to compensate the optic loss of downlink Incoming power level from the ODU Outgoing power level to the ODU Range Step Available Accounts 0~ 13.0 dB 0.5 dB Administrator Administrator Administrator 8.2.3.6.4 Manual Attenuator Control (Admin) (User) Figure 8‐58 Manual Atten Control (Control ‐ RU) Advanced RF Technologies, Inc. 91 Table 8‐20 Name Description for Manual Atten Control (Control ‐ RU) Description Range Default Available Accounts threshold Downlink Atten Allows the user to specify how much attenuation to use. 0 ~ 30dB 30dB Administrator, User Uplink Atten DL Output ALC Level UL Output ALC Level Allows the user to specify how much attenuation to use. The remote module will prevent the downlink output power from exceeding the specified value. The system will prevent the output power to exceed the specified value. When the incoming signal level increases, the system will not adjust the gain levels until it reaches the ALC Offset Level. When the incoming signal level increases, the system will not adjust the gain levels until it reaches the ALC Offset Level. 0 ~ 25dB 25dB Administrator, User 5 ~ 30dB 30dBm Administrator, User 0 ~ 10dBm 5 or 6dBm Administrator 0 ~ 10dB 5dB Administrator, User 0 ~ 10dB 3dB Administrator DL Output ALC Offset UL Output ALC Offset 8.2.3.6.5 Alarm Setting Figure 8‐59 Alarm Setting (Control ‐ RU) DL Over Power Limit: The overpower alarm threshold can be adjusted from 5~30dBm. +2dB from the DL overpower limit will trigger a soft fail and >2dB will trigger a hard fail alarm VSWR Alarm ON : Enable or disables the VSWR Alarm. Advanced RF Technologies, Inc. 92 8.2.4 Install Tab 8.2.4.1 Install – NMS Figure 8‐60 Install ‐ NMS 8.2.4.1.1 HE Commissioning Status Figure 8‐61 HE Commissioning Status (Install – NMS) Table 8‐21 Description for HE Commissioning Status (Install – NMS) Status Installed Status Commissioning Status Display Description Physically Installed Text is black Physically Not‐Installed Success Fail or not commissioned Text is gray Green Advanced RF Technologies, Inc. Gray 93 8.2.4.1.2 SNMP Figure 8‐62 SNMP (Install – NMS) The SNMP section allows you to specify the Site ID and Manager IP. The Site‐ID is the code that is used to identify a particular module. The Manager IP field is where the user inputs the IP address of the NOC system that is being used to monitor the SNMP traps. 8.2.4.1.3 Location This section allows the user to input the latitude and the longitude of the repeater. Figure 8‐63 Location Setting (Install – NMS) Select N or S from the dropdown menu for Latitude Select E or W from the dropdown menu for Longitude Input the first 3 numbers of the latitude/longitude in the text area after the “+” and before the “.” Input the last 6 numbers of the latitude/longitude in the text area after the “.” 8.2.4.1.4 External Modem Box Settings This section allows the user to specify an alternative IP, Subnet Mask, and Gateway settings. These settings are enabled when the Host/Remote switch is set to the Remote position. Figure 8‐64 External Modem Box Setting (Install – NMS) 8.2.4.1.5 Description Advanced RF Technologies, Inc. 94 This section allows the user to save the description of NMS. Figure 8‐65 Description (Install – NMS) 8.2.4.1.6 SNMP Agent False Alarm Test This section allows the user to generate both soft and hard fail alarms. After alarms are generated, the NOC can poll the ADX to see if alarms are present. All alarms generated during this test are false alarms. Figure 8‐66 SNMP Agent False Alarm Test (Install – NMS) 8.2.4.1.7 Location Info / Installer Info This section allows the user to specify the address of the repeater and also the information of the installer. Figure 8‐67 Location Info / Installer Info (Install – NMS) Advanced RF Technologies, Inc. 95 8.2.4.1.8 Date & Time This section allows the user to specify the current date and time. Figure 8‐68 Date & Time Setting (Install – NMS) 8.2.4.2 Install – RFU Figure 8‐69 Install ‐ RFU Advanced RF Technologies, Inc. 96 8.2.4.2.1 RFU Commissioning This section allows the user to perform RFU commission. To perform RFU commissioning, select a DL Input Commissioning Level from the dropdown menu and click Apply. The commissioning progress is displayed on the Commissioning Progress bar. Any errors, warnings, and messages will appear via a popup window. Please refer to the ADX Installation Guide to determine the proper RFU commissioning levels. Figure 8‐70 RFU Commissioning (Install – RFU) 8.2.4.2.2 Description This section allows the user to set the description of RFU. Figure 8‐71 Description (Install – RFU) 8.2.4.3 Install – OPT Figure 8‐72 Install – OPT 8.2.4.3.1 Optic Commissioning This section will allow the user to perform any optic compensation if it is necessary. The Commissioning button will turn orange if optic compensation is needed. Advanced RF Technologies, Inc. 97 Figure 8‐73 Optic control (Control – OPT) Table 8‐22 Description for Optic control (Control – OPT) Display & Control Description Optic loss is less than 5dBo Optic loss is more than 5dBo Not connected to a RU No optic loss compensation is needed. Optic loss compensation is needed. Not connected to a RU 8.2.4.3.2 Description This section allows the user to save the description of OPT. Figure 8‐74 Description (Install – OPT) 8.2.4.4 Install – RU Hub Advanced RF Technologies, Inc. 98 Figure 8‐75 Install‐RU Hub 8.2.4.4.1 RU Commissioning Status Figure 8‐76 RU Commissioning Status (Install‐RU Hub) Table 8‐23 Description for RU Commissioning status Status Installed Status Commissioning Status Display Physically Installed Physically Not‐Installed Success Fail or not commissioned 8.2.4.4.2 Description This section allows the user to save the description of RU Hub. Figure 8‐77 Description (Install‐RU Hub) 8.2.4.5 Install – Remote Module (Master or Slave RU) Advanced RF Technologies, Inc. Description Text is black Text is gray Green Gray 99 Figure 8‐78 Install‐Remote Module 8.2.4.5.1 RU Output Commissioning This section allows the user to perform RU commission. To perform RU commission, select a DL Output Commissioning Level from the dropdown menu and then click Apply. The commissioning progress is displayed on the Commissioning Progress bar. Any errors, warnings, and messages will appear via a popup window. Figure 8‐79 RU Output Commissioning (Install‐RU) Advanced RF Technologies, Inc. 100 8.2.4.5.2 Description This section allows the user to save the description of remote module. Figure 8‐80 Description (Install‐Remote Module) 8.2.5 System The System tab allows the user to perform firmware updates, upload closeout packages, view any changes to the system, backup existing configuration, and add/remove user accounts, and change the login credentials of the Administrator. 8.2.5.1 System: Account 8.2.5.1.1 System: Account ‐ Account Management (Admin Only) The Account Management section allows the Administrator to delete any user/guest account. Please note that the Account Management section is only available if you are logged into the system as the Administrator. To delete a user/guest account click on the Account Management link and under the Delete column, click on the delete button. Figure 8‐81 Account Management 8.2.5.1.2 System: Account ‐ New Account (Admin Only) The New account section allows the Administrator to create a new user/guest account. Please note that the new account section is only available if you are logged into the system as the Administrator. To create a new user/guest account click on the new account link and fill in the fields highlighted in yellow as shown below. Figure 8‐82 New Account Advanced RF Technologies, Inc. 101 8.2.5.1.3 System: Account ‐ Change Password The Change Password section allows the current user who is logged into the system to change their login credentials. Figure 8‐83 Change Password 8.2.5.2 System: Logs 8.2.5.2.1 System: Logs ‐ Event Log This section displays system events that have taken place. The Event Log displays who has made the changes, the time and date of when the event took place, and what changes were made to the system. The System Log tracks the following events: System Initiation Alarm Set Alarm Clear Figure 8‐84 Event Log Advanced RF Technologies, Inc. 102 8.2.5.2.2 System: Logs ‐ User Log This section tracks user activity within the system. The User Log displays who has made the changes, the time and date of when the event took place, and what changes were made to the system. The User Log tracks the following items: Log in / Log out activity Changes to gain/attenuation/output values System event generated by user(firmware update, backup/resote, create/delete account) DAS Navigation Tree Lock/Unlock Description change Repeater/installer information change Setting date/time Figure 8‐85 User Log 8.2.5.3 System: Update To perform a firmware update, click on the System:Update tab and the following screen will show up. Figure 8‐86 System update Click on the ‘Browse’ button and locate the firmware file. Click on the Update button to perform the firmware update. 8.2.5.4 System: System Information 8.2.5.4.1 System: System Information Advanced RF Technologies, Inc. 103 System Information Check The System Information Check button will check the ADX configuation and report possible discrepancies. System Information This section displays the general system information of the ADX DAS. Figure 8‐87 System Information System Notification This section is displayed only when the following conditions are present: ‐ When multiple remote modules with same frequency band exist in a RU. ‐ When the remote module does not match with the RFU being used. Figure 8‐88 System Notification BOM Advanced RF Technologies, Inc. 104 BOM displays all parts that are connected to the ADX‐H‐NMS. The BOM can be downloaded as a CSV file by clicking the ‘Download’ button at the bottom right. Figure 8‐89 Bill of material Advanced RF Technologies, Inc. 105 8.2.5.5 System: Backup/Restore Settings Backup Clicking the Backup will create a temporary backup file stored inside of the ADX. Once the file is created, it will need to be downloaded to a computer. A download button will appear after the backup file has been created. If the ADX is power cycled or rebooted, then the temporary backup file will be lost. We recommend downloading the backup file immediately after it has been created. Click on the Download button to download the backup file. Figure 8‐90 Setting Backup (Before) Figure 8‐91 Setting Backup (After) Advanced RF Technologies, Inc. 106 Setting Restore Restore function can be used to restore the saved settings from the backup file. Once the backup file is loaded, the tree in the figure below will appear. Check the boxes of the modules that you would like to restore and then click the “Restore” button at the bottom on this section. We recommend creating a new backup file if adding or removing modules from the ADX. Discrepancies between the backup file and the existing tree could cause restore errors. Figure 8‐92 Setting Restore 8.2.5.6 System: SNMP SNMP V1/V2 This section allows you to add community strings for SNMP v1 and v2. Figure 8‐93 SNMP V1/V2 Advanced RF Technologies, Inc. 107 SNMP V3 This section allows the user to add accounts for SNMP v3. Figure 8‐94 SNMP V3 8.2.5.7 System: Closeout Package The closeout package section will allow the user to upload documents to the ADX‐H‐NMS. The maximum file size for each upload is limited to 10 MB. The total amount of space available for uploading document is 100 MB. Please do not use this section as the primary storage location of your documents. Documents may become unavailable if the system goes down. Figure 8‐95 System‐ Closeout Package To upload documents to the module, click on the “Browse” button and locate the file that you would like to upload, then enter in a Description of the file being uploaded. Afterwards, click on the “Add File” button to upload the file. Below is what you will see after the file upload. To delete the file, click on the delete button located in the last column. Figure 8‐96 System‐ Closeout Package after the file upload Advanced RF Technologies, Inc. 108 8.2.6 Help If an internet connection is available, clicking on the Help Tab will redirect the user to our Technical Support page. Figure 8‐97 Help 8.2.7 Logout Clicking the Logout button will log the current user off the system. 8.3 Guest Mode When logging into the system as a guest, the guest will only have read‐only privileges and will not be able to make any changes to the system. Advanced RF Technologies, Inc. 109 9. SYSTEM SPECIFICATION 9.1 Specification for PS78, SMR Parameters PS78 SMR S8 Downlink P7 Uplink Input Power Range Maximum Output Power P7 788‐805MHz Downlink 5~30dB, 0.5dB step, ATT range: 0~25dB Uplink ‐5~30dB, 0.5dB step, ATT range: 0~35dB Downlink at RU Uplink at HE 806‐824MHz S9 896‐901MHz ‐15dBm±2dB VSWR < 1:1.5 Optical Loss 0~5dBo System Delay < 2us Spurious Meet FCC rules, 3GPP TS 36.104, 3GPP2 C.S0010‐C Dimension (WXDXH) Weight S8 Uplink P7 P7 749‐781 MHz 782‐831 MHz Head‐End Shelf Remote‐Unit Shelf 19.0 x 14.6 x 12.2 inches (482 x 370 x 311 mm) Master RU 11.8 x 9.8 x 4.5 inches (300 x 249.6 x 114.5 mm) Slave RU 11.8 x 9.8 x 3.7 inches (300 x 249.6 x 94.5 mm) Head‐End Shelf Remote‐Unit Shelf Master RU 61.0 lbs (27.7 kg) @ 1 master RU, 3 Slave RU Slave RU 11.7 lbs (5.3 kg) S9 925‐949MHz S8 811‐834MHz S9 887‐911MHz 83.7 lbs (38.0 Kg) @4 RFU, CHC‐H, PSU and NMS 13.2 lbs (6.0 kg) 14‐122F(‐10‐50°C) Operating Humidity 5~90%RH Power Input 110/220V, 50‐60Hz, 24V or ‐48V DC(optional) Head‐End 840‐880MHz 19.0 x 12.9 x 10.5 inches (482 x 328.2 x 266.5 mm) Operating Temperature Power 메모 [H5]: 주파수 범위 수정 15/05/19 30dBm±2dB < 10dB@maximum gain Downlink 935‐940MHz S8 0~+25dBm Noise Figure Nominal Band/BW for Industry Canada 929‐930MHz S9 Frequency Gain 851‐869MHz 758‐775MHz 52W@4 RFU, 1 ODU Rack with 2 ODUs and NMS The Manufacturer's rated output power of this equipment is for single carrier operation. For situations when multiple carrier signals are present, the rating would have to be reduced by 3.5 dB, especially where the output signal is re‐radiated and can cause interference to adjacent band users. This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device Advanced RF Technologies, Inc. 110 메모 [Y6]: 실제로 측정하셔서 기입요청합니다. 15/02/03 consumptio 28W@1 RFU, , 1 ODU Rack with 2 ODUs and NMS Remote‐Unit Network Management System Head‐End RF connector Remote‐Unit Input/output Impedance 60W Ethernet(RJ45) 53W N‐type(Female) N‐type(Female) 50 9.2 Specification for VU, BT Parameters BT Downlink 2496‐2690MHz (BRS TDD) Uplink 2496‐2690MHz (BRS TDD) TBD Frequency Input Power Range Downlink Gain Uplink Maximum Output Power Downlink at RU Uplink at HE ‐15~+37dBm 0~52dB, 0.5dB step, ATT range: 0~52dB ‐5~30dB, 0.5dB step, ATT range: 0~35dB 37dBm±2dB ‐15dBm±2dB Noise Figure < 10dB@maximum gain VSWR < 1:1.5 Optical Loss 0~5dBo System Delay < 2us Spurious Dimension (WXDXH) Weight Meet FCC rules, 3GPP TS 36.104, 3GPP2 C.S0010‐C Master RU 11.8 x 9.8 x 4.5 inches (300 x 249.6 x 114.5 mm) Slave RU 11.8 x 9.8 x 3.7 inches (300 x 249.6 x 94.5 mm) Master RU 13.2 lbs (6.0 kg) Slave RU 11.7 lbs (5.3 kg) Operating Temperature 14‐122F(‐10‐50°C) Operating Humidity 5~90%RH Power Input 110/220V, 50‐60Hz, 24V or ‐48V DC(optional) Power consumptio 52W@4 RFU, 1 ODU Rack with 2 ODUs and NMS Head‐End 28W@1 RFU, 1 ODU Rack with 2 ODUs and NMS Remote‐Unit Network Management System 87W Ethernet(RJ45) RF N‐type(Female) Head‐End The Manufacturer's rated output power of this equipment is for single carrier operation. For situations when multiple carrier signals are present, the rating would have to be reduced by 3.5 dB, especially where the output signal is re‐radiated and can cause interference to adjacent band users. This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device Advanced RF Technologies, Inc. 111 connector Remote‐Unit Input/output Impedance N‐type(Female) 50 9.3 FCC Certification Item ADX‐R‐SMR ADX‐R‐78P ADX‐R‐BT 메모 [Y7]: FCC part 명기 15/02/03 FCC Certification Part 20, Part 90 Part 90 Part 20 10. ANTENNA SPECIFICATIONS 10.1Omni Antenna Frequency Polarization Gain VSWR Impedance Power Rating 698‐960MHz 1710‐2690MHz Vertical 2dBi <1.7:1 3dBi <1.5:1 50 50W Note. Please note that integrators, end‐users or installers should not use the antenna with more gain than 3dBi(For Model: ADX‐R‐BT), 2dBi (For Model: ADX‐R‐SMR, ADX‐R‐78P) to meet the RF exposure requirement. Part 90.635 requirement Antennas must be installed in accordance with FCC 90.635. With 2 dBi gain antennas the height of the antenna above average terrain (HAAT) is permitted over 1372m. For different gain antennas refer to the relevant rules. Part 90.219 requirement The radiated power must be limited to 1W. Therefore, this device meet the 90.219 (e)(1) 5W ERP limitation requirement. Prior to equipment use the service must be registered with the FCC. This can be done through the FCC’s website at https://signalboosters.fcc.gov/signal‐boosters Advanced RF Technologies, Inc. 112 메모 [Y8]: 안테나 규격 추가 15/02/03 11. MECHANICAL DRAWING Figure 11‐1 HE Drawing Advanced RF Technologies, Inc. 113 Figure 11‐2 RFU Drawing for SMR/PS Advanced RF Technologies, Inc. 114 Figure 11‐3 RFU Drawing for VU Advanced RF Technologies, Inc. 115 Figure 11‐4 RFU Drawing for BT Figure 11‐5 Master RU Drawing for PS Advanced RF Technologies, Inc. 116 Figure 11‐6 Master RU Drawing for BT Advanced RF Technologies, Inc. 117 Figure 11‐7 Slave RU Drawing for SMR Advanced RF Technologies, Inc. 118 Figure 11‐8 Slave RU Drawing for VU Advanced RF Technologies, Inc. 119 Figure 11‐9 RU Rack Shelf Drawing Advanced RF Technologies, Inc. 120
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