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1 | Operational Description | / September 11 2012 | ||||||
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1 | Test Report | May 11 2012 / September 11 2012 | ||||||
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1 | Internal Photos | / September 11 2012 | ||||||
1 | ID Label/Location Info | / September 11 2012 | ||||||
1 | Operational Description | / September 11 2012 | ||||||
1 | RF Exposure Info | / September 11 2012 | ||||||
1 | Cover Letter(s) | / September 11 2012 | ||||||
1 | Cover Letter(s) | May 11 2012 / September 11 2012 | ||||||
1 | Attestation Statements | / September 11 2012 | ||||||
1 | Attestation Statements | / September 11 2012 | ||||||
1 | Attestation Statements | May 11 2012 / September 11 2012 | ||||||
1 | Test Report | / September 11 2012 | ||||||
1 | Test Setup Photos | / September 11 2012 |
1 | Revised Users manual | Users Manual | 5.12 MiB | May 11 2012 / September 11 2012 |
WiMAX RNU4000BS Base Station User Manual Doc: Runcom RNU4000BS User Manual RN-PMG-041112 V-3.4 Preface Material RNU4000BS User Manual About this Guide This User Manual describes the procedures for commissioning, mounting, installing and managing the RNU4000BS Base Station. Notice This document contains proprietary and confidential material of Runcom Ltd. Any unauthorized reproduction, use or disclosure of this material, or any part thereof, is strictly prohibited. This document is solely for the use of Runcom Ltd. employees and authorized Runcom Ltd. customers. The material furnished in this document is believed to be accurate and reliable. However, no responsibility is assumed by Runcom Ltd. for the use of this material. Runcom Ltd. reserves the right to make changes to the material at any time and without notice. All other trademarks are the property of their respective owners. Other company and brand products and service names are trademarks or registered trademarks of their respective holders. Safety Precautions To avoid injury and to prevent equipment damage, observe the safety precautions below. Only qualified personnel should be allowed to install, replace, and service the equipment. The device cannot be sold retail, to the general public or by mail order. It must be sold to dealers. Installation must be controlled. Installation must be performed by licensed professionals. Installation requires special training. The Runcom radios and antennas should be installed ONLY by experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities. Failure to do so may void product warranty and may expose the end user or the service provider to legal and financial liabilities. Always observe standard safety precautions during installation, operation and maintenance of this product. This equipment must be installed according to country national electrical codes. Any changes and modifications to the device and the accessories must be approved by Runcom. All equipment and accessories must be installed in a restricted access area. Observe all the labels on the equipment, providing operation details and warnings. Read and follow the installation instructions provided in this manual. The outdoor base station should be positioned more than 2 meters from humans. In case of using cables that are not provided with the equipment package, ensure these cables comply with the regulatory inspection authorities and are the responsibility of the customer. Do not move or ship equipment unless it is properly packed in its original wrapping and shipping containers. Electrical Shock Prevention When connecting equipment to the AC and DC voltage supplies, ensure proper polarity. Disconnect the power source before installing or maintaining the power wiring. Do not operate the equipment if there is any failure or damage to electrical components. Do not touch exposed connections, components or wiring when power is on. II Runcom Technologies Ltd. RNU4000BS User Manual Preface Material Install the equipment and the grounded DC supply circuits in adjacent cabinets. Protect the DC power source with an adjacent circuit breaker. The equipment must be properly grounded before attempting to operate or perform any repairs. RF Exposure To avoid RF exposure - Installation of antennas must comply with the FCC RF exposure requirements. Radio Interference This equipment generates and radiates radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. To avoid interferences:
Avoid conjunction with any other antenna or transmitter. In case of Radio Interference: Relocate the antenna and Increase separation between the equipment and the receiver (e.g. connect to a separate circuit or outlet). When using an external antenna, the external antenna must not be co-located or operating in conjunction with any other antenna or transmitter NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
-Reorient or relocate the receiving antenna.
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help. Note: Contention Based Protocol (CBP) MUST be activated for the specified band (3.675-3.700GHz) wherever FCC rules and regulations are enforced. Failure to comply makes the operation of this device illegal. Runcom Technologies Ltd. L III RNU4000BS User Manual Table of Contents Table of Contents 1 Introducing the RNU4000BS BS ....................................................................................... 1 1.1 Coverage Configurations ..............................................................................................................3 1.2 RNU4000BS Interfaces and Accessories.........................................................................................5 1.2.1 GPS, Power and Communication Interfaces ..........................................................................5 1.2.2 BS RF Antenna Interfaces ...................................................................................................7 1.3 Supported Antennas.....................................................................................................................7 1.3.1 RF Antennas ......................................................................................................................7 1.3.1.1 Internal Antennas...................................................................................................7 1.3.1.2 External Antenna....................................................................................................7 1.4 Optional Accessories ....................................................................................................................8 2 WEB GUI description ........................................................................................................ 9 2.1 WEB GUI Menu description.........................................................................................................10 2.2 WEB GUI working screens description .........................................................................................10 3 Commissioning Procedure ............................................................................................. 24 3.1 Overview ...................................................................................................................................24 3.2 Connect BS to Power and Computer............................................................................................25 3.2.1 Configure the Computer's Network Parameters ..................................................................25 3.2.1.1 Configure Computer IP Address.............................................................................25 3.2.1.2 Disable Firewall ....................................................................................................28 4 Installing the RNU4000BS BS ......................................................................................... 29 4.1 Mounting the Base Station..........................................................................................................29 4.1.1 BS Installation Location.....................................................................................................29 4.1.2 Mounting Bracket Description ............................................................................................30 4.1.3 Mounting On a Pole ..........................................................................................................32 4.1.4 Mounting On a Wall ..........................................................................................................34 4.2 Overview of the Cable and Power Connections ............................................................................36 4.3 Mounting the RF Antennas .........................................................................................................38 4.3.1 Mounting the RF Antenna .................................................................................................38 4.3.1.1 RF Antenna Location Criteria .................................................................................38 4.3.1.2 RF Antenna Mounting ...........................................................................................38 4.3.1.3 4x4 antennas Outdoor Connection Requirements ...................................................39 4.4 Pole Mounted GPS Antenna ........................................................................................................40 4.4.1 GPS Antenna Installation...................................................................................................41 4.4.2 Criteria for selecting the GPS antenna location ...................................................................41 4.4.3 GPS antenna mounted to the RNU4000BS body .................................................................41 Runcom Technologies Ltd. V Table of Contents RNU4000BS User Manual 4.4.4 Multi-sector Daisy-chained GPS Antennas...........................................................................42 4.4.4.1 Hardware Interconnections ...................................................................................42 4.4.4.2 Configuration Parameters......................................................................................42 4.5 End-to-End Traffic Test ..............................................................................................................42 4.5.1 Performing a PING Test ....................................................................................................43 5 Field Test Performance Evaluation.................................................................................44 5.1 Field Test Overview....................................................................................................................44 5.2 Field Test Setup .........................................................................................................................45 5.3 Field Test Procedure ..................................................................................................................47 6 Technical Specifications .................................................................................................49 6.1 RNU4000BS BS Specifications .....................................................................................................49 6.2 External Dual-Slant RF Antennas Specifications ............................................................................51 6.2.1 Dual-Slant Antenna 2.3-2.7 GHz; 17 dBi; 65 (MT-364054/ND) ...........................................51 6.2.2 Double-dual Slant 2300-2700 MHz Remote Tilt-Panel Antenna ............................................52 6.2.3 Dual-Slant Antenna 2.3-2.7 GHz; 16 dBi; 60 (SP2327-16XP60NUF) ..................................53 6.2.4 Dual-Slant Antenna 2.3-2.7 GHz; 15 dBi; 90 (SP2327-15XP90NUF) ..................................54 6.2.5 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (MT-404067/ND) ...........................................55 6.2.6 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (SP3338-17XP65) ...........................................56 6.2.6.1 Radiation Patterns ................................................................................................57 SP3338-17XP65 elevation plane ..................................................................................................57 6.2.7 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 90 (SP3338-17XP90) ...........................................58 6.2.7.1 Radiation Patterns ................................................................................................59 SP3338-16XP90 elevation plane ..................................................................................................59 6.2.8 Dual-Slant Antenna 4.9-5.95 GHz; 16 dBi;90 (MT- 464018/ND) .........................................60 6.3 RNU4000BS Internal Antenna Specifications ................................................................................61 6.4 GPS Antenna Specifications ........................................................................................................62 VI Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS 1 Introducing the RNU4000BS BS Runcom's RNU4000BS fully integrated outdoor WiMAX BS provides flexible, cost-effective WiMAX network deployment solutions where increased capacity and coverage is required. All-in-one architecture combined with simple, single-handed installation and fast rollout make these BSs an ideal solution for operators that want to get in on the ground floor of WiMAX deployment at significant CAPEX reductions and maximum return on their network deployment. The RNU4000BS is designed for coverage flexibility: depending on the required scenario, the same BS can be configured to cover more sectors with relatively sparse concurrent user requirements or fewer sectors with higher needs. RNU4000BS BSs provide adaptable solutions, allowing interoperability with other MSS devices as well as ASN-GW vendors. Runcom Technologies Ltd. 1 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual Features All-in-one integrated packaging of RF and Baseband components. Full compliance with IEEE802.16e-2005 according to the WiMAX Forum profiles. Frequency Bands (model dependent): 705745MHz, 2.3-2.7GHz, 3.3-3.8GHz (CBP capability for band 3.675-3.700GHz is required), 4.9-5.0GHz other bands are optional. Supports MIMO 2x2, HARQ, and other state of the art features which increase performance. 4 channels ready unit 2 channels supplied by default can be license-key activated for 4 channels. Transition Power 2 or 4 x Tx, 28dBm each. Antenna support - model dependent: either four external or internal antennas. Integrated GPS receiver for time and clock synchronization with holdover for satellite signal loss. Flexible coverage capabilities greater coverage area or greater penetration capabilities Small footprint, single-handed quick installation and simple provisioning Fast roll-out for service providers Seamless and cost-effective integration with a Backhaul network Optional integrated backhaul link via WiMAX R1 interface High performance with Quality of Service (QoS) settings, according to WiMax standards. Support for the latest R6 interface and GRE tunneling to ASN-GW Remote NMS management via Runcoms NMS application 2 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS 1.1 Coverage Configurations RNU4000BS supports either two or four RF channels and can provide coverage for either one, two or four sectors depending on the sector density (throughput capacity) and radio performance requirements (note that internal antenna can be used for single sector coverage only):
Single-Sector solution of 4x4 (for internal and external antennas) used for higher density sites: four channels for Tx and four channels for Rx MRC. This configuration improves coverage through diversity and improve throughput through MIMO 4x2. Dual-Sector solution of 2x2 (only relevant for external antennas) used for lower populated sites: two channels for Tx channels and two channels for Rx MRC. MIMO of 2x2 can be perform if signal to noise ratio is good. Quad-Sector solution of 1x4 (only relevant for external antennas) used for more sparsely populated sites: single channel for Tx and single channel for Rx. This configuration is highly cost effective but suffer from lower performance and coverage area per sector (totally it covers more space) The overall capacity, of single base station unit, with respect to the maximum number of connected users, supported bands and throughput is constant; however, in a dual-sector installation, the BS will transmit to two separate sectors in a cell, where each sector is serviced by two antennas. In quad sector installation the BS will transmit to four sectors in a cell (Usually covers the entire cell 3600) , where each sector is serviced by one antenna. These two configurations reduce CAPEX and OPAX for operators by covering cells with relatively low density or sparsely populations, which have low requirements for concurrent users and / or lower data traffic. The following figure shows a single sector covered by 4x Tx/Rx channels. Several of these sectors (within the same site) should be installed, using the corresponding number of RNU4000BSs, to complete site coverage. Each site can use single GPS antenna, installed on one of the BS, daisy-chained from BS to Runcom Technologies Ltd. 3 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual another, to perform Figure 1 Single Sector Coverage 4 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS The following figure illustrates dual-sector coverage of two sites by a single RNU4000BS unit. Figure 2 Dual Sector Coverage 1.2 RNU4000BS Interfaces and Accessories The interfaces of the RNU4000BS BS are distributed over two panels. Each of these panels is referred to according to the corresponding interfaces. Note: Install the BS so the power, GPS and communication interfaces face DOWN. 1.2.1 GPS, Power and Communication Interfaces Note: Install the BS on the wall or pole with this panel facing DOWN. Runcom Technologies Ltd. 5 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual Connector Description GPS ETH1 ETH2 PPS 48VDC GND Connects to an external (optional) GPS antenna. The GPS antenna is ordered separately. Connector Type: ITT CANNON APD DIN 72585 Primary Fast Ethernet connector. Used for initial setup (and standalone tests), and for connection to the backhaul network (in normal installations). Connector Type: RJ-45 TYCO part no 1546907-1 Second Ethernet port for local and out-of-band management. In future versions, you will be able to daisy-chain this port to ETH1 in an adjacent Base Station (located in the same BS site) in order to allow a single Ethernet connection to the Backhaul. ETH2 port can also function as a serial port (connection through the cable supplied in the kit). This function is useful if the unit is not accessible via an IP address connection. PPS In and PPS Out can be used for synchronization of multiple sectors, where the PPS Out of one sector is connected to the PPS In of the next BS (daisy chained). This is relevant only for adjacent sectors at the same BS site. See Multi - Sector Daisy - Chained GPS antennas section Connector Type: SMA sealed Industrial Power connector. External DC power connector (48VDC) for outdoor deployment. Connector Type: RJ-45 Ground blind hole connector. In normal installations, connect to the pole on which the unit is mounted. (The BS unit does not include a lightning arrester.) 6 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS 1.2.2 BS RF Antenna Interfaces RNU4000BS supports either four external or four internal antennas. The unit below shows a model supporting four external antennas. All antennas (internal and external) are 1W each Connector Description ANT1/2/3/4 External RF connector for the Main external antenna. Connector Type: RJ-45 TYCO part no 1546907 1 1.3 Supported Antennas Depending on the model, the RNU4000BS is supplied with four external or four internal dependent. 1.3.1 RF Antennas 1.3.1.1 Internal Antennas Four internal antennas: 12dBi each at an azimuth beam-width of 90 degrees. Refer to specifications in section 6.3. 1.3.1.2 External Antenna Four external antennas: 15 to 18dBi, azimuth beam-width dependent. Note: Specs for dual-slant antennas described in section 5.2. You may use any other antenna type or model, keeping in mind that the antenna type or model should be based on the RF planning that was performed in preparation for deployment at the specific site and is dependent upon the coverage and throughput requirements of the site. Runcom Technologies Ltd. 7 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual 1.4 Optional Accessories The following accessories are not provided with the basic kit, and can be ordered as an option. Element Description Power Supply 110-220v AC/DC converter for 48VDC power supply RF Antenna External directional antenna with pole mounting kit 8 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description 2 WEB GUI description Follow by the next steps for BS WEB GUI menu access:
Open Internet Explorer for access to BS WEB GUI using the BS IP address path Figure 3 BS WEB GUI access path Use the BS WEB GUI credential (user name and password) to obtain the BS WEB GUI menu User name Password user password Figure 4 BS WEB GUI ID This section describes the WEB GUI RNU 4000 Base Station management options and theirs functionalities indented to provide to user the next necessary abilities:
General information (BS HW/SW info, IP status) Monitoring (Synchronization and BS Sector operation status, CPE Connection list info and their link status) Configuration (General RF parameters settings, max. MCS settings and IP settings) Maintenance (Upgrade, Recovery and Default) Runcom Technologies Ltd. 9 WEB GUI description RNU4000BS Base Station User Manual 2.1 WEB GUI Menu description The table below describes the WEB GUI Menu options and their functionalities Menu General Information Configuration General IP Configuration Section General IP Status General IP Configuration Description Provides BS related HW/SW info Provides BS ETH interface IP addresses status Provides RF parameters and MCS settings Provides BS related IP addresses settings Status Synchronization Monitoring Connection CPE Info BS Status Connection Antenna Status CPE Info Query CPE List Maintenance Upgrade Recovery SW Upgrade Change Version Default Reset to Default Erase Configuration File Provides BS synchronization status Provides BS sector configuration status Provides BS RF parameters configuration status Provides BS antenna configuration status Provides ability to obtain fast link status connection parameters of specific CPE Provides list of connected CPEs and theirs ID and more detailed connection parameters as link status parameters and theirs SF connection Provides BS SW upgrade including all SW components Provides swap between BS SW version (current running and the previous one) Provides ability to set the BS to default parameters related to the SW version Provides ability to erase the configuration file in case if such file was downloaded to BS 2.2 WEB GUI working screens description General Information Screen The figure below represent the General Information working screen and provides the next info as described in the table below:
Menu Section Description General Information General Provides BS ID related info:
HW Product Type SW FW /FPAGA version BS ID BS MAC address IP Status Provides BS ETH interface IP addresses status:
BS ETH interface LAN configuration IP /subnet/ GW address ASN GW interface configuration - GW IP and Authentication address for connection with BS ASN BS DHCP client ENB/DSB 10 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 5 General Information working screen Runcom Technologies Ltd. 11 WEB GUI description RNU4000BS Base Station User Manual Monitoring screen The figures below represent the Monitoring working screens and provides the next info as described in the table below:
Menu Section Description Monitoring Status Synchronization Provides the BS synchronization operational and configuration status:
1PPS lock status Lock or Unlock indicates the 1PPS BS GPS synchronization status
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-
Modem status indicates the BS RF status:
running BS RF activated / normal BS operation Not running BS RF inactivated / BS is not operational, management is available Physical connection status Connected or Not 1PPS source indicates the 1PPS source GPS via Antenna default configuration GPS lock status Lock or Unlock indicates configuration (see figure 1PPS synchronization source configuration below)
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Connected- indicates physical connection status of BS external connectors 1PPS input or GPS the BS GPS lock status indicates the BS GPS initialization status time of Hold over timer. The timer starts once the BS GPS loss the 1PPS synchronization Unlock
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expired indicates the Hold over timer status Hold over time expired Not expired or GPS initialization status Initialized or Failed Hold over time 0sec to 14400sec indicates the 14400 sec default
- Once the timer is expired (14400sec), the BS RF becomes inactivated and that is in order to prevent interference to other BSs. the BS GPS 1PPS synchronization unlock states number Sync change state counter counting indicates Radio Status Provides BS sector configuration status info:
spectrum radio channel quality of the BS working frequency Max DL Modulation Max DL Modulation Initial Noise BS receiver initial noise indicates Note: Desirable is to obtain initial noise figure less than -
117dbm Initial TX power WiMAX Connection Provides BS connection status info:
Bandwidth Profile indicates the radio BW and BS ID indicates the BS ID Frequency indicates the BS central working frequency the TX/RX symbols ration connected CPEs to the BS No. of known NBR Bases Handover feature /
indicates the quantity of recognized by BS other neighbor BSs Preamble ID indicates the BS preamble ID No. connected UTs indicates the quantity of Note: N/A for current BS WEB GUI version 12 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Menu Section Description Antenna Status Provides BS antenna configuration status:
status of each one transmitter TX ON/OFF indicates the BS configuration
(4 independent transmitters) RX ON/OFF indicates the BS configuration status of each one receiver
(4 independent receivers) CPE Info CPE Info Query Provides ability to obtain fast link status connection parameters of specific CPE per CPE MAC address:
UL/DL FEC code type (see table below) UL/DL CINR UL RSSI Max UL subchannel and slots UL Repetition no. UL Headroom remaining CPE TX power CPE List Provides list of connected CPEs ,theirs IDs and more detailed connection info as link status and SF connection parameters:
Double click on INFO in order to obtain Radio Link status parameters and SF parameters FEC Code Modulation Type 13 15 16 17 18 19 20 21 QPSK 1/2 QPSK 3/4 QAM 16 1/2 QAM 16 3/4 QAM 64 1/2 QAM 64 2/3 QAM 64 3/4 QAM 64 5/6 Runcom Technologies Ltd. 13 WEB GUI description RNU4000BS Base Station User Manual Figure 6 Monitoring Status working screen Figure 7 Monitoring WiMAX working screen 14 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 8 Monitoring CPE info /CPE list working screen Figure 9 Monitoring CPE info / link status working screen 15 Runcom Technologies Ltd. WEB GUI description RNU4000BS Base Station User Manual Configuration screen The figures below represent the Configuration working screens and provides the next info as described in the table below:
Menu General Configuration Section General IP IP Configuration Configuration Stand Alone General Service Flow Profile CPE Binding Description Provides RF parameters and MCS settings Provides defined neighbors BS for HO Double click on one of the defined neighbors BS from the list in order to obtain the dialog box for define or update the neighbors BS Provides BS ETH interface IP addresses settings:
BS ETH interface LAN configuration IP /subnet/ GW address ASN GW interface configuration - GW IP and Authentication address for connection with BS Note:
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All ASN related IP configuration in BS should be accordantly to ASN GW configuration Recommended default BS ASN GW and Authentication IP static address is 192.168.0.3 DHCP server) BS DHCP client ENB/DSB(ASN GW is Note: Normal configuration /static IP configuration DHCP is DSB Provide the ability to set the BS network interface operation mode Double click on one of the defined Service Flow profiles from the list in order to obtain the dialog box for define or update the Service Flow profiles Double click on one of the defined CPE binding list in order to obtain the dialog box for binding or update the desirable Service Flow profile with CPE Multicast Binding Double click on one of the defined Multicast Binding CPE list in order to obtain the dialog box for Multicast binding or update 16 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 10 Configuration - General screen Figure 11 Configuration HO neighbors BS definition screen Runcom Technologies Ltd. 17 WEB GUI description RNU4000BS Base Station User Manual Figure 12 Configuration - IP Configuration screen 18 Figure 13 Configuration Stand Alone screen Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 14 Configuration Multicast user definition screen Figure 15 Configuration CPE network connection screen 19 Runcom Technologies Ltd. WEB GUI description RNU4000BS Base Station User Manual Figure 16 Configuration Service flow profile definition screen 20 Figure 17 Configuration CPE to Service flow profile setting screen Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Maintenance screen The figures below represent the Maintenance working screens and provides the next info as described in the table below:
Menu Section Description Upgrade SW Upgrade Allows BS SW upgrade including all SW components:
Maintenance Banks Change Version Default Reset to Default Erase SW bin BS SW FW file (required) FPGA (required) HTML bundle (required) WEB GUI application file file which includes the all BS configuration parameters to be set to obtain BS required configuration Cfg. file (Optional) BS configuration Allows swap between BS SW version (current running and the previous one) Allows ability to set the BS to default parameters related to the SW version Allows to erase the configuration file in case if such file was downloaded to BS Configuration File Configuration File Configuration File Allows to upload and viewing the configuration file Figure 18 Maintenance Upgrade screen Runcom Technologies Ltd. 21 WEB GUI description RNU4000BS Base Station User Manual Figure 19 Maintenance Banks screen 22 Figure 20 Maintenance Default screen Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 21 Maintenance Configuration profile file screen Runcom Technologies Ltd. 23 Commissioning Procedure RNU4000BS Base Station User Manual 3 Commissioning Procedure 3.1 Overview Before mounting the RNU4000BS BS on a pole or wall, power should be connected to the BS and the basic parameters configured with the basic parameters using the BS WEB GUI. ATTENTION!!! BE SURE THE RF ANTENNAS ARE CONNECTED OR THE RF PORTS ARE TERMINATED BEFORE CONNECTING POWER TO THE UNIT. The BS commissioning procedure consists of the following steps:
Connect Base Station to Power and Computer Configure computer to communicate with Base Station Download configuration file to Base Station via WEB GUI
(optional) Configure Base Station other parameters Via WEB GUI Base Station Commissioning Completed 24 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Commissioning Procedure 3.2 Connect BS to Power and Computer ATTENTION!!! BE SURE THE RF ANTENNAS ARE CONNECTED OR THE RF PORTS ARE TERMINATED BEFORE CONNECTING POWER TO THE UNIT. To commission the BS unit two setup connections are required:
Power - Use the provided (BS) power cable to connect the BS VDC Power connector to an indoor 48 VDC power supply. Computer Connect the BS ETHER port to the computer running the WEB GUI application. 48VDC Figure 22 BS Commissioning Setup 3.2.1 Configure the Computer's Network Parameters In order to establish communication between the computer and the BS perform the following:
Assign computer IP address in the same subnet as the BS Disable Firewall 3.2.1.1 Configure Computer IP Address To configure IP address follows the next steps:
Note: The procedure may vary slightly depending on the operating system installed on the computer. The following procedure is for Windows XP. 1. Click the Start menu and choose Network Connections. 2. Right-click the Local Area Connection corresponding to the BS connection and select Properties. Runcom Technologies Ltd. 25 Commissioning Procedure RNU4000BS Base Station User Manual The Local Area Connections Properties dialog appears with the General tab displayed by default. 3. In the Items list, select Internet Protocol (TCP*IP) and click the Properties button. The Internet Protocol (TCP/IP) Properties dialog appears. 26 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Commissioning Procedure 4. In the IP Address display area:
In the IP address field assign an IP address other than the BS IP address (Default BS IP Address: 192.168.0.20). In the Subnet mask set the subnet to the same subnet as the BS (Default BS Subnet: 255.255.255.0).
(It is not required to define the Default Gateway). 5. Click OK. Runcom Technologies Ltd. 27 Commissioning Procedure RNU4000BS Base Station User Manual 3.2.1.2 Disable Firewall To disable firewall follow the next steps:
1. In the Local Area Connection dialog, click the Advanced tab. The following dialog appears. Advanced tab Settings button 2. In the Windows Firewall display area click the Settings button. The Windows Firewall dialog appears. 3. Select the Off option and click OK. 28 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 4 Installing the RNU4000BS BS After commissioning the RNU4000BS BS, the unit is ready for installation. The procedure consists of the following steps:
Choosing the installation location and mounting the BS on a pole or on a wall For models with external RF antennas, mounting the RF antennas in the appropriate locations Mounting the GPS antennas in the appropriate locations Connecting the RF antenna to the BS Assembling the GPS antennas to the BS using the provided bracket Connecting Ground, Power and ETH cables to the BS Performing an End-to-End traffic test 4.1 Mounting the Base Station The RNU4000BS BS is provided with a mounting kit which includes all the mounting elements (e.g. mounting-bracket, torques, screws etc.). The BS can be mounted either on a pole or on a wall. Note: The same mounting bracket is used for the wall and the pole installation. When mounting the BS, note the following The RNU4000BS BS is typically installed in an upright vertically aligned position with the power, Ethernet and GPS connectors facing DOWN. The RNU4000BS BS should be installed on the rear side of the RF antenna to prevent self-reflections. 4.1.1 BS Installation Location This section describes the criteria that should be considered when selecting the RNU4000BS BS installation location. The BS can be mounted on either a pole or a wall. To choose BS Installation location Verify that the pole/wall location corresponds to the site plan and takes into account local regulations and maintenance access. The unit should be mounted in the highest possible point. Reception will increase according to the height of the antennas. The diameter of the pole on which the base station and antenna are to be mounted is either:
1.75-3.00 1.00-1.75 or Verify that the pole is properly grounded. Verify that the pole has lightening protection. Verify that there is safe access to the pole, free of any obstacles or other danger for installers of the RNU4000BS BS. Runcom Technologies Ltd. 29 Installing the RNU4000BS BS RNU4000BS Base Station User Manual Verify that there are no power lines near the pole. 4.1.2 Mounting Bracket Description The figure below shows the BS mounting bracket. Note: The same mounting bracket is used for the wall and the pole installation. BASE WALL/POLE RACKET ARM CLAMPING BRACKET Use for securing bracket to pole The Bracket elements are described in the following table. Element Description BRACKET BASE. This part is connected to the BS. BRACKET ARM. This part provides the tilt ability, and connects between the Bracket BASE and MAIN SUPPORT. 30 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS Element Description WALL/POLE BRACKET Used for connecting the bracket to the wall. CLAMPING BRACKET Used for securing the bracket to the pole. A C Provided screws, nuts and washers:
F E B G D H A. 4x flat washer M5 B. 4x nut M5 C. 4x spring washer M5 (seems as flat washers) D. 4x bolt M8x50 E. 4x washer spring M8 F. 4x washer flat M8 G. 2x nut M8 H. 2x bolt M8x70 I. 4x bolt M5x16 - missing Runcom Technologies Ltd. 31 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.1.3 Mounting On a Pole Note: When installing on a pole, leave at least 40cm space between the BS and the top of the pole for lightning protection. To install the BS on a pole 1. Secure the Bracket Base to the BS underside:
Secure the Bracket Base to the underside of the BS, using the provided screws, as shown below:
Secure to BS Underside BASE Verify that the orientation of the hole in the BASE is aligned with the elevation axis. Use a tightening torque of 5.7N/m to tighten. 32 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 2. Assemble the bracket elements:
Secure the WALL/POLE BRACKET to the Bracket Arm and then to the Bracket Base using the provided screws, as shown below:
BASE - connect to BS WALL/POLE BRACKET Ridges to ridges Washers and bolt ARM Note: The bolt head should be positioned in the socket on the Bracket BASE. Use a tightening torque of 24 N/m to tighten. 3. Mount the BS on the pole, where the procedure varies slightly according to the pole diameter:
For poles with a diameter of 1.75-3.00:
POLE SUPPORT Assembled CONVEX on the pole Mount the BS on the pole using the bracket Pole Support as shown above. Assemble the bracket CONVEX as shown. Tighten the bracket using the provided screws, according to the pole diameter. Use a tightening torque of 14N/m to tighten. Runcom Technologies Ltd. 33 Installing the RNU4000BS BS RNU4000BS Base Station User Manual For poles with a diameter of 1.00-1.75:
CLAMPING BRACKET Assembled CONCAVE on the pole Mount the BS on the pole using the Clamping Bracket as shown above. Assemble the bracket CONCAVE as shown. Tighten the bracket using the provided screws. Use a tightening torque of 14N/m to tighten. 4.1.4 Mounting On a Wall 1. Secure the Bracket Base to the BS underside:
Secure Bracket Base to the underside of the BS, using the provided screws, as shown below:
Secure to BS Underside BASE Verify that the orientation of the hole in the BASE is aligned with the elevation axis. Use a tightening torque of 5.7N/m to tighten. 2. Assemble the bracket elements:
Secure the Bracket Arm to the Bracket Base using the provided screws, as shown below:
34 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS BASE Assemble to BS i ARM Ridges to ridges Washers and bolt Note: The bolt head should be positioned in the socket on the Bracket BASE. 3. Mount the BS on the wall:
Mount the WALL/POLE BRACKET on the wall in the appropriate position. Note the azimuth orientation when doing so. WALL/POLE BRACKET Secure to a wall Secure to wall Runcom Technologies Ltd. 35 Installing the RNU4000BS BS RNU4000BS Base Station User Manual Attach the Bracket Arm to the WALL/POLE BRACKET using the provided screws. WALL/POLE BRACKET ARM Note: The bolt head should be positioned in the ARM socket. Use a tightening torque of 24 N/m to the azimuth and elevation hardware. 4.2 Overview of the Cable and Power Connections This section provides a summary of the cable connections. Mounting and connections are described in detail in the following sections. BS Connections:
ATTENTION!!! BE SURE THE RF ANTENNAS ARE CONNECTED OR THE RF PORTS ARE TERMINATED BEFORE CONNECTING POWER TO THE UNIT. RF Antennas: (For models with external RF antennas). Connect coax cables from each RF antenna to the base station ports ANT1/ANT2/ANT3/ANT4. GPS Antenna: Connect a coax cable (10 meters max) from the GPS antenna to the BS GPS connector. Ground: Use the provided grounding cable to ground the BS to the pole (if pole is grounded), or to a grounding point. Power: Run the 5-10 meter power cable from the BS Power connector down the pole, to the provided 48 V power converter that is located indoors (i.e. in a building or in a caravan). Note: It is recommended to connect a battery (for backup) to the 48VDC power supply. Ethernet: Run the 5-10 meter Ethernet cable of the base station from the ETH connector at the bottom of the base station down the pole and connect it to an indoor Ethernet connector, such as in a building or in a caravan 36 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS If necessary, secure the cables to the pole so that it is not loose using plastic strips. 40cm from TOP of pole GPS Antenna Double Dual-Slant RF Antennas Cables for 4 RF Antennas GPS Cable
(10 meters max) X4 Antennas BS GPS GND ETH 5-10 Meters Power Cable 48VDC 48VDC Battery Grounding Cable
(connected to pole if grounded, or to other grounding point) 5-10 Meters ETH Cable Building ROOF ETH: Indoor Ethernet Connection BUILDING Figure 23 Overview BS Connections Runcom Technologies Ltd. 37 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.3 Mounting the RF Antennas After mounting the base station on a pole or wall:
For models with external RF antennas, mount the RF antennas in the selected locations according to the instructions given in this section. Mount the GPS Antenna in the selected locations according to the instructions given in this section. 4.3.1 Mounting the RF Antenna Note: This section is relevant only for installations of BSs with external antennas. Refer to section 1.1 for more information on antenna configurations. 4.3.1.1 RF Antenna Location Criteria To avoid frequency reuse problems caused by unwanted reflections, the main part of the antenna must be clear of any metal objects for a range of parameter to 20 meters. Make sure that there are no obstacles located in front of the RF antenna, such s poles, transmission equipment from other vendors or another Runcom RF antenna. 4.3.1.2 RF Antenna Mounting Note: The antenna is mounted and adjusted using the provided antenna mounting kit. To mount the RF Antennas:
Use the supplied RF antenna (pole) mounting kit to attach the antenna to the pole. Connect the antennas to the BS using the provided 0.5 -1 meter coax cables. Tilt the antenna as required. The antennas mounting kit enables the antenna to be tilted along two axes. The antenna position can be fine-tuned at a later stage. Figure 24 RF Antennas Mounting 38 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 4.3.1.3 4x4 antennas Outdoor Connection Requirements Pico BS 4x4 antennas require using Antennas Dual Slant type (with polarization). Antennas connection should be accordantly:
BS Ant 1 connector connected via RF cable to Antenna 1 Port 1 or ANT1 connector BS Ant 2 connector connected via RF cable to Antenna 2 Port 1 or ANT1 connector BS Ant 3 connector connected via RF cable to Antenna 1 Port 2 or ANT2 connector BS Ant 4 connector connected via RF cable to Antenna 2 Port 2 or ANT2 connector Note: Reason for Requirement is to obtain proper downlink throughput ,each BS TX stream should be with different polarity Figure 25 BS Antennas Connection Figure 26 BS Antennas Polarization Connection Description Runcom Technologies Ltd. 39 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.4 Pole Mounted GPS Antenna The following is an example of a pole mounted GPS antenna for single-sector coverage. 40 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 4.4.1 GPS Antenna Installation The GPS active antenna may be mounted using two different methods:
Attached to a pole or other hosting surface using a magnet Mounted to the RNU4000 unit using the supplied bracket. For coverage of multi-sector sites using a number of BSs, one GPS antennas can serve a number of interconnected and synchronized BSs. The Pole and bracket mounting methods as well as the multi-sector GPS coverage are described in this section. Note: The Holdover time (duration that BS synchronization is retained from the point in time in which the GPS antenna is disconnected) is determined by the internal GPS. Currently approximately 8 hours. 4.4.2 Criteria for selecting the GPS antenna location The whole antenna area is exposed to the sky. GPS antenna should not be more than 10 meters from the RNU4000BS (excessive cable length may cause interference). Bracket Mounted GPS Antenna The GPS antenna can be assembled on to the RNU4000BS unit using the supplied. 4.4.3 GPS antenna mounted to the RNU4000BS body Assemble the bracket to the underside of the unit as illustrated in the following image. Connect the GPS antenna to the RNU4000BS GPS connector using a coax cable. Assemble the GPS antenna to the bracket as illustrated. Figure 27 GPS Antenna to Bracket Connections Runcom Technologies Ltd. 41 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.4.4 Multi-sector Daisy-chained GPS Antennas This section describes how to connect and synchronize GPS antennas for multi-sector sites covered by a dedicated RNU4000BS unit per site (x4 Tx/Rx channels per site). The BSs can be connected in two configurations:
One GPS antenna can serve all the BSs For redundancy - each BS can operate with a dedicated GPS antenna. 4.4.4.1 Hardware Interconnections The figure below illustrates a daisy-chain configuration for a four-sector base station site with four RNU4000 units. Each unit has an integrated GPS module, and an internal holdover circuit responsible for providing a 1PPS signal in case of loss of PPS source (from either the integrated GPS unit or the PPS IN port). Figure 28 GPS Synchronization Connection - (daisy-chain) 4.4.4.2 Configuration Parameters For synchronization configuration and indication details description parameters refer to WEB GUI section. 4.5 End-to-End Traffic Test After the system is installed, it is recommended to perform an End to End (E2E) test to test communication and traffic transference over the link. In this test, a computer connected to a CPE (that is configured to operate with the BS) sends a ping message towards the NOC (Network Operations Center) and AAA
(Authentication, Authorization and Accounting center). Receiving an answer from the NOC/AAA side by the CPE's PC assures that the system is configured and operating properly. The following figure shows the end-to-end test elements. 42 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS To perform the test 1. Ensure that the BS is configured with the:
Center frequency ASN-GW IP address and security parameters 2. Connect the BS to a CPE configured with the:
Center Frequency 3. Connect a computer configured to communicate with the CPE using the CPE IP address subnet) to the CPE Ethernet port using a cross-cable. 4. Use Telnet to send a ping command from the CPE computer to the NOC IP Address. 4.5.1 Performing a PING Test To verify connectivity 1. Open a Command Prompt window from the computer connected to the CPE 2. Select Start Run and enter cmd. 3. Enter a Ping command that pings the NOC. The following shows a Ping command:
4. Verify that the link has been established properly according to the reply received from the NOC. 5. If no 'ping' reply is received, check connections and required configuration parameters. Runcom Technologies Ltd. 43 Field Test Performance Evaluation RNU4000BS Base Station User Manual 5 Field Test Performance Evaluation The purpose of this document is to validate in the field performance of Runcom system that includes base station and CPEs (with or without NOC) in the operation modes. The field tests cover MIMO-A
(Matrix A or SISO) and MIMO B (Matrix B). This document contains the following main sections that describe the test performance:
Throughput performance per CINR and MCS (modulation coding scheme) The table below describes the test equipment list and the associated accessories in order to perform the test as described in this document Equipment Outdoor Compact BTS 4x4 IDU CPE ODU CPE USB CNOC 1 2 2 2 1 QTY Parameters 4x30dbm, 65 or 90 degrees sector antenna 16dbi 2x24dbm, panel antenna 2x7dbi or 2x15dbi 2x24dbi, omni antennas 2x5dbi 1x17-20dbm, on board antenna License for 100 subscribers RF Configuration BW TX/RX symbols ratio TX power DL Modulation max UL Modulation max 10MHz (or 5MHz) 32/15 (or 26:21 for higher UL) 4x0dB MAX 4X30dB MAX QAM 64 2/3 QAM 16 Network Configuration Service Flow Default BE, UGS, nRTPS CIR 64Kb MIR DL 40Mbs/UL 40Mbs Advance Configuration for Lab test for field test For mobile For mobile All users Special settings MIMO-B mode BS CINR Threshold table parameters BS Synch Configuration GPS for external use Internal clock For field test For Lab test 5.1 Field Test Overview The field test testing procedures is used to evaluate the throughput performance and the base station sector coverage performance in LOS and N-LOS environment. To get more robust reliable measurements results for better analysis the recommended conditions for the testing points are LOS environment. Note:
44 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Field Test Performance Evaluation 1. For MIMO B operation mode the DL CINR should be 25db 2. For maintaining the MIMO B mode the recommended set up is LOS or Near-LOS. 5.2 Field Test Setup The setup presented here is a suggestion for a general setup which allows the operation of the tests as described in this document. Figure 29 Test Setup Diagram Figure 30 Field Test Setup Runcom Technologies Ltd. 45 Field Test Performance Evaluation RNU4000BS Base Station User Manual Figure 31 Field Test Point Sector 1 120 BS Site Figure 32 Sector Radio Coverage 46 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Field Test Performance Evaluation 5.3 Field Test Procedure Preliminary preparation 1. Establish the test setup and the outdoor installation according to the figure Field Test Setup or equivalent 2. Establish connection between the BS and the CPE and required settings to obtain proper connection Perform PC to PC TCP throughput performance using measurement tools:
FTP FileZilla Server (Setting Buffer size = 491520/Socet buffer size=983040) 5 sessions (file size 80 Mb each) running simultaneously on CPE in complete LOS DL Throughput performance SISO/ MIMO B DL link Modulation RSSI[dB] CINR DL Throughput (max) [Mb/s]
[dB]
Radio BW 10MHz TX/RX symbols ratio 32:15 64 QAM 5/6 (MIMO-B) 64 QAM 2/3 (MIMO-B) 16 QAM (MIMO-B) 64 QAM 2/3 (SISO) 16QAM (SISO) 16QAM (SISO) QPSK (SISO) QPSK (SISO)
-55
-58
-65
-70
-75
-78
-80
-83 27 25 22 20 17 14 11 8 37 30 22 14.5 11 7.5 5.5 3.5 Note:
1. Throughput performance measurements values tolerance -5%
2. CINR measure values tolerance 2dBm 3. RSSI values tolerance 3dBm DL Throughput performance SISO table - theoretical calculation / symbol ratio 32:15 DL Modulation DL Throughput DL Throughput (max) DL CINR threshold
(max)
[Mb/s]
BW 10MHz Radio BW 5MHz
[Mb/s]
TX/RX symbols ratio QPSK 1/2 QPSK 3/4 QAM 16 1/2 QAM 16 3/4 QAM 64 1/2 QAM 64 2/3 QAM 64 3/4 QAM 64 5/6 8 11 14 17 20 22 24 25 4 6 8 12 12 16 18 20 32:15 2 3 4 6 6 8 9 10 Runcom Technologies Ltd. 47 Field Test Performance Evaluation RNU4000BS Base Station User Manual UL Throughput performance SISO - theoretical calculation / symbol ratio 32:15 DL Modulation DL Throughput DL Throughput (max) DL CINR threshold QPSK 1/2 QPSK 3/4 QAM 16 1/2 QAM 16 3/4 3 6 9 12 QAM 16 3/4 QAM 64 2/3 QAM 64 5/6 20 22 25
(max) BW 10MHz
[Mb/s]
1.34 2 2.68 4 BW 5MHz
[Mb/s]
0.6 1 1.34 2
(max) BW 10MHz
[Mb/s]
24 32 40 BW 5MHz
[Mb/s]
12 16 20 DL Throughput performance MIMO B table - theoretical calculation / symbol ratio 32:15 DL Modulation DL Throughput DL Throughput (max) DL CINR threshold 48 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6 Technical Specifications The RNU4000BS BS installation procedure involves the following accessories:
RF Antennas GPS Antenna (Optional) Mounting kit This section details the specifications for the RNU4000BS BS and accessories. 6.1 RNU4000BS BS Specifications Radio Standard compliance complies with 802.16e according to the WiMAX Forum profiles. WiMax Number of sectors System Capability Frequency FFT FEC Channel bandwidth Duplex method Central frequency resolution Maximum output power (on antenna connector) Antennas:
Type Number Connectors Modulation and coding rates Fixed and Mobile 1, 2 or 4 sectors LOS, Near LOS, Non LOS 2.3-2.7GHz, 3.3-3.8GHz (CBP capability for band 3.675-
3.700GHz is required), 4.9-5.0GHz (other frequencies are optional) 512, 1024, 2048 Convolution Code and Turbo Code 3.5 MHz, 5 MHz, 7 MHz, 8.75 MHz, 10 MHz, optional 20 MHz TDD, optional FDD/HFDD 125 KHz
+30dBm
+28 dBm per antenna in 4.9GHz Integrated Sectorized 11dbi (90) External dual slant Single antenna 2 dual-slant;
4x N-Type, 50 ohm, lightning protected (Optional) DL/UL: QPSK (1/2, 3/4) , 16 QAM (1/2, 3/4), 64 QAM (2/3 , 3/4, 5/6 )
(64 QAM is optional for UL) Diversity Supported MIMO A/B , STC, MRC, SISO, GPS Synchronization Integrated Integrated GPS module with on board synchronization unit Runcom Technologies Ltd. 49 Technical Specifications RNU4000BS Base Station User Manual Network Management System Configuration Software Upgrade Network Interfaces Northbound Interface Connectors Management SNMPv2/v3, standard and proprietary MIB SNMP, FTP, CLI Remote TFTP upgrade of firmware and programming Interfaces 2x10/100 Base-T, Optional 1xGE and optical interface SX/LX Profile C, R6 per SF GRE tunnel, Profile B is optional 2xN-Type for external antenna 50 ohm, External synchronization option, external GPS antenna option, power connector, 2xRJ-45 Power Source
-36 to -72 VDC < 60Watt Electrical Characteristics Dimensions Weight Physical and Environmental 39cm (L) x 24cm (W) x 12cm (H) 5000 grams / not including mounting kit Operating external temperature Industrial -40C to 55 C Operating humidity 95% non-condensing Standards Compliance*
EN 60950-1, EN 60950-22 IEC 60529-1, IP66 FCC Part 27 , Part 90; EN302 623 , EN302 544 FCC part 15, class B ; ETSI EN 301489-1 Safety Environmental Radio EMC 50 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2 External Dual-Slant RF Antennas Specifications 6.2.1 Dual-Slant Antenna 2.3-2.7 GHz; 17 dBi; 65 (MT-364054/ND) Gain VSWR Electrical 16 dBi (min) @ 2.3 - 2.5 GHz 17.50.5 dBi @ 2.5 - 2.7 GHz 1.5:1 (typ), 1.7 :1(max) Azimuth Beam width @ 13.5dBi Elevation Beam width @ -3 dB 65 (typ) 7 (typ) Polarization Cross-polarization Dual Linear, 45
-20 dB (max) @ 2.3 - 2.5 GHz
-17 dB (max) @ 2.5 - 2.7 GHz Side Lobes Level Azimuth and Elevation Meets ETSI EN 302 326- V1.1.2 (2006-03) Side Lobes Level for Azimuth in the range
-20 dB (max) @ 2.3 - 2.5 GHz
( 100 to 180 from Boresight)
-25 dB (max) @ 2.5 - 2.7 GHz Front-to-Back Ratio Port-to-Port Isolation Input Impedance Input Power Lightning Protection
-30 dB (max) 23 dB (min), 30 dB (typ) 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 945 x 126 x 37mm (max) WEIGHT CONNECTOR RADOME BASE PLATE 3.0 kg (max) 2 x N-Type Female Plastic UV Resistant Aluminum with chemical conversion coating MECHANICAL DOWN TILT 0 to (-10) Runcom Technologies Ltd. 51 Technical Specifications RNU4000BS Base Station User Manual 6.2.2 Double-dual Slant 2300-2700 MHz Remote Tilt-Panel Antenna Frequency Range Gain Return Loss Polarization Horizontal Beamwidth Vertical Beamwidth Electrical Down tilt Upper Sidelobe Level Front to Back Ratio Isolation Between Ports Power Rating Impedance Lightening Protection Connector Type RET Type RET Interface RET Connector Antenna Dimensions Packed Dimensions Antenna Weight Radom Material Electrical 2300-2700 MHz 17.1 dBi @ 2.4 GHz 17.8 dBi @ 2.6 GHz
> 15 dB Dual Slant 45 65 7 with nullfill 0 - 10 independently continuously adjustable
< -18 dB
> 30 dB
> 30 dB 250 W 50 ohm DC Grounded N-Type Female Internal motor & manual override AISG 2 Remotely upgradeable Single AISG 8 pin male Mechanical 1070x300x115 mm 1200x330x200 mm 13 kg Polyester Fiberglass 52 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.3 Dual-Slant Antenna 2.3-2.7 GHz; 16 dBi; 60 (SP2327-
16XP60NUF) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Polarization Front-to-Back Ratio EN 302 326 V.1.1.2 (2006-03) Electrical 16 dBi @ 2.3-2.5 GHz 16.5 dBi @ 2.5-2.7 GHz 1.5 : 1 (max) 60 +/- 5 9 (typ) Dual Linear, 45
-25 dB (Min) Port-to-Port Isolation 30 dB (typ) @ 2.3-2.7 GHz Null Fill Input Impedance Input Power Lightning Protection 1st Sidelobe: -15dB 2nd Sidelobe: -18dB 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) Runcom Technologies Ltd. 53 Technical Specifications RNU4000BS Base Station User Manual 6.2.4 Dual-Slant Antenna 2.3-2.7 GHz; 15 dBi; 90 (SP2327-
15XP90NUF) Gain VSWR Electrical 14.5 dBi @ 2.3-2.5 GHz 15 dBi @ 2.5-2.7 GHz 1.5 : 1 (max) Azimuth Beamwidth @ 13.5dBi 90 +/- 5 Elevation Beamwidth @ -3 dB 9 (typ) Polarization Front-to-Back Ratio EN 302 326 V.1.1.2 (2006-03) Dual Linear, 45
-25 dB (Min) Port-to-Port Isolation 30 dB (typ) @ 2.3-2.7 GHz Null Fill Input Impedance Input Power Lightning Protection 1st Sidelobe: -15dB 2nd Sidelobe: -18dB 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) 54 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.5 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (MT-404067/ND) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Polarization Cross-polarization Electrical 16 dBi (min) @ 3.3-3.4 GHz 17.5 0.5 dBi @ 3.5-3.8 GHz 1.5 : 1 (typ) 1.8:1 (max) 65 (typ) 7.5 (typ) Dual Linear, 45 ETSI EN 302 326 V.1.1.2 (2006-03) Side Lobes Level Azimuth and Elevation Meets ETSI EN 302 326- V1.1.2 (2006-03) Side Lobes Level for Azimuth in the range
-25dB (max) @ 3.3-3.5 GHz
( 100 to 180 from Boresight)
-30dB (max) @ 3.5-3.8 GHz Front-to-Back Ratio
-30 dB (max) EN 302 326 V.1.1.2 (2006-03) Port-to-Port Isolation Input Impedance Input Power Lightning Protection 25 dB (min) @ 3.3-3.7 GHz 20 dB (min) @ 3.7-3.8 GHz 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 600x130x63mm (max) WEIGHT CONNECTOR RADOME BASE PLATE 2.5 kg (max) 2 x N-Type Female Plastic UV Resistant Aluminum with chemical conversion coating MECHANICAL DOWN TILT 0 to (-10) Runcom Technologies Ltd. 55 Technical Specifications RNU4000BS Base Station User Manual 6.2.6 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (SP3338-17XP65) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Electrical 16.5 dBi @ 3.3-3.5 GHz 17 dBi @ 3.5-3.8 GHz 1.5 : 1 (max) 65 +/- 5 7 (typ) Polarization Dual Linear, 45 Upper Side Lobe Suppression
-15dB @ 3.3-3.8 GHz 30 degrees above horizon Front-to-Back Ratio
-25 dB (Min) EN 302 326 V.1.1.2 (2006-03) Port-to-Port Isolation Input Impedance Input Power Lightning Protection 30 dB (typ) @ 3.3-3.8 GHz 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) 56 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.6.1 Radiation Patterns SP3338-17XP65 azimuth plane SP3338-17XP65 elevation plane Runcom Technologies Ltd. 57 Technical Specifications RNU4000BS Base Station User Manual 6.2.7 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 90 (SP3338-17XP90) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Electrical 15.5 dBi @ 3.3-3.5 GHz 16 dBi @ 3.5-3.8 GHz 1.5 : 1 (max) 90 +/- 5 7 (typ) Polarization Dual Linear, 45 Upper Side Lobe Suppression
-15dB @ 3.3-3.8 GHz 30 degrees above horizon Front-to-Back Ratio
-25 dB (Min) EN 302 326 V.1.1.2 (2006-03) Port-to-Port Isolation Input Impedance Input Power Lightning Protection 30 dB (typ) @ 3.3-3.8 GHz 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) 58 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.7.1 Radiation Patterns SP3338-17XP90 azimuth plane SP3338-16XP90 elevation plane Runcom Technologies Ltd. 59 Technical Specifications RNU4000BS Base Station User Manual 6.2.8 Dual-Slant Antenna 4.9-5.95 GHz; 16 dBi;90 (MT- 464018/ND) Gain VSWR 4dB Azimuth Beam width Elevation Beam width @ -3 dB Polarization Cross-polarization EL upper side lobes level Front-to-Back Ratio Port-to-Port Isolation Input Impedance Input Power Lightning Protection Antenna Dimensions Connector Antenna Weight Radom Material Electrical 16 dBi (min) @ 4.9-5.95 GHz 2 : 1 (max) 1.7:1 (typ) 90 (typ) 6.0 (typ) Dual Linear, 45 ETSI EN 302 326 V.1.1.2 (2006-03) 25dB (typ
-25 dB (max) 25 dB (typ) 22dB (min) 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical 550x250x17 mm 2xN-Type Female 2.5 kg Plastic 60 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.3 RNU4000BS Internal Antenna Specifications Electrical Antenna Model Frequency Range Gain VSWR 3 dB Azimuth Beam width 3 dB Elevation Beam width Polarization Cross Polarization F/B Ratio Specifications for 2.5 GHz / 3.5 GHz/4.9GHz 2.5 GHz 4x Sector 3.5 GHz 4.9 GHz 4 x Sector 4 x Sector 2.3 2.7 GHz 3.3 3.8 GHz 4.9 - 5.1 GHz
+ 11.5 dBi x 2
+ 11.5 dBi x 2
+12dBi x 2 1.6:1 110 30 1.6:1 110 20 1.7:1 90 22 Dual Slant 45 Dual Slant 45 Dual Slant 45
-30 dB
-25 dB
-27 3 dB
-25 dB
-35dB
-23dB Form Factor Dimensions Mechanical RNU4000BS Enclosure Integrated 236.0 x 79.5 x 48.2 mm (without connectors) Runcom Technologies Ltd. 61 Technical Specifications RNU4000BS Base Station User Manual 6.4 GPS Antenna Specifications GPS Active Antenna (BY/GPS/06) Dielectric Center Frequency 1575.42 MHz 3 MHz VSWR Bandwidth Impedance Peak Gain Gain Coverage Polarization LNA Gain (without cable) Noise Figure 1.5:1 5 MHz 50 ohm
> 3 dBic Based on 77cm ground plane
>- 4 dBic at 90<0<+90(over 75% Volume) RHCP LNA Filter 28 dB Typical 1.5 dB Filter Out of Band Attenuation (f0=1575.42 MHz) 7dB Min f0+/-20MHZ VSWR DC Voltage DC Current Weight Dimensions D x H Cable Connector Mounting Housing Operating Temperature Storage Temperature Vibration 20dB Min f0+/-50MHZ 30dB Min f0+/-100MHZ
< 2.0 3.0V to 5.0V 10mA Max Mechanical
< 110 gr 46 mm x 15 mm RG174 3m or other SMA/SMB/SMC/BNC/FME/TNC/MCX/MMCX or other Screw Mount Black Environmental
-40 ~ +85C
-45 ~ +100C Sine sweep 1g(0-p)10~50~10Hz each axis 62 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications Humidity Weatherproof 95%~100% RH 100% Weatherproof Runcom Technologies Ltd. 63
1 | Users manual | Users Manual | 3.38 MiB | / September 11 2012 |
WiMAX RNU4000BS Base Station User Manual Doc: RNU4000BS_UM_V-03.1 Preface Material RNU4000BS User Manual About this Guide This User Manual describes the procedures for commissioning, mounting, installing and managing the RNU4000BS Base Station. Notice This document contains proprietary and confidential material of Runcom Ltd. Any unauthorized reproduction, use or disclosure of this material, or any part thereof, is strictly prohibited. This document is solely for the use of Runcom Ltd. employees and authorized Runcom Ltd. customers. The material furnished in this document is believed to be accurate and reliable. However, no responsibility is assumed by Runcom Ltd. for the use of this material. Runcom Ltd. reserves the right to make changes to the material at any time and without notice. All other trademarks are the property of their respective owners. Other company and brand products and service names are trademarks or registered trademarks of their respective holders. Safety Precautions To avoid injury and to prevent equipment damage, observe the safety precautions below. Only qualified personnel should be allowed to install, replace, and service the equipment. The device cannot be sold retail, to the general public or by mail order. It must be sold to dealers. Installation must be controlled. Installation must be performed by licensed professionals. Installation requires special training. The Runcom radios and antennas should be installed ONLY by experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities. Failure to do so may void product warranty and may expose the end user or the service provider to legal and financial liabilities. Always observe standard safety precautions during installation, operation and maintenance of this product. This equipment must be installed according to country national electrical codes. Any changes and modifications to the device and the accessories must be approved by Runcom. All equipment and accessories must be installed in a restricted access area. Observe all the labels on the equipment, providing operation details and warnings. Read and follow the installation instructions provided in this manual. The outdoor base station should be positioned more than 2 meters from humans. In case of using cables that are not provided with the equipment package, ensure these cables comply with the regulatory inspection authorities and are the responsibility of the customer. Do not move or ship equipment unless it is properly packed in its original wrapping and shipping containers. Electrical Shock Prevention When connecting equipment to the AC and DC voltage supplies, ensure proper polarity. Disconnect the power source before installing or maintaining the power wiring. II Runcom Technologies Ltd. RNU4000BS User Manual Preface Material Do not operate the equipment if there is any failure or damage to electrical components. Do not touch exposed connections, components or wiring when power is on. Install the equipment and the grounded DC supply circuits in adjacent cabinets. Protect the DC power source with an adjacent circuit breaker. The equipment must be properly grounded before attempting to operate or perform any repairs. RF Exposure To avoid RF exposure - Installation of antennas must comply with the FCC RF exposure requirements. Radio Interference This equipment generates and radiates radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. To avoid interferences:
Avoid conjunction with any other antenna or transmitter. In case of Radio Interference: Relocate the antenna and Increase separation between the equipment and the receiver (e.g. connect to a separate circuit or outlet). When using an external antenna, the external antenna must not be co-located or operating in conjunction with any other antenna or transmitter NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
-Reorient or relocate the receiving antenna.
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help. Runcom Technologies Ltd. L III RNU4000BS User Manual Table of Contents Table of Contents 1 Introducing the RNU4000BS BS ....................................................................................... 1 1.1 Coverage Configurations .............................................................................................................. 3 1.2 RNU4000BS Interfaces and Accessories ......................................................................................... 5 1.2.1 GPS, Power and Communication Interfaces .......................................................................... 5 1.2.2 BS RF Antenna Interfaces ................................................................................................... 6 1.3 Supported Antennas ..................................................................................................................... 7 1.3.1 RF Antennas ...................................................................................................................... 7 1.3.1.1 Internal Antennas ................................................................................................... 7 1.3.1.2 External Antenna .................................................................................................... 7 1.4 Optional Accessories .................................................................................................................... 7 2 WEB GUI description ........................................................................................................ 9 2.1 WEB GUI Menu description ......................................................................................................... 10 2.2 WEB GUI working screens description ......................................................................................... 10 3 Commissioning Procedure ............................................................................................. 24 3.1 Overview ................................................................................................................................... 24 3.2 Connect BS to Power and Computer ............................................................................................ 25 3.2.1 Configure the Computer's Network Parameters .................................................................. 25 3.2.1.1 Configure Computer IP Address............................................................................. 25 3.2.1.2 Disable Firewall .................................................................................................... 28 4 Installing the RNU4000BS BS ......................................................................................... 29 4.1 Mounting the Base Station .......................................................................................................... 29 4.1.1 BS Installation Location..................................................................................................... 29 4.1.2 Mounting Bracket Description ............................................................................................ 30 4.1.3 Mounting On a Pole .......................................................................................................... 32 4.1.4 Mounting On a Wall .......................................................................................................... 34 4.2 Overview of the Cable and Power Connections ............................................................................ 36 4.3 Mounting the RF Antennas ......................................................................................................... 38 4.3.1 Mounting the RF Antenna ................................................................................................. 38 4.3.1.1 RF Antenna Location Criteria ................................................................................. 38 4.3.1.2 RF Antenna Mounting ........................................................................................... 38 4.3.1.3 4x4 antennas Outdoor Connection Requirements ................................................... 39 4.4 Pole Mounted GPS Antenna ........................................................................................................ 40 Runcom Technologies Ltd. V Table of Contents RNU4000BS User Manual 4.4.1 GPS Antenna Installation ................................................................................................... 41 4.4.2 Criteria for selecting the GPS antenna location ................................................................... 41 4.4.3 GPS antenna mounted to the RNU4000BS body.................................................................. 41 4.4.4 Multi-sector Daisy-chained GPS Antennas ........................................................................... 42 4.4.4.1 Hardware Interconnections ................................................................................... 42 4.4.4.2 Configuration Parameters ...................................................................................... 42 4.5 End-to-End Traffic Test .............................................................................................................. 42 4.5.1 Performing a PING Test .................................................................................................... 43 4.6 What Next? ............................................................................................................................... 44 5 Field Test Performance Evaluation ................................................................................. 45 5.1 Field Test Overview .................................................................................................................... 45 5.2 Field Test Setup ......................................................................................................................... 46 5.3 Field Test Procedure .................................................................................................................. 47 6 Technical Specifications ................................................................................................. 50 6.1 RNU4000BS BS Specifications ..................................................................................................... 50 6.2 External Dual-Slant RF Antennas Specifications ............................................................................ 52 6.2.1 Dual-Slant Antenna 2.3-2.7 GHz; 17 dBi; 65 (MT-364054/ND) ........................................... 52 6.2.2 Double-dual Slant 2300-2700 MHz Remote Tilt-Panel Antenna ............................................ 53 6.2.3 Dual-Slant Antenna 2.3-2.7 GHz; 16 dBi; 60 (SP2327-16XP60NUF) .................................. 54 6.2.4 Dual-Slant Antenna 2.3-2.7 GHz; 15 dBi; 90 (SP2327-15XP90NUF) .................................. 55 6.2.5 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (MT-404067/ND) ........................................... 56 6.2.6 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (SP3338-17XP65) ........................................... 57 Radiation Patterns ................................................................................................................. 58 SP3338-17XP65 elevation plane .................................................................................................. 58 6.2.7 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 90 (SP3338-17XP90) ........................................... 59 Radiation Patterns ................................................................................................................. 60 SP3338-16XP90 elevation plane .................................................................................................. 60 6.2.8 Dual-Slant Antenna 4.9-5.95 GHz; 16 dBi;90 (MT- 464018/ND) ......................................... 61 6.3 RNU4000BS Internal Antenna Specifications ................................................................................ 62 6.4 GPS Antenna Specifications ........................................................................................................ 63 VI Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS 1 Introducing the RNU4000BS BS Runcom's RNU4000BS fully integrated outdoor WiMAX BS provides flexible, cost-effective WiMAX network deployment solutions where increased capacity and coverage is required. All-in-one architecture combined with simple, single-handed installation and fast rollout make these BSs an ideal solution for operators that want to get in on the ground floor of WiMAX deployment at significant CAPEX reductions and maximum return on their network deployment. The RNU4000BS is designed for coverage flexibility: depending on the required scenario, the same BS can be configured to cover more sectors with relatively sparse concurrent user requirements or fewer sectors with higher needs. RNU4000BS BSs provide adaptable solutions, allowing interoperability with other MSS devices as well as ASN-GW vendors. Runcom Technologies Ltd. 1 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual Features All-in-one integrated packaging of RF and Baseband components. Full compliance with IEEE802.16e-2005 according to the WiMAX Forum profiles. Frequency Bands (model dependant): 705745MHz, 2.3-2.7GHz, 3.3-3.8GHz, 4.9-5.0GHz other bands are optional. Supports MIMO 2x2, HARQ, and other state of the art features which increase performance. 4 channels ready unit 2 channels supplied by default can be license-key activated for 4 channels. Transition Power 2 or 4 x Tx, 28dBm each. Antenna support - model dependent: either four external or internal antennas. Integrated GPS receiver for time and clock synchronization with holdover for satellite signal loss. Flexible coverage capabilities greater coverage area or greater penetration capabilities Small footprint, single-handed quick installation and simple provisioning Fast roll-out for service providers Seamless and cost-effective integration with a Backhaul network Optional integrated backhaul link via WiMAX R1 interface High performance with Quality of Service (QoS) settings, according to WiMax standards. Support for the latest R6 interface and GRE tunneling to ASN-GW Remote NMS management via Runcoms NMS application 2 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS 1.1 Coverage Configurations RNU4000BS supports either two or four RF channels and can provide coverage for either one, two or four sectors depending on the sector density (throughput capacity) and radio performance requirements (note that internal antenna can be used for single sector coverage only):
Single-Sector solution of 4x4 (for internal and external antennas) used for higher density sites: four channels for Tx and four channels for Rx MRC. This configuration improves coverage through diversity and improve throughput through MIMO 4x2. Dual-Sector solution of 2x2 (only relevant for external antennas) used for lower populated sites: two channels for Tx channels and two channels for Rx MRC. MIMO of 2x2 can be perform if signal to noise ratio is good. Quad-Sector solution of 1x4 (only relevant for external antennas) used for more sparsely populated sites: single channel for Tx and single channel for Rx. This configuration is highly cost effective but suffer from lower performance and coverage area per sector (totally it covers more space) The overall capacity, of single base station unit, with respect to the maximum number of connected users, supported bands and throughput is constant; however, in a dual-sector installation, the BS will transmit to two separate sectors in a cell, where each sector is serviced by two antennas. In quad sector installation the BS will transmit to four sectors in a cell (Usually covers the entire cell 3600) , where each sector is serviced by one antenna. These two configurations reduce CAPEX and OPAX for operators by covering cells with relatively low density or sparsely populations, which have low requirements for concurrent users and / or lower data traffic. The following figure shows a single sector covered by 4x Tx/Rx channels. Several of these sectors (within the same site) should be installed, using the corresponding number of RNU4000BSs, to complete site coverage. Each site can use single GPS antenna, installed on one of the BS, daisy-chained from BS to Runcom Technologies Ltd. 3 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual another, to perform Figure 1 Single Sector Coverage 4 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS The following figure illustrates dual-sector coverage of two sites by a single RNU4000BS unit. Figure 2 Dual Sector Coverage 1.2 RNU4000BS Interfaces and Accessories The interfaces of the RNU4000BS BS are distributed over two panels. Each of these panels is referred to according to the corresponding interfaces. Note: Install the BS so the power, GPS and communication interfaces face DOWN. 1.2.1 GPS, Power and Communication Interfaces Note: Install the BS on the wall or pole with this panel facing DOWN. PPS (In/Out) VDC Ground GPS Eth ports Runcom Technologies Ltd. 5 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual Connector Description GPS ETH1 Connects to an external (optional) GPS antenna. The GPS antenna is ordered separately. Connector Type: ITT CANNON APD DIN 72585 Primary Fast Ethernet connector. Used for initial setup (and standalone tests), and for connection to the backhaul network (in normal installations). Connector Type: RJ-45 TYCO part no 1546907-1 ETH2 Second Ethernet port for local and out-of-band management. In future versions, you will be able to daisy-chain this port to ETH1 in an adjacent Base Station (located in the same BS site) in order to allow a single Ethernet connection to the Backhaul. ETH2 port can also function as a serial port (connection through the cable supplied in the kit). This function is useful if the unit is not accessible via an IP address connection. PPS In and PPS Out can be used for synchronization of multiple sectors, where the PPS Out of one sector is connected to the PPS In of the next BS (daisy chained). This is relevant only for adjacent sectors at the same BS site. See PPS Figure 3 GPS Antenna to Bracket Connections Multi-sector Daisy-chained GPS Antennas section 0. Connector Type: SMA sealed Industrial 48VDC GND Power connector. External DC power connector (48VDC) for outdoor deployment. Connector Type: RJ-45 Ground blind hole connector. In normal installations, connect to the pole on which the unit is mounted. (The BS unit does not include a lightning arrester.) 6 1.2.2 BS RF Antenna Interfaces RNU4000BS supports either four external or four internal antennas. The unit below shows a model supporting four external antennas. Runcom Technologies Ltd. RNU4000BS Base Station User Manual Introducing the RNU4000BS BS All antennas (internal and external) are 1W each Connector Description ANT1/2/3/4 External RF connector for the Main external antenna. Connector Type: RJ-45 TYCO part no 1546907 1 1.3 Supported Antennas Depending on the model, the RNU4000BS is supplied with four external or four internal dependent. 1.3.1 RF Antennas 1.3.1.1 Internal Antennas Four internal antennas: 12dBi each at an azimuth beam-width of 90 degrees. Refer to specifications in section 6.3. 1.3.1.2 External Antenna Four external antennas: 15 to 18dBi, azimuth beam-width dependent. Note: Specs for dual-slant antennas described in section 5.2. You may use any other antenna type or model, keeping in mind that the antenna type or model should be based on the RF planning that was performed in preparation for deployment at the specific site and is dependent upon the coverage and throughput requirements of the site. 1.4 Optional Accessories The following accessories are not provided with the basic kit, and can be ordered as an option. Element Description Runcom Technologies Ltd. 7 Introducing the RNU4000BS BS RNU4000BS Base Station User Manual Power Supply 110-220v AC/DC converter for 48VDC power supply RF Antenna External directional antenna with pole mounting kit 8 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description 2 WEB GUI description Follow by the next steps for BS WEB GUI menu access:
Open Internet Explorer for access to BS WEB GUI using the BS IP address path Figure 4 BS WEB GUI access path Use the BS WEB GUI credential (user name and password) to obtain the BS WEB GUI menu User name Password user password Figure 5 BS WEB GUI ID This section describes the WEB GUI RNU 4000 Base Station management options and theirs functionalities indented to provide to user the next necessary abilities:
General information (BS HW/SW info, IP status) Monitoring (Synchronization and BS Sector operation status, CPE Connection list info and their link status) Configuration (General RF parameters settings, max. MCS settings and IP settings) Maintenance (Upgrade, Recovery and Default) Runcom Technologies Ltd. 9 WEB GUI description RNU4000BS Base Station User Manual 2.1 WEB GUI Menu description The table below describes the WEB GUI Menu options and their functionalities Menu General Information Configuration General IP Configuration Section General IP Status General IP Configuration Description Provides BS related HW/SW info Provides BS ETH interface IP addresses status Provides RF parameters and MCS settings Provides BS related IP addresses settings Status Synchronization Monitoring Connection CPE Info BS Status Connection Antenna Status CPE Info Query CPE List Maintenance Upgrade Recovery SW Upgrade Change Version Default Reset to Default Erase Configuration File Provides BS synchronization status Provides BS sector configuration status Provides BS RF parameters configuration status Provides BS antenna configuration status Provides ability to obtain fast link status connection parameters of specific CPE Provides list of connected CPEs and theirs ID and more detailed connection parameters as link status parameters and theirs SF connection Provides BS SW upgrade including all SW components Provides swap between BS SW version (current running and the previous one) Provides ability to set the BS to default parameters related to the SW version Provides ability to erase the configuration file in case if such file was downloaded to BS 2.2 WEB GUI working screens description General Information Screen The figure below represent the General Information working screen and provides the next info as described in the table below:
Menu Section Description General Information General Provides BS ID related info:
HW Product Type SW FW /FPAGA version BS ID BS MAC address IP Status Provides BS ETH interface IP addresses status:
BS ETH interface LAN configuration IP /subnet/ GW address ASN GW interface configuration - GW IP and Authentication address for connection with BS ASN BS DHCP client ENB/DSB 10 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 6 General Information working screen Runcom Technologies Ltd. 11 WEB GUI description RNU4000BS Base Station User Manual Monitoring screen The figures below represent the Monitoring working screens and provides the next info as described in the table below:
Menu Section Description Monitoring Status Synchronization Provides the BS synchronization operational and configuration status:
1PPS lock status Lock or Unlock indicates the 1PPS BS GPS synchronization status
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-
Modem status indicates the BS RF status:
running BS RF activated / normal BS operation Not running BS RF inactivated / BS is not operational, management is available Physical connection status Connected or Not 1PPS source indicates the 1PPS source GPS via Antenna default configuration GPS lock status Lock or Unlock indicates configuration (see figure 1PPS synchronization source configuration below)
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Connected- indicates physical connection status of BS external connectors 1PPS input or GPS the BS GPS lock status indicates the BS GPS initialization status time of Hold over timer. The timer starts once the BS GPS loss the 1PPS synchronization Unlock
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expired indicates the Hold over timer status Hold over time expired Not expired or GPS initialization status Initialized or Failed Hold over time 0sec to 14400sec indicates the 14400 sec default
- Once the timer is expired (14400sec), the BS RF becomes inactivated and that is in order to prevent interference to other BSs. the BS GPS 1PPS synchronization unlock states number Sync change state counter counting indicates Radio Status Provides BS sector configuration status info:
spectrum radio channel quality of the BS working frequency Max DL Modulation Max DL Modulation Initial Noise BS receiver initial noise indicates Note: Desirable is to obtain initial noise figure less than -
117dbm Initial TX power WiMAX Connection Provides BS connection status info:
Bandwidth Profile indicates the radio BW and BS ID indicates the BS ID Frequency indicates the BS central working frequency the TX/RX symbols ration connected CPEs to the BS No. of known NBR Bases Handover feature /
indicates the quantity of recognized by BS other neighbor BSs Preamble ID indicates the BS preamble ID No. connected UTs indicates the quantity of Note: N/A for current BS WEB GUI version 12 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Menu Section Description Antenna Status Provides BS antenna configuration status:
status of each one transmitter TX ON/OFF indicates the BS configuration
(4 independent transmitters) RX ON/OFF indicates the BS configuration status of each one receiver
(4 independent receivers) CPE Info CPE Info Query Provides ability to obtain fast link status connection parameters of specific CPE per CPE MAC address:
UL/DL FEC code type (see table below) UL/DL CINR UL RSSI Max UL subchannel and slots UL Repetition no. UL Headroom remaining CPE TX power CPE List Provides list of connected CPEs ,theirs IDs and more detailed connection info as link status and SF connection parameters:
Double click on INFO in order to obtain Radio Link status parameters and SF parameters FEC Code Modulation Type 13 15 16 17 18 19 20 21 QPSK 1/2 QPSK 3/4 QAM 16 1/2 QAM 16 3/4 QAM 64 1/2 QAM 64 2/3 QAM 64 3/4 QAM 64 5/6 Runcom Technologies Ltd. 13 WEB GUI description RNU4000BS Base Station User Manual Figure 7 Monitoring Status working screen Figure 8 Monitoring WiMAX working screen 14 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 9 Monitoring CPE info /CPE list working screen Figure 10 Monitoring CPE info / link status working screen 15 Runcom Technologies Ltd. WEB GUI description RNU4000BS Base Station User Manual Configuration screen The figures below represent the Configuration working screens and provides the next info as described in the table below:
Menu General Configuration Section General IP IP Configuration Configuration Stand Alone General Service Flow Profile CPE Binding Description Provides RF parameters and MCS settings Provides defined neighbors BS for HO Double click on one of the defined neighbors BS from the list in order to obtain the dialog box for define or update the neighbors BS Provides BS ETH interface IP addresses settings:
BS ETH interface LAN configuration IP /subnet/ GW address ASN GW interface configuration - GW IP and Authentication address for connection with BS Note:
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All ASN related IP configuration in BS should be accordantly to ASN GW configuration Recommended default BS ASN GW and Authentication IP static address is 192.168.0.3 DHCP server) BS DHCP client ENB/DSB(ASN GW is Note: Normal configuration /static IP configuration DHCP is DSB Provide the ability to set the BS network interface operation mode Double click on one of the defined Service Flow profiles from the list in order to obtain the dialog box for define or update the Service Flow profiles Double click on one of the defined CPE binding list in order to obtain the dialog box for binding or update the desirable Service Flow profile with CPE Multicast Binding Double click on one of the defined Multicast Binding CPE list in order to obtain the dialog box for Multicast binding or update 16 Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 11 Configuration - General screen Figure 12 Configuration HO neighbors BS definition screen Runcom Technologies Ltd. 17 WEB GUI description RNU4000BS Base Station User Manual Figure 13 Configuration - IP Configuration screen 18 Figure 14 Configuration Stand Alone screen Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 15 Configuration Multicast user definition screen Figure 16 Configuration CPE network connection screen Runcom Technologies Ltd. 19 WEB GUI description RNU4000BS Base Station User Manual Figure 17 Configuration Service flow profile definition screen 20 Figure 18 Configuration CPE to Service flow profile setting screen Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Maintenance screen The figures below represent the Maintenance working screens and provides the next info as described in the table below:
Menu Section Description Upgrade SW Upgrade Allows BS SW upgrade including all SW components:
Maintenance SW bin BS SW FW file (required) FPGA (required) HTML bundle (required) WEB GUI application file file which includes the all BS configuration parameters to be set to obtain BS required configuration Cfg. file (Optional) BS configuration Banks Change Version Default Configuration File Reset to Default Erase Configuration File Configuration File Allows swap between BS SW version (current running and the previous one) Allows ability to set the BS to default parameters related to the SW version Allows to erase the configuration file in case if such file was downloaded to BS Allows to upload and viewing the configuration file Figure 19 Maintenance Upgrade screen Runcom Technologies Ltd. 21 WEB GUI description RNU4000BS Base Station User Manual Figure 20 Maintenance Banks screen 22 Figure 21 Maintenance Default screen Runcom Technologies Ltd. RNU4000BS Base Station User Manual WEB GUI description Figure 22 Maintenance Configuration profile file screen Runcom Technologies Ltd. 23 Commissioning Procedure RNU4000BS Base Station User Manual 3 Commissioning Procedure 3.1 Overview Before mounting the RNU4000BS BS on a pole or wall, power should be connected to the BS and the basic parameters configured with the basic parameters using the BS WEB GUI. ATTENTION!!! BE SURE THE RF ANTENNAS ARE CONNECTED OR THE RF PORTS ARE TERMINATED BEFORE CONNECTING POWER TO THE UNIT. The BS commissioning procedure consists of the following steps:
24 Runcom Technologies Ltd. Connect Base Station to Power and ComputerConfigure computer to communicate with Base Station Download configuration fileto Base Station via WEB GUI (optional)Configure Base Station other parameters Via WEB GUIBase StationCommissioning Completed RNU4000BS Base Station User Manual Commissioning Procedure 3.2 Connect BS to Power and Computer ATTENTION!!! BE SURE THE RF ANTENNAS ARE CONNECTED OR THE RF PORTS ARE TERMINATED BEFORE CONNECTING POWER TO THE UNIT. To commission the BS unit two setup connections are required:
Power - Use the provided (BS) power cable to connect the BS VDC Power connector to an indoor 48 VDC power supply. Computer Connect the BS ETHER port to the computer running the WEB GUI application. 48VDC Figure 23 BS Commissioning Setup 3.2.1 Configure the Computer's Network Parameters In order to establish communication between the computer and the BS perform the following:
Assign computer IP address in the same subnet as the BS Disable Firewall 3.2.1.1 Configure Computer IP Address To configure IP address follows the next steps:
Note: The procedure may vary slightly depending on the operating system installed on the computer. The following procedure is for Windows XP. Runcom Technologies Ltd. 25 Commissioning Procedure RNU4000BS Base Station User Manual 1. Click the Start menu and choose Network Connections. 2. Right-click the Local Area Connection corresponding to the BS connection and select Properties. The Local Area Connections Properties dialog appears with the General tab displayed by default. 3. In the Items list, select Internet Protocol (TCP*IP) and click the Properties button. The Internet Protocol (TCP/IP) Properties dialog appears. 26 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Commissioning Procedure 4. In the IP Address display area:
In the IP address field assign an IP address other than the BS IP address (Default BS IP Address: 192.168.0.20). In the Subnet mask set the subnet to the same subnet as the BS (Default BS Subnet: 255.255.255.0).
(It is not required to define the Default Gateway). 5. Click OK. Runcom Technologies Ltd. 27 Commissioning Procedure RNU4000BS Base Station User Manual 3.2.1.2 Disable Firewall To disable firewall follow the next steps:
1. In the Local Area Connection dialog, click the Advanced tab. The following dialog appears. Advanced tab Settings button 2. In the Windows Firewall display area click the Settings button. The Windows Firewall dialog appears. 3. Select the Off option and click OK. 28 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 4 Installing the RNU4000BS BS After commissioning the RNU4000BS BS, the unit is ready for installation. The procedure consists of the following steps:
Choosing the installation location and mounting the BS on a pole or on a wall For models with external RF antennas, mounting the RF antennas in the appropriate locations Mounting the GPS antennas in the appropriate locations Connecting the RF antenna to the BS Assembling the GPS antennas to the BS using the provided bracket Connecting Ground, Power and ETH cables to the BS Performing an End-to-End traffic test 4.1 Mounting the Base Station The RNU4000BS BS is provided with a mounting kit which includes all the mounting elements (e.g. mounting-bracket, torques, screws etc.). The BS can be mounted either on a pole or on a wall. Note: The same mounting bracket is used for the wall and the pole installation. When mounting the BS, note the following The RNU4000BS BS is typically installed in an upright vertically aligned position with the power, Ethernet and GPS connectors facing DOWN. The RNU4000BS BS should be installed on the rear side of the RF antenna to prevent self-reflections. 4.1.1 BS Installation Location This section describes the criteria that should be considered when selecting the RNU4000BS BS installation location. The BS can be mounted on either a pole or a wall. To choose BS Installation location Verify that the pole/wall location corresponds to the site plan and takes into account local regulations and maintenance access. The unit should be mounted in the highest possible point. Reception will increase according to the height of the antennas. The diameter of the pole on which the base station and antenna are to be mounted is either:
1.00-1.75 or 1.75-3.00 Runcom Technologies Ltd. 29 Installing the RNU4000BS BS RNU4000BS Base Station User Manual Verify that the pole is properly grounded. Verify that the pole has lightening protection. Verify that there is safe access to the pole, free of any obstacles or other danger for installers of the RNU4000BS BS. Verify that there are no power lines near the pole. 4.1.2 Mounting Bracket Description The figure below shows the BS mounting bracket. Note: The same mounting bracket is used for the wall and the pole installation. BASE WALL/POLE RACKET ARM CLAMPING BRACKET Use for securing bracket to pole The Bracket elements are described in the following table. Element Description BRACKET BASE. This part is connected to the BS. BRACKET ARM. This part provides the tilt ability, and connects between the Bracket BASE and MAIN SUPPORT. 30 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS Element Description WALL/POLE BRACKET Used for connecting the bracket to the wall. A C F CLAMPING BRACKET Used for securing the bracket to the pole. Provided screws, nuts and washers:
A. 4x flat washer M5 E B G B. 4x nut M5 C. 4x spring washer M5 (seems as flat washers) D H D. 4x bolt M8x50 E. 4x washer spring M8 F. 4x washer flat M8 G. 2x nut M8 H. 2x bolt M8x70 I. 4x bolt M5x16 - missing Runcom Technologies Ltd. 31 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.1.3 Mounting On a Pole Note: When installing on a pole, leave at least 40cm space between the BS and the top of the pole for lightning protection. To install the BS on a pole 1. Secure the Bracket Base to the BS underside:
Secure the Bracket Base to the underside of the BS, using the provided screws, as shown below:
Secure to BS Underside BASE Verify that the orientation of the hole in the BASE is aligned with the elevation axis. Use a tightening torque of 5.7N/m to tighten. 32 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 2. Assemble the bracket elements:
Secure the WALL/POLE BRACKET to the Bracket Arm and then to the Bracket Base using the provided screws, as shown below:
Ridges to ridges Washers and bolt BASE - connect to BS WALL/POLE BRACKET ARM Note: The bolt head should be positioned in the socket on the Bracket BASE. Use a tightening torque of 24 N/m to tighten. 3. Mount the BS on the pole, where the procedure varies slightly according to the pole diameter:
For poles with a diameter of 1.75-3.00:
POLE SUPPORT Assembled CONVEX on the pole Mount the BS on the pole using the bracket Pole Support as shown above. Assemble the bracket CONVEX as shown. Tighten the bracket using the provided screws, according to the pole diameter. Use a tightening torque of 14N/m to tighten. Runcom Technologies Ltd. 33 Installing the RNU4000BS BS RNU4000BS Base Station User Manual For poles with a diameter of 1.00-1.75:
CLAMPING BRACKET Assembled CONCAVE on the pole Mount the BS on the pole using the Clamping Bracket as shown above. Assemble the bracket CONCAVE as shown. Tighten the bracket using the provided screws. Use a tightening torque of 14N/m to tighten. 4.1.4 Mounting On a Wall 1. Secure the Bracket Base to the BS underside:
Secure Bracket Base to the underside of the BS, using the provided screws, as shown below:
Secure to BS Underside BASE Verify that the orientation of the hole in the BASE is aligned with the elevation axis. Use a tightening torque of 5.7N/m to tighten. 34 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 2. Assemble the bracket elements:
Secure the Bracket Arm to the Bracket Base using the provided screws, as shown below:
BASE Assemble to BS i ARM Ridges to ridges Washers and bolt Note: The bolt head should be positioned in the socket on the Bracket BASE. 3. Mount the BS on the wall:
Mount the WALL/POLE BRACKET on the wall in the appropriate position. Note the azimuth orientation when doing so. WALL/POLE BRACKET Secure to a wall Secure to wall Runcom Technologies Ltd. 35 Installing the RNU4000BS BS RNU4000BS Base Station User Manual Attach the Bracket Arm to the WALL/POLE BRACKET using the provided screws. WALL/POLE BRACKET ARM Note: The bolt head should be positioned in the ARM socket. Use a tightening torque of 24 N/m to the azimuth and elevation hardware. 4.2 Overview of the Cable and Power Connections This section provides a summary of the cable connections. Mounting and connections are described in detail in the following sections. BS Connections:
ATTENTION!!! BE SURE THE RF ANTENNAS ARE CONNECTED OR THE RF PORTS ARE TERMINATED BEFORE CONNECTING POWER TO THE UNIT. RF Antennas: (For models with external RF antennas). Connect coax cables from each RF antenna to the base station ports ANT1/ANT2/ANT3/ANT4. GPS Antenna: Connect a coax cable (10 meters max) from the GPS antenna to the BS GPS connector. Ground: Use the provided grounding cable to ground the BS to the pole (if pole is grounded), or to a grounding point. Power: Run the 5-10 meter power cable from the BS Power connector down the pole, to the provided 48 V power converter that is located indoors (i.e. in a building or in a caravan). Note: It is recommended to connect a battery (for backup) to the 48VDC power supply. Ethernet: Run the 5-10 meter Ethernet cable of the base station from the ETH connector at the bottom of the base station down the pole and connect it to an indoor Ethernet connector, such as in a building or in a caravan 36 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS If necessary, secure the cables to the pole so that it is not loose using plastic strips. Figure 24 Overview BS Connections Runcom Technologies Ltd. 37 ETH: Indoor Ethernet Connection 48VDC5-10 Meters Power Cable5-10 Meters ETH CableGrounding Cable (connected to pole if grounded, or to other grounding point)GPS AntennaCables for 4 RF AntennasBUILDINGDouble Dual-Slant RF AntennasGPS Cable(10 meters max)Building ROOF40cm from TOP of poleGPSGNDETHBS48VDC BatteryX4 Antennas Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.3 Mounting the RF Antennas After mounting the base station on a pole or wall:
For models with external RF antennas, mount the RF antennas in the selected locations according to the instructions given in this section. Mount the GPS Antenna in the selected locations according to the instructions given in this section. 4.3.1 Mounting the RF Antenna Note: This section is relevant only for installations of BSs with external antennas. Refer to section 1.1 for more information on antenna configurations. 4.3.1.1 RF Antenna Location Criteria To avoid frequency reuse problems caused by unwanted reflections, the main part of the antenna must be clear of any metal objects for a range of parameter to 20 meters. Make sure that there are no obstacles located in front of the RF antenna, such s poles, transmission equipment from other vendors or another Runcom RF antenna. 4.3.1.2 RF Antenna Mounting Note: The antenna is mounted and adjusted using the provided antenna mounting kit. To mount the RF Antennas:
Use the supplied RF antenna (pole) mounting kit to attach the antenna to the pole. Connect the antennas to the BS using the provided 0.5 -1 meter coax cables. Tilt the antenna as required. The antennas mounting kit enables the antenna to be tilted along two axes. The antenna position can be fine-tuned at a later stage. Figure 25 RF Antennas Mounting 38 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS 4.3.1.3 4x4 antennas Outdoor Connection Requirements Pico BS 4x4 antennas require using Antennas Dual Slant type (with polarization). Antennas connection should be accordantly:
BS Ant 1 connector connected via RF cable to Antenna 1 Port 1 or ANT1 connector BS Ant 2 connector connected via RF cable to Antenna 2 Port 1 or ANT1 connector BS Ant 3 connector connected via RF cable to Antenna 1 Port 2 or ANT2 connector BS Ant 4 connector connected via RF cable to Antenna 2 Port 2 or ANT2 connector Note: Reason for Requirement is to obtain proper downlink throughput ,each BS TX stream should be with different polarity Figure 26 BS Antennas Connection Figure 27 BS Antennas Polarization Connection Description Runcom Technologies Ltd. 39 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.4 Pole Mounted GPS Antenna The following is an example of a pole mounted GPS antenna for single-sector coverage. 40 Runcom Technologies Ltd. GPS AntennaDouble Dual-Slant RF AntennasGPS Cable(10 meters max)Building ROOF40cm from TOP of poleGPSGNDETHBSX4 Antennas RNU4000BS Base Station User Manual Installing the RNU4000BS BS 4.4.1 GPS Antenna Installation The GPS active antenna may be mounted using two different methods:
Attached to a pole or other hosting surface using a magnet Mounted to the RNU4000 unit using the supplied bracket. For coverage of multi-sector sites using a number of BSs, one GPS antennas can serve a number of interconnected and synchronized BSs. The Pole and bracket mounting methods as well as the multi-sector GPS coverage are described in this section. Note: The Holdover time (duration that BS synchronization is retained from the point in time in which the GPS antenna is disconnected) is determined by the internal GPS. Currently approximately 8 hours. 4.4.2 Criteria for selecting the GPS antenna location The whole antenna area is exposed to the sky. GPS antenna should not be more than 10 meters from the RNU4000BS (excessive cable length may cause interference). Bracket Mounted GPS Antenna The GPS antenna can be assembled on to the RNU4000BS unit using the supplied. 4.4.3 GPS antenna mounted to the RNU4000BS body Assemble the bracket to the underside of the unit as illustrated in the following image. Connect the GPS antenna to the RNU4000BS GPS connector using a coax cable. Assemble the GPS antenna to the bracket as illustrated. Figure 28 GPS Antenna to Bracket Connections Runcom Technologies Ltd. 41 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.4.4 Multi-sector Daisy-chained GPS Antennas This section describes how to connect and synchronize GPS antennas for multi-sector sites covered by a dedicated RNU4000BS unit per site (x4 Tx/Rx channels per site). The BSs can be connected in two configurations:
One GPS antenna can serve all the BSs For redundancy - each BS can operate with a dedicated GPS antenna. 4.4.4.1 Hardware Interconnections The figure below illustrates a daisy-chain configuration for a four-sector base station site with four RNU4000 units. Each unit has an integrated GPS module, and an internal holdover circuit responsible for providing a 1PPS signal in case of loss of PPS source (from either the integrated GPS unit or the PPS IN port). Figure 29 GPS Synchronization Connection - (daisy-chain) 4.4.4.2 Configuration Parameters For synchronization configuration and indication details description parameters refer to WEB GUI section. 4.5 End-to-End Traffic Test After the system is installed, it is recommended to perform an End to End (E2E) test to test communication and traffic transference over the link. In this test, a computer connected to a CPE (that is configured to operate with the BS) sends a ping message towards the NOC (Network Operations Center) and AAA
(Authentication, Authorization and Accounting center). Receiving an answer from the NOC/AAA side by the CPE's PC assures that the system is configured and operating properly. The following figure shows the end-to-end test elements. 42 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Installing the RNU4000BS BS To perform the test 1. Ensure that the BS is configured with the:
Center frequency ASN-GW IP address and security parameters 2. Connect the BS to a CPE configured with the:
Center Frequency 3. Connect a computer configured to communicate with the CPE using the CPE IP address subnet) to the CPE Ethernet port using a cross-cable. 4. Use Telnet to send a ping command from the CPE computer to the NOC IP Address. 4.5.1 Performing a PING Test To verify connectivity 1. Open a Command Prompt window from the computer connected to the CPE 2. Select Start Run and enter cmd. 3. Enter a Ping command that pings the NOC. The following shows a Ping command:
4. Verify that the link has been established properly according to the reply received from the NOC. 5. If no 'ping' reply is received, check connections and required configuration parameters. Runcom Technologies Ltd. 43 Installing the RNU4000BS BS RNU4000BS Base Station User Manual 4.6 What Next?
Your installation has now been completed. You can now use the RCMS application or any standard MIB Browser to manage the BS and perform any additional configuration, monitoring and maintenance operations. 44 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Field Test Performance Evaluation 5 Field Test Performance Evaluation The purpose of this document is to validate in the field performance of Runcom system that includes base station and CPEs (with or without NOC) in the operation modes. The field tests cover MIMO-A
(Matrix A or SISO) and MIMO B (Matrix B). This document contains the following main sections that describe the test performance:
Throughput performance per CINR and MCS (modulation coding scheme) The table below describes the test equipment list and the associated accessories in order to perform the test as described in this document Equipment Outdoor Compact BTS 4x4 IDU CPE ODU CPE USB CNOC 1 2 2 2 1 QTY Parameters 4x30dbm, 65 or 90 degrees sector antenna 16dbi 2x24dbm, panel antenna 2x7dbi or 2x15dbi 2x24dbi, omni antennas 2x5dbi 1x17-20dbm, on board antenna License for 100 subscribers RF Configuration BW TX/RX symbols ratio TX power DL Modulation max UL Modulation max 10MHz (or 5MHz) 32/15 (or 26:21 for higher UL) 4x0dB MAX 4X30dB MAX QAM 64 2/3 QAM 16 Network Configuration Service Flow Default BE, UGS, nRTPS CIR 64Kb MIR DL 40Mbs/UL 40Mbs Advance Configuration for Lab test for field test For mobile For mobile All users Special settings MIMO-B mode BS CINR Threshold table parameters BS Synch Configuration GPS for external use Internal clock For field test For Lab test 5.1 Field Test Overview The field test testing procedures is used to evaluate the throughput performance and the base station sector coverage performance in LOS and N-LOS environment. To get more robust reliable measurements results for better analysis the recommended conditions for the testing points are LOS environment. Note:
Runcom Technologies Ltd. 45 Field Test Performance Evaluation RNU4000BS Base Station User Manual 1. For MIMO B operation mode the DL CINR should be 25db 2. For maintaining the MIMO B mode the recommended set up is LOS or Near-LOS. 5.2 Field Test Setup The setup presented here is a suggestion for a general setup which allows the operation of the tests as described in this document. Figure 30 Test Setup Diagram Figure 31 Field Test Setup 46 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Field Test Performance Evaluation Figure 32 Field Test Point Sector 1 120 BS Site Figure 33 Sector Radio Coverage 5.3 Field Test Procedure Preliminary preparation 1. Establish the test setup and the outdoor installation according to the figure Field Test Setup or equivalent 2. Establish connection between the BS and the CPE and required settings to obtain proper connection Perform PC to PC TCP throughput performance using measurement tools:
FTP FileZilla Server (Setting Buffer size = 491520/Socet buffer size=983040) 5 sessions (file size 80 Mb each) running simultaneously on CPE in complete LOS Runcom Technologies Ltd. 47 Field Test Performance Evaluation RNU4000BS Base Station User Manual DL Throughput performance SISO/ MIMO B DL link Modulation RSSI[dB] CINR DL Throughput (max) [Mb/s]
[dB]
Radio BW 10MHz TX/RX symbols ratio 32:15 64 QAM 5/6 (MIMO-B) 64 QAM 2/3 (MIMO-B) 16 QAM (MIMO-B) 64 QAM 2/3 (SISO) 16QAM (SISO) 16QAM (SISO) QPSK (SISO) QPSK (SISO)
-55
-58
-65
-70
-75
-78
-80
-83 27 25 22 20 17 14 11 8 37 30 22 14.5 11 7.5 5.5 3.5 Note:
1. Throughput performance measurements values tolerance -5%
2. CINR measure values tolerance 2dBm 3. RSSI values tolerance 3dBm DL Throughput performance SISO table - theoretical calculation / symbol ratio 32:15 DL Modulation DL Throughput DL Throughput (max) DL CINR threshold
(max)
[Mb/s]
BW 10MHz Radio BW 5MHz
[Mb/s]
TX/RX symbols ratio QPSK 1/2 QPSK 3/4 QAM 16 1/2 QAM 16 3/4 QAM 64 1/2 QAM 64 2/3 QAM 64 3/4 QAM 64 5/6 8 11 14 17 20 22 24 25 4 6 8 12 12 16 18 20 32:15 2 3 4 6 6 8 9 10 48 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Field Test Performance Evaluation UL Throughput performance SISO - theoretical calculation / symbol ratio 32:15 DL Modulation DL Throughput DL Throughput (max) DL CINR threshold
(max) BW 10MHz
[Mb/s]
1.34 2 2.68 4 BW 5MHz
[Mb/s]
0.6 1 1.34 2
(max) BW 10MHz
[Mb/s]
24 32 40 BW 5MHz
[Mb/s]
12 16 20 QPSK 1/2 QPSK 3/4 QAM 16 1/2 QAM 16 3/4 3 6 9 12 QAM 16 3/4 QAM 64 2/3 QAM 64 5/6 20 22 25 DL Throughput performance MIMO B table - theoretical calculation / symbol ratio 32:15 DL Modulation DL Throughput DL Throughput (max) DL CINR threshold Runcom Technologies Ltd. 49 Technical Specifications RNU4000BS Base Station User Manual 6 Technical Specifications The RNU4000BS BS installation procedure involves the following accessories:
RF Antennas GPS Antenna (Optional) Mounting kit This section details the specifications for the RNU4000BS BS and accessories. 6.1 RNU4000BS BS Specifications Radio Standard compliance complies with 802.16e according to the WiMAX Forum profiles. Wimax Number of sectors System Capability Frequency FFT FEC Channel bandwidth Duplex method Central frequency resolution Maximum output power (on antenna connector) Antennas:
Type Number Connectors Modulation and coding rates Fixed and Mobile 1, 2 or 4 sectors LOS, Near LOS, Non LOS 2.3-2.7GHz, 3.3-3.8GHz 4.9-5.0GHz(other frequencies are optional) 512, 1024, 2048 Convolution Code and Turbo Code 3.5 MHz, 5 MHz, 7 MHz, 8.75 MHz, 10 MHz, optional 20 MHz TDD, optional FDD/HFDD 125 KHz
+30dBm
+28 dBm per antenna in 4.9GHz Integrated Sectorized 11dbi (90) External dual slant Single antenna 2 dual-slant;
4x N-Type, 50 ohm, lightning protected (Optional) DL/UL: QPSK (1/2, 3/4) , 16 QAM (1/2, 3/4), 64 QAM (2/3 , 3/4, 5/6 )
(64 QAM is optional for UL) Diversity Supported MIMO A/B , STC, MRC, SISO, GPS Synchronization Integrated Integrated GPS module with on board synchronization unit 50 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications Network Management System Configuration Software Upgrade Network Interfaces Northbound Interface Connectors Management SNMPv2/v3, standard and proprietary MIB SNMP, FTP, CLI Remote TFTP upgrade of firmware and programming Interfaces 2x10/100 Base-T, Optional 1xGE and optical interface SX/LX Profile C, R6 per SF GRE tunnel, Profile B is optional 2xN-Type for external antenna 50 ohm, External synchronization option, external GPS antenna option, power connector, 2xRJ-45 Power Source
-36 to -72 VDC < 60Watt Electrical Characteristics Dimensions Weight Physical and Environmental 39cm (L) x 24cm (W) x 12cm (H) 5000 grams / not including mounting kit Operating external temperature Industrial -40C to 55 C Operating humidity 95% non-condensing Standards Compliance*
EN 60950-1, EN 60950-22 IEC 60529-1, IP66 FCC Part 27 , Part 90; EN302 623 , EN302 544 FCC part 15, class B ; ETSI EN 301489-1 Safety Environmental Radio EMC Runcom Technologies Ltd. 51 Technical Specifications RNU4000BS Base Station User Manual 6.2 External Dual-Slant RF Antennas Specifications 6.2.1 Dual-Slant Antenna 2.3-2.7 GHz; 17 dBi; 65 (MT-364054/ND) Gain VSWR Electrical 16 dBi (min) @ 2.3 - 2.5 GHz 17.50.5 dBi @ 2.5 - 2.7 GHz 1.5:1 (typ), 1.7 :1(max) Azimuth Beam width @ 13.5dBi Elevation Beam width @ -3 dB 65 (typ) 7 (typ) Polarization Cross-polarization Dual Linear, 45
-20 dB (max) @ 2.3 - 2.5 GHz
-17 dB (max) @ 2.5 - 2.7 GHz Side Lobes Level Azimuth and Elevation Meets ETSI EN 302 326- V1.1.2 (2006-03) Side Lobes Level for Azimuth in the range
-20 dB (max) @ 2.3 - 2.5 GHz
( 100 to 180 from Boresight)
-25 dB (max) @ 2.5 - 2.7 GHz Front-to-Back Ratio Port-to-Port Isolation Input Impedance Input Power Lightning Protection
-30 dB (max) 23 dB (min), 30 dB (typ) 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 945 x 126 x 37mm (max) WEIGHT CONNECTOR RADOME BASE PLATE 3.0 kg (max) 2 x N-Type Female Plastic UV Resistant Aluminum with chemical conversion coating MECHANICAL DOWN TILT 0 to (-10) 52 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.2 Double-dual Slant 2300-2700 MHz Remote Tilt-Panel Antenna Frequency Range Gain Return Loss Polarization Horizontal Beamwidth Vertical Beamwidth Electrical Down tilt Upper Sidelobe Level Front to Back Ratio Isolation Between Ports Power Rating Impedance Lightening Protection Connector Type RET Type RET Interface RET Connector Antenna Dimensions Packed Dimensions Antenna Weight Radom Material Electrical 2300-2700 MHz 17.1 dBi @ 2.4 GHz 17.8 dBi @ 2.6 GHz
> 15 dB Dual Slant 45 65 7 with nullfill 0 - 10 independently continuously adjustable
< -18 dB
> 30 dB
> 30 dB 250 W 50 ohm DC Grounded N-Type Female Internal motor & manual override AISG 2 Remotely upgradeable Single AISG 8 pin male Mechanical 1070x300x115 mm 1200x330x200 mm 13 kg Polyester Fiberglass Runcom Technologies Ltd. 53 Technical Specifications RNU4000BS Base Station User Manual 6.2.3 Dual-Slant Antenna 2.3-2.7 GHz; 16 dBi; 60 (SP2327-
16XP60NUF) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Polarization Front-to-Back Ratio EN 302 326 V.1.1.2 (2006-03) Electrical 16 dBi @ 2.3-2.5 GHz 16.5 dBi @ 2.5-2.7 GHz 1.5 : 1 (max) 60 +/- 5 9 (typ) Dual Linear, 45
-25 dB (Min) Port-to-Port Isolation 30 dB (typ) @ 2.3-2.7 GHz Null Fill Input Impedance Input Power Lightning Protection 1st Sidelobe: -15dB 2nd Sidelobe: -18dB 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) 54 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.4 Dual-Slant Antenna 2.3-2.7 GHz; 15 dBi; 90 (SP2327-
15XP90NUF) Gain VSWR Electrical 14.5 dBi @ 2.3-2.5 GHz 15 dBi @ 2.5-2.7 GHz 1.5 : 1 (max) Azimuth Beamwidth @ 13.5dBi 90 +/- 5 Elevation Beamwidth @ -3 dB 9 (typ) Polarization Front-to-Back Ratio EN 302 326 V.1.1.2 (2006-03) Dual Linear, 45
-25 dB (Min) Port-to-Port Isolation 30 dB (typ) @ 2.3-2.7 GHz Null Fill Input Impedance Input Power Lightning Protection 1st Sidelobe: -15dB 2nd Sidelobe: -18dB 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) Runcom Technologies Ltd. 55 Technical Specifications RNU4000BS Base Station User Manual 6.2.5 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (MT-404067/ND) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Polarization Cross-polarization Electrical 16 dBi (min) @ 3.3-3.4 GHz 17.5 0.5 dBi @ 3.5-3.8 GHz 1.5 : 1 (typ) 1.8:1 (max) 65 (typ) 7.5 (typ) Dual Linear, 45 ETSI EN 302 326 V.1.1.2 (2006-03) Side Lobes Level Azimuth and Elevation Meets ETSI EN 302 326- V1.1.2 (2006-03) Side Lobes Level for Azimuth in the range
-25dB (max) @ 3.3-3.5 GHz
( 100 to 180 from Boresight)
-30dB (max) @ 3.5-3.8 GHz Front-to-Back Ratio
-30 dB (max) EN 302 326 V.1.1.2 (2006-03) Port-to-Port Isolation Input Impedance Input Power Lightning Protection 25 dB (min) @ 3.3-3.7 GHz 20 dB (min) @ 3.7-3.8 GHz 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 600x130x63mm (max) WEIGHT CONNECTOR RADOME BASE PLATE 2.5 kg (max) 2 x N-Type Female Plastic UV Resistant Aluminum with chemical conversion coating MECHANICAL DOWN TILT 0 to (-10) 56 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.6 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 65 (SP3338-17XP65) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Electrical 16.5 dBi @ 3.3-3.5 GHz 17 dBi @ 3.5-3.8 GHz 1.5 : 1 (max) 65 +/- 5 7 (typ) Polarization Dual Linear, 45 Upper Side Lobe Suppression
-15dB @ 3.3-3.8 GHz 30 degrees above horizon Front-to-Back Ratio
-25 dB (Min) EN 302 326 V.1.1.2 (2006-03) Port-to-Port Isolation Input Impedance Input Power Lightning Protection 30 dB (typ) @ 3.3-3.8 GHz 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) Runcom Technologies Ltd. 57 Technical Specifications RNU4000BS Base Station User Manual 6.2.6.1 Radiation Patterns SP3338-17XP65 azimuth plane SP3338-17XP65 elevation plane 58 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.7 Dual-Slant Antenna 3.3-3.8 GHz; 17 dBi; 90 (SP3338-17XP90) Gain VSWR Azimuth Beamwidth @ 13.5dBi Elevation Beamwidth @ -3 dB Electrical 15.5 dBi @ 3.3-3.5 GHz 16 dBi @ 3.5-3.8 GHz 1.5 : 1 (max) 90 +/- 5 7 (typ) Polarization Dual Linear, 45 Upper Side Lobe Suppression
-15dB @ 3.3-3.8 GHz 30 degrees above horizon Front-to-Back Ratio
-25 dB (Min) EN 302 326 V.1.1.2 (2006-03) Port-to-Port Isolation Input Impedance Input Power Lightning Protection 30 dB (typ) @ 3.3-3.8 GHz 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical DIMENSIONS ( Lx W x D) 711x171x90mm (max) WEIGHT CONNECTOR RADOME 3.1 kg (max) 2 x N-Type Female Gray UV resistant plastic MECHANICAL DOWN TILT 0 to (-10) Runcom Technologies Ltd. 59 Technical Specifications RNU4000BS Base Station User Manual 6.2.7.1 Radiation Patterns SP3338-17XP90 azimuth plane SP3338-16XP90 elevation plane 60 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.2.8 Dual-Slant Antenna 4.9-5.95 GHz; 16 dBi;90 (MT- 464018/ND) Gain VSWR 4dB Azimuth Beam width Elevation Beam width @ -3 dB Polarization Cross-polarization EL upper side lobes level Front-to-Back Ratio Port-to-Port Isolation Input Impedance Input Power Lightning Protection Antenna Dimensions Connector Antenna Weight Radom Material Electrical 16 dBi (min) @ 4.9-5.95 GHz 2 : 1 (max) 1.7:1 (typ) 90 (typ) 6.0 (typ) Dual Linear, 45 ETSI EN 302 326 V.1.1.2 (2006-03) 25dB (typ
-25 dB (max) 25 dB (typ) 22dB (min) 50 (ohm) 20 W (CW), 250 W (peak) DC grounded Mechanical 550x250x17 mm 2xN-Type Female 2.5 kg Plastic Runcom Technologies Ltd. 61 Technical Specifications RNU4000BS Base Station User Manual 6.3 RNU4000BS Internal Antenna Specifications Electrical Antenna Model Frequency Range Gain VSWR 3 dB Azimuth Beam width 3 dB Elevation Beam width Polarization Cross Polarization F/B Ratio Specifications for 2.5 GHz / 3.5 GHz/4.9GHz 2.5 GHz 4x Sector 3.5 GHz 4.9 GHz 4 x Sector 4 x Sector 2.3 2.7 GHz 3.3 3.8 GHz 4.9 - 5.1 GHz
+ 11.5 dBi x 2
+ 11.5 dBi x 2
+12dBi x 2 1.6:1 110 30 1.6:1 110 20 1.7:1 90 22 Dual Slant 45 Dual Slant 45 Dual Slant 45
-30 dB
-25 dB
-27 3 dB
-25 dB
-35dB
-23dB Form Factor Dimensions Mechanical RNU4000BS Enclosure Integrated 236.0 x 79.5 x 48.2 mm (without connectors) 62 Runcom Technologies Ltd. RNU4000BS Base Station User Manual Technical Specifications 6.4 GPS Antenna Specifications GPS Active Antenna (BY/GPS/06) Dielectric Center Frequency 1575.42 MHz 3 MHz VSWR Bandwidth Impedance Peak Gain Gain Coverage Polarization LNA Gain (without cable) Noise Figure 1.5:1 5 MHz 50 ohm
> 3 dBic Based on 77cm ground plane
>- 4 dBic at 90<0<+90(over 75% Volume) RHCP LNA Filter 28 dB Typical 1.5 dB Filter Out of Band Attenuation (f0=1575.42 MHz) 7dB Min f0+/-20MHZ VSWR DC Voltage DC Current Weight Dimensions D x H Cable Connector Mounting Housing Operating Temperature Storage Temperature Vibration Humidity Weatherproof 20dB Min f0+/-50MHZ 30dB Min f0+/-100MHZ
< 2.0 3.0V to 5.0V 10mA Max Mechanical
< 110 gr 46 mm x 15 mm RG174 3m or other SMA/SMB/SMC/BNC/FME/TNC/MCX/MMCX or other Screw Mount Black Environmental
-40 ~ +85C
-45 ~ +100C Sine sweep 1g(0-p)10~50~10Hz each axis 95%~100% RH 100% Weatherproof Runcom Technologies Ltd. 63
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2012-11-09 | 3655 ~ 3695 | TNB - Licensed Non-Broadcast Station Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2012-11-09
|
||||
1 | Applicant's complete, legal business name |
Runcom Communications Ltd.
|
||||
1 | FCC Registration Number (FRN) |
0025781907
|
||||
1 | Physical Address |
2 Hachoma Street 2 Hachoma Street
|
||||
1 |
2 Hachoma Street
|
|||||
1 |
Rishon Lezion, N/A
|
|||||
1 |
Israel
|
|||||
app s | TCB Information | |||||
n/a | ||||||
app s | FCC ID | |||||
1 | Grantee Code |
XYM
|
||||
1 | Equipment Product Code |
PICO4A351WDC
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
I**** K******
|
||||
1 | Title |
CEO
|
||||
1 | Telephone Number |
+972-********
|
||||
1 | Fax Number |
+972-********
|
||||
1 |
i******@runcom.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Hermon Laboratories Ltd.
|
||||
1 | Name |
M**** N****
|
||||
1 | Physical Address |
Harakevet Industrial zone
|
||||
1 |
23
|
|||||
1 |
Binyamina, 30500
|
|||||
1 |
Israel
|
|||||
1 | Telephone Number |
+972 ********
|
||||
1 | Fax Number |
+972 ********
|
||||
1 |
n******@hermonlabs.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
Runcom Technologies Ltd.
|
||||
1 | Name |
Y**** Z******
|
||||
1 | Physical Address |
11 Moshe Levi street
|
||||
1 |
Rishon Lezion, 75658
|
|||||
1 |
Israel
|
|||||
1 | Telephone Number |
+972 ********
|
||||
1 | Fax Number |
+972 ********
|
||||
1 |
y******@runcom.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | TNB - Licensed Non-Broadcast Station Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Pico Base station | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power is EIRP. The antenna(s) used for this transmitter must be fixed-mounted on outdoor permanent structures. RF exposure compliance is addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of 1.1307(b) (3). | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Hermon Laboratories Ltd.
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1 | Name |
A****** U****
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1 | Telephone Number |
972-4********
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1 | Fax Number |
972-4********
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1 |
m******@hermonlabs.com
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 9 | MO UR | 3652.5 | 3697.5 | 4.55 | 5000 Hz | 5M00D7D | |||||||||||||||||||||||||||||||||
1 | 2 | 9 | MO UR | 3655 | 3695 | 8.83 | 5000 Hz | 10M0D7D |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC