all | frequencies |
|
exhibits | applications |
---|---|---|---|---|
manual |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
User Manual | Users Manual | 2.52 MiB | ||||
1 | Cover Letter(s) | |||||||
1 | External Photos | |||||||
1 | ID Label/Location Info | |||||||
1 | Internal Photos | |||||||
1 | Cover Letter(s) | |||||||
1 | Attestation Statements | |||||||
1 | Test Setup Photos | |||||||
1 | Test Report |
1 | User Manual | Users Manual | 2.52 MiB |
Intelibs, Inc AWS Band Remote Unit Product Manual RU-AWS Operational Manual 09-30-2013 Version : 1.1 2 Contents 1 2 3.1 3.1.1 Introduction .......................................................................................................................................... 6 Product Description .............................................................................................................................. 8 Network configuration .................................................................................................................. 8 2.1 2.2 External interface ports ................................................................................................................ 9 2.3 Modules ...................................................................................................................................... 11 2.4 Mechanical Drawing ................................................................................................................... 12 Technical Specifications .............................................................................................................. 14 2.5 General specifications ......................................................................................................... 14 2.5.1 2100 MHz AWS band frequency allocation ........................................................................ 14 2.5.2 RF specifications .................................................................................................................. 15 2.5.3 2.5.4 Power Specifications ........................................................................................................... 16 Installation .......................................................................................................................................... 17 Installation Requirements ........................................................................................................... 17 General Safety Precautions ................................................................................................. 17 Installation Tools ......................................................................................................................... 18 3.2 3.3 Item Check List ............................................................................................................................ 18 3.4 Mounting ..................................................................................................................................... 19 3.5 Link (Donor) Antenna .................................................................................................................. 22 Power cable ................................................................................................................................. 23 3.6 3.7 Optic cable .................................................................................................................................. 23 RF power setting ......................................................................................................................... 24 3.8 Down Link power setting .................................................................................................... 24 3.8.1 3.8.2 Up Link power setting ......................................................................................................... 26 Configuration and Maintenance ......................................................................................................... 27 Configuring RU using LMT ........................................................................................................... 30 4.1 Example: Setting the Temperature Upper Limit ......................................................................... 35 4.2 4.3 Web interface ............................................................................................................................. 36 Appendix I. Ancillary Devices Antenna, Cable and other Passive Device ........................................ 42 3 4 5 Intelibs, Inc Proprietary and Confidential Page 2 3 Intelibs, Inc Proprietary and Confidential Page 3 4 FCC WARNING This equipment generates or uses radio frequency energy. Changes or modifications to this equipment may cause harmful interference unless the modifications are expressly approved in the instruction manual. The user could lose the authority to operate this equipment if an unauthorized change or modification is made. This is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and QUALIFIED INSTALLER. You MUST have an FCC LICENSE or express consent of an FCC Licensee to operate this device. Unauthorized use may result in significant forfeiture penalties including penalties in excess of $100,000 for each continuing violation. INFORMATION TO THE USER This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can generate 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 the 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 to an outlet on a circuit different from that to which the receiver is connected. Consult the dealer for technical assistance. Suitable for use in environmental air space in accordance with Section 300-22 (c) of the National Electrical Code, and Sections 2-128, 12-010 (3), and 12-100 of the Canadian Electrical Code, Part 1, C22.1. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation. Intelibs, Inc Proprietary and Confidential Page 4 5 CAUTION Any changes or modifications not expressly approved by the manufacturer could void the user's authority to operate the equipment. This equipment is intended for use only with Intelibs Hybrid DAS systems. Important health and safety precautions When using this product, the safety precautions below must be taken to avoid possible legal liabilities and damages. Retain and follow all product safety and operating instructions. Observe all warnings in the operating instructions included with the device. DANGER Only use antennas, transceivers and chargers approved by Intelibs. The use of any non-
approved antenna, transceiver and charger may be dangerous. DANGER Allow only authorized personnel to service the DAS. Unauthorized service can invalidate the warranty. CAUTION Any modification of this product, including opening the unit, is prohibited and will void your warranty. Any use of the product or its components for purposes not expressly authorized by this document, including any use in an airplane or any other aviation application, is prohibited and will void your warranty. NOTE When using your device for prolonged periods of time, the device may become warm. In most cases, this condition is normal and therefore should not be interpreted as a problem with the device. Copyright information 2013 Intelibs, Inc. All rights reserved. The information contained herein is subject to change without notice. Intelibs retains ownership of and all other rights to the material expressed in this document. Any reproduction of the content of this document without prior written permission from Intelibs is prohibited. Product names, logos, brands and other trademarks featured or referred to within this document are the property of their respective owners. The only warranties for Intelibs products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. Intelibs shall not be liable for technical or editorial errors or omissions contained herein. Intelibs, Inc Proprietary and Confidential Page 5 6 1 Introduction Remote Unit for AWS band (RU-AWS) is a part of the Hybrid Distributed Antenna Systems (HDAS) to provide remote RF coverage solution from the Master Hub Unit (MHU) fed by the RF source via wireline connection. RU-AWS is built on a small form factor with two antenna ports for 2100MHz AWS frequencies with the following features:
10W + 10W dual band or MIMO radio for 2100MHz AWS Multi-Technology support 40 dBm Tx Power per band NEMA level 4 with IPX-6 SNMP based remote management support Single mode Fiber fed with 10 Km distance Optic fiber sharing between different carriers AGC (Auto Gain Control) function CFR (Crest Factor Reduction ) function Including RU-AWS, Hybrid DAS is comprised of the following subsystems:
MHU (Master Hub Unit): Interface unit between RF source and Remote Units, Convert RF signal to optical waves. RU (Remote Unit): High power (40 dBm per band) remote unit for outdoor/indoor MU (Master Unit): Element management server As illustrated in Figure 1-1, Hybrid DAS network is comprised of MHU and RU. Each MHU can support up to 6 RUs that can cover up to 500Ksf2 indoor space. An optic cable can be shared between different carriers by cascading optic connection between MHU systems. Intelibs, Inc Proprietary and Confidential Page 6 7 Figure 1-1 MHU-RU application Intelibs, Inc Proprietary and Confidential Page 7 8 2 Product Description Remote Unit for AWS is a part of the Distributed Antenna System (DAS) to clear RF shadows, to fill coverage gaps existing among the adjacent cells and to enhance the quality of service of extending coverage of 2100M AWS. As shown in Figure 2-1, RU is a compact platform with the natural heat convection. As unified form factor, RU services multiple technologies on a single platform with 2100MHz AWS band operating frequencies. It can be mounted on the wall or 19 rack. Variety of the service antenna can be used from short monopole antenna (e.g. rubber ducky antenna) to indoor multi-band ceiling Omni antenna (or panel antenna). Figure 2-1 RU system 2.1 Network configuration RF signal from a carrier on the 2100MHz AWS band are fed to MHU and directed to fiber optic cable, to transmit RF signals to remote RU system. MHU can have up to 6 connections with RU systems by installing DOU cards. A fiber optic cable can be shared between different carriers by cascading optic connection between MHU systems. Each frequency band signals have their own wavelengths in a single fiber. Table 2-1 describes those wavelength assignments. Maximum allowed optic loss between MHU and RU system is 10 dBo. Table 2-1 Optic wavelength of each frequency band Frequency band 2100MHz AWS Cascading 2nd Carrier Downlink Wavelength 1,310 nm 1,350 nm Uplink Wavelength 1,550 nm 1,510 nm RU systems with different operating frequency band can be interconnected via RF cables feed from RU-
AWS system. Typical MHU-RU network diagram is depicted in figure 2-2. Intelibs, Inc Proprietary and Confidential Page 8 9 Figure 2-2 Typical MHU-RU network diagram 2.2 External interface ports RU has all interface connections at front side of an enclosure, which includes optic, antennas, power, and maintenance port. Figure 2-3 shows the front panel of RU system. Intelibs, Inc Proprietary and Confidential Page 9 10 Figure 2-3 Front view of RU system Table 2-2 Interface ports Port No. 1 DEBUG 2 DL2 OUT 3 UL2 IN 4 Goretex 5 OPTIC-A 6 OPTIC-B 7 ANT-0 8 ANT-1 9 AC INPUT 10 DL1 OUT 11 UL1 IN Connector type Description Serial interface for GUI and debugging 850/1900MHz Downlink RF cable connection port 850/1900MHz Uplink RF cable connection port Optic connection port with MHU Optic connection port with 2nd carrier MHU AWS MIMO0 Antenna RF cable connection port AWS MIMO1 Antenna RF cable connection port 110V AC power cable connection port 700MHz LTE Downlink RF cable connection port 700MHz LTE Uplink RF cable connection port N-type Female N-type Female SC/APC SC/APC N-type Male N-type Male MS Connector N-type Female N-type Female Intelibs, Inc Proprietary and Confidential Page 10 11 2.3 Modules RU system is comprised of several internal modules such as combiner, amplifier, optic module, and filters. Figure 2-4 shows inside of RU system. AWS SOU RRCOM RRBS1_AWS RRBS0_AWS Back Board Assy RFBS1_AWS RFBS0_AWS 3Way UL FEU0_AWS Tx HPA0_AWS RFMUX AWS FSK Modem NMS BD PSU(AC/DC) 3Way DL 10dB Coupler Figure 2-4 RU systems modules Table 2-3 RU systems modules Noise Filter FEU1_AWS Tx HPA1 AWS Module RFMUX RFBS0_AWS RFBS1_AWS AWS_SOU AWS_FSK_MODEM RRCOM RRBS0_AWS Picture Description Divides incoming signals into RF and modem signals, and sends divided signals to RFBS0/RFBS1 and FSK modem. Controls a TX0 path gain, filters downlink frequency band, controls the TX0 signals Crest Factor, and performs the Automatic level Control
(ALC) function. Output of this module is sent to High Power Amp (HPA). Controls a TX1 path gain, filters downlink frequency band, controls the TX1 signals Crest Factor, and performs the Automatic level Control
(ALC) function. Output of this module is sent to High Power Amp (HPA). Performs E/O (Electric/Optic) or O/E conversion for downlink and uplink signals. Data modem for out of band communications between MHU and RU systems. Followings are modem frequencies for downlink and uplink.
- from RU to MHU: 311 MHz
- from MHU to RU: 374 MHz Combines RX0, RX1, and Modem signals, and sends combined signals to the AWS_SOU module for E/O conversion. Amplifies RX0 signal by low noise high gain amplifier, filters for desired band frequencies, and controls uplink path gain. Intelibs, Inc Proprietary and Confidential Page 11 12 RRBS1_AWS HPA_AWS for MIMO0 HPA_AWS for MIMO1 FE_DUPLEXER_AWS for MIMO0 FE_DUPLEXER_AWS for MIMO1 PSU NMS Controller Interface BD Amplifies RX1 signal by low noise high gain amplifier, filters for desired band frequencies, and controls uplink path gain. Amplifies TX0 signal by 16W (42dBm) high power amplifier, and sends amplified signal to FE_DUPLEXER_AWS MIMO0 module. Amplifies TX1 signal by 16W (42dBm) high power amplifier, and sends amplified signal to FE_DUPLEXER_AWS MIMO1 module. Front-end duplex that passes TX0 and RX0 frequencies bands. Front-end duplex that passes TX1 and RX1 frequencies bands. Converts AC 110V to DC 29V/9V/6.5V/5.5V, and supplies DC converted voltages to entire modules. Monitors status of modules in RU, and controls the configurable parameters of the RU modules. Provides interface between NMS and other modules to control and monitor the modules. 2.4 Mechanical Drawing Figure 2-5 RF modules Intelibs, Inc Proprietary and Confidential Page 12 13 Figure 2-6 PSU module Figure 2-7 Exterior Intelibs, Inc Proprietary and Confidential Page 13 14 2.5 Technical Specifications 2.5.1 General specifications Table 2-4 General Specifications Specification Enclosure Type Dimension (mm) Values Cabinet 471.7(H) X 263.4(W) X 304.8(D)mm Weight (Kg) Power Supply Power Connector RF In/Out Port Optic Connector Type Optic Wavelength Operating Temperature 26 Kg 110-120Vac (Tolerance 10%), 60Hz MS Connecter N Type Female, a side part SC, a side part FWD: 1310nm / RVS: 1550nm AWS DOU 1st Carrier FWD: 1350nm / RVS: 1510nm AWS DOU 2nd Carrier
-20 ~ 50 2.5.2 2100 MHz AWS band frequency allocation Figure 2-11 Frequency allocation of 2100 MHz AWS band Intelibs, Inc Proprietary and Confidential Page 14 15 2.5.3 RF specifications Table 2-7 RF specifications Item Specification Remarks Tx Frequency Rx Frequency Range Range No of Carriers Supported Contiguous 25MHz Bandwidth in 2110 ~ 2155MHz Contiguous 25MHz Bandwidth in 1710 ~ 1755MHz 2 CH LTE Carrier Max. FWD Input Power
-10 ~ 0dBm/total, -5dBm/total is recommended at MHU IN FWD Output Power 40dBm/total for 2100MHz RU ANT Port (MIMO0 / MIMO1) RVS Input Power RVS Output Power
-45dBm/total max. at RU each ANT Port
-5dBm/total max. at MHU each Rx Output Port FWD: 20dB ~ 40dB System Gain Comply to 3GPP, FCC regulation FWD Spurious RVS Noise Figure 5dB max. @ 40dB Gain Gain Control Range FWD: 20dB by 1dB Step EVM (Error Vector RVS: 20dB by 1dB Step RVS:20dB ~ 40dB Magnitude) 12.5%
Frequency Stability 0.02ppm Pass-Band Ripple System Delay Tx0-Tx1 Isolation Rx0-Rx1 Isolation Tx-Rx Isolation Impedance VSWR Rx: 4us. Max 2dB max. Any CH Tx: 5us. Max min. 40dBc min. 40dBc 100dB min. @Between RU Tx Output and MHU Rx Output 50 Ohm 1.5 : 1 max. @ All input/output ports Optical Wavelength FWD: 1310nm RF I/O Connector MHU: SMA-type Female FWD: 1350nm, 2nd Carrier RVS: 1550nm RVS: 1510nm, 2nd Carrier RU: N-type Female Max. Gain RU OLC Gain Without optical cable 700LTE, AWS 700LTE, AWS Intelibs, Inc Proprietary and Confidential Page 15 16 2.5.4 Power Specifications Table 2-8 Power specifications Item Rated Input Voltage Permissible range Power consumption Power Connector 110-120V AC, 60 Hz Tolerance 10%
250 W, maximum 200 W, typical MS Connecter Specification Intelibs, Inc Proprietary and Confidential Page 16 17 3 Installation 3.1 Installation Requirements Before and during installation, the following should be carefully verified in order to avoid any problem:
Faulty Cabling/Connectors: Fiber cable and connectors must be verified prior to plugging into the RU Dirty Connectors and ports Faulty Remote Unite (RU) components RF source equipment issue External RF Interface problem such as antenna port The following guidelines are required when the Headend unit is installed on the 19 rack:
Locate the equipment with the space for the sufficient airflow to prevent build-up from the overheating. Do not compromise the amount of airflow required for safe operation of the equipment. Verify the power connection and Fiber cables prior to turning on the systems. WARNING: Equipment loading must be verified prior to mounting the equipment on the wall or 19 rack. 3.1.1 General Safety Precautions The following precautions apply to the RU:
The units have no user-serviceable parts. Faulty or failed units are fully replaceable through Intelibs. When the Fiber cable is connected to the equipment, the connectors must be free from the dust and connected according to the cable manufacturers instructions. (WARNING: For the safety, DO NOT conduct eye-contact at the connector ends of the fibers or the port of the MHU and RU unless equipped with protection goggle. Invisible infrared radiation may be present at the front panel of the MHU and RU. Do not remove the fiber port dust caps unless the port is going to be used. Do not stare directly into a fiber port.) Intelibs, Inc Proprietary and Confidential Page 17 18 3.2 Installation Tools Table 3-1 Installation tools Torque Wrench Torque Wrench ESD Gloves 4ea of 5m SMA cable Ground wire line 2ea of ANT RF Cable Wire Stripper & Cutter Optic connector cleaner Optic cable, 3m SC/APC FC/APC-SC/APC Optic Fiber, 10m Digital Multi-meter Screw Driver Mounting bracket Fixing nuts RU ANT for AWS, 2ea Wall mount bracket, 1 set 3.3 Item Check List Check that all the following items have been included with the box delivered. If anything is missing, please contact Intelibs. Table 3-2 Item check list RU-AWS RU equipment: 1 ea AC power cable AC power cable:
1.5m, 1 ea Intelibs, Inc Proprietary and Confidential Page 18 19 3.4 Mounting RU supports wall mount. The following diagrams illustrate the methods for mounting RU on a typical wall. Step 1 Mark the upper position by using the wall mount bracket for upper position. Mark the lower position by using the wall mount bracket for lower position. 327 mm
(12.87) 327 mm
(12.87) 332 mm
(13.07) Figure 3-1 Mark the installation position Step 2 Screw two bolts to the upper positions. Figure 3-2 Install the upper bolts Intelibs, Inc Proprietary and Confidential Page 19 20 Step 3 Install the wall mount brackets as figure below. The wall mount brackets and the bolts are provided along with RU system. Mounting bracket RU with bracket Figure 3-3 Install the wall mount bracket Step 3 Insert upper bracket hole into installed bolts on the upper positions. Intelibs, Inc Proprietary and Confidential Page 20 21 Interface ports on the bottom Interface ports on the top Figure 3-4 Hanging the upper bracket on the installed bolt Step 4 Screw two bolts to the lower positions. Intelibs, Inc Proprietary and Confidential Page 21 22 Interface ports on the bottom Interface ports on the top Figure 3-5 Install the lower bolts 3.5 Link (Donor) Antenna RU has two antenna ports. The one is for Cellular/LTE-main/AWS-main channel, the other is for PCS/LTE-
MIMO/ASW-MIMO channel. Connect N-type female antenna cable to the desired antenna port, ANT-0 or ANT-1, as Figure below. AWS Main AWS MIMO Figure 3-6 Link Antenna connection Intelibs, Inc Proprietary and Confidential Page 22 23 The duplex can be used which combine two port signals into one. AWS Main AWS MIMO Duplex Figure 3-7 Link Antenna connection with Duplex 3.6 Power cable Connect MS connector-type power cable to the AC-INPUT port. When connecting the end terminal, align connector at latch and hole position as marked in red circle in Figure below. Figure 3-8 Power cable connection 3.7 Optic cable RU provides two optic ports. The one is for main channel, the other is for cascading purpose. The connector used for optic interface is an OSP (Outside Plant) hardened SC/APC connector. This ruggedized connector is compatible with industry standard OSP terminals. Figure 3-9 shows OSP optic cable supplied with RU system. Intelibs, Inc Proprietary and Confidential Page 23 24 Figure 3-9 OSP hardened SC/APC optic cable Connect ruggedized OSP side optic connector to the desired optic port on RU, OPTIC-A as Figure below. When connecting the optic connector, align the connector at latch position, then plug in and rotate clockwise tightly. Figure 3-10 Optic cable connection 3.8 RF power setting 3.8.1 Down Link power setting Step 1 Connect the power cable to RU to turn on the system. Intelibs, Inc Proprietary and Confidential Page 24 25 Step 2 Connect USB cable to manage RU through Laptop. Step 3 Run LMT application as the procedure described in 2.8.1.1. Adjust parameters as follows:
Decrease the DL USER ATT to 30dB(Minimum gain) and verify that antenna is connected at antenna port of RU properly. Press the HPA On/Off button to turn HPA on. Monitor the output power level from OUT PWR parameter, and tune up USR ATT to set the proper output power level. Intelibs, Inc Proprietary and Confidential Page 25 26 3.8.2 Up Link power setting Step 1 Step 2 Follow same steps as Downlink power setting. Step 3 Run LMT application as the procedure described in 2.8.1.1. Adjust parameters as follows:
Use the ATT to control Uplink gain. Uplink gain is very important parameter because uplink is connected to RF source of BTS. If you have wrong uplink gain set, BTS receiver sensitivity may be degraded due to improper uplink gain. Try to minimize uplink gain with mobile Tx power. Intelibs, Inc Proprietary and Confidential Page 26 27 4 Configuration and Maintenance RU can be configured in three ways via remote internet connection or local serial port connection. SNMPv3 interface through the internet Web interface through the internet Local management interface through the internet, serial connection, and Bluetooth Master Unit is a remote management system that provides SNMP v3 and Web interface, and maintains all functions of optical DAS system including configurations, monitoring, and real time alarm reporting. LMT (Local Management Terminal) is local management interface through IP network, serial interface, and Bluetooth. The configuration and maintenance for RUs are performed by accessing MHU system through any interfaces provided by MHU. Figure below describes a typical DAS management system network and the entities. Intelibs, Inc Proprietary and Confidential Page 27 28 Figure 4-1 DAS management network and entities Intelibs, Inc Proprietary and Confidential Page 28 29 Table 4-1 DAS management entities and their functions Functions Serial interface IP address assignment ID assignment (for Remote Unit) System Password System Registration/Unregister DAS systems site and location information Capture and restore the configuration Parameters settings and retrieval F/W upgrade Alarms Alarm history Current Alarm Creation & Deletion of users Password management SNMPv3 Web o o o o o o o o o o o o o o o LMT o o o o o o o o o On-site Installation System Registration Site/Location setting Remote/Local management Alarms User management LMT RS-232/LAN MHU RU Figure 4-2 MHU/RU network Figure 4-2 is an example of DAS network using LMT to configure DAS system. Following sections describes how to configure and manage RU system using LMT via serial/LAN connection or using Web Interface via Internet. Intelibs, Inc Proprietary and Confidential Page 29 30 4.1 Configuring RU using LMT If one of serial or LAN connection has been established, LMT is ready to start. Launch the Local Management application by clicking the icon Cherry and follows the steps below. Step 1 Launch the application Cherry. Enter the password, click Login. Click Connect icon on the left top corner of window or click [File]-[connect] menu. Step 2 Select the connection parameters as follows:
- Repeater Types: VzW LTE Outdoor System
- Connected Device: MHU [Dual Band / LTE]
- Connections o Serial Port: The port number established via serial interface or o UDP: IP address for the Ethernet interface Click Select Done button. Intelibs, Inc Proprietary and Confidential Page 30 31 Step 3 If Repeater Browser window appears, click MHU-LTE system. Step 4 Click any place inside of Install panel area. Step 5 At Install / Uninstall RU [MHU-LTE] window, click the RU systems that has been installed according to MHUs port number that is connected via optic cable. Then click Set button. Intelibs, Inc Proprietary and Confidential Page 31 32 Step 6 If RU is installed properly, the RU system can be found under the MHU system in Repeater Browser window. At Repeater Browser window, click the DAS system to be managed, then the selected DAS systems control window will pop up. If connection is established successfully, then all parameters of RU system can be read/set by LMT terminal, and all status information can be reported to LMT. RUs status and parameters controllable by LMT are described in Table 4-2, 4-3, 4-4, and 4-5. Intelibs, Inc Proprietary and Confidential Page 32 33 Table 4-2 General/Environment/Optic Status group Parameters Version DAS Type Name Time/UpTime User Connect PSU TMPCUR TMPUPR LDPWR LDLWR PDPWR PDLWR Table 4-3 Tx-MAIN/MIMO Settable LED Description Firmware Version of the DAS system The type of the DAS system Sets following information of the DAS
- Name
- Model Number
- Serial Number Current time or Up-time Connection status with the DAS Status of Power Supply Unit Current chassis temperature of the DAS system Sets temperature upper limit, and display its value and alarm status. Current output power of LD (Laser Diode) of optic module connected to RU. Sets the lower limit of output power of LD, and display its value and alarm status. Current input power of PD (Photo Detector) of optic module connected to RU. Sets the lower limit of input power of PD, and display its value and alarm status. Status group Parameters MAIN Path MIMO Path PLL CFR ON CFR Ver. ATT LED Clickable USR ATT ALC ATT IN PWR Center TC ATT HPA On/Off OUT PWR OUT UPR Intelibs, Inc Proprietary and Confidential Description Selects MAIN channel Selects MIMO channel PLLs Alarm status ON/OFF status and control of CFR (Crest Factor Reduction) function Version of CFR function currently working Sets ATT value to control downlink Gain. ATT = USR ATT + ALC ATT Used for downlink Auto Gain Control and fine tuning of gain. Downlink ALC (Automatic Level Control) attenuation value. Available when ALC function is activated. Downlink input power from MHU Sets a center frequency of downlink AWS band. Displays downlink temperature compensation attenuation value, and enable/disable downlink temperature compensation. Enable/disable downlink HPA (High Power Amp). Downlink output power Sets upper limit of downlink output power, and displays its value and alarm status Page 33 34 OUT LWR ALC ASD Sets lower limit of downlink output power, and displays its value and alarm status Sets ALC (Automatic Level Control) functions activation level, and enable/disable ALC. Sets ASD (Automatic Shut Down) functions activation level, and enable/disable ASD. Table 4-4 Rx-MAIN/MIMO Status group Parameters LED Clickable Protection On/Off Pilot On/Off IN PWR IN UPR ATT OUT PWR Center RX AGC AGC ATT AGC Period Table 4-5 HPA-MAIN/MIMO On/Off OVTMP OVPWR VSWR OUT PWR OUT UPR OUT LWR ALC ASD Intelibs, Inc Proprietary and Confidential Description Enable/disable uplink Protection function. In order to protect RU system from unexpected uplink high input power. If uplink input signal is higher than IN UPR level, RU system is shut downed and the LED color turns to red color. Enable CW signal. It is used for uplink gain setting. Uplink input power Sets upper limit of uplink input power, and displays its value and alarm status Sets uplink attenuation, and displays its value. Uplink output power Indicates a frequency of pilot signal, and this value is changed automatically as downlink center frequency changed. Enable uplink path AGC (Automatic Gain Control) function, and sets its level. Attenuation value of uplink path AGC function Time period of uplink path AGC function Enable downlink HPA (High Power Amplifier) function, and indicates its status. Indicates current alarm status of HPAs over-
temperature. Indicates current alarm status of HPAs over-
Power. Indicates current alarm status of HPAs VSWR
(Voltage Standing Wave Ratio). Indicates HPAs output power level. Indicates current alarm status of HPAs output power upper limit, and sets upper limit value. Indicates current alarm status of HPAs output power lower limit, and sets lower limit value. Indicates ALC (Automatic Level Control) functions current on/Off status, and sets ALC activation level. Indicates ASD (Automatic Shut Down) functions current on/Off status, and sets ASD activation level. Page 34 35 4.2 Example: Setting the Temperature Upper Limit Following is one example of LMT operation which sets the upper limit of RU chassis temperature. Step 1 At Repeater Browser window, click the DAS system to be managed, then the selected DAS systems control window will pop up. Click the temperature upper limit box which is on the right side of TMPUPR. A number in the box represents current upper limit of chassis temperature. Step 2 Select TMPUPR value by clicking up/down button or enter temperature upper limit. Then click Set button. The result of operation displays at the bottom of the window. Intelibs, Inc Proprietary and Confidential Page 35 36 Click close button on the upper right corner of the window to exit the command window. The small color box on the left side of TMPUPR represents current status of upper limit of RU chassis temperature. If the box is GREEN, operating status is in normal condition. If the box is RED, TMPUPR alarm occurred and remains. 4.3 Web interface Master Unit provides comprehensive management of the Intelibs optical DAS systems via Web GUI. Master Unit provides following functions for Web clients:
Hierarchical view of the DAS systems Alarms histories Current Alarms SNMP agent settings Site and location information settings Web user settings Capture and restore the configuration of the DAS systems Parameter settings of the DAS systems The web GUI is divided into two parts, a menu panel and a Parameter view panel. The menu panel is on the left side of main window, and the other side is the parameter view panel as shown in Figure 4-3. Menu Panel Parameter view Panel Figure 4-3 Web GUI Intelibs, Inc Proprietary and Confidential Page 36 37 The menu panel contains following menu functions:
Home: Introductions of Intelibs, Inc, and brief introduction of GUI usage. DAS systems: Hierarchical view of registered DAS systems. Alarm history: Alarm log of all registered DAS systems. Alarms: Current alarms of all registered DAS systems. User settings: Add/delete web user and change users password About us: Redirect to Intelibs web page. SNMP settings: SNMP environment settings such as trap IP, community, V3 user, etc. Site settings: Assign site and location information to each registered Das systems. Log Off: Logging off current users session. Support: Intelibs support information. Before using web interface, followings should be assigned and set correctly:
Master Units IP address MHU systems IP address Master Units IP address on MHU system Figure 4-4 shows web interface flow over IP network. Figure 4-4 Web interface flow If IP network connection is established successfully, then parameters of RU can be set by Web browser, and all status information can be reported to Web browser. Following is one example of Web operation which sets the upper limit of RU chassis temperature. Intelibs, Inc Proprietary and Confidential Page 37 38 Step 1 Open Web browser such as Internet Explorer or Chrome. Enter Master Units IP address that is assigned for Web interface. Usually the IP address is global IP or private IP if web client is on the same network where Master Unit is. Step 2 Enter Login ID and Password. (Please contact Intelibs for login ID and password) The web interface provides two level user access, privileged or not. Privileged users can retrieve and change the advanced parameters that control the DAS system. For example, TMPUPR parameter is an advanced parameter that requires privileged user login. If ID/PWD matches, Web interface goes to Home page. Intelibs, Inc Proprietary and Confidential Page 38 39 Step 3 Click DAS systems menu box to see the Hierarchy view of DAS systems. Clicking this menu box expands hierarchical tree view of the registered DAS systems Intelibs, Inc Proprietary and Confidential Page 39 40 Step 4 Select a DAS system to control and monitor at the hierarchy view. Step 5 Select Advanced Mode check box to display advanced parameters, for example Chassis High Temperature Alarm Threshold in the parameter view panel. Intelibs, Inc Proprietary and Confidential Page 40 41 Step 6 Enter numbers for Chassis High Temperature Alarm Threshold. Then click Set button. Step 7 If confirmation window pops up, click OK button to confirm changing the parameter value. Then result window will pop up. The column Chassis High Temperature Alarm represents upper limit of RU chassis temperature. If the value box is GREEN, operating status is in normal condition. If the box is ORANGE, this indicates TMPUPR alarm is turned on. Intelibs, Inc Proprietary and Confidential Page 41 42 5 Appendix I. Ancillary Devices Antenna, Cable and other Passive Device Intelibs does not provide the ancillary device, however the following or equivalent devices are recommended:
Recommended Antenna:
o Commscope Electrical Specifications Frequency Band, MHz Gain, dBi Beamwidth, Horizontal, degrees VSWR | Return Loss, dB Input Power per Port, maximum, watts Polarization Impedance Coaxial Cable:
698800 800960 17102700 1.8 | 10.9 1.5 | 14.0 1.5 | 14.0 1.5 360 50 Vertical 50 ohm 1.5 360 50 Vertical 50 ohm 5.0 360 50 Vertical 50 ohm o RG142 or equivalent coaxial cables Fiber Cable:
o SC/APC optical cable Intelibs, Inc Proprietary and Confidential Page 42 43 Limited Warranty Intelibs, Inc (Intelibs) offers a standard two year warranty from defects in material and installation. INTELIBS may at any time exclude from this Agreement any Hardware or Software which (1) has been modified, repaired or serviced by anyone other than Intelibs service staff without the prior written approval of Intelibs, (2) has been subjected to unusual physical or electrical stress, whether such stress results from accident, neglect, misuse, lightning, failure of electrical power, air conditioning, humidity control, transportation, the making of specification or configuration changes requested by Customer, or any other cause other than ordinary use, and whether or not such stress is the fault of the Customer, (3) has been purchased from another Vendor and is networked, linked, attached or otherwise intended to work with the System or (4) has been moved from the place of installation. When the system has been improperly modified, repaired, stressed, used or moved as described above, Intelibs may, at its option and subject to the approval of the Customer, perform such corrective work, including any repairs, replacements and adjustments, as are in Vendors opinion necessary to restore the System to the condition it would have been in if subjected only to normal wear and tear at the Customers expense. Intelibs, Inc Proprietary and Confidential Page 43 44 Index AC Power specifications ................................... 16 Advanced Mode ............................................... 40 AGC .................................................................. 34 Alarm history .................................................... 37 Bluetooth ......................................................... 27 DAS management network .............................. 28 DAS Type .......................................................... 33 Duplex .............................................................. 23 Hierarchical view ........................................ 36, 37 IN ATT ......................................................... 33, 34 IN LWR .............................................................. 34 IN PWR ....................................................... 33, 34 IN UPR ........................................................ 33, 34 LDLWR .............................................................. 33 LDPWR.............................................................. 33 Link Antenna connection ................................. 22 LMT ...................................................... 27, 29, 32 Local management interface ........................... 27 MU ..................................................................... 6 Optic cable connection .................................... 24 OSP ................................................................... 23 OUT PWR ......................................................... 34 PDLWR ............................................................. 33 PDPWR ............................................................. 33 Power cable connection .................................. 23 PSU ................................................................... 33 Rated Input Voltage ......................................... 16 RHU .................................................................... 6 RHU Modules ................................................... 11 RU ...................................................................... 6 SC/APC ............................................................. 23 Site settings...................................................... 37 SNMP settings .................................................. 37 SNMPv3 ..................................................... 27, 29 TMPCUR ........................................................... 33 TMPUPR ............................................... 33, 35, 38 User settings .................................................... 37 Version ............................................................. 33 Web interface .................................................. 27 Web interface flow .......................................... 37 Intelibs, Inc Proprietary and Confidential Page 44 45 Contact: supports@intelibs.com Address: Intelibs, Inc. 1500 Stony Brook road, Stony Brook, NY 11794 Web: http://www.intelibs.com Intelibs, Inc Proprietary and Confidential Page 45
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2014-01-17 | 2110 ~ 2155 | B2I - Part 20 Industrial Booster (CMRS) | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2014-01-17
|
||||
1 | Applicant's complete, legal business name |
Intelibs, Inc.
|
||||
1 | FCC Registration Number (FRN) |
0018720698
|
||||
1 | Physical Address |
1500 Stony Brook Road, Suite 320
|
||||
1 |
Stony Brook, New York 11794
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
b******@baclcorp.com
|
||||
1 | TCB Scope |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
Z69
|
||||
1 | Equipment Product Code |
D01T4X3
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
S****** P******
|
||||
1 | Title |
Mr.
|
||||
1 | Telephone Number |
877-2********
|
||||
1 | Fax Number |
973-3********
|
||||
1 |
s******@intelibs.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
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?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 06/28/2014 | ||||
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 | B2I - Part 20 Industrial Booster (CMRS) | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | DAS Remote Unit-ASW Band | ||||
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 listed is at the antenna terminal (Downlink) of an individual port. This transmitter operates as a remote unit as a part of the Hybrid Distributed Antenna System (HDAS) as described in this filing. 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. This device must be professionally installed. Users and installers must be provided with appropriate antenna installation instructions and transmitter operating conditions. | ||||
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 |
Bay Area Compliance Laboratories Corporation
|
||||
1 | Name |
L**** T******
|
||||
1 | Telephone Number |
408-7******** Extension:
|
||||
1 | Fax Number |
408 7********
|
||||
1 |
l******@baclcorp.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 27 | 2110 | 2155 | 10 | Amp | F9W | ||||||||||||||||||||||||||||||||||
1 | 2 | 27 | 2110 | 2155 | 10 | Amp | G7D |
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